UNITED STATES ARMY IN WORLD WAR II 
The Technical Services 
THE (CHEMICAL WARFARE 
SERVICE: 
CHEMICALS IN COMBAT 
by 
Brooks E. Kleber 
and 
Dale Birdsell 
MILITARY INSTRUCTION 
OFFICE OF THE CHIEF OF MILITARY HISTORY 
UNITED STATES ARMY 
WASHINGTON, D.C., 1966 This volume, one of the series UNITED STATES ARMY IN WORLD WAR II, is 
the third to be published in the group of three Chemical Corps volumes in the sub- 
series THE TECHNICAL SERVICES. The volumes in the over-all series will be 
closely related and will present a comprehensive account of the activities of the 
Military Establishment during World War II. A list of subseries is appended at the end 
of this volume. 
Library of Congress Catalog Card Number: 66-60001 
Reprinted 1970 
For sale by the Superintendent of Documents, U.S. Government Printing Office 
Washington, D.C. 20402 - Price $7.50 UNITED STATES ARMY IN WORLD WAR II 
Stetson Conn, General Editor 
Advisory Committee 
(As of 15 March 1965) 
Fred C. Cole 
Washington and Lee University 
James A. Field, Jr. 
Swarthmore College 
Ernest R. May 
Harvard University 
Earl Pomeroy 
University of Oregon 
Charles P. Roland 
Tulane University 
Lt. Gen. August Schomburg 
Industrial College of the Armed Forces 
Maj. Gen. David W. Gray 
U.S. Continental Army Command 
Brig. Gen. Ward S. Ryan 
U.S. Army War College 
Brig. Gen. Elias C. Townsend 
U.S. Army Command and 
General Staff College 
Lt. Col. Thomas E. Griess 
United States Military Academy 
Theodore Ropp 
Duke University 
Office of the Chief of Military History 
Brig. Gen. Hal C. Pattison, Chief of Military History 
Chief Historian Stetson Conn 
Chief, Histories Division Col. Albert W. Jones 
Chief, Editorial and Graphics Division Col. Joseph S. Coulter 
Editor in Chief Joseph R. Friedman 
iii History of 
THE CHEMICAL WARFARE SERVICE 
Organizing for War 
From Laboratory to Field 
Chemicals in Combat 
XV . . . to Those Who Served Foreword 
This is the third and final volume of the Chemical Warfare Service 
subseries of The Technical Services in the series UNITED STATES 
ARMY IN WORLD WAR II. Concluding the chemical warfare story 
that was begun in Organizing for War and was continued in From 
Laboratory to Field, Chemicals in Combat records in meaningful de- 
tail the ultimate and most rigorous test of all things military: perform- 
ance in battle. 
Entry of the United States into World War II found the nation’s 
Armed Forces, like those of its principal allies and enemies, mindful 
of the possibility of gas warfare. The gas attacks of World War I 
did not recur, but the Chemical Warfare Service was in the position of 
being ready for a type of war that did not happen. Thus the CWS, the 
only technical service having combat troops armed with weapons it 
had specifically provided for itself, was forced to show its flexibility. 
The Service sought to fulfill its supporting role with smoke, flame, and 
incendiaries; with 4.2-inch mortars and flame throwers; and, having no 
gas to contend with, its decontamination companies provided front-line 
troops with the means for simple physical cleanliness. Chemicals in 
Combat recounts the administrative, logistical, and tactical problems 
arising from the Service’s dual responsibility, and highlights the flexi- 
bility and ingenuity demanded of chemical troops in World War II. 
These are, of course, qualities that military men have and will always 
find essential. 
Washington, D.C. 
15 March 1965 
HAL C. PATTISON 
Brigadier General, USA 
Chief of Military History 
vii The Authors 
Dr. Brooks E. Kleber received a Ph.B. degree from Dickinson College 
and M.A. and Ph.D. degrees in history from the University of Penn- 
sylvania. From 1950 to 1963 he served as historian with the U.S. Army 
Chemical Corps Historical Office. In January 1963 Dr. Kleber was 
appointed Chief Historian, United States Continental Army Command. 
Dr. Dale Birdsell holds an A.B. degree from Reed College, an M.A. 
from Brown University, and a Ph.D. from the University of Pennsyl- 
vania. He served as historian with the U.S. Army Chemical Corps 
Historical Office from 1952 to 1963 and is now Chief, Historical 
Division, U.S. Army Munitions Command. 
viii Preface 
Chemicals in Combat is the last of three volumes concerned with the 
activities of the Chemical Warfare Service in World War II. It is de- 
voted to the overseas story—administration, logistics, and combat. In 
World War II the CWS faced a unique situation, in that it found itself 
in the unenviable position of preparing for an unconventional kind of 
warfare that never came to pass. Yet, even as it served as insurance in 
the event of the introduction of gas by the enemy (United States policy 
permitted the use of gas only in retaliation), it also had to be useful in a 
gasless war. 
The CWS was useful in World War II. Its contributions included the 
missions of smoke, flame, and incendiary weapons, which, less heralded 
at first, eventually eclipsed the gas mission. How the CWS carried out 
these various missions in the theaters of operation is the main theme of 
this volume. 
"Chemical Warfare” is a term meant to include the employment of 
artificial smoke, flame, and incendiary munitions as well as gas offensive 
and defensive munitions. While the practice at the time of this writing 
is to refer to the "employment of chemical weapons” rather than to 
"chemical warfare,” the latter term is appropriate to a World War II 
setting, and the term "chemicals” retains its inclusive World War II 
meaning. 
In planning a volume devoted to the overseas activities of the CWS, 
the authors found the logic of either of two alternative organizational 
methods was appealing: (1) trace each CWS activity, such as prepared- 
ness, administration, and logistics, and each of the combat functions, 
from war area to war area in a unified account by subject; or (2) treat 
all CWS activities for each overseas area in a unified account under an 
area heading. The first alternative tended to obscure the administrative 
and logistic individuality of the CWS overseas branches. It also tended 
to minimize the impact of area physical characteristics, of area organi- 
zational policy, and of area tactics. Even two theaters so intimately con- 
IX nected and in many ways so parallel as the European and North African 
were decidedly different entities from the CWS point of view. The 
theater chief chemical officers operated from different echelons of com- 
mand, and these individuals did not hold the same conception of 
operating control. The possibility of gas warfare was great in Europe 
but usually remote in North Africa. The CWS supply system was 
highly centralized in Europe; it was in part decentralized in the Medi- 
terranean area. But neither did the second alternative solve all the 
problems. The development of mortar and smoke tactics and tech- 
niques in the Mediterranean area was much more closely related to the 
employment of those tactics and techniques in the European theater 
situation than it was to the evolution of the Mediterranean theater 
supply systems. Further, in the Pacific the development of flame 
weapons and tactics would not observe area boundaries, and Pacific 
incendiary bomb experience was only a grand enlargement of European 
experience. 
The authors fully realize that the war was carried on in more than 
the four major areas usually considered herein. They have no desire to 
detract from the considerable contributions of the CWS branches in the 
other major areas and in those outposts which could not be designated 
major. But the authors believe that most CWS problems can be illus- 
trated from activities in the European and North African/Mediterran- 
ean theaters and the Southwest and Central Pacific Areas with some 
reference to the South Pacific Area. The China, Burma-India, North 
Pacific, and Middle East areas are thus excluded. 
The CWS in the United States is treated in two complementary 
volumes which have preceded the publication of Chemicals in Combat. 
The first of these, Organizing for War, traces matters of organization, 
administration, and training from World War I CWS origins through 
the end of World War II. The second, From Laboratory to Field, deals 
with CWS research, development, and supply. 
The present volume was begun by and under the direction of the 
late Dr. Paul W. Pritchard, then Chief, U.S. Army Chemical Corps 
Historical Office, While Dr. Pritchard’s work appears only in portions 
of the chapters on smoke, the authors greatly benefited from his guid- 
ance and advice and from his unflagging interest in overseas military 
operations. He was one of those historians who could become personally 
involved in and enthusiastic about his subject without impairment of 
objectivity. Dr. Pritchard’s successor, Dr. Leo P. Brophy, continued to 
X provide valuable guidance and advice. Dr. Brooks E. Kleber wrote 
Chapters VIII through XVII. Dr. Dale Birdsell wrote Chapters II 
through VI. These authors collaborated on Chapters I and XVIII. 
Mr. Sherman L. Davis wrote Chapter VII. Dr. Kleber co-ordinated 
the work on the volume. 
The authors are greatly indebted to Dr. Stetson Conn, Chief His- 
torian, and to Dr. John Miller, jr., Deputy Chief Historian, Office, 
Chief of Military History, Department of the Army, for guidance and 
suggestions. Many members and former members of the staff of the 
U.S. Army Chemical Corps Historical Office also contributed knowl- 
edge, preliminary research, or early drafts of portions of this volume. 
Individuals who were especially helpful and their areas of interest are: 
Mr. H. Gilman Wing, flame throwers and administration; Lt. Col. 
Leonard J. McKinney, flame throwers; Dr. Ben R. Baldwin, mortars 
and readiness; Dr. Alfred J. Bingham, mortars, readiness, administra- 
tion; and Mr. Innis Brown, chemical troop units. The following U.S. 
Army Chemical Corps Historical Office enlisted research assistants were 
especially helpful: Thomas J. Morgan, Nelson Ledsky, Richard Breault, 
William Piez, Harvey Fergusson, John J. Keeley, Victor H. Walton, 
and Arthur Macqueen. Mrs. Alice E. Moss supervised the preparation 
of the manuscript, did yeoman service in checking source locations, and 
diligently performed preliminary editorial tasks. Mrs. Doris M. Jacob- 
son displayed extraordinary skill in preparing the final typescripts. 
Research for this volume was greatly facilitated by personnel of the 
World War II Records Division, National Archives, especially Mrs. 
Lois Aldridge, Mrs. Hazel Ward, and Mrs. Caroline Moore. Mr. 
Howard Baute, Mrs. Mary K. Stuart, and Mrs. M. Virginia Nester of 
the Federal Records Center in Alexandria were most helpful in locating 
CWS records, and personnel of the Federal Records Center, Kansas 
City, the Archives Division, The Air University, and the Marine Corps 
Archives provided many collections of overseas records. Mr. Israel Wice 
and Miss Hannah Zeidlik of the Office, Chief of Military History, 
steered the authors to many records sources they might otherwise have 
overlooked. Miss Ethel M. Owens, Office of the Chief Chemical Officer, 
provided valuable information on the careers of CWS officers. 
The veterans of the Chemical Warfare Service have been remarkably 
frank in supplying materials which do not appear in the official rec- 
ords, and many have given unstintingly of their time. The authors are 
grateful to all these officers whose interviews or comments have been 
cited as well as to others who provided more general background in- 
XI formation. They are especially grateful to Maj. Gen. Alden H. Waitt, 
Brig. Gen. Hugh W. Rowan, and Col. Maurice H. Barker, all of whom 
followed the project throughout the entire span and contributed much 
to the authors’ understanding of the World War II experience of the 
CWS. The following officers were always ready with good counsel: 
Cols. William A. Copthorne, Alexander Batlin, Frank M. Arthur, and 
Nelson McKaig, Jr., Lt. Col. Levin B. Cottingham, Maj. Gen. William 
N. Porter, Cols. Siegfried P. Coblentz, James H. Batte, and Robert W. 
Breaks, Brig. Gen. Charles S. Shadle, Cols. Alfred J. P. Wilson, Alex- 
ander Leggin, John C. MacArthur, Thomas H. Magness, Jr., Claude J. 
Merrill, Carl V. Burke, Irving R. Mollen, John C. Morgan, Harold 
Riegelman, and Patrick F. Powers. 
Thanks are also due to several other members of the Office of the 
Chief of Military History: Mr, David Jaffe, editor, Mrs. Marion P. 
Grimes, assistant editor; Miss Ruth A. Phillips, who selected the 
photographs; and Mr. Elliot Dunay, who prepared the maps. 
For errors in the facts presented and in the conclusions drawn, the 
authors assume sole responsibility. 
Washington, D.C. 
15 March 1965 
BROOKS E. KLEBER 
DALE BIRDSELL Contents 
Chapter Page 
I. ORIGINS OF THE CHEMICAL WARFARE SERVICE 3 
World War I 5 
The CWS Between the Wars 24 
II. THE CWS IN THE EUROPEAN THEATER 36 
Planning and Organization: 1940-43 36 
Planning and Organization: 1944-45 61 
Summary 84 
III. CWS ADMINISTRATION AND SUPPLY: MEDITERRANEAN . 86 
Chemical Supply—The Beachhead Phase 94 
Chemical Supply—Theater Organization Phase 99 
Theater Chemical Supply Problems 125 
IV. THEATER SUPPLY: EUROPE 136 
Evolving the Theater CWS Supply System 136 
Air Chemical Supply 149 
Ground Chemical Supply 163 
On the Continent 173 
v. cws Administration: pacific isz 
The CWS in the West and Southwest Pacific, 1941-42 .... 187 
The Principal Mission—1943 200 
CWS, Southwest Pacific Area, 1944—45 208 
Organizing the CWS, Hawaiian Department 219 
The Offensive Period in the Central Pacific 225 
VI. THEATER SUPPLY: PACIFIC 236 
Foundation of Chemical Stipply in Australia 236 
The Tyranny of Climate and Distance 246 
Chemical Warfare Tactical Supply, Southwest Pacific Area . . . 254 
The Theater Supply System, Central Pacific 266 
Chemical Warfare Tactical Supply, Central Pacific 270 
VII. CHEMICAL WARFARE SERVICE UNITS 277 
The Chemical Laboratory Company 280 
xiii Chapter P*g' 
The Chemical Maintenance Company 288 
The Chemical Depot Company 295 
The Chemical Decontamination Company 300 
The Chemical Processing Company 304 
The Chemical Service Company 308 
Chemical Air Service Companies 317 
VIII. LARGE AREA SMOKE SCREENS IN THE MTO 321 
Background of Large Area Screening 321 
Initial Operations: The Northwest African Ports 326 
Perfecting the Technique; The Italian Ports 329 
The Changing Mission: Smoke in Amphibious and Beachhead 
Operations 334 
Smoke in Normal Forward Area Operations 345 
IX. LARGE AREA SMOKE SCREENS IN THE ETO 354 
The Invasion of Normandy 354 
The Generators, Units, and Missions 359 
The Use of Smoke at River Crossings 361 
Summary 392 
X. LARGE AREA SMOKE SCREENS IN THE PACIFIC 394 
Early Attempts To Introduce Area Screening in SWPA .... 394 
A Question of Mission 397 
Renewed Interest in Smoke 399 
The Navy’s Use of Smoke 404 
Screens for Airborne Operations 411 
XL THE 4.2-INCH MORTAR IN THE MTO 418 
The Authorization of the High Explosive Mission 419 
Activation of Chemical Mortar Units 421 
Sicily 424 
The Salerno Landings 432 
From the Volturno to the 'Winter Line 435 
The Gustav Line 442 
The Anzio Beachhead 445 
Cassino 448 
The Drive on Rome 450 
The Invasion of Southern France 453 
The Fighting Ends in Italy 455 
XII. THE CHEMICAL MORTAR IN THE ETO 459 
Preparations for OVERLORD 461 
The Normandy Campaign 462 
xiv Chapter Page 
Operational Problems 468 
The Drive Toward Germany 471 
Mortar Parts and Their Maintenance 477 
The German Winter Offensive 480 
Mortar Shell Malfunctions 482 
The Pinal Drive 484 
XIII. THE CHEMICAL MORTAR IN THE PACIFIC 492 
South Pacific Area 492 
Southwest Pacific Area 497 
Central Pacific Area 516 
Amphibious Employment of the 4.2-Inch Chemical Mortar . . . 520 
XIV. THE FLAME THROWER IN THE PACIFIC: 
GUADALCANAL TO THE MARSHALL ISLANDS ... 534 
The Portable Flame Thrower in the South Pacific 536 
The Southwest Pacific: The First Years 543 
Introduction of the Portable Flame Thrower in the Central 
Pacific Area 553 
XV. THE FLAME THROWER IN THE PACIFIC: 
MARIANAS TO OKINAWA 558 
The Need for a Mechanized Flame Thrower 558 
The Marianas 559 
Peleliu 564 
The Philippines 568 
Iwo Jima 578 
Okinawa 584 
Preparations for the Invasion of Japan 589 
XVI. THE FLAME THROWER IN THE WAR AGAINST GERMANY 592 
The Portable Flame Thrower in the MTO 592 
The Portable Flame Thrower in the ETO 596 
The Mechanized Flame Thrower 604 
XVII. FIRE FROM THE AIR 614 
The Incendiary Bomb: The Strategic Weapon 614 
The Fire Bomb: The Tactical Weapon 630 
XVIII. CWS OVERSEAS—AN EVALUATION 636 
Administration and Manpower 637 
Logistics 640 
The Weapons 644 
Readiness for Gas Warfare 648 
Why Gas Was Not Used 652 
XV Charts 
Page 
1. Organization of Chemical Warfare Service, American Expeditionary Forces, 
13 July 1918 20 
2. Suggested Organization of Offices of Chemical Officers, Theater of 
Operations 29 
3. Planned Distribution of Staff and Service Agencies, Chemical Warfare 
Service, Theater of Operations 39 
4. Organization of Chemical Warfare Service Section, Headquarters, European 
Theater of Operations, U.S. Army, January 1944 63 
5. Actual Distribution of Service Agencies and Combat Units, Chemical 
Warfare Service, European Theater of Operations, 1944-1945 ... 66 
6. Organization of Chemical Warfare Section, Allied Force Headquarters, and 
Headquarters, North African Theater of Operations, U.S. Army, 
November 1943 117 
7. Organization of Chemical Section, Headquarters, United States Army 
Services of Supply, Southwest Pacific Area, 1 June 1944 209 
8. Organization of Chemical Office, Headquarters, U.S. Army Forces, Pacific 
Ocean Areas, 1 April 1945 226 
BIBLIOGRAPHICAL NOTE 659 
LIST OF ABBREVIATIONS 664 
CODE NAMES 669 
INDEX 675 
Maps 
No. 
1. Theaters of Operations, 1943 31 
2. Pacific Ocean Areas, 1 August 1942 192 
3. Smoke at Naples, December 1943 330 
4. Smoke at Anzio, 18 March 1944 338 
5. Smoke Along the Garigliano, April 1944 349 
6. Smoke Generator Operations, 10-15 September 1944 364 
7. Nadzab Smoke Curtains, 5 September 1943 413 
Illustrations 
Maj. Gen. William N. Porter 27 
General Porter and Top-Ranking Officers in London, 1943 49 
Col. Maurice E. Barker 91 
xvi Page 
Col. Charles S. Shadle and Staff in Algiers, 1943 120 
Decontamination Unit Functioning as a Shower 151 
Chemical Warfare Depot, Loton Deer Park, England 148 
Conferring Somewhere in England Before D-day 170 
"I see Comp’ny E got th’ new style gas masks, Joe” 176 
Annex Building, Chemical Warfare School, Brisbane 195 
Col. Harold Riegelman 197 
Col. Carl L. Marriott Examining Japanese Gas Mask 203 
Col. William A. Copthorne and Brig. Gen. Alden H. Waitt 216 
Chemical Warfare Officers at Oro Bay, 1944 217 
Col. George F. Unmacht 223 
Repairing Gas Masks for Civilian Use 233 
Capua Arsenal, as the Germans Left It 291 
Plant of 105th Chemical Processing Company, Brisbane 306 
Testing Flame Thrower Fuels, New Guinea 310 
A Chemical Service Company Laboratory, New Guinea 312 
Loading Liquid Smoke Into an M10 Smoke Tank 318 
Smoke Screen Shields Unloading Operations, Salerno 333 
"My God! There we wuz an’ here they wuz” 341 
Effect of Smoke Curtain, Italy 347 
Carrying Smoke Pots Into Position, Rapido River 348 
Smoke Screen Conceals Movements Along Highway 352 
M2 Smoke Generator 358 
Smoke Screen Begins To Form on the Moselle River 365 
Smoke Generator in a Dukw, Milne Bay 396 
Smoke Shields a Paratroop Drop, New Guinea 415 
4.2- Mortar Crew, Italy 423 
Pulling a 4.2-Inch Mortar Cart Over Rugged Terrain 427 
Smoke Screen, Omaha Beach 463 
Chemical Mortars, Utah Beach 464 
Preparing a 4.2-Inch Mortar Shell for Firing 480 
Roer River Bridge Behind a Smoke Screen 48 8 
Artificial Haze on Rhine River 490 
4.2- Chemical Mortars on LST 522 
Marines Using CWS Flame Thrower, Tarawa 554 
Flame Thrower on an Amphibious Tractor 565 
Neutralizing a Cave, Iwo Jima 580 
Flame-Throwing Tank, Okinawa 585 
Men Training With Flame Thrower 600 
British Crocodile With Fuel Trailer 607 
Loading Magnesium Bombs Into a B-24 623 
Tokyo, After Incendiary Bombing 629 
Attaching Fire Bomb Tank to a P-47 631 
All illustrations are from the files of the Department of Defense except for the car- 
toons by Bill Mauldin on page 176 and page 341 and the photograph supplied by Col. 
Thomas H. Magness, Jr., on page 607. 
xvii 
289-149 0-68—2 THE CHEMICAL WARFARE SERVICE: 
CHEMICALS IN COMBAT CHAPTER I 
Origins of the Chemical 
Warfare Service 
The great paradox of America’s wartime gas experience is that in 
World War I, when the nation was unprepared for it, gas was used, and 
in World War II, when the nation was prepared, gas was not used. The 
gas warfare experience of World War I is important not only as the 
sole example of large-scale use of toxic chemicals in battle, but also 
because this experience in large measure dictated the chemical mission, 
organization, weapons, tactics, and techniques with which the belliger- 
ents entered World War II. The Allies and the Central Powers used no 
fewer than twenty-eight gases and sixteen mixtures of gases during 
World War I. Although the United States retained or developed nearly 
a dozen gases, only four, mustard, phosgene, lewisite, and chloraceto- 
phenone, in order of importance, were considered as basic at the 
beginning of World War II. The first two were accorded this priority 
as the result of actual World War I combat experience; lewisite 
owed its prominence to its likeness to mustard, while chloracetophenone 
was similar to, although less expensive and less corrosive than, the 
World War I tear gases.1 The ground weapons available for gas at the 
beginning of World War II had for the most part likewise been devel- 
oped and battle-tested in World War I. These included artillery with 
toxic shell, the Livens projector, chemical cylinders, and toxic candles. 
The Chemical Warfare Service (CWS) in the United States had modi- 
1 (i) Brig. Gen. Amos A. Fries and Maj. Clarence J. West, Chemical Warfare (New York: McGraw- 
Hill, 1921), pp. 24-27. (2) WD TM 3-215, 1 Oct 40. (3) Leo P. Brophy, Wyndham D. Miles, and 
Rexmond C. Cochrane, The Chemical Warfare Service: From Laboratory to Field, UNITED STATES 
ARMY IN WORLD WAR II (Washington, 1959), pp. 49-74. 4 
THE CHEMICAL WARFARE SERVICE 
fied the 4-inch Stokes mortar into the longer range, more accurate 
4.2-inch chemical mortar, again on the basis of World War I experi- 
ence.2 The aerial chemical bomb was a development of the period be- 
tween the wars, but even this new weapon did not significantly alter 
gas warfare tactics. The concept of the massive gas attack adopted by 
most of the major World War I combatants dominated tactical doc- 
trine in the period following the war. Retained too was the practice of 
using mustard in defensive operations. In offensive chemical operations 
nonpersistent agents were to be used in terrain over which friendly 
troops would advance, whereas the persistent mustard would be placed 
on areas to be neutralized and bypassed.3 In general, the troops who 
successfully stood up in the face of such gas attacks were those who had 
training and gas mask discipline. 
Two comments about the American use of gas in World War I are 
in order. First, troops in the American Expeditionary Forces (AEF) 
used a disproportionately large amount of Allied materiel. In time, the 
United States did send bulk toxics to Europe where they were poured 
into British and French shells. And although four million American- 
made masks were eventually shipped to Europe, soldiers of the AEF 
initially used almost a million British and French masks. The second 
point concerns the place of gas warfare in the thinking of American 
battle leaders. These officers had to be won over to the usefulness of gas 
warfare and this task was not always easy. Brig. Gen. Amos A. Fries tells 
of the case of the operations officer of an American corps demanding 
written assurance that gas used in support of an attack in the Argonne 
would not cause a single friendly casualty. Fries also brings out another 
point, supported by contemporary documents, which involves the re- 
luctance of American commanders to use gas because of the possibility 
of retaliatory fire. They held this attitude despite the fact that the 
Germans had made good use of the chemical weapon regardless of 
enemy reaction.4 
2 (i) Brophy, Miles, and Cochrane, From Laboratory to Field, pp. 123-38. (2) The gas cylinder and 
the Livens projector were dropped early in World War II because the range of both and the accuracy of 
the Livens projector suited them only to trench warfare conditions. 
3 (1) Maj. Gen. C. H. Foulkes, "Gas!” The Story of the Special Brigade (Edinburgh and London: W. 
Blackwood & Sons, 1934) (hereafter cited as Foulkes, Gas!) p. 267. (2) Brig. Gen. Alden H. Waitt, 
Gas Warfare (New York; Duell, Sloan and Pearce, 1942), pp. 137-54. 
* Amos A. Fries, MS, History of Chemical Warfare in France, 1919, pp. 52-53. ORIGINS OF THE CHEMICAL WARFARE SERVICE 
5 
The First Gas Attack 
World War 1 
Late in the afternoon of 22 April 1915 three flares glowed from a 
German balloon hoisted in the salient near Ypres, Belgium. At this 
signal plumes of greenish-gray smoke began to pour from the earth in 
front of the German trenches. The plumes suffused into a yellowish 
cloud rolling downwind toward the Allied trenches at the juncture of 
the French and British lines. The first notable gas attack in military 
history was in progress, The chlorine gas cloud enveloped a French 
colonial regiment. Some soldiers emerged from the cloud blinded, 
choking, and coughing, but other soldiers, incapacitated, dying, or 
dead from the effects of the gas were left in the trenches. German gas 
breached the Allied lines for four miles, and German soldiers captured 
fifty French guns.5 
The French did not announce their casualties from this first attack, 
but the Germans estimated them at 15,000, including 5,000 deaths in 
the attack of 22 April and in that of 24 April in the same sector.6 
Although the German estimate may have been high, the casualties were 
nonetheless extensive. These losses, along with the shock and panic re- 
sulting from the surprise introduction of a new weapon, could have 
been a serious blow to the Allies had the Germans followed up their 
initial success. They failed to advance more than a few hundred yards, 
however, and before they could gain ground significantly, the Allies 
had plugged the hole in their line.' The failure of the Germans to exploit 
their initial success and Allied lack of preparation for the introduction 
of gas can best be understood in the light of the strategic concepts and 
views of the military art held by the belligerents before World War I. 
B(i) Foulkes, Gas!, pp. 18-19. (2) Fries and West, Chemical Warfare, pp. 10-13 (eyewitness ac- 
counts cited). (3) Victor Lefebtire, The Riddle of the Rhine (New York: The Chemical Foundation, 
1923), PP- 31—32 (statement of Sir John,French, British Commander-in-Chief in the field, cited). (4) 
Waitt, Gas Warfare, pp. 16-19. (5) Capt. Basil H. Liddell Hart, The Real War, 1914-1918 (Boston: 
Little, Brown and Co., 1931), pp. 130, 175-81. (6) Rudolph Hanslian et al., Der Chemische Krieg (3d 
ed., Berlin: Mittler, 1937), I, 16-17. All references to this work are to the third edition unless otherwise 
noted. 
* (1) Foulkes in Gas!, page 306, cites these figures, which appear in Hanslian et al., Der Chemische 
Krieg (2d ed., 1927), page 12, but believes they are exaggerated. In the 24 April attack 122 soldiers of 
the Canadian forces holding a section of the British line were hospitalized and eleven died. (2) Waitt, 
Gas Warfare, page 18, indicates 5,000 casualties. (3) A French authority, Henri le Wita, Autour de 
la Guerre Chimique (Paris: Tallandier, 1928) page 34, accepts the German estimate without question. 
7 Liddell Hart, The Real War, p. 176. 6 
THE CHEMICAL WARFARE SERVICE 
Background of Gas Warfare 
While the nineteenth century industrial and technological revolu- 
tions produced a new arsenal of weapons that radically altered the 
character of warfare, the new technology produced no toxic war gases. 
Such were envisaged, however, and several suggestions for the use of 
toxic chemicals in war had been made.8 The prospect of the union of 
the science of chemistry with the art of war was sufficiently real by the 
end of the nineteenth century to cause the nations deliberating at The 
Hague during the International Peace Conference to attempt to ban 
the use of "projectiles, the sole object of which is the diffusion of 
asphyxiating or deleterious gases.” 9 
The attempted ban did not run counter to any area of military opin- 
ion. Military leaders, theorists, and innovators were engrossed, and in 
the early years of the twentieth century became even more engrossed, 
in the concepts of mass armies, grand strategic offensives, and the 
undreamed-of firepower of modern weapons.10 The nations of Europe 
entered World War I dominated by the grand strategic conception of 
mass offensive through which one set of belligerents or the other would 
claim victory—probably in as short a time as six weeks.11 No nation 
envisioned the need for large-scale industrial preparation; the initial 
stockpile of weapons and ammunition would serve for the brief dura- 
tion of the war.12 Since gas was expected only to hamper the progress 
of assaulting forces in mass offensive, each nation reviewed its potential 
for producing toxics in but cursory fashion. 
Only Germany, with the world’s largest and most varied chemical 
industry, appeared to have the potential for war gas production. 
Germany set Professor Fritz Haber, director of Berlin’s Kaiser Wilhelm 
Institute, and a small group of chemists to work on war gases in Haber’s 
own institute in the first month of the war.13 At first there must have 
8 See Brophy, Miles, and Cochrane, From Laboratory to Field, pp. 1-2. 
9 Carnegie Endowment for International Peace, Division of International Law, Pamphlet 8, The Hague 
Declaration (IV, 2) of 1899 Concerning Asphyxiating Gases (Washington: The Endowment, 1915). 
10 For pre-World War I military theory, see (1) Theodore Ropp, War in the Modern World (Durham, 
N.C.; Duke University Press, 1959), pp. 143—212; (2) Lynn Montross, War Through The Ages 
(New York: Harper and Brothers, i960), pp. 590-698. 
11 Ropp, War in the Modern World, pp. 177-217. 
32 Liddell Hart, The Real War, pp. 44-45, 127-29. 
13 (1) Lefebure, Riddle of the Rhine, p. 35. (2) Foulkes, Gas!, p. 25. (3) Hanslian et al., Der 
Chemische Krieg, pages 9-10, denies that the Germans were working on war gases prior to October 1914 
and he cites Professor Haber to refute Lefebure. It is noteworthy that the quotation from Haber is given 
in the second edition, pages 6-711., as: "Wahrend der ersten drei Monate des Krieges hat in Deutschland ORIGINS OF THE CHEMICAL WARFARE SERVICE 
7 
seemed little likelihood that any product of Haber’s laboratory would be 
used. The German strategy of mass offensive was overwhelmingly suc- 
cessful until the Allies decisively halted the German advance in the 
famed September 1914 battle of the Marne.14 In October and Novem- 
ber 1914 the first battle of Ypres taught the Germans that they could 
not resume their offensive in the west, at least for the time being. The 
Germans reacted promptly by digging in. Deadlock, static trench 
warfare, soon characterized the Western Front while the Germans pre- 
pared to press the offensive on the Eastern Front and to undertake 
large-scale, long-term economic and industrial war mobilization within 
the homeland. In these preparations Germany began to look for "keys 
to the deadlock.”10 War gas could be such a key. 
A Period of Improvisation 
German forces experimented with an eye and nose irritant powder 
on the Western Front in October but it was so ineffective that little or 
no notice was taken of it. Gas was then used on the Eastern Front, 
possibly as early as December 1914, but certainly in January and 
February 1915.16 British and French disregarded other more definite 
warnings of the impending German employment of gas. In March 
1915 a German officer captured in a raid told a British noncommis- 
sioned officer that gas cylinders were in place, ready to use, on the 
Western Front. On 30 March the French 10th Army bulletin con- 
tained a prisoner of war report that indicated where gas cylinders were 
emplaced, how they were to be used, and what protection German 
troops had against gas. The 10th Army information was confirmed by 
another war prisoner on 1 5 April and again confirmed shortly there- 
niemand an Gas gedacht. Wir Lasen in der "Pall Mall Gazette” von 17 September 1914 zum erstenmal 
von Gasvorbereitungen des Feindes. Erst drei Monate nach Beginn des Kreiges begannen wir mit 
Gasarbeiten.” In the third edition, page ion., the quotation is given: "We had actually first to read in 
the French, Italian and English Press—as for instance in the 'Pall Mall Gazette’ of Sept. 17, 1914—of 
the terribly [sic] things that were in preparation for us before we began to make similar preparations in 
view of the commencement of the war of position.” Foulkes, in Gas!, page 24, points out that the Pall 
Mall Gazette reference was not to gas but to a new French explosive, "Turpinite.” 
u Hanslian et al., Der Chemische Krieg, I, 15. 
15 (1) Ropp, War in the Modern World, pp. 222-25. (2) Liddell Hart, The Real War, pp. 67-70, 
80-102, 115-16, 127-35. The phrase quoted above is Liddell Hart’s. 
16 (1) Foulkes, Gas!, pp. 30, 31. (2) Hanslian, Der Chemische Krieg, I, 12, 15. Foulkes, page 30, 
cites a report that gas was used on the eastern front in December 1914 but indicates that the first con- 
firmed attack was in January 1915. Hanslian, volume I, page 15, indicates that a tear gas was employed 
on the Eastern Front in January 1915. 8 
THE CHEMICAL WARFARE SERVICE 
after by a captured German document and a Belgian General Staff 
report on German offensive and defensive measures. The Belgians fur- 
ther advised their allies that the Germans were manufacturing gas 
respirators in Ghent. Again, British and Canadian air and ground troops 
actually saw and even counted gas cylinders and shell. And, perhaps 
as a final indication of intent, the Germans were accusing the Allies of 
employing gas.17 
All warnings went unheeded. The German gas attack on 22 April 
took the Allied forces by complete surprise, and, what is more astonish- 
ing, its success was a surprise to the Germans. The German high com- 
mand initially had looked upon the scheme with tolerant 
not bothering to provide the reserves to exploit a possible break- 
through.18 Consequently, instead of achieving a major victory, the 
Germans had to settle for merely straightening their line. But major 
victory or no, after Ypres toxic chemical warfare clearly became a 
force to reckon with.19 The French, the British, and the Germans all 
began to concentrate on the offensive and defensive aspects of gas 
warfare. 
Within a few days after the Ypres attack, on the appeal of Lord 
Kitchener, Secretary of State for War, British women had equipped 
the entire British Expeditionary Forces with gauze pads which could be 
used as a crude mask to protect against toxics.20 The French provided 
similar pads, and, like both the British and Germans, furnished chemi- 
cals to wet the pads in order to increase their filtering potential.21 The 
development of an offensive capability in gas warfare naturally took 
longer. The British designated elements of the War Office to initiate 
17 (i) Foulkes, Gas!, pp. 28-35. (2) Hanslian repeats charges that the French were using gas, but 
he doubts the authenticity of reports detailing the lethality of so-called Turpinite. The French had 
used a riot control agent (tear gas) in grenades, but it had not been effective. It is unlikely that the 
French would have used lethal gas offensively without being prepared defensively, and there is no indica- 
tion that the French took any protective measures until after the Ypres attacks. Der Chemische Krieg, 
I, 11-15, and 2d ed., pp. 7-10. 
18 One German authority states that German commanders lacked faith in the weapon and only allowed 
the attack as an experiment. (Ulrich Mueller-Kiel, Die Chemische Waffe 1m WeltKrieg Und—Jetzt 
(Berlin: Verlag Chemie, 1932; unpublished U.S. Army translation, 1932), p. 17) Maj. Gen. William N. 
Porter, USA (Ret.), World War II Chief of the Chemical Warfare Service, speculated that German 
commanders and staff officers who were nearly all professional soldiers disapproved of a weapon developed 
and managed by reserve officers and civilians. Professor Haber personally supervised the Ypres attack. 
Interv, Hist Off with Gen Porter, 24 Aug 61. 
19 Liddell Hart, The Real War. pp. 129-30. 
20 Foulkes, Gas!, pp. 36-37. 
21 (1) Fries and West, Chemical Warfare, pp. 195—96. (2) Hanslian et al., Der Chemische Krieg, 
pp. 190-93. ORIGINS OF THE CHEMICAL WARFARE SERVICE 
9 
and supervise work on both protection and weapons and organized a 
chemical laboratory in France. Sir John French, commander-in-chief 
in the field, made Lt. Col. Charles H. Foulkes (later promoted to 
brigadier) his adviser on gas and gave him the responsibility for gas 
offensive operations in the field.22 
The availability of weapons dictated the tactics of gas warfare. The 
Germans used chlorine cylinders because chlorine was readily available 
and because the cylinders provided the best method of placing large 
quantities of an agent on a nearby enemy. Toxic fillings in artillery 
shells were not immediately effective because of problems of containing 
a liquid, corrosive toxic under pressure and because use of liquid fillings 
required ballistic re-engineering. Moreover, an artillery shell contained 
a relatively small amount of agent. Most of the early German and 
British attacks thus took the form of the chlorine cloud of Ypres.23 
The first British cloud attack took place at Loos, Belgium, on 2 5 and 
27 September 1915 and involved 6,400 chlorine cylinders on a twenty- 
five mile front.24 Since it was impossible to cover so large a front with 
the available cylinders, an innovation was introduced—more than 
12,000 newly developed smoke candles were deployed to supplement 
and simulate the gas cloud and to conceal troops moving forward. 
While natural smoke had been used for battlefield concealment for 
centuries, this was probably the first use of artificial smoke on a battle- 
field of a modern war. The tactical employment of artificial smoke 
gave the new chemical warfare and gas services another mission.25 
The use of cylinders to disperse gas had inherent disadvantages. These 
munitions were difficult to transport, hard to emplace, and quick to 
expend their filling—they took three to five minutes to empty. More- 
over, the success of a cylinder attack depended on the wind direction. 
The fact that the prevailing winds in France were westerlies might cast 
23 Foulkes, Gas!, pp. 16-17, 36-41. 
28 (1) Foulkes, Gas!, pp. 36-48. (2) Wyndham Miles, "Fritz Haber, Father of Chemical Warfare,” 
Armed Forces Chemical Journal, XIV (January—February, i960), 28—30. 
24 British tactical organization provided a section headed by an officer to handle the cylinders for 250 
yards of trench. Ten sections made a company, four of which were authorized by the time of this first 
attack. Foulkes, Gas!, p. 57. 
25 (1) Foulkes, Gas!, pp. 54—66. (2) Hanslian et al., Der Chemische Krieg (second edition pages 
322—24) credits the first use of smoke to the Germans, but he names neither date nor place, and he indi- 
cates that British smoke apparatus were being delivered to the front as early as July 1913. In his third 
edition, volume I, pages 619-20, Hanslian credits the English claim, citing Foulkes. 10 
THE CHEMICAL WARFARE SERVICE 
some doubt on the wisdom of the Germans in introducing the cylinder 
method of gas warfare.26 
In December 1915, again near Ypres, the Germans introduced a new 
war gas, phosgene, a highly toxic commercial gas used in the dye indus- 
try. As a matter of fact, the Germans, British, and French had dis- 
covered the military effectiveness of phosgene almost simultaneously 
during the summer of 1915, but the Germans used it first because they 
were in a much better position to produce it in large quantities.27 While 
Germany was first to use gas in cloud attacks, the French retaliated with 
phosgene-filled artillery shells in February 1916. The first employment 
of a nonexplosive artillery shell for gas represented a decided tech- 
nological breakthrough. The use of explosive shell had resulted in too 
great a dispersion of gas, but a shell with only enough explosive to 
rupture the container allowed the toxic contents to form a small cloud 
at the point of impact. A tremendous bombardment was required to 
create a large cloud, and the French possessed the means for firing such a 
bombardment in their astonishingly effective 7 5-mm. gun. French 
artillery fire, both the phosgene-filled shells and later Vincennite, a 
hydrocyanic gas mixture, was significantly more effective than German 
artillery gas fire at the time. A measure of this greater effectiveness was 
the statement of a German commander: "In order to reply to the 
dangerous gas shells of the French I have only shells which are filled 
with 'eau de Cologne’.” 28 
Allied intelligence had predicted the German introduction of phos- 
gene, and the British developed the small box respirator to cope with 
this new agent. Air was taken into this mask through a canister filled 
with charcoal and soda lime. The wearer inhaled and exhaled through a 
rubber tube held in the mouth. The tube was connected to the canister 
for fresh air and to a "flutter valve” for exhalation. Nose clips were an 
integral part of the rubberized fabric facepiece as were eye lenses. The 
mask was uncomfortable and become more so with long wearing, and 
the heat of the face on the lenses caused condensation which greatly 
28 (i) Foulkes, Gas!, pp. 43-44, 48, 64-65, 86-88, 122-26, 176-78, 182-83, 186, 206-09. (2) Fries 
and West, Chemical Warfare, pp. 390-91. 
27 Foulkes, Gas!, pp. 52-53. 
28 Hanslian et al., Der Chemische Krieg, I, 20—23. The quotation, page 21, is from General von Deim- 
ling: "Zur Beantwortung den gefarhlichen Gasgeschosse der Franzosen habe ich legidlich Granaten, die 
mit 'Eau de Cologne’ gefullt sind.” ORIGINS OF THE CHEMICAL WARFARE SERVICE 
11 
interfered with vision.29 The British mask was the best protection avail- 
able despite its defects. It had replaced gas helmets—porous fabric 
hoods impregnated with chemicals to filter gases—which were much 
less effective. The French Mi mask which was standard until nearly 
the end of the war was a modification of the gas hood wherein a face- 
piece was attached to the head with straps.30 
Full-Scale Gas Warfare 
The British gas offensive at Loos, the German introduction of phos- 
gene, and the French employment of phosgene-filled artillery shell 
ended the first phase of gas warfare in World War I. The British at Loos 
successfully challenged German domination of gas warfare and the 
French improved upon the German introduction of phosgene. The 
era of emergency improvisations of weapons and protective equipment 
and of dependence upon the only readily available commercial toxic, 
chlorine, was over. The chlorine cloud attack had been effective when 
used with surprise against unprotected troops, but protection against 
chlorine had not been difficult to provide and surprise could not be 
counted upon since an enemy could be on guard when wind conditions 
favored an attack. The remainder of the war was to be characterized 
by a fairly equal race between Germans and Allies to discover and em- 
ploy new methods of protection, new gases, and new methods of con- 
ducting attacks. Gas warfare became a series of technical and scientific 
battles, with sometimes one set of belligerents ahead and sometimes the 
other. Gas warfare, along with the tank and military aircraft, became 
part of the World War I revolution in the art of war. 
In 1916 the British introduced a new means of projecting gas, the 
4-inch Stokes mortar, developed from the 3-inch version of this 
weapon, which had been the standard mortar in the British Army. Be- 
cause of their inability to manufacture gas shells, the British first used 
the mortar to fire improvised smokes and incendiaries. The Stokes gas 
shell, or bomb, as the British called it, contained six pounds of agent as 
compared to three pounds for the British 4.3-inch heavy howitzer shell. 
29 (i) 7bid., pp. 198-200, 214-18. (2) A number of interviews with World War I veterans confirm 
the discomfort and poor vision experienced by wearers of the British mask. Interv files in CMLHO. 
30 (1) Hanslian et al., Dcr Chemische Krieg, volume I, pages 195—207, maintains that the German 
leather mask, with a filtering canister attached directly to the facepiece, was the best mask of World War 
I, but Foulkes, in Gas!, page 119, challenges that claim. (2) Foulkes, Gas!, pages 53, 182, 306, com- 
ments on the gas helmets. (3) Fries and West, Chemical Warfare, pages 201-02, described the French 
M2 mask. 12 
THE CHEMICAL WARFARE SERVICE 
Its 1,000-yard range was adequate for situations in which opposing 
trenches were not far apart, and its accuracy, while not pinpoint, was 
good. Crews were capable, under combat conditions, of firing fifteen 
rounds per minute, a rate of fire more rapid than that of the howitzer.31 
Still, the Stokes mortar had its limitations. 
The British and French had adopted a tactic of gas warfare depen- 
dent on overwhelming the enemy with vast quantities of toxics.32 The 
massive cylinder attacks of the British and the artillery barrages of the 
French met this requirement. The Stokes mortar also could have met 
such requirements for targets less than 1,000 yards distant, but the 
number of mortars, shells, and crews necessary was beyond the ca- 
pacity of the Allies at this time. The need was for a simple inexpensive 
projector with a longer range and a larger capacity shell. Such a pro- 
jector was invented almost by accident. 
Capt. William FI. Livens, commander of the British Special Brigade 
flame projector company, sought to extend both the range over which 
incendiary materials could be dispersed and the quantities of materials 
which could be employed. Fie found that a large steel drum buried in 
the ground almost up to the open end made a makeshift mortar from 
which could be fired a smaller drum filled with oil and cotton waste. He 
used black powder as a propellant and guncotton to ignite the oil. The 
improvised weapon was capricious and dangerous to its crew, but it was 
effective. What was more pleasing to the British was that it turned out 
to be equally effective for the projection of toxics. Livens, accordingly, 
set about making a more reliable version, one which used a boxed pro- 
pellant charge detonated electrically and which fired a cylindrical bomb 
equipped with a light bursting charge. This Livens projector could 
shoot a thin-cased bomb nearly 8 inches in diameter and 20 inches long 
and filled with 30 pounds of toxic for a distance of nearly a mile. Range 
could be varied by increasing or decreasing the propellant charges; di- 
rection was determined by careful placement at the time the weapon 
was buried. The weapon was not accurate but it did not have to be: 
31 (i) Foulkes, Gas!, pp. 182-83. (2) Fries and West, Chemical Warfare, p. 20. 
82 (1) Foulkes, Gas!, pp. 197-98. It is evident throughout Foulkes’ work that the massive attack tactic 
was adopted early (see Chapter VIII) and was increasingly dominant as the war progressed (see especially 
Chapter XVI). (2) Hanslian et al., Der Chemische Krieg, I, 23—27. The implication in Hanslian’s work 
is that the Allied tactical concept placed more emphasis on massive gas attack than did the Germans, at 
least until the use of projectors became common, but it is difficult to see any great difference between the 
tactical concepts of the Allies and those of the Germans. ORIGINS OF THE CHEMICAL WARFARE SERVICE 
13 
the simultaneous firing of a 2 5-projector battery, each projector firing 
a 61-pound drum, was ideal for a large area gas barrage. 
Emplacing the Livens projector entailed a good deal of work. A 
trench had to be dug for each battery, the weapons emplaced, and then 
the trenches filled. Once this task was done the projectors could not be 
re-aimed. Even considering the amount of work involved, emplacement 
of the Livens projectors had certain advantages over the emplacement 
of cylinders. While the Livens projectors could usually be dug in some 
distance behind the front lines in daylight, cylinder emplacements were 
usually made at night because there was no practical means of denying 
enemy observation of the forward trenches. Although enemy observa- 
tion was denied by nighttime emplacement of cylinders, the sound of 
digging in positions close to the front provided noisy clues as to the 
imminence of a gas attack. 
An advantage of the Livens projector, as well as of any means of 
projecting gas, was that the warning period was reduced to the few 
seconds between the time the projectiles struck and the gas clouds 
formed. By way of contrast, the cylinder-bred clouds which billowed 
across no-man’s-land gave much greater forewarning, although this 
might not prove an unqualified disadvantage to the attacker because 
the more widespread the alarm the more the enemy might be hampered 
by protective devices. Use of cylinders continued but the projector 
proved to be a formidable weapon and became a major means of launch- 
ing gas attacks. 
The first combat use of the Livens projector took place on 4 April 
1917, the beginning of the battle of Arras. Three thousand projectors 
fired nearly 50 tons of phosgene on 31 targets. At the same time 48 
Stokes mortars alternately fired phosgene and a new gas, chloropicrin. 
Chloropicrin, which was also used by the French and the Germans, 
is a lethal gas and a strong lachrymator, but because of its lightness 
and instability it was first used primarily as a means for penetrating 
the German protective mask. The battle of Arras also saw the first 
employment of a substantial amount of British toxic artillery shell.33 
The Arras experience evidently convinced the Germans of the useful- 
ness of the projector for it prompted them to rush into production 
their own version of the weapon which was to be first used on the 
Italian front during the following October.34 
“Foulkes, Gas!, pp. 165-72, 191-92, 202-03, 206-09, 211-13. 
34 Hanslian et al., Der Chemische Krieg, I, 24—25, 164—71, 177—82. 14 
THE CHEMICAL WARFARE SERVICE 
But the immediate German counter to this successful Allied use of 
gas was the introduction of two new agents, diphenylchloroarsine 35 
and dichloroethyl sulfide. The latter, better known as mustard,36 is a 
liquid in its natural state, not a gas, although it readily vaporizes. 
It is a vesicant, that is, it inflames and burns those parts of the body 
with which it comes in contact. This characteristic means that a 
mask alone is insufficient protection against the agent. Mustard, per- 
sistent in its staying power, clings to clothing and equipment, covers 
vegetation, lies in pools in low places.37 The agent is thus particularly 
effective in defensive situations or in keeping areas clear of the enemy. 
Such a saturation as required for interdiction demanded heavy bom- 
bardment—the Germans used more than a million shells containing 
about 2,500 tons of gas in the ten days following the introduction of 
mustard.38 
The implication of Germany’s use of mustard was not lost on the 
Allies. The American expert, General Fries, termed its introduction 
"probably the greatest single development of gas warfare.” 39 Brigadier 
Foulkes declared that with it the enemy had achieved "undoubted 
success in the gas war.” 40 While most mustard victims were incapaci- 
tated, not killed, the casualty rate was high and most of these victims 
had to be evacuated for treatment. Evacuation of so many soldiers 
greatly weakened the Allied line. The Allies immediately wanted to 
retaliate in kind, but it was more than a year before the gas could be 
manufactured in sufficient quantity. Mustard had been known before 
85 Diphenylchloroarsine was not a gas but a solid, dispersed from artillery shells in a particulate cloud. 
The Germans first used it in Flanders in July 1917. Because contemporary masks could filter most 
vapors but not solid particles, this agent was often used with lethal phosgene in order to “break” the 
masks. 
88 To the French this agent was known as yperite, after the place of its introduction. The Germans 
called it Lost, combining the first two letters of the names of the two chemists who devised its manu- 
facturing process. It was also known as Gelb Kreuz and yellow cross after the marking on German 
munitions in which it was contained. 
87 (1) Hanslian et al., Der Chemische Krieg, I, 26-29; 2d ed, pp. 18-20, 48-55, 56-58. Hanslian 
indicates (second edition, page 52) that mustard is effective from twenty-four hours in hot dry 
weather to one month or more in cold weather in a location protected from wind. In enclosed areas 
such as dugouts and cellars, it is effective for a year or more. (2) Mustard, after heavily soaking into 
porous concrete protected from weathering, has been known to cause burns after more than twenty 
years. (3) Fries and West, Chemical Warfare, pp. 150-51, 168-76. 
“Flanslian et al., Der Chemische Krieg, I, 28-29. 
89 Fries and West, Chemical Warfare, p. 150. 
*°Foulkes, Gas!, p. 323. ORIGINS OF THE CHEMICAL WARFARE SERVICE 
15 
the German attack, but the Allies had not adopted it because its manu- 
facture presented so many difficulties.41 
Gas warfare required not only agents and weapons but also military 
organizations to handle the myriad technical and tactical problems of 
its employment. The appointment of Colonel Foulkes as gas adviser for 
the British Expeditionary Forces and as responsible officer for offensive 
gas operations, mentioned earlier, initiated attempts to set up an ef- 
ficient organization in the British Army. Foulkes’ organization, desig- 
nated the Special Brigade early in 1916, grew from four to twenty-one 
companies. Sixteen of the companies were organized in four battalions, 
each battalion having four companies assigned to handle gas cloud 
attacks; four special companies fired the 4-inch Stokes mortar; and a 
separate company operated flame projectors.42 
The employment of flame projectors as tactical weapons was a 
concept that appealed to the Western Front belligerents, perhaps not 
as a key to the deadlock but as a nonetheless valuable device. The Ger- 
mans had first used a portable apparatus for projecting flaming oil in 
June 1915. The French soon developed a similar apparatus, and shortly 
thereafter Germans, French, and British each developed small portable, 
as well as large, semifixed, projectors. The value of flame at the time 
was principally psychological—the fiery spurt of burning oil, the roar 
of the flame, and billowing clouds of black smoke had a terrifying effect 
on troops in the trenches. But the portable equipment was cumber- 
some, resupply was difficult, the field of fire was small, and the range 
rarely exceeded 30 yards. Furthermore, the operator of the portable 
apparatus was easily distinguished and highly vulnerable to small arms 
fire. The various semifixed projectors soon developed, with a range of 
from 40 to 50 yards and a protected position for the operator in a 
trench, were a little better, but the field of fire was still small and the 
equipment difficult to install, maintain, and resupply. The flame pro- 
jector, with all its faults, became a responsibility of the chemical war- 
fare services.43 
With the addition of the flame mission, the British chemical warfare 
elements had their full quota of missions for World War I—gas, smoke, 
and incendiary. The British still had no central organization to handle 
41 (i) Foulkes, Gas!, pp. 263-66, 323-26. (2) Hanslian et al., Dcr Chemische Krieg, I, 29-30. 
(3) Fries and West, Chemical Warfare, pp. 151-52. (4) Liddell Hart, The Real War. p. 340. 
42 Foulkes, Gas!, pp. 94-96. 
13 (1) Foulkes, Gas!, pp. 49-50, 111-12, 162-65. (2) Fries and West, Chemical Warfare, pp. 347-52. THE CHEMICAL WARFARE SERVICE 
16 
chemical warfare research and development, training, supply, and field 
employment and remained without one until mid-1916, when they 
formed a new combined organization of offensive and defensive chemi- 
cal elements in the field and appointed a director of gas services, Brig. 
Gen. Henry Thuillier. Although this reorganization made little signifi- 
cant change in the status of Foulkes’s Special Brigade, it did create a 
co-ordinated chemical arm in the field.44 The French, meanwhile, had 
established a centralized organization, the Service Ghimique de Guerre, 
in September 1915. But the French industrial potential was insufficient 
to provide the logistic capability for any significant gas warfare offen- 
sive until 1916 and the introduction of toxic artillery shells.45 
The Gas Service, AEF 
The discussion of Allied chemical organizations, particularly that 
of the British, is of special interest from the American point of view 
since the overseas chemical warfare contingent of the United States 
patterned its organization after the British who trained the contingent. 
Maj. Gen. John J. Pershing and the advance elements of the AEF 
landed in France in June 1917. The United States was unprepared for 
waging chemical warfare even though it had been waged in Europe for 
over two years. Research on toxics had begun in the United States only 
a few months earlier. The nation had no gas weapons, no toxics, no 
military gas organization, and no protective supplies. It did have some 
information on gas warfare gathered by War Department observers 
with the Allies, notably by Dr. George A. Hulett of Princeton Univer- 
sity. Although the War Department had not viewed gas warfare 
seriously, Pershing’s staff saw an immediate need for action, even 
before the first mustard attack, and appointed a board to make recom- 
mendations concerning gas warfare.46 
The AEF board, which met on 18 June 1917, recommended assigning 
an officer to "create and handle” an AEF gas organization and provid- 
ing him with assistants, funds, and authority.47 A week later Flead- 
44 Foulkes, Gas!, p. 97. 
45 (1) Lefebure, Kiddle of the Rhine, pp. 91-110. (2) Hanslian et al., Der Chemische Krieg, I, 
20-21. 
46 Leo P. Brophy and George J. B. Fisher, The Chemical Warfare Service: Organizing for War, 
UNITED STATES ARMY IN WORLD WAR II (Washington, 1959), pp. 1-5. 
47 Memo, Lt Col John McA. Palmer, Chief Opns Sec Hq AEF, for CofS AEF, 30 Jul 17, sub: Gas 
and Flame Serv, Offensive and Defensive. A copy of this memo appears as General History, Appendix 
2, in History of Chemical Warfare Service, American Expeditionary Forces (unpublished official history). ORIGINS OF THE CHEMICAL WARFARE SERVICE 
17 
quarters, AEF, asked the War Department for such an officer and 
soon thereafter temporarily assigned gas offensive responsibilities to the 
AEF chief engineer and gas defensive responsibilities to the AEF chief 
surgeon. Despite advice from the War Department in July that gas 
responsibilities in the United States were apportioned among the Ord- 
nance and Medical Departments and the Corps of Engineers, Lt. Col. 
John McA. Palmer and Lt. Col. James R. Church of the AEF staff, in 
consultation with Dr. Hulett and Capt. Walter M. Boothby, advanced 
a strong case for the organization of gas services in the United States 
and France. Church declared that the gas service in the United States 
should be subordinate to that in France in matters of policy and equip- 
ment. Both officers emphasized the necessity of immediate action, 
especially for protection. The commander of the ist Division, com- 
prising the first Army troops in France, had called for gas masks—his 
organization had none at all.48 The timing of the comments by Church 
and Palmer suggests that the recent employment of mustard could have 
fostered their sense of urgency. 
By the middle of August 1917 the AEF had received from the United 
States 20,000 gas masks and the news that a gas and flame regiment 
had been authorized. No other supplies, officers, or advice were received. 
About the same time Lt. Col. Amos A. Fries, Corps of Engineers, ar- 
rived in France and was about to be named director of roads when his 
orders were changed to make him engineer in charge of gas as well as 
Chief of the Gas Service, AEF. Headquarters, AEF, dispatched a cable 
to the War Department indicating that, since no further delay was 
possible, the appointment had been made. The AEF staff requested that 
Fries be designated to command the authorized gas and flame regiment.49 
Colonel Fries took up his new duties on 22 August 1917 and left 
Paris on the same day to make his own appraisal of the British gas 
service in the field and to determine American requirements for gas 
organization, protection, and weapons. He learned from the British 
that the American masks recently received had failed to afford adequate 
protection in British tests, and on 23 August 1917 he accordingly 
recommended the adoption of the British small box respirator as the 
standard American mask. American troops were also to carry the 
48 (i) Ibid. (2) AEF GO 8, 5 Jul 17. (3) Maj James R. Church, MC, "A Suggested Organization 
of the Gas Service of the American Army,” 26 Jul 17, apps. j and 5 of General History, in History 
of CWS AEF. 
49 (1) Memo, H. Taylor, Hq AEF, for CofS AEF, 17 Aug 17, sub: Gas and Flame Service, app. 8, 
General History, History of CWS AEF. (2) Fries and West, Chemical Warfare, pp. 72-75. 18 
THE CHEMICAL WARFARE SERVICE 
French M2 mask for emergency use in event the British mask was lost 
or became no longer wearable.1'0 
Fries returned to Paris on 28 August and completed the draft or- 
ganization for the AEF gas service. He also drafted the order formally 
establishing the AEF Gas Service.51 The AEF order, issued on 3 
September 1917, charged the Chief of the Gas Service "with the organi- 
zation of personnel, the supply of material, and the conduct of the 
entire Gas Service both Offensive and Defensive, including instruc- 
tion.” 52 At the same time Fries became colonel and titular commander 
of the 30th Engineers, Gas and Flame, later the 1st Gas Regiment, then 
being organized in the United States under the actual command of 
Maj. Earle J. Atkinson.11! Fries’s initial problems were many: he needed 
officers and men; he needed supplies; he needed to train American 
troops; and, in order to help discharge the offensive portion of his mis- 
sion, he needed to persuade American commanders that gas was a useful 
offensive weapon. 
In meeting all these needs except that for officers and men he had to 
rely on Allied, especially British, help and experience. His own service 
he organized into an Offensive Branch and a Defensive Branch. Colonel 
Church became chief of the Defensive Branch, and Fries himself as- 
sumed the duties of the Offensive Branch. These branches were in- 
tended to operate in the field through gas officers assigned to army, 
corps, divisions, and regiments, as in the British organizational pattern. 
Both branches were to join in the operation of gas schools, the first 
two of which Fries and Boothby opened in the Army school at Langres 
on 10 October 1917 and within the I Corps Center of Instruction at 
Gondrecourt on 15 October 1917. The Offensive Branch was to direct 
the operations of gas and flame troops according to the British brigade 
pattern. There were then no troops to direct. The first companies of 
the 30th Engineers did not arrive in France until February 1918, and 
it was not until the summer of 1918 that officers began arriving in 
sufficient numbers to staff the gas service. ’4 
“Fries and West, Chemical Warfare, pp. 75-77. 
61 Ibid., p. 76. 
“AEF GO 31, 3 Sep 17. 
68 (1) Interv, Hist Off with Maj Gen Amos A. Fries, USA (Ret.), 4 Aug 55. (2) Historical Division, 
Department of the Army, UNITED STATES IN THE WORLD WAR: 1917-1919, vol. 15, Reports 
of Commander-in-Chief, A. E. F. Staff Sections and Services (Washington, 1948), p. 291 (hereafter 
cited as Reports of Commander-in-Chief, A. E. F., Staff Sections and Services). 
54 (1) General History, History of CWS AEF, pp. 6-12 and apps. 12-15, 18. (2) Fries and West, 
Chemical Warfare, pp. 78—79, 93—95. ORIGINS OF THE CHEMICAL WARFARE SERVICE 
19 
As indicated above, supply, both offensive and defensive, came mainly 
from the British and French. At first, Fries attempted to handle supply 
personally through liaison offices established in London and Paris and 
through the supply services of the AEF. Maj. Robert W. Crawford, as 
Chief of Gas Service supply, soon relieved Fries of supply operating 
functions. Crawford found that the Gas Service was automatically 
assigned lowest priority by the established supply services who had their 
own problems. Ffe accordingly secured direct purchase authority for 
the Gas Service and arranged for the Gas Service to handle its own 
supply system all the way from requisition or purchase to actual supply 
to troops in the field.55 
Fries felt that his most difficult problems were to persuade American 
commanders to employ gas and to educate troops to take adequate pro- 
tection against gas. It was necessary for Gas Service officers to "go out 
and sell gas to the Army.” 06 A service which intended to sell its method 
of warfare, train the Army in the field, operate its own supply system, 
conduct offensive operations with its own troops, and advise on the 
conduct of both offensive and defensive operations by other combat 
troops clearly required more than a handful of officers and a more 
comprehensive organization than the one originally envisioned. 
The Gas Service was enlarged to meet the demands of its many re- 
sponsibilities whenever men and equipment became available. For ex- 
ample, a completely staffed and equipped laboratory arrived in France 
early in 1918 and an officers’ training camp was organized in France 
later in the year.07 The provision of a laboratory had been one of the 
projects of the Office of Gas Service since the time of its organization 
in the United States in October 1917.08 The increasing demands on the 
service resulted in the reorganization of Fries’s immediate office in 
March 1918 to combine offense and defense into a Military Division 
and to establish a Technical and a Production and Supply Division. 
In May the Military Division was again separated into Offense and 
Defense Divisions. Finally, in June, the Gas Service in the United 
States was converted into the Chemical Warfare Service, National 
Army. The Gas Service, AEF, became the CWS AEF, officially the 
85 (i) General History, History of CWS AEF, pp. 12—14. (2) Fries and West, Chemical Warfare, 
pp. 76-79- 
66 Fries and West, Chemical Warfare, p. 90. 
67 (1) General History, History of CWS AEF, pp. 18-19. (2) Fries and West, Chemical Warfare, 
p. 88. 
“Brophy and Fisher, Organizing for War, pp. 9-13. Chart 1—Organization, Chemical Warfare Service, American 
Expeditionary Forces, 13 July 1918 
Commander in Chief 
American Expeditionary Forces 
Chief of Staff, GHQ, AEF 
General Staff, GHQ, AEF 
Commanding General 
Services of Supply 
Chief 
Chemical Warfare Service 
Assistant Chief 
Coordinating Board 
CWS Representative 
GHQ 
Adjutant 
Liaison Service 
London and Paris 
Personnel Officer 
Medical Director 
Intelligence Division 
Production & Supply 
Division 
Technical Division 
Defense Division 
Offense Division 
Sections 
Sections 
Sections 
Sections 
Bulletin 
Procurement 
Training & 
Inspection 
Executive 
Investigation 
Manufacture 
Field 
Installations 
Personnel Liaison 
Follow Up 
and Reports 
Translation 
Field Salvage 
Paris Laboratories 
Technical & 
Intelligence Liaison 
Artillery 
Drafting & Map 
SOS Depots 
Hanlon Field 
Supply Liaison 
Engineering 
Dissemination 
Army Depots 
Labora- 
tories 
AEF Gas 
School 
SOS Troops 
Troops 
Requirements 
& Records 
Combat Troops 
Ordnance 
Field 
CW Sections 
Army and 
Corps Gas 
Schools 
Army Chief 
Gas Officers 
Field 
Depots 
Corps & Division 
Gas Officers 
Gas and 
Flame 
Regiments 
Ports 
SOS CW Sections 
Staff and Technical Channel 
NOTE: Chief, Chemical Warfare Service, a member of the staff of the Commander in Chief, reported to the Commanding General, SOS, in matters of 
procurement, supply, transportation, and construction. GHQ AEF GO 31, 16 Feb 18. 
Source; Adapted from: Plate VII, General History, History, CWS, AEF. ORIGINS OF THE CHEMICAL WARFARE SERVICE 
21 
Overseas Division, CWS, and Fries, now chief of CWS AEF, was pro- 
moted to brigadier general.09 The final CWS AEF organization which 
was prepared at that time included six divisions, and the duties of these 
divisions are evidence of the scope of gas warfare activities in the final 
year of the war. (Chart i) 
The Offense and Defense Divisions within the Office of the Chief, 
CWS AEF, exercised staff supervision over tactical gas warfare activi- 
ties,, evaluated combat experience, planned the employment of gas and 
flame units, and suggested changes in gas warfare tactics and techniques 
for all combat elements through army, corps, and division gas officers. 
These "military” divisions co-operated with the Technical Division 
in supervising the AEF Gas School and the army and corps gas schools. 
The Defense Division was also charged with the issue of defensive 
equipment and therefore supervised the CWS Services of Supply (SOS) 
troops immediately involved in combat supply support and training.60 
The Technical Division, in addition to controlling the AEF Gas School, 
directly operated chemical and medical laboratories and a gas research 
experimental station. The Office of the Medical Director, with divi- 
sional status, translated Technical Division findings into procedures for 
the care of gas casualties and co-operated with the Medical Corps in the 
development of treatment equipment and the application of care pro- 
cedures. The Intelligence Division collected chemical warfare intelli- 
gence material for the use of the operating divisions and served as a 
clearinghouse for all CWS reports and requests for information. While 
the "military” divisions and the other divisions supporting them were 
mainly oriented toward combat operations, the remaining division, 
Production and Supply, was the element charged with those functions 
most clearly associated with the basic, logistics-oriented SOS mission. 
The organizational relationship of the CWS AEF to the SOS therefore 
largely depended upon the functions of the Production and Supply 
Division. Branches of this division computed chemical materiel require- 
ments, procured munitions and equipment, supervised manufacturing 
plants in England and France, directed field salvage of chemical ma- 
terials, and controlled four CWS SOS depots, chemical sections in six 
69 (i) General History, History of CWS AEF, pp. 25, 29—32. (2) WD GO 62, 28 Jun 18. 
80 General Pershing, in February 1918, had organized the Services of Supply under Maj. Gen. James 
G. Harbord, formerly his chief of staff, as a major AEF command charged with co-ordinating all the 
supply services and all AEF supply functions. 22 
THE CHEMICAL WARFARE SERVICE 
ports of debarkation, and chemical sections of several field army 
depots.61 
Fries’s own office, after the establishment of the SOS command, was 
located in SOS headquarters at Tours, but Fries continued to report 
to General Pershing’s General Headquarters (GHQ), AEF. Most CWS 
administrative matters, except those directly relating to SOS, were 
handled through GHQ with the assistance of a CWS representative 
stationed at that headquarters. Fries handled detailed administrative 
work, including the assignment of CWS officers throughout the AEF, 
through his own administrative staff which included an adjutant, a 
personnel officer, and representatives in the AEF Liaison Service in 
London and Paris. Fries, by the time of the armistice, immediately 
supervised more than 150 officers. More than half of these officers were 
assigned to CWS staff and liaison duties while the remainder carried on 
laboratory and training work. Approximately another 30 officers di- 
rectly supervised CWS SOS field operations. While Fries deferred to 
field commanders in their supervision of tactical chemical operations, 
he could exert considerable pressure on tactical planning officers be- 
cause of his direct control of 168 field army, corps, and division gas 
officers. These gas officers reported to and advised their organization 
commanders according to the accepted staff pattern. The Chief, CWS 
AEF, was empowered to and did require detailed reports of offensive 
and defensive chemical operations. His "military” divisions presented 
their summaries and analyses of these reports in a weekly bulletin to 
organization gas officers. The bulletins contained criticisms of past 
chemical operations and suggestions for improvement. Gas officers on 
regimental and battalion staffs, as well as noncommissioned officers, were 
not members of the CWS; they were chosen by unit commanders from 
the unit complement. Yet, Fries could exercise some measure of control 
over these officers inasmuch as AEF orders specified that they be trained 
at CWS schools and that they be given gas warfare work as their prin- 
cipal duty.62 
Another change which took place with the formation of the Chemi- 
cal Warfare Service in the National Army was the redesignation of the 
61 General History, History of CWS AEF, pp. 29-33, 38-41, 53—58. 
82 (1) General History, History of CWS AEF, pp. 24—25, 55—56. (2) AEF GO 79, 27 May 18, 
and GO 107, 2 Jul 18. Apps. 47 and 48 to General History of CWS AEF. (3) Commissioned 
Pers of the CWS AEF, November 11, 1918, in History of CWS AEF. (4) Comments on draft of this 
volume, Brig Gen Hugh W. Rowan, USA (Ret.), 16 Dec 60. ORIGINS OF THE CHEMICAL WARFARE SERVICE 
23 
30th Engineers, Gas and Flame, as the ist Gas Regiment, CWS. This 
organization had been gradually growing as the war progressed, and by 
the time of the armistice it comprised 4 battalions with a total of 6 
American companies and 4 attached British companies. Three platoons 
of each company fired projectors, and the fourth fired Stokes mortars. 
The authorized goal of one gas regiment for each field army was not 
achieved by the time the war ended.63 
The extent of Fries’s control over CWS activities in World War I is 
important since some CWS officers subsequently viewed Fries’s au- 
thority as setting a precedent for the authority of principal CWS offi- 
cers in World War II. The nature of Fries’s position is also important 
because it was one of the factors in determining general and special 
staff relationships and duties. The U.S. Army had not employed the 
general and special staff concepts in war before World War I. AEF 
experience played a part in molding these concepts as they emerged in 
the period between the wars. General Pershing kept a tight rein on all 
elements of the AEF organization, and he apparently expected all his 
staff officers, including his Chief, CWS, to act as extensions of his own 
person throughout his organization.64 Thus, Fries dealt with gas war- 
fare matters while cloaked with his commander’s rank and authority. 
The extent of his control is illustrated by the fact that Fries on one 
occasion relieved a division chemical officer.60 Fries clearly believed in 
the necessity for maintaining a field chemical warfare organization 
broad enough to link research in chemical weapons and protection by 
"the closest possible ties to the firing line.” Fie felt that he had estab- 
lished a strong, well co-ordinated service in the AEF which encom- 
passed research, development, manufacturing and supply, tactical em- 
ployment of chemicals, and employment of chemical weapons by 
chemical troops in the field. "The success of the CWS in the field and at 
home,” he wrote, "was due to this complete organization.” 66 
The organizational maturity achieved in the AEF quite early in the 
war unhappily was not paralleled within the military structure in the 
63 (i) James T. Addison, The Story of the First Gas Regiment (Boston: Houghton Mifflin Co., 1919), 
pp. 256—58. (2) Three regiments and a total of fifty-four companies had been authorized in September 
1918, but most of these had not been activated. Fries and West, Chemical Warfare, p. 94. 
64 Maj. Gen. Otto L. Nelson, Jr., National Security and the General Staff (Washington: Infantry 
Journal Press, 1946), pp. 245-300. 
65 (1) Interv, Hist Off with Rowan, 26 Sep 58. General Rowan was an assistant division gas officer 
and later division gas officer under Fries. (2) Interv, Hist Off with Maj Gen Alden H. Waitt, USA 
(Ret.), 13 May 61. 
88 Fries and West, Chemical Warfare, p. 73. 24 
THE CHEMICAL WARFARE SERVICE 
United States. Unprepared for gas warfare when the United States 
entered the war in April 1917, the War Department divided responsi- 
bility for this new form of warfare among five different agencies, one 
of which was a civilian bureau.07 
It is not strange that the people responsible for the battlefield em- 
ployment of chemical warfare were stanch and vocal pleaders for a 
more rational chemical organization in the War Department. Fries’s 
dealings with the Hydra-headed, un-co-ordinated chemical warfare 
complex in Washington led to repeated requests for organizational 
improvements which would ease his labors. In making these requests, 
Fries had the full support of General Pershing. 
As indicated earlier, the War Department set up a co-ordinating 
agency known as the Office of Gas Service in October 1917. This clear- 
inghouse for chemical matters consisted of a director and representa- 
tives from the Ordnance and Medical Departments and from the 
Chemical Service Section of the National Army—a section established 
at the same time as the Gas Service with a principal mission of providing 
the AEF with a chemical laboratory. In February 1918 the Chemical 
Warfare Service and the Gas Division were joined in a move that failed 
to provide the administrative centralization and the prestige that could 
only come from the formation of an independent gas corps. This final 
step was taken on 28 June 1918 with the creation of the Chemical 
Warfare Service, National Army, with Maj. Gen. William L. Sibert as 
director. 
The CWS Between the Wars 
Defining the Role and Responsibilities 
When General Fries returned from France after World War I he 
applied all of his considerable vigor to the establishment of the Chemical 
Warfare Service as a permanent part of the Regular Army. In July 
1919 Congress had given the CWS a year’s reprieve, and, in 1920, after 
debate in which the Secretary of War, Newton D. Baker, the Chief 
of Staff, General Peyton C. March, and General Pershing registered 
67 The organizations and their responsibilities were: (i) Bureau of Mines: research on chemical agents; 
(2) Medical Department: the provision of defensive equipment; (3) Ordnance Department: manufac- 
ture and filling of gas shells; (4) Corps of Engineers: the formation and training of gas and flame 
units; and (j) Signal Corps: the provision of gas alarms. The organizational difficulties are fully 
discussed in the first chapter of Brophy and Fisher, Organizing for War. ORIGINS OF THE CHEMICAL WARFARE SERVICE 
25 
dissent, the Congress of the United States amended the National De- 
fense Act of 1916 so as to make the CWS a permanent part of the 
Military Establishment. The new service received the functions of de- 
velopment, procurement, and supply of all toxic, smoke, incendiary, 
and gas defensive materials, the training of the Army in chemical war- 
fare, and the "organization, equipment, training and operation of 
special gas troops.” 68 
The dissent of people as influential as Baker, Pershing, and March 
should have augured ill for the newly formed Chemical Warfare Serv- 
ice. The fact is that the period of the 1920’s and 1930’s was a difficult 
one for the Army establishment in general and the Chemical Warfare 
Service in particular. Reasons for this are not hard to find. This period 
between the world wars was one of disillusionment, disarmament, and 
depression. A nation, indeed a world, appalled by the costs of the re- 
cent conflict, looked for ways to prevent such a holocaust from re- 
curring. The Washington conference of 1921 tried to limit the types 
of armament civilized nations might use in warfare, and four years 
later the Geneva conference on the regulation of arms traffic looked 
toward the same end. Both conferences drew up conventions outlaw- 
ing gas warfare. The Washington treaty failed by one to achieve the 
required unanimous agreement of the five participating powers.69 The 
Geneva Gas Protocol of 1925 did receive the support of over forty 
nations and thus became the most influential statement regarding gas 
warfare in the body of international law. The United States and Japan 
were the two major powers that did not ratify this protocol. 
Nonetheless, the War Department General Staff took a defensive 
position toward gas warfare throughout most of this period—defensive 
both in the attitude with which it approached the subject and in the 
type of warfare upon which it concentrated. In 1922 it suspended 
work on toxic agents and restricted other CWS efforts to defensive 
measures. Although this restrained approach was frequently reaffirmed 
in the 1920’s and 1930’s, modifications in the War Department prohibi- 
tion of research on toxic gases allowed some work in this field—one 
had to know the offensive potential of an agent in order to defend 
against it. 
68 (i) Public Law 242, 66th Congress, sec. 12a. Reproduced in TO Bulletin 25, 9 June 1920, the 
source of the above quotation. (2) See Brophy and Fisher, Organizing for War, pp. 11-17. 
89 The dissenter was France, which objected to the antisubmarine provision in the convention, not 
to the one against gas. 26 
THE CHEMICAL WARFARE SERVICE 
In addition to these handicaps, the new service faced another rather 
unpleasant situation. It would seem that the large majority of the 
people who had faith in gas as a viable system, capable of contributing 
to success in battle, was centered in the Chemical Warfare Service. 
There was little support for it within the combat arms. AEF com- 
manders did not properly utilize chemical warfare in World War I, and 
it is quite probable they later looked upon it with skepticism. Many 
felt it would be an encumbrance added to the battlefield, not merely 
in the increased logistical support it would entail but in the burdens it 
would place on the infantryman and in the difficulties of decontamina- 
tion it would involve. If it were successfully used by both combatants 
it would be something akin to two fighters, each with one arm tied 
behind his back. And why fight under such handicaps? 
The Chemical Warfare Service set about accomplishing its rather re- 
stricted mission with meager resources of men and money. These 
restrictions lasted throughout the depression, but by 1939 the war in 
Europe and subsequent reaction in the United States brought about 
a definite change. The annual Congressional appropriation for the 
CWS from 1927 to 1935 came to about one and a quarter million dol- 
lars. In 1939 it was almost 3 million dollars, in 1941 it was 60 million, 
and in 1942 it was over a billion. Manpower was a similar story. In 
1933 the CWS had an actual strength of 77 officers and 413 enlisted 
men; in 1940 the numbers were 93 and 1,035; in 1941, 833 and 5,059; 
and the peak in 1943, 8,103 and 61,688. Civilian employees ranged 
from 742 in 1931 to a peak of 29,000 in 1943.70 
The uneasy situation in Europe also helped modify the restrictions 
imposed upon the CWS. Two years before the outbreak of war the 
service began work on a mustard gas shell filling plant at Edgewood 
Arsenal, Md. 
In the process of CWS expansion gray areas of mission responsibility 
were clearly defined, much of this work done under the direction of Maj. 
Gen. William N. Porter who became Chief, Chemical Warfare Service, 
in May 1941. This effort to define responsibilities resulted in expanded 
duties for the CWS, for example, development of a high explosive shell 
for the 4.2-inch mortar and the acquisition of complete responsibility 
for the incendiary bomb program. In 1941 the War Department gave 
the CWS the mission of biological warfare research. 
70 For complete statistics, see Brophy and Fisher, Organizing for War, pp. 25-27. ORIGINS OF THE CHEMICAL WARFARE SERVICE 
27 
General Porter 
Many of the 93 Regular Army officers in the CWS in 1940 had served 
under and been tutored by Maj. Gen. Amos A. Fries. Many of them 
believed as strongly as he did in the military efficacy of gas, and they 
looked upon themselves as custodians of one of the most awesome weap- 
ons to come out of World War I. They considered the CWS unique 
among the services because it had a legal operational function such as 
only the combat arms had. True, the Corps of Engineers and the Signal 
Corps had combat roles, but neither had its own weapons which its 
own troops would employ in combat. There were also dissenters in 
the ranks of the CWS who felt that Porter and some of their fellow 
officers overemphasized the uniqueness of the CWS and the extent 
of its probable contribution to the next war. In countering these dis- 
senters, and they were probably in the minority, the advocates of gas 
warfare could point out that gas appeared to be the ideal weapon for 28 
THE CHEMICAL WARFARE SERVICE 
aerial bombardment. General Porter, as chemical instructor at the 
Army Air Corps Tactical School 1933-37, had in co-operation with Air 
Corps tacticians successfully evolved a tactical system for aerial bom- 
bardment which was well received by many Air Corps officers.71 Some 
CWS officers felt that a prediction made in 1920 was about to come 
true: "gas and military aeronautics will play the principal parts in the 
next war, which will be literally finished in the chemical laboratory.” 72 
While military aviation became important soon after the 1939 out- 
break of World War II in Europe, gas warfare, to the surprise of many 
observers, was not initiated. Great Britain, on 3 September 1939, the 
day of her declaration of war, sought assurances from the belligerents 
that they would observe the 1925 Geneva Protocol prohibiting the use 
of gases and bacteriological methods of warfare. Germany, Italy, Bul- 
garia, Rumania, Finland, and Japan replied that the protocol would be 
observed.73 Gas was therefore not used, and Japan, in accordance with 
her assurance to Great Britain that the Geneva Protocol would be ob- 
served, did not use gas in the Pearl Harbor attack which brought the 
United States into the war. Six months later, on 5 June 1942, the 
President of the United States threatened the initiation of gas warfare, 
but only in retaliation against Japan in the event that that nation used 
gas upon China. 74 Since the President’s statement was accepted as 
national policy, it began to appear that gas warfare might not be em- 
ployed unless Germany or Japan initiated it. The possibility of enemy 
initiation demanded that the United States take protective measures 
and that it prepare for offensive retaliation, but the preparedness 
mandate lacked force and precision.70 While these events determining 
the role of chemical warfare in international policy were taking place, 
the War Department was shaping the role the services were to play in 
possible future overseas operations. War Department planners built 
their concepts of mobilization organization around a combined field 
and theater of operations headquarters designated, as the AEF head- 
quarters had been, General Headquarters. Under the GHQ plan, when 
71 (i) Porter Interv, 24 Aug 61. (2) Waitt Interv, ij May 61. Waitt was Porter’s successor as 
instructor at the Air Corps Tactical School. (3) Interv, Hist Off with Col John C. Mac Arthur, USA 
(Ret.), 19 Sep 61. (4) Interv, Hist Off with Col Augustin M. Prentiss, Jr., USAF (Ret.), 25 Oct 61. 
72 Edward S. Farrow, Gas Warfare (New York: Dutton, 192c), p. vii. 
73 Dale Birdsell, The Department of State and the Gas Warfare Question (unpublished Monograph 
in CMLHO), p. 1. 
74 For additional information on the President’s statement, see Brophy and Fisher, Organizing for 
War, pp. 63-64. 
76 Brophy and Fisher, Organizing for War, pp. 59-67. Chart 2—Suggested Organization of Offices of Chemical Officers 
Theater of Operations 
OFFICE OF CHEMICAL OFFICER, THEATER OF OPERATIONS 
THEATER CHEMICAL OFFICER 
EXECUTIVE OFFICER 
Administration Division 
Supply Division 
Operations and Training 
Division 
Intelligence and Technical 
Division 
Ammunition 
Section 
General Supply 
Section 
FUNCTIONS 
Defense Section 
Training Section 
Research and development 
of new methods and 
processes; investigations of 
enemy chemical materiel 
and methods; chemical 
warfare intelligence 
Policy for: Depots; traffic; 
chemical filling 
establishments 
FUNCTIONS 
Policy for: Depots,- repair 
shops; traffic 
FUNCTIONS 
Offense Section 
FUNCTIONS 
FUNCTIONS 
FUNCTIONS 
Mail and records,- 
personnel; fiscal 
Gas defense plans and 
procedures; standing orders; 
decontamination 
Supervision of: Schools,- 
inspections; training 
literature 
Plans for employment of 
authorized chemical agents 
by combat chemical troops 
or troops of other arms or 
services 
FUNCTIONS 
OFFICE OF CHEMICAL OFFICER, COMMUNICATIONS ZONE 
CHEMICAL OFFICER 
COMMUNICATIONS ZONE 
EXECUTIVE OFFICER 
Administration 
Division 
Supply 
Division 
Operations and 
Training Division 
General Supply 
Section 
Transportation 
Section 
Ammunition 
Section 
SUPERVISION 
FUNCTIONS 
SUPERVISION 
Chemical Warfare Depots 
and sections of General 
Depots 
Liaison with regulating 
station and communications 
zone traffic agencies 
Chemical Warfare Depots 
FUNCTIONS 
FUNCTIONS 
Mail and records,- 
personnel; fiscal,- statistical; 
publications 
Communications Zone 
chemical defense plans; 
gas defense training of 
communications zone troops, 
chemical warfare schools,- 
training and replacement 
OFFICE OF CHEMICAL OFFICER, FIELD ARMY 
CHEMICAL OFFICER 
ARMY 
Administration 
Intelligence and 
Technical 
Operations and 
Training 
| 
Supply 
Office supervision; mail 
and records,- personnel; 
fiscal; statistical; 
publications 
FUNCTIONS 
Collection, study, and 
transmission of information 
on development of chemical 
warfare in the field, both 
technical and tactical 
FUNCTIONS 
Planning for and supervision 
of chemical operations,- 
offensive and defensive,- 
chemical warfare training; 
chemical warfare 
FUNCTIONS 
Requisitions,- depots; repair 
and filling establishments,- 
transportation; stocks of 
chemical warfare supplies 
in Army area 
FUNCTIONS 
Source; FM 3-1 5, 17 Feb 41. 30 
THE CHEMICAL WARFARE SERVICE 
war came the Chief of Staff or the ranking War Department officer 
designated by the President was to assume command of GHQ, assemble 
and train troops, and move them into a theater of operations for com- 
bat. The GHQ commander would then convert his headquarters into 
a theater headquarters, or he would designate a theater commander 
who would organize a theater headquarters. Representatives of the War 
Department administrative and supply services were to form a special 
staff for the GHQ and theater commander, and the senior representative 
of each service was to be the theater chief of his service.76 
The War Department-approved CWS field operations manual pro- 
vided that the theater chief chemical officer, "a general officer of the 
Chemical Warfare Service,” would organize and administer his own 
service and would exercise "technical control” over CWS activities 
through subordinate service and combat chemical officers. (Chart 2) 
So far these provisions recapitulated World War I experience, but there- 
after the emphasis changed to stress the role of the theater chief chemical 
officer as a representative of the War Department Chief, CWS. The 
manual indicated that the CWS organization in the United States would 
plan theater materiel requirements, set initial stockages and issues, deter- 
mine the extent of theater materiel procurement, prescribe the move- 
ment, supply, and training of officers and troops, specify utilization of 
civilian labor, approve interservice agreements, and fund theater finan- 
cial transactions.77 The GHQ CWS was to be much more closely tied to 
the War Department CWS than the CWS AEF had been. This closer tie 
was a direct outgrowth of Fries’s idea of a broad-scope, co-ordinated 
service which he had helped make possible by having a clause inserted 
in the National Defense Act of 1920 assigning the responsibility for the 
supervision and operation of chemical troops to the Chief, CWS.78 
The Administrative System 
When the United States entered World War II, the prewar plans 
had to be adapted to a multitheater war and previously unexpected 
demands for a strongly centralized Army command in Washington. 
(Map 1) The GHQ concept was abandoned and a "Washington Com- 
78 (i) Mark Skinner Watson, Chief of Staff: Prewar Platts and Preparations, UNITED STATES 
ARMY IN WORLD WAR II (Washington, 1950), pp. 2, 295-96. (2) WD FM 100-10, 9 Dec 40. 
77 WD FM 3-15, 17 Feb 41. 
78 Porter Interv, 24 Aug 61. THEATERS OF OPERATIONS 
1943 
D. Holmes, J, 
MAP 1 
289-149 0 - 68 -4 32 
THE CHEMICAL WARFARE SERVICE 
mand Post” was created within the General Staff, and through this post 
General George C. Marshall, Chief of Staff, exercised command of the 
worldwide activities of the Army. At the same time, in March 1942, 
the President and General Marshall delegated the zone of interior (ZI) 
operating functions of the War Department to three major commands, 
one each for ground, air, and service.79 Lt. Gen. Brehon B. Somervell, 
the service commander, brought the reluctant technical services, in- 
cluding the CWS, under the jurisdiction of his Services of Supply 
(SOS), later Army Service Forces (ASF). Somervell interposed his 
headquarters organization between the CWS and other operating ele- 
ments. Thus, while chemical sections were created in the ground and 
air forces commands, the formal route of communication for the Chief, 
CWS, was through Somervell’s organization. The question almost im- 
mediately arose of forming theater organizations.80 
There was little chance, in view of the subordination of the services 
to ASF and considering the command and staff doctrines which had 
reached formal statement in the period between the wars, that the 
Chief, CWS, would have any control within overseas organizations.81 
But there were still those Fries-trained officers who were unaware of or 
prepared to disavow the extent of ASF control. These officers also be- 
lieved that should command and staff doctrines be so interpreted as to 
subordinate the CWS in overseas organizations, those overseas organiza- 
tions would be forced to accommodate themselves to the unique char- 
acter of the CWS by delegating extraordinary controls and channels 
to their service.82 These officers felt that, as an absolute minimum, the 
Chemical Warfare Service would control gas warfare planning and 
chemical supply at all echelons from development in the United States 
to expenditure on the overseas firing line. The new War Department 
reorganization and the new doctrines were to lead to the establishment 
of procedures that were not in accord with CWS convictions. 
T’Ray S. Cline, 'Washington Command Post: The Operations Division, UNITED STATES ARMY IN 
WORLD WAR II (Washington, 1951), chs. VI, VII. 
80 John D. Millett, The Organization and Role of the Army Service Forces, UNITED STATES ARMY 
IN WORLD WAR II (Washington, 1954), chs. II and XII. 
81 Porter Interv, 24 Aug 61. 
“Waitt Interv, ij May 61. General Waitt, postwar Chief, U.S. Army Chemical Corps, successor 
to the CWS, counts himself among the Fries-trained officers who strongly believed in the necessity for 
a unitary CWS organization. ORIGINS OF THE CHEMICAL WARFARE SERVICE 
33 
The Logistics System 
The global logistics system of the United States was oriented to an 
"impetus from the rear” pattern.83 Global warfare and the role of the 
United States as the principal arsenal of the United Nations made it 
impractical from a War Department point of view for the World War 
II logistic impetus to come from the theater commander as it had often 
come from the theater commander in World War I. Accordingly, the 
Chief of Staff, or, more specifically, his right arm, Operations Division 
(OPD), War Department General Staff (WDGS), was the principal 
logistics authority, the allocator of resources, of the World War II 
Army. OPD served as the Army logistics policy arbiter whose duties 
included approving requirements, priorities, and plans, acting as inter- 
mediary between the theaters and the forces in the United States, and 
setting up the formulas and objectives of logistics operations. The 
Services of Supply supervised all phases of the logistics operations in the 
United States and served as the principal troubleshooter on theater 
logistics problems. OPD and other WDGS elements often referred such 
problems to ASF. The continental technical services, each in its own 
field, were responsible for the basic computation of requirements and 
for the provision of materiel. In the Chemical Warfare Service, 
troubleshooting, both formal and informal, on overseas problems was 
the province of Brig. Gen. Alden H. Waitt, Assistant Chief, CWS, for 
Field Operations.84 
The operational focus of overseas supply was the port of embarkation. 
Each major port was responsible for a theater or theaters of operations, 
processing theater requisitions, or its automatic supply, requesting ma- 
teriel from the technical services, and actually shipping approved al- 
lowances. The responsibilities of the continental technical services 
ended at the port; the port of embarkation was in charge until cargo 
cleared the harbor. Technically, the theater became accountable for 
shipments at sea, but the physical responsibilities of the theater organi- 
83 The following comments on the nature of the logistics system and theory of supply are derived 
from: (i) Richard M. Leighton and Robert W. Coakley, Global Logistics and Strategy, 1940—45, 
UNITED STATES ARMY IN WORLD WAR II (Washington, 1955), chs. IX, XIII; (2) Cline, 
Washington Command Post, chs. I, VII, XIV; (3) Logistical History of NATOUSA-MTOUSA, 30 
November 1945, compiled under the direction of Cresswell G. Blakeney, Assistant Chief of Staff, G—4, 
ch. II. 
84 (1) For discussion of requirements computation, see Brophy, Miles, and Cochrane, From Laboratory 
to Field, ch. XII. (2) For organization and functions of the Office of the Assistant Chief, CWS, for 
Operations, see Brophy and Fisher, Organizing for War, ch. V. 34 
THE CHEMICAL WARFARE SERVICE 
zation began at the port of debarkation.80 The War Department gov- 
erned supply activities of the ports of embarkation and, theoretically 
at least, those of the theaters of operations through a War Department 
provision which specified procedures for computing requirements, re- 
quisitioning, and effecting supply.86 The War Department system thus 
ordained clearly precluded any unitary control by any technical serv- 
ice, but even had the system permitted such control, the CWS would 
have been poorly prepared to take advantage of the opportunity. 
CWS resources available at the outbreak of war for the evolving 
global logistics system were slim indeed. Actual CWS supplies in po- 
tential overseas bases in the month of Pearl Harbor included 12 major 
items for gas warfare protection and decontamination and 5 major 
offensive munitions. In all, the overseas departments stocked 28 items 
from an active supply list of 34 in limited normal maintenance stocks 
or war reserves. The most important single item of antigas protective 
equipment, the service gas mask, in late 1941 was stocked overseas in 
quantities totaling 281,207.87 For offensive use in the event of necessity, 
the CWS and the Ordnance Department in 1941 in the overseas de- 
partments stored 242 tons of bulk persistent gases, 239 tons of non- 
persistent gases, a small quantity of toxic-filled artillery shell, and a 
small quantity of toxic-filled 4.2-inch chemical mortar shell. Even 
in an emergency, combat delivery of toxics on the enemy would have 
been only by air or artillery. The CWS lacked standard weapons to 
project toxics except for the 4.2-inch chemical mortar which was 
stocked in sufficient quantity to equip a battalion in Hawaii, a platoon 
in Panama, and a company in the United States.88 Consequently, de- 
spite phenomenally accelerated CWS materiel production in the United 
States, the first large-scale wartime CWS logistics experience overseas, 
80 For a discussion of CWS continental distribution, see Brophy, Miles, and Cochrane, From Laboratory 
to Field, ch. XVI. 
86 WD Memo W-700-8~42, to Oct 42, sub: Sup of Overseas Depts, Theatres, and Separate Bases. 
87 Stockages in the United States were likewise extremely limited. For example, the total mask 
stockage, including that in the continental United States, in late 1941, was 2,855,500, an amount 
almost a million less than the war-end stockage of the lightweight service mask in the European 
Theater of Operations alone. 
88 (1) Weekly Rpt for CofS, CWS Munitions on Hand as of 12 Dec 41, dated 20 Dec 41. CWS 
319.1/2249. (2) CWS Materiel Status Rpt for Overseas Theaters, Mar 45, cited in Ben Baldwin, 
Alfred J. Bingham, and Paul W. Pritchard, Readiness for Gas Warfare in Theaters of Operations, 
CMLHO draft MS. (3) Memo, Lt Col Charles C. Herrick, WPD, to Chief Opns Gp' WPD, 10 Feb 42, 
sub: Use of Toxic Gases. WPD 165-23, in OPD 165-10 through 165-24. ORIGINS OF THE CHEMICAL WARFARE SERVICE 
35 
in North Africa, involved at the outset no offensive materials and only 
one new piece of equipment, the mechanical smoke generator. 
The administrative arrangements of the CWS and the War Depart- 
ment were to be tested earlier than the logistic procedures. Before 
United States entry into World War II, the CWS had staff officers and 
units in the Philippine and Hawaiian Departments, and a CWS officer 
was on duty as assistant military attache in London. These overseas 
CWS elements played a role in the military events following the Pearl 
Harbor attack, and a CWS section was established in Australia when 
the first American troops reached that continent. But the first War 
Department effort to establish a theater SJ headquarters in its own image 
took place in England. This theater, which was to become the Euro- 
pean Theater of Operations (ETO), represented the largest overseas 
undertaking of the Army in terms of men and materials during World 
War II. In the European theater, perhaps more extensively than in 
other theaters, those CWS officers who believed in a unique and unitary 
service first tried and then modified their administrative concepts. 
89 The term theater is used in this volume to indicate any overseas area of operations of the United 
States Army. It is also used to mean the principal United States headquarters in the area under con- 
sideration. CHAPTER II 
The CWS in the European Theater 
Planning and Organization: 1940-43 
Erecting the Framework for an Overseas Command 
CWS officers in the United States followed the initiation of World 
War II in Europe with keen interest as a chance to test predictions that 
gas would become a major weapon of the war. There was no indication 
that gas was used in Hitler’s attack on Poland, but the British Govern- 
ment had begun issuing gas masks to military and civilians alike even 
before the declaration of war. Lt. Col. Charles E. Loucks, CWS, in 
June 1940 arrived in France to fill the position of assistant military at- 
tache in the American Embassy and to serve as CWS observer. With 
the fall of France shortly thereafter, Loucks was transferred to England 
in the same capacity. The most interesting development early in the 
European war from the CWS point of view was the German incendiary 
bombing of England. Loucks reported extensively on bomb types and 
effects of bombing.1 
Loucks did not become a member of the American Special Observer 
Group (SPOBS), which was organized in England prior to the United 
States entry into the war, but in February 1942 his successor as military 
attache, Col. Carl L. Marriott, was also designated Chemical Officer, 
United States Army Forces in the British Isles (USAFBI), the first 
official American command in Europe, in fact a redesignation of 
SPOBS.2 Marriott thus assumed the duties of reporting, still principally 
1 CMLHO Biographical Sketches: Maj Gen Charles E. Loucks. 
2(i) CMLHO Biographical Sketches: Col Carl L. Marriott. (2) [Henry G. Elliott] MS, The 
Predecessor Commands, SPOBS and USAFBI, pt. I of The Administrative and Logistical History of the 
ETO, Hist Div USFET, 1946, p. 239, OCMH. THE CWS IN THE EUROPEAN THEATER 
37 
reporting on incendiary bombings, and he began to oversee the chemical 
warfare protection and training of American troops. Lt. Col. Lewis 
F. Acker established a chemical section in the headquarters of U.S. 
Army V Corps, the first U.S. ground forces organization to arrive in 
the British Isles.3 
On 2 May 1942 Colonel Marriott was forced by ill health to return 
to the United States, and Col. Charles S. Shadle assumed the dual role. 
By the time of Shadle’s appointment, the duties of Chemical Officer, 
USAFBI, were demanding full time: there was not only the necessity 
of seeing to the equipment and training of increasing numbers of 
American troops but also the requirement for participating in and 
initiating administrative, supply, and operational planning for what 
was clearly to become a major overseas command. At that time, a little 
more than a month before the President’s first pronouncement on gas 
warfare, neither national nor international policy on gas warfare was 
clear. CWS officers always assumed, in absence of definite information 
to the contrary, that their first duty was to make as many defensive and 
offensive gas warfare preparations as possible. In June Col. J. Enrique 
Zanetti, CWS incendiary expert and World War I liaison officer on 
Fries’s staff, arrived to relieve Shadle of the attache position.4 Also in 
June Col. Crawford M. Kellogg, six officers, and nine enlisted men of 
the Chemical Section, Eighth Air Force, arrived in England. The Eighth 
Air Force Chemical Section had been activated along with the Eighth 
Air Force headquarters at Bolling Field in April.5 
While the chemical sections in the British Isles were organizing and 
embarking on their planning and supply duties, other organizational 
developments were taking place in the United States. The President and 
his military advisers in consultation with the British had decided to 
establish a theater of operations headquarters in England. A manual 
describing theater headquarters organization existed, but the manual 
had been written before the War Department reorganization into 
three commands with the attendant revision of organizational policy. 
Furthermore, United Nations strategists had not yet decided upon 
launching a ground offensive, so that the first mission of the American 
3 Interv, Hist Off with Col Lewis F. Acker, USAR (Ret.), 9 Jun 61. 
4 (i) CMLHO Biographical Sketches; Brig Gen Charles S. Shadle. (a) MS, CWS History, Hq SOS 
ETO (hereafter cited as CWS SOS History), n.d. (j) Waitt Interv, 13 May 61. 
6 History of the Cml Sec Eighth AF VIII AFSC for the Period 21 Apr 42 to 31 Dec 42 (hereafter 
cited as History, Cml Sec Eighth AF). CWS 314.7 Eighth AF. 38 
THE CHEMICAL WARFARE SERVICE 
theater headquarters would be co-operation with the British and super- 
vision of a materiel build-up in anticipation of a combined assault upon 
the European continent at some future date. The second mission 
would be the support of Eighth Air Force operations and the support 
of ground and service troop training and equipment. Emphasis upon 
logistics organization was clearly indicated. The War Department 
tricommand organization was not prescribed for a theater in the regu- 
lations which antedated this organization, but neither was it proscribed. 
General Marshall set about organizing a tripartite theater command, 
and, since the air element in the form of Eighth Air Force already 
existed and the ground element would not be important for the time 
being, he concentrated on that service element. Generals Marshall and 
Somervell picked Maj. Gen. John C. H. Lee to be the European theater 
SOS commander. They oversaw the organization of Lee’s headquarters 
in the United States, and they instructed Lee on Marshall’s desires con- 
cerning theater organization.6 
Marshall’s, Somervell’s, and Lee’s organization and organizational 
concepts proved important to the CWS. The manual provided that a 
theater chief chemical officer would restrict himself and his immediate 
staff to the formulation of broad policy. He would operate his service 
through technical control of subordinates. Subordinates for combat 
matters, as in the CWS AEF, were to be army, corps, and division 
chemical officers. Subordinates for service and supply matters were 
to be on the staffs of the communications zone, regulating station, and 
advance, intermediate, and base section commanders.7 (Chart 3) With 
such decentralization of operations, the immediate office of the theater 
chief chemical officer was to have only one operating division for re- 
search, development, and intelligence and a small staff. General Fries, 
working under a highly centralized policy, had needed a large staff and 
six operating divisions. The problem in the case of the European theater 
organization was that neither the World War I type of organization 
nor the manual organization seemed to apply. 
General Somervell’s ASF instructed the chiefs of the services in the 
United States to provide top-quality officers to join Lee’s staff before it 
6 Roland G. Ruppenthal, Logistical Support of the Armies, Volume I, UNITED STATES ARMY IN 
WORLD WAR II (Washington, 195}), pp. 31-38. 
7 (1) WD FM 3-15, 17 Feb 41. (2) WD FM 100-10, 9 Dec 40. (3) WD FM 3-5, 20 Jul 42. 
Previously published in draft, 1 June 1942, and in an unnumbered WD series as Chemical Warfare 
Service Field Manual, Volume I, Tactics and Technique, 1 August 1938. Chart 3—Planned Distribution of Staff and Service Agencies, Chemical 
Warfare Service, Theater of Operations 
THEATER 
COMMANDER 
Regulating 
Officer 
Theater 
Chemical Officer 
Regulating 
Station Chemical 
Officer 
Chemical Laboratory 
Company 
Chemical Impregnating 
Company 
AIR FORCE 
COMMANDER 
COMMUNICATIONS 
ZONE COMMANDER 
ARMY 
COMMANDER 
Air Force 
Chemical Officer 
Communications Zone 
Chemical Officer 
Army 
Chemical Officer 
Bomber Command 
Commander 
General Depot 
Commander 
Commanding Officers 
Chemical Depots 
Chemical Depot 
Company 
Chemical Officer 
Commanding Officer 
Chemical Section 
Chemical Depot 
Companies 
Chemical Maintenance 
Company 
Bomber Wing 
Commander 
Chemical Officer 
Advance Section 
Commander 
Chemical Decon- 
tamination Company 
Fighter Command 
Commander 
Chemical Officer 
Chemical Composite 
(Service) Company 
Chemical Officer 
Intermediate Section 
Commander 
Fighter Wing 
Commander 
Chemical Officer 
Corps 
Commander 
Chemical Officer 
Base Section 
Commander 
Chemical Officer 
Air Support Command 
Commander 
Division 
Commander 
Chemical Officer 
Chemical Officer 
Bomber Wing 
Commander 
Chemical Depot 
Companies 
Chemical Officer 
Chemical Officer 
Chemical Mainte- 
nance Companies 
Air Service Command 
Commander 
Chemical Composite 
(Service) Companies 
Air Depot Group 
Commander 
Chemical Officer 
Chemical Decontam- 
ination Companies 
Commanding Officer 
Chemical Section 
Chemical Smoke 
Generator Companies 
Air Service Group 
Commander 
Chemical Officer 
Chemical Air 
Operations Company 
Chemical Air 
Company, Aviation 
Chemical Air Main- 
tenance Company 
Source: Adapted from; FM 3-15, 17 Feb 41 and C2, 6 May 43, 40 
THE CHEMICAL WARFARE SERVICE 
left to go overseas. General Porter, under the assumption that he was 
appointing a theater chief chemical officer, chose Col. Edward Mont- 
gomery, one of the four Regular Army colonels in the appropriate age 
group within the CWS, to head the group. Montgomery’s deputy, Col. 
Lowell A. Elliott, and three of his division chiefs, Cols. Hugh W. 
Rowan, John C. MacArthur, and Edwin C. Maling, were top-ranking 
Regular Army lieutenant colonels then recently promoted to tem- 
porary colonel. These officers, several junior officers, and a number of 
enlisted men joined Lee’s headquarters at Indiantown Gap Military 
Reservation to await transportation to England.8 
General Lee and a small advance echelon of his headquarters arrived 
in London on 24 May 1942 and immediately set to work activating the 
SOS USAFBI. Lee just as immediately ran into a storm. The USAFBI 
staff was adamantly opposed to Lee’s planned subordination of the 
theater service chiefs to the SOS commander since that subordination 
implied exactly what the War Department intended—SOS control of 
theater service and supply policy. After much discussion and reviewing 
of directives, the first of many compromises on theater organization 
was reached in June closely following the redesignation of USAFBI as 
the European Theater of Operations, United States Army (ETOUSA). 
In this compromise the chemical warfare and ten other theater special 
staff sections were given over to the control of Lee’s SOS while re- 
taining their titles as theater special staff sections. Colonel Mont- 
gomery, who arrived in June, was designated chief chemical warfare 
officer and a member of the theater special staff. The SOS headquarters 
and the offices of the theater service chiefs were moved from London 
ninety miles to Cheltenham. The theater headquarters, now com- 
manded by Lt. Gen. Dwight D. Eisenhower, remained in London. 
Shadle was named CWS representative at Headquarters, ETOUSA, 
and given two officer assistants. Shadle’s position, reminiscent of the 
position of CWS AEF representative at GHQ, was established in ac- 
cordance with the basic theater organizational directive which pro- 
vided for a service representative when the theater chief of service was 
not located at theater headquarters.9 
Still, from the CWS point of view, the situation was not a happy one. 
If Montgomery was to be represented in, rather than resident in, theater 
s (i) Porter Interv, 24 Aug 61. (2) CWS SOS History. 
B (1) Ruppenthal, Logistical Support, I, 37-39. (2) CWS SOS History. THE CWS IN THE EUROPEAN THEATER 
41 
headquarters, the CWS preparedness and advisory mission could only 
be properly performed if he had a large, strong operational staff such as 
Fries had had at Tours. The prospects of getting such a staff at Chelten- 
ham were dim since Cheltenham was intended to be a service and supply 
headquarters only. Montgomery consequently spent much of his time 
in the London echelon of SOS while Elliott proceeded to Cheltenham in 
the dual role of deputy and temporary chief of the Supply Division. In 
Cheltenham, Capt. Warren S. LeRoy, Acting Chief, Storage and Issue 
Section, Supply Division, at once resumed work on storage and issue 
procedures for chemical supplies which he and the OCCWS (Office of 
the Chief, Chemical Warfare Service) staff had begun in the United 
States. Maj. Maurice H. Wright activated the Procurement Section, 
Supply Division, while Maj, John J. Hayes set up a Requirements Divi- 
sion. Rowan and MacArthur reported to Cheltenham early in July. 
Rowan set up the Technical Division while MacArthur established the 
Operations and Training Division, but for several weeks both officers 
were confined to planning and background work since their activities 
were inappropriate to the work of the Cheltenham command and since 
they had no assistants and very little equipment.10 
By the end of July Montgomery was able to bring about some im- 
provement in the maladjusted organizational distribution. He secured 
the transfer of Rowan’s Technical Division and Wright’s Procurement 
Section to the London echelon of SOS. The Technical Division was 
charged with liaison concerning all technical matters both with the 
British and with headquarters other than the SOS, and Wright was 
given the additional duty of liaison with the British on lend-lease mat- 
ters. In both cases, location in Cheltenham would have greatly com- 
plicated communications and the discharge of normal functions.11 
Rowan set up his London office at the end of the first week in August 
with two officer assistants. Wright was allotted one assistant. Approxi- 
mately two weeks later Shadle was designated Chief Chemical Officer, 
Allied Force Headquarters (AFHQ), a position at least in theory 
superior to that of theater chemical officer. AFHQ, a combined su- 
preme headquarters, was preparing for the North African invasion. 
10 (i) CWS SOS History. (2) Persona! Ltr, Col Rowan to Col William C. Kabrich, Chief, Tech 
Serv OCCWS, 8 Sep 42. CWS 314.7 Pers Files, ETO. Unless otherwise noted, all personal letters 
relating to the European theater cited hereafter are from this file (see Bibliographical Note). (3) 
Comments on draft of this volume, Col Lowell A. Elliott, USA (Ret.), 16 Jan 61. 
11 Personal Ltr cited in n. 10 (2), above. 42 
THE CHEMICAL WARFARE SERVICE 
MacArthur moved in as his replacement and took over supervision 
of the chemical warfare exercises for which planning, in co-ordination 
with British chemical warfare authorities, was virtually complete. 
Since MacArthur was Montgomery’s planning officer and his training 
policy chief, MacArthur’s move to London completed the physical 
transfer of all chemical warfare policy, technical, advisory, and liaison 
functions to theater headquarters while organizationally all but Mac- 
Arthur remained in the SOS.12 
Also in August 1942 the operating elements of the CWS began to 
sort themselves out. Col. Leonard M. Johnson arrived in Cheltenham to 
become Chief, Supply Division. Although few CWS supplies were 
arriving in England, the Supply Division was already working on stor- 
age and distribution measures. At about the same time, Colonel Maling, 
his four officers and five enlisted men, began the establishment of the 
CWS training operations within the newly authorized American School 
Center at Shrivenham. The CWS had hoped and planned to establish its 
own school but had been obliged to participate in the centralization of 
theater training activities. Centralization did offer advantages of better 
facilities and equipment and better handling of admissions than a single 
service could manage.13 Kellogg, meanwhile, had distributed his ten 
Eighth Air Force chemical officers among three chemical sections— 
one, to control supply and training branches in the Eighth Air Force 
headquarters, another, to direct supply operations in the VIII Air 
Force Service Command (AFSC), and a third, to supervise ground 
service and training in the VIII Bomber Command. While these sec- 
tions were in the process of organization, Kellogg and his staff worked 
on a revision of the war gas supply plan which had been formulated by 
his section in the United States. Since, even in this early period, both 
the War Department and the forces in the theater had accepted the 
policy that any gas warfare retaliatory or offensive effort would be 
the operating responsibility of the air forces, the Eighth Air Force toxic 
supply plan was crucial to the gas warfare potential of the CWS 
ETO.14 It then appeared that the CWS ETO pattern was set, and the 
pattern followed neither the World War I precedent nor the prescrip- 
tions of regulations. Whether the CWS ETO could accomplish its 
12 CWS SOS History. 
1S Ibid. 
M History, Cml Sec Eighth AF. THE CWS IN THE EUROPEAN THEATER 
43 
mission through the use of this pattern remained to be seen. The first 
test soon came when England became a base for the North African 
invasion (Torch operation) for which the European theater provided 
logistical support. Largely as a result of providing officers and men for 
Torch, CWS ETO experienced sweeping staff changes. 
Colonel Montgomery was recalled to the United States for special 
duty in September 1942. Elliott was appointed to establish a chemical 
section for the forming Twelfth Air Force headquarters, destined for 
North Africa, and Maling was attached to the AFHQ planning staff 
in a nonchemical capacity. One lieutenant colonel, six majors, and 
three captains from the London and Cheltenham CWS elements soon 
joined the North African forces. Kellogg was the senior CWS officer 
remaining with European theater forces, but Rowan, senior CWS officer 
in the SOS, succeeded Montgomery in acting capacity.1'" Elliott’s duties 
as deputy were divided between Johnson in Cheltenham and Mac- 
Arthur in London. Maling’s post at Shrivenham went to a succession of 
junior officers.16 
By mid-September Torch was not only creating a constant drain 
on manpower, but it was also demanding materiel, support for opera- 
tional planning, and readiness inspection. At the same time, the base 
sections, local supply and service organizations, were organizing in the 
United Kingdom, and supply and service installations were being acti- 
vated as rapidly as possible. Furthermore, although the materiel and 
troop build-up in England had been brought virtually to a standstill 
in deference to the North African venture, operational and informa- 
tional demands in the theater were growing apace. Theater officers re- 
garded the strategic hiatus with respect to ETOUSA as only temporary, 
and they continued to believe that the prime task in the United King- 
dom was to prepare for eventual assault on the Continent. To meet an 
important CWS need for intelligence information, the CWS arranged 
for Colonel Zanetti, assistant military attache, to become in effect chief 
of an intelligence division. Capt. Philip R. Tarr and two other officers 
were transferred from Cheltenham to London on 19 September 1942 
to assist Zanetti. One of Maling’s successors at the American School 
16 While the manual provided that the senior CWS officer in the theater would be chief of service 
(see above, p. 30) and while Montgomery’s seniority had been a factor in his appointment, the seniority 
principle did not consistently apply during World War II. Still, Kellogg could probably have secured 
the appointment had he desired it. Waitt Interv, 13 May 61. 
19 CWS SOS History. THE CHEMICAL WARFARE SERVICE 
44 
Center and a Supply Division section chief moved out to establish 
chemical sections in two newly activated base sections. Maj. Frederick 
E. Powell, another section chief, and seven company-grade officers 
went from Supply Division to establish chemical sections in general 
depots and chemical branch depots. Since three other Supply Division 
section chiefs had gone to the Torch forces, newly arrived lieutenants 
filled most supply division staff positions.17 
First Ke organization 
On 9 November 1942 the War Department notified the theater 
headquarters that Colonel Montgomery, who had been appointed 
chemical officer in the War Department Air Forces Headquarters, 
would not be returning to the European theater. The theater com- 
mander appointed Colonel Rowan chief chemical warfare officer and 
assigned him to theater headquarters in London. Thus, Rowan officially 
became resident at theater headquarters and the position of CWS repre- 
sentative was automatically abolished. Rowan appointed MacArthur 
his deputy and executive officer.18 While General Porter had not had 
a hand in Rowan’s appointment, he was well satisfied with it.19 Rowan’s 
qualifications were good. At 48, he was a year younger than the average 
age of the ETO technical services chiefs. He held the same permanent 
rank, lieutenant colonel, as all but one of his peers. At the time of his 
appointment he held the same temporary rank as three of the service 
chiefs—the four others having attained general officer rank. Like most 
other senior CWS officers, Rowan had World War I experience, as as- 
sistant gas officer and gas officer of the division in which General Lee 
had been chief of staff. He was a chemist, a graduate of Yale Univer- 
sity, the Chemical Warfare School, and the Army Industrial College. 
Early in his Army career, Rowan had been marked as an expert on in- 
dustrial mobilization in the chemical field, and he had served several 
tours, including one in the Office of the Assistant Secretary of War, in 
positions relating to that specialty. He had also had assignments in 
war planning, in chemical technical work, and in troop training, and 
17 (i) Ibid. (2) History, Sup Div CWS Hq SOS ETOUSA (hereafter cited as History, Sup Div, 
42—43). ETO Admin j4jACml Warfare. 
18 CWS SOS History. 
19 Porter Interv, 24 Aug 61. THE CWS IN THE EUROPEAN THEATER 
45 
he had served a 4-year tour as assistant military attache in Berlin at the 
beginning of the Nazi period.20 
A week after Rowan’s appointment ETOUSA clarified and regu- 
larized the status of the theater CWS. ETOUSA assigned specific 
duties and functions to the CWS office at Cheltenham under the con- 
trol of SOS. These included supervision of all CWS supply activities 
across the board from requirements, purchasing, and manufacture 
through storage and issue and maintenance and repair to transportation 
and shipping as well as supervision of CW training for SOS troops, and 
CWS administration within SOS.21 The specification of duties at 
Cheltenham and the additional provision that he could transfer per- 
sonnel needed in his theater headquarters office to provide planning, 
policy, training, technical, and intelligence services from Cheltenham 
or the London SOS offices, left Rowan free to organize his office as the 
situated dictated. On 18 November he submitted his proposals to G-3, 
ETOUSA, and on 23 November published the approved pattern in 
Office of the Chief Chemical Warfare Officer, ETOUSA, Office Order 
No. 1. Mac Arthur officially resumed the post of Chief, Operations and 
Training Division, which in fact he had never left, in addition to his 
duties as executive officer and deputy. Lt. Col, Walter M. Scott’s po- 
sition as Chief, Technical Division, was affirmed, and he was given 
supervision of a liaison officer who had been stationed at the British 
chemical warfare experimental center at Porton. Rowan named Maj. 
Roy LeCraw to head a new Administrative Division. Captain Tarr, 1 
officer, and 2 civilian clerks were to form an Intelligence Section, pri- 
marily an office of record since Colonel Zanetti continued to handle 
intelligence, within the Administrative Division. The total complement 
of Rowan’s theater headquarters office, besides himself, was 12 officers, 
5 enlisted men, and 5 civilians.22 
The November 1942 reorganization of the CWS ETOUSA produced 
an organization similar to the one suggested in the manual for the 
office of a theater chemical officer. The situation of the CWS and the 
theater itself was not a "book” situation. The theater was active 
logistically but its strategic destination was more in doubt than it had 
30 (i) CMLHO Biographical Sketches: Brig Gen Hugh W. Rowan. (2) Ruppenthal, Logistical 
Support, I, 1-10. 
21ETOUSA GO J9. 16 Nov 42. 
22 (1) OCCWO ETO Off Order 1, 23 Nov 42. ETO Admin 544 Cml Warfare. (2) CWS SOS 
History. 46 
THE CHEMICAL WARFARE SERVICE 
been before the North African invasion. The lines of the theater 
commands were not clear and no chief of service could be positive 
about the precise character and scope of his service’s mission. In 
Rowan’s case, one element of his office, his Supply Division, was located 
ninety miles away from him under the jurisdiction of a command 
which might be considered an SOS field organization. A "book” 
solution to these problems of communications, relationships, and super- 
vision within the CWS ETO would have been to designate the Supply 
Division as a communications zone chemical section, but when the 
SOS command at Cheltenham decided upon this action it served only 
to further confuse the issue of mission and supervision. Neither 
Rowan’s London office nor the Cheltenham branch was prepared to 
operate as a separate entity under the prevailing theater pattern. 
On 18 October 1942 when Supply Division absorbed Requirements 
Division, Colonel Johnson supervised eleven CWS officers and twenty- 
two enlisted men in Cheltenham. He also supervised the procurement 
and reverse lend-lease activities of Major Wright and his assistant in 
London. Support of the North African operation and activation of 
a logistics system in the United Kingdom kept this staff fully 
occupied.23 After the reorganization of Rowan’s London office and 
just before Johnson’s transfer to the North African forces, the 
Cheltenham SOS headquarters designated Johnson as Montgomery’s 
successor as Chief Chemical Warfare Officer, SOS, and renamed the 
CWS Supply Division as the SOS Chemical Warfare Section.24 Johnson 
took the position that the SOS order was meaningless. Rowan was 
clearly Montgomery’s successor, and he considered himself as Rowan’s 
assistant. He furthermore lacked the staff and the authority in the 
field to establish a communications zone (SOS) chemical section. 
While his office had the operating functions of determining materiel 
requirements, preparing requisitions on the United States, and directing 
distribution of chemical supplies within the theater, its functions were 
more nearly those of a supply policy division in the office of a theater 
chief chemical officer than they were the functions of a theater supply 
and distribution command chemical section. Also, if Johnson had 
attempted to establish a communications zone chemical section, he 
would have deprived Rowan of the direct control of chemical supply 
“History, Sup Div, 42-43. 
2i SOS ETO GO 80, 10 Dec 42. THE CWS IN THE EUROPEAN THEATER 
47 
since Rowan had no supply policy element in his London office.25 
The only outcome of the SOS order was the establishment of the 
largely inactive Cheltenham element of the CWS Operations and 
Training Division as the Training Branch, Supply Division. A lieu- 
tenant was assigned to head the Training Branch and he was allotted 
one part-time adviser and one part-time assistant. The branch was 
assigned the function of supervising chemical training within SOS 
ETOUSA.26 
Major LeRoy, who succeeded to the position of SOS chemical war- 
fare officer when Johnson was designated Chemical Officer, Mediter- 
ranean Base Section, North African Theater of Operations (NATO), 
in December, made no change in policy. Indeed, LeRoy experienced 
enough difficulty in staffing Supply Division without trying to extend 
the scope of his activities. He was the only field-grade CWS officer 
left in Cheltenham, and he had no captains on his immediate staff of 
fourteen officers. His executive officer, Lt. Arthur T. Hingle, also 
served as Chief, Statistical Section. Lt. Ingalls S. Bradley headed both 
the Operations and Service Sections while another lieutenant was 
Chief, Processing Section, and assistant in the Service Section. LeRoy 
did not staff prescribed subsections for salvage, maintenance, impreg- 
nating, and filling plants in order to concentrate manpower in the 
requirements, control, transportation, and issue areas.27 Such concen- 
tration of effort was demanded in order to meet the needs of the North 
African forces, but late in 1942 and early in 1943 when chemical 
supply requirements for North Africa were increasingly met by direct 
shipment from the United States, the need for concentration in the 
same areas did not lessen because now the task of top priority was 
preparing the European theater for gas warfare. The first question 
raised in connection with theater gas warfare preparedness was that 
of the requirement for chemical offensive and defensive materials and 
service troops. Once requirements had been estimated, it was necessary 
to plan storage and distribution within the theater. 
25 Interv, Hist Off with Col Leonard M. Johnson, USA (Ret.), 18 Aug 59. 
28 History of the Tng Div CWS Hq SOS ETOUSA, 27 Jul 42-31 Dec 43 (hereafter cited as History, 
Tng Div SOS). ETO Admin 545A Cml Warfare. 
27 (1) History, Sup Div, 42-43. (2) CWS SOS ETO Memo 19, 20 Dec 42, sub: Assignment of 
Pets. SOSCW 200.3 (l9 Sep 42)SD, in ETO Admin 543 A Cml Warfare. 
289-149 0-68—5 48 
THE CHEMICAL WARFARE SERVICE 
Gas Warfare Planning 
Rowan’s staff had completed most of the basic work on a compre- 
hensive gas warfare plan for the European theater before the War 
Department letter requiring such a plan was received.28 Kellogg and 
his staff had prepared air force supply and storage estimates for the 
offensive portion of the plan. Late in 1942 LeRoy took a draft of the 
ETO plan to Washington where he discussed it in detail with General 
Porter’s staff and exchanged information on theater and stateside 
preparations. Later OCCWS referred the draft plan to the chemical 
liaison officer on the OPD staff.29 But since the ETO plan was predi- 
cated on the vast expansion of the theater for a continental invasion, 
as yet uncertain, it could only be brought to an indefinite conclusion. 
Policy and strategy were in the making. The Allied leaders decided 
at the January Casablanca Conference to revive the build-up in the 
United Kingdom and took a number of actions during 1943 to flesh 
out that decision.30 In November 1942 the Combined Chiefs of Staff 
had briefly turned their attention to gas warfare and now an Allied 
as well as a United States policy was emerging. This policy required: 
(1) a co-operative American and British effort aimed at arranging 
the defensive preparedness of all United Nations troops; and (2) the 
accumulation of sufficient toxic munitions to make immediate retalia- 
tion possible should the enemy initiate gas warfare anywhere in the 
world.31 
The Second Reorganization 
In connection with the determination of Allied policy on chemical 
warfare and in order to evaluate the status of chemical warfare pre- 
paredness among American troops, General Porter and Brig. Gen. 
Charles E. Loucks of his staff journeyed to England in March of 1943, 
and from there went on to North Africa. Loucks, writing his own 
88 Ltr, TAG to CG ETOUSA et al., 19 Dec 42, sub: Theater Plans for Cml Warfare. AG 381 
(12-18-42) OB-S-E-M. 
28 Draft Plan, Hq ETO, Jan 43, sub: Theater Plans for Cml Warfare (noted: "by hand from 
Major LeRoy”), with cover Memo, CCWS to Maj F. G. Schmitt, WDGS, 5 May 43, sub: Tentative 
ETO Plan. CWS SPCVO 381, ETO. 
80 Ruppenthal, Logistical Support, I, ch. III. 
81 See Brophy and Fisher, Organizing for War, ch. IV. THE CWS IN THE EUROPEAN THEATER 
49 
General Porter and Top-Ranking Chemical Officers in London, 1943. 
(Left to right) General Porter, General Loucks, Colonel Kellogg, Colonel 
Rowan, Colonel Mac Arthur, and Colonel Zanetti. 
and Porter’s impressions, advised OCCWS on several European theater 
problems and developments. The two officers found that the ETO had 
enough supplies for the force then in the theater, but they considered 
some of the items from the United States poor in quality.52 The theater 
organization situation, they believed, was unsatisfactory. It appeared 
to them that "the Commanding General, Army Service Forces in 
Great Britain [sic] is entirely independent of the Commanding Gen- 
eral, European Theater of Operations. The latter is dependent on the 
former for the supply but does not function as his superior.”33 
Officially, the theater commander, now Lt. Gen. Frank M. Andrews, 
certainly functioned as General Lee’s superior, but Loucks’s words were 
probably intended to describe the de facto rather than the de jure 
32 Ibid., pp. ioo—ioi. 
“Ltr, Gen Loucks to All Concerned [OCCWS], 23 Apr 43, sub: Inspection of Cml Warfare Ac- 
tivities in Great Britain. CWS SPCWS 319.1 (Cml Warfare Activities in Great Britain). 50 
THE CHEMICAL WARFARE SERVICE 
situation with respect to the CWS. The import of these remarks was 
that Rowan, despite his official status as theater chief chemical warfare 
officer, could in fact work only through Lee under whose jurisdiction 
his office fell. Consequently, he had no direct channel of communica- 
tion and authority through which he might, in the words of the manual, 
exercise "general technical supervision over his service as a whole.” 34 
Such supervision was vital. Although the European theater was active 
at the time only in the air war, the greatest threat of gas warfare 
initiation was posed by the known German industrial chemical poten- 
tial. The heavy concentration of American and British strength in 
the United Kingdom and the proposed build-up of men and materials 
there presented to the Germans excellent targets for vesicant gases. 
Germany was unlikely to launch a gas attack on the United Kingdom 
since she had not done so in the great blitz bombings of 1940—41 and 
since she would fear retaliation. But no chances should be taken, from 
the CWS point of view, by failing to build up a retaliatory potential. 
Developing such a potential, laying the defensive and offensive plans, 
and co-ordinating CWS operations in the theater demanded that 
Rowan have some direct channel through which to operate. 
Porter’s solution for the organizational impasse was to suggest that 
"the officer occupying the position of chemical officer for the theater 
commander” take the initiative in securing the co-operation and co- 
ordination of all the principal chemical officers in the theater. In other 
words, he proposed using the informal channels of personal and tech- 
nical correspondence and communication among officers of the same 
service, known as technical channels, in place of formal command 
channels. Porter further suggested that he would personally elicit such 
co-operation. It is interesting to note that Loucks did not refer to 
the theater chief chemical warfare officer nor to the chief of service. 
In a listing of personnel, he cited Rowan as "Chemical Officer, Army 
Service Forces” and "for the present . . . also the staff chemical officer 
for the European Theater of Operations.” 30 
Clearly, while Porter and Loucks accepted Rowan as theater chief 
chemical officer, they were not prepared to acknowledge that there 
was a theater chief of the CWS. Rowan was, as he had been from the 
previous November, Chief Chemical Warfare Officer, ETOUSA. In 
** FM ioo-io, 9 Dec 40. 
85 Ltr, Loucks to [OCCWS], 23 Apr 43. THE CWS IN THE EUROPEAN THEATER 
51 
the same month of Porter’s visit, the theater commander ordered SOS 
headquarters back from Cheltenham. He relocated the service chiefs 
in SOS.36 The fiction of a separate chemical section in Cheltenham 
was thereby dropped, and Rowan officially became Chemical Officer, 
SOS ETOUSA. Neither of these positions fitted the manual definition 
of the chief of service nor did they compare to the positions which 
Fries had held. Rowan, accepting Porter’s advice, decided to make 
his position as theater chief chemical officer equivalent to that of chief 
salesman for such services and supplies as the CWS could contribute 
to the war effort in the theater. He found it necessary to employ his 
own prestige and ability to persuade commanders that it was in their 
best interest to be prepared against gas warfare, and to use smoke, 
flame, and chemical mortars. Porter was right in his observation that 
Rowan did not have the usual channels of a theater staff officer; 
Rowan could seldom speak with the authority of the theater com- 
mander as Fries had done.3' Indeed, he could sometimes not speak with 
the authority of his other and more immediate commander, General 
Lee. Lee, for example did not authorize his chiefs of service to operate 
within his field commands, the base sections, chiefly because base 
section commanders complained that the service chiefs interfered in 
their command procedures.38 The service chiefs did most of their 
volume business, supply, through the base sections and were therefore 
required to control a part of the operation. Rowan solved this problem 
by using technical channels to base section chemical officers and by 
frequently meeting with these officers to resolve CWS difficulties.39 
The looseness of control within the theater organization and within 
the SOS which created so many problems for the technical services 
and particularly for the CWS was by no means peculiar to the Euro- 
pean theater. Under the principle of "unity of command” General 
Marshall advocated placing theater and supreme commanders in a 
position of controlling all forces in their area. Probably as an extension 
of this principle he gave the theater and supreme commanders broad 
36 Ruppenthal, Logistical Support, I, 160-63. 
87 Rowan Interv, 28 Sep 58. 
38 Ruppenthal, Logistical Support, I, 168-71. 
89 Ltr, Col Ferris U. Foster, USAR, to Hist Off, ij Oct 59. Colonel Foster was Chemical Officer. 
Southern Base Section, in the United Kingdom. 52 
THE CHEMICAL WARFARE SERVICE 
discretionary powers.40 Perhaps as an extension of the delegation con- 
cept or perhaps as simply a reaffirmation of the normal staff and com- 
mand doctrine propounded in the period between the wars, theater 
and subordinate commanders tended to de-emphasize the operating 
and co-ordinating functions that members of their special staffs could 
perform for their own services. Dual exercise of staff and command 
functions, as permitted by regulations,41 became virtually unknown, 
at least in the CWS. As logical and necessary as was the emphasis on 
command authority and control, it did not make any easier the opera- 
tion and control of a service which fitted neither into staff nor com- 
mand lines. Fries had found it necessary to be a salesman in 1918, but, 
since he controlled CWS staff officers down to the division level, he 
had a better means than Rowan, two decades later, of conducting his 
sales campaign.42 Rowan perforce substituted liaison between his 
office and the chemical and command elements of the various theater 
commands for control of his chemical subordinates as a means of 
selling chemical warfare munitions and services.43 
Rowan’s problems were many in molding his staff to constant liaison 
with the British, with the ground and air forces, and with the zone 
of interior. In addition he possessed SOS supply and liaison duties which 
would normally have devolved upon a communications zone chemical 
officer. He still lacked officers in sufficient numbers and with sufficient 
rank to handle all liaison and operating duties. 
The April Re organization 
When General Porter left the theater, Rowan asked him to carry 
back to Washington a list of proposals for less hurried consideration. 
40 (i) Forrest C. Pogue, The Supreme Command, UNITED STATES ARMY IN WORLD WAR II 
(Washington, 1954), pp. 41-42. (2) Maurice Matloff and Edwin M. Snell, Strategic Planning for 
Coalition Warfare, 1941-1942, UNITED STATES ARMY IN WORLD WAR II (Washington, 1953), 
pp. 123-24, 196-97, 262-63. (3) Maurice Matloff, Strategic Planning for Coalition Warfare, 194}- 
1944, UNITED STATES ARMY IN WORLD WAR II (Washington, 1959), pp. 102-05. (4) Cline, 
Operations Division, pp. 21—22, 161-62, 184, 293-94. 
41 WD EM 101-5, 19 Aug 40. 
42 See above, ch. I. 
43 Some CWS officers objected to the point of view that declared "selling” necessary and objected 
to the use of the term selling. These officers believed that the relationship of each CWS special staff 
officer to his commander was the only important relationship so far as the CWS was concerned. It was 
the duty of each special staff officer to suggest the employment of CWS munitions and units to 
his commander when appropriate. No control within the CWS was required, from their point of 
view, as long as technical information could be disseminated through technical channels. (Col Mac- 
Arthur, Comments on draft of this volume, 10 Apr 61.) THE CWS IN THE EUROPEAN THEATER 
53 
These proposals related to Rowan’s desire to increase the strength and 
prestige of his immediate office in order better to perform both liaison 
and operating functions. Foremost on this list was a request for the 
return of Colonel Johnson from the North African theater or the 
dispatch of a well-qualified lieutenant colonel to head his Supply 
Division. Rowan also asked for four or five majors, high-ranking 
captains, or low-ranking lieutenant colonels with staff experience and 
training. He further asked that Col. James H. Defandorf and an 
officer assistant, who had recently been assigned to his office to work 
on medical liaison and the new, and then secret, work on defense 
against biological warfare, not be charged against his allotment since 
their work was on a special project basis and since he desperately needed 
the spaces.44 The request for Johnson or a substitute was not intended 
to disparage Major LeRoy whom Rowan later called "my very best 
supply officer,” but it was intended to point up the fact that LeRoy 
was still the only field-grade supply officer available and that the 
important supply operation needed more rank and prestige.45 The 
request for majors, captains, or lieutenant colonels was necessary be- 
cause the CWS needed field-grade officers for staff positions, but the 
space allotment was such that Rowan could not risk taking a full 
colonel or a lieutenant colonel about to be promoted.46 
Porter’s reply to Rowan’s requests demonstrates that Rowan did not 
yet realize how weak the ties between the theater CWS and its parent 
service had become with the growing strength of ASF, OPD, and the 
theater organizations. Porter pointed out that the matter of Johnson’s 
transfer from the North African to the European theater was out of 
his hands: it could only be handled officially by intertheater request. 
Porter could and did attempt to smooth this process by asking a 
chemical officer in North Africa to intercede in favor of the transfer, 
but nothing came of this attempt. On the matter of Colonel Defan- 
dorf’s status and on that of securing additional staff officers for Rowan, 
Porter’s hands were equally tied since the status of officers within the 
theater as well as requests for additional personnel were considered to 
be within the province of the theater commander. Porter agreed to 
evaluate qualifications of officers to be sent upon receipt of the official 
44 Memo [Rowan for Porter], n.d., sub: Things for General Porter’s Attention Upon His Return 
to the U.S. CWS 314.7 Personal Ltr Files. 
4o Personal Ltr, Rowan to Gen Waitt, ACCWS for Field Opns, 22 Jul 43. 
46Personal Ltr, Rowan to Gen Porter, CCWS, 22 Jul 43. THE CHEMICAL WARFARE SERVICE 
54 
request, but even in this there was a strictly limiting factor—officers 
with staff experience were hard to find in 1943.47 It began to appear 
that the solutions for staffing and prestige problems must be found in 
the European theater. 
In April 1943 Rowan reorganized his own office to reflect the 
expanding responsibilities of the CWS ETO and for better liaison. He 
took the Intelligence Section from the Administration Division and 
made it a division with Maj. Philip R. Tarr, recently promoted, as 
chief. The creation of a new division was no duplication of Colonel 
Zanetti’s efforts. Zanetti specialized in strategic intelligence and in- 
telligence liaison with the British and with the continental United 
States while Tarr assumed the growing burden of chemical tactical 
intelligence, which also involved liaison with the British but at a 
different level. The Intelligence Division continued to process attache 
reports for Colonel Zanetti.48 Lt. Col. Maurice H. Wright, also recently 
promoted, headed a new Supply Liaison Division whose chief function 
was to effect co-ordination between London, where broad supply policy 
was determined in the Operations and Training Division, and Chelten- 
ham, where direction of all requirements and supply operations 
remained. Wright’s procurement and reciprocal-aid duties were dele- 
gated to an assistant with the title of branch chief. The Administration 
Division, now headed by Lt. Col. Chester O. Blackburn, included three 
office service branches and one branch to handle personnel for the 
CWS as a whole. The Technical Division, with its important liaison 
functions, was assigned more higher ranking officers than the other 
divisions: Colonel Scott remained as chief; Colonel Defandorf headed 
the Special Projects Branch; Lt. Col. Melville F. Perkins handled liaison 
with Porton, the British chemical research establishment, and the CWS 
Laboratory, for which a chemical laboratory company had not yet 
been received; Lt. Col. Thomas H. Magness, Jr., was in charge of 
Offensive Munitions Branch while a captain headed the Defensive 
Munitions Branch. In Operations and Training Branch, Colonel 
Mac Arthur had a Training Branch headed by a lieutenant colonel, 
who was also his executive officer, an Equipment Branch, and a Plans 
Branch.49 
47 Personal Ltr, Porter to Rowan, j Jun 45. 
48 (1) History, CWS SOS. (2) Ltr, Col J. Enrique Zanetti, CmlC, USAR (Ret.), to Hist Off, 
2 6 Jun 60. 
49 (1) OCCWO ETO Off Order 5, 22 Apr 43. (2) OCCWO ETO Off Order 7, 12 May 43. 
Both in ETO Admin 544 Cml Warfare. THE CWS IN THE EUROPEAN THEATER 
55 
LeRoy, now a lieutenant colonel, had 20 officers in his Supply 
Division, but he still lacked field-grade assistants. His Executive 
Officer and Chief, Statistical (requirements and control) Branch, and 
his Operations Branch chief had been promoted to captain along with 
the Transportation and Issue Section chief. The Processing (formerly 
Impregnating) and Training Branches were still one-man branches 
while the Service Branch had a chief and an assistant. One-man 
branches were common in the London office where five branches were 
wholly unstaffed. The London office was assigned 22 officers, three of 
whom were on duty with the Administrative Branch of the Adminis- 
tration Division at Cheltenham. In all, Rowan had 41 officers, 28 
enlisted men, and 16 civilians.1'0 While 14 officers had been added since 
the previous fall and while section prestige had increased, mostly 
through promotions, both members and prestige were still low in rela- 
tion to the tremendous expansion in theater activities contemplated 
in the year before the D-day target, which was established in May. 
Rowan had a personal prestige problem in that the other technical 
service chiefs had all been advanced to general officer grade. 
The First Gas Warfare Plan 
An example of the contemplated expansion of theater activities was 
the issuance, also in April 1943, of the first theater gas warfare plan. 
Enough strategic information had become available by that time to 
complete the draft plan of the previous December. The final plan, 
personally signed by General Andrews, called for an eight months’ 
supply of aircraft gas munitions and a four months’ supply of ground 
gas munitions. The theater requested, in the event of gas warfare, at 
least 2 chemical combat battalions per corps, 40 air chemical service 
and supply units, 30 ground chemical service and supply units plus 
5 smoke generator companies for ground service, and 23 SOS service 
and supply units plus 5 smoke generator companies for the communi- 
cations zone. It also requested 3 base section staffs totaling 9 officers 
and 30 enlisted men, 75 officers and 150 enlisted men for depot admin- 
istration, and an SOS headquarters staff of 93 officers and 339 enlisted 
men. Pointed out in the plan was the fact that the theater was then 
“OCCTO ETO Off Order 5, 22 Apr 43. ETO Admin 544 Cml Warfare. 56 
THE CHEMICAL WARFARE SERVICE 
capable only of passive defense and individual protection against gas 
warfare.51 
The theater and air forces chemical sections modified the plan’s 
supply and troop build-up schedule to make it accord with the current 
theater build-up level and the nongas warfare situation. They then 
submitted requisitions against the modified schedule, but while cargo 
flow began to increase, needed supplies, especially toxic munitions, 
were not forthcoming. A month after the submission of the theater 
plan, Maj. Gen. Ira C. Taker, Commanding General, Eighth Air Force, 
forwarded a strong plea for an interim toxic munitions supply plan.52 
By the end of July, General Baker’s plan had been approved for muni- 
tions shipment. But long before the approval was received—in fact, 
before the original Eighth Air Force interim plan had been dis- 
patched—Rowan had become concerned about War Department slow- 
ness in handling theater requests and particularly about the burden 
placed upon the theater by the necessity of planning and replanning. 
Rowan expounded the theater point of view to General Waitt, Assist- 
ant Chief, CWS, for Field Operations, early in May 1943. He con- 
sidered it to be the function of the War Department "to assist overseas 
Commands, and not to attempt to sit in judgment upon their actions 
and requisitions.” He further indicated that he believed the policy 
of requiring theater commanders to disclose detailed plans of con- 
templated operations in justification for requisitions of an unusual 
nature to be an unsound one.53 Waitt replied that he, personally, 
agreed completely, and he gave assurance that his own office would 
not attempt to "sit in judgment on theater requests or actions.” He 
asked only that the theater keep his office well enough informed so 
that the War Department CWS might "go to bat for you.” He 
pointed out that the War Department higher echelons had to know 
enough about plans of contemplated operations to act intelligently 
54 
on requests. 
The higher echelons which Waitt defended were not always as 
reasonable as he was in considering theater requests. Porter, Waitt, 
B1 Ltr, CG ETO to TAG, 17 Apr 43, sub: Gas Warfare Plans, ETO. ETO AG 381; also in OPD 
385 CWP. 
62 (1) Ltr, CG Eighth AF to CG ETO, 20 May 43, sub: Eighth AF Preparedness for Offensive Cml 
Warfare, with 1st Ind, CG ETO to TAG, 9 Jun 43. Eighth AF 353, ETO AG 381 x 475.9 MDGS. 
(2) 2d Ind, TAG to CG ETO, 30 Jul 43. AG 381 (20 May 43) OB-S-E. 
63 Personal Ltr, Rowan to Waitt, 5 May 43. CWS ETO CWO-400/3 2-Sec. 
54 Personal Ltr, Waitt to Rowan, 21 Jun 43. CWS SPCVO 016 APO 887. THE CWS IN THE EUROPEAN THEATER 
57 
and Rowan were satisfied that the CWS in the United States was 
doing everything in its power to assist the theater CWS in meeting its 
obligations as to organization, planning, and supply.50 Waitt placed 
the blame for delays and for modification of theater plans on ASF.56 
While approximately ten weeks was not an extraordinary amount of 
time for War Department action on the Eighth Air Force request, this 
request was only one of a stream of Eighth Air Force schedules and 
plans which had followed from the original plan made in April 1942 
when Kellogg’s section was still in the United States. In many other 
cases, such as the projects for continental operations begun in mid- 
1943, the processing delays seemed longer than final results warranted. 
The theater CWS found itself in a frustrating position: the theater 
staff was to plan in detail within the framework of the basic plans laid 
down in Washington because the War Department would not invade 
the theater prerogative by doing detailed planning; but the War 
Department apparently felt no compunctions about redoing the 
theater’s detailed planning. A like difficulty existed in organization. 
The prewar theory of theater organization, under which the theater 
commander channeled authority through his technical services chiefs 
as well as his tactical commanders, had been discarded in the ETO 
under War Department pressure so that the planned channels of au- 
thority no longer remained, yet the War Department did not consider 
the provision of a new authority channel as being within its province. 
The June Organization Plan 
In June the ETO SOS chief of administration asked Rowan to 
submit his plans for handling the theater build-up load. Rowan’s plan 
reflected his desire to meet both problems. If he could have direct 
control of the theater CWS organization, he wanted enough officers 
of sufficient rank to control it by persuasion. If he must do the plan- 
ning which, according to the manual, should have been done in the 
United States, and if he must perform the operation normally the 
responsibility of the communications zone, he wanted the staff to 
handle planning and operating functions. Rowan replied by submitting 
a comprehensive organizational and functional justification for a staff 
of 100 officers. 
86 (1) Porter Interv, 24 Aug 61. (2) Waitt Interv, 13 May 61. (3) Rowan Interv, 28 Sep 38. 
66 (1) Waitt Interv, 13 May 61. (2) Waitt Comments on draft of this volume, 5 Jan 61. 58 
THE CHEMICAL WARFARE SERVICE 
He asked for a deputy and two assistant chiefs but suggested that 
the position of deputy and one of the assistant chief positions could 
be held by one officer. While MacArthur had in fact been deputy 
since August of 1942, he had in title been Executive Officer and Chief, 
Operations and Training Division. Rowan proposed that he should 
officially be deputy and assistant chief for plans and training. As 
mentioned above, Rowan had become "outside man” for his organiza- 
tion, so that he needed a deputy who could function in his absence. 
He also needed an additional executive officer who would be "inside 
man” and function in his or his deputy’s stead when both were absent. 
The second assistant chief was to be the operating supervisor of supply 
and service functions. Since half of Rowan’s staff was to be occupied 
with these functions and since this portion of the staff was located at 
Cheltenham, he felt that the position warranted the assignment of a 
general officer. Considering the growth of the technical services within 
the theater and considering that the CWS ETO was destined to become 
fourth ranking among the seven technical services in the operation of 
general storage space and second ranking in the operation of ammuni- 
tion storage and shop space, and further considering that the Chelten- 
ham echelon was charged with the chemical warfare training of about 
375,000 SOS troops, the establishment of an assistant chief position in 
the general-officer grade was not unreasonable.‘ 
Since Rowan planned for his deputy to hold the position of assistant 
chief for plans and training, there seems to have been little reason for 
establishment of the second position of assistant chief except the 
psychological factor of acknowledging the unique position of the 
CWS chief as tactical adviser in chemical warfare to the theater 
commander and to all theater forces. A subsidiary reason for estab- 
lishing the second position could have been to parallel the OCCWS 
organization which had recently been revised to provide assistant chiefs 
for materiel and for field operations.58 In effect, the two assistant 
chiefs in the ETO would perform comparable functions to the two 
in OCCWS. Only one officer, a lieutenant colonel, to act in an 
executive capacity, was to be assigned directly to the assistant chief 
for plans and training.59 
57 (i) Study, Rowan [to Chief, Admin SOS], Functions and Duties of the OCCWO, 13 and 17 Jun 
43. ETO Admin J45A Cml Warfare. (2) Ruppenthal, Logistical Support, I, p. 128. 
E8Brophy and Fisher, Organizing for War, pp. 101-04. 
59 Functions and Duties of the OCCWO. THE CWS IN THE EUROPEAN THEATER 
59 
Six of the nine divisions proposed were to be organized on the pattern 
already established in the Technical Division—colonels and lieutenant 
colonels would primarily perform liaison and inspection functions 
outside the Office of the Chief Chemical Warfare Officer. These 
divisions were: Technical; Plans and Training; Intelligence; Medical 
Liaison; Supply Liaison and CWS Representative to AC of S, G-5, 
ETOUSA; and SOS Training (at Cheltenham). The liaison divi- 
sions were to contain branches or sections staffed by lower ranking 
officers and enlisted men to perform planning, supervisory, and report- 
ing duties. Colonel Wright had already been appointed CWS repre- 
sentative to ACofS, G-5, ETOUSA, in addition to his duties as Chief, 
Supply Liaison Division. His duty as representative consisted of liaison 
with the Allied forces planning command (Chief of Staff to the Su- 
preme Allied Commander [Designate] COSSAC). The SOS CWS 
Training Division, to be headed by a major, was to operate under the 
assistant chief for supply.60 The SOS CWS Training Division was not 
to duplicate the training policy role of the training element in London, 
but was to provide staff supervision for chemical training within SOS. 
Rowan meant for two of the remaining three divisions to handle 
internal administrative functions, but both of these divisions, Admin- 
istration in London and Supply Administration in Cheltenham, were 
also to have advisory roles with respect to the assignment of CWS 
personnel in the theater and in SOS, respectively. Rowan and LeRoy 
redesigned Supply Division to re-emphasize the position that this 
division had always held as an independent CWS supply and service 
agency which LeRoy operated, on a small scale, under Somervell’s and 
Lee’s principle of centralized control and decentralized operation. 
Supply liaison at levels co-ordinate with and above SOS was to remain 
in Wright’s hands in both of his capacities. Liaison at SOS level was 
to be accomplished by the division itself. To supplement the division 
liaison at subordinate levels, Rowan and LeRoy wished to create an 
Inspection Branch headed by a lieutenant colonel who would be a 
troubleshooter for field problems and carry on technical inspection 
of field installations. The pattern of liaison, and indeed the organiza- 
tional plan of the whole division, demonstrated how free a hand the 
CWS had in determining its own supply concepts and procedures. 
The division was to have, and in most cases already had, branches or 
*°Ibid. (2) OCCWO ETO Off Order 8, 20 May 43. ETO Admin 544 Cml Warfare. 60 
THE CHEMICAL WARFARE SERVICE 
sections to determine requirements, to control materiel, to ordain 
storage, issue, and transportation procedures, and to regulate mainte- 
nance and services such as processing.61 In sharp contrast to the prac- 
tice in the Pacific areas, policy could originate within the division or 
with the chief chemical warfare officer; higher level direction was 
minimal. 
As far as his own office was concerned, Rowan had already imple- 
mented a part of the organization of the June plan, since that plan 
did not differ greatly in pattern from the reorganization of April. 
Some features of the new plan, such as the official designation of 
Colonel MacArthur as deputy and the appointment of an executive 
officer, were implemented piecemeal. The post of assistant chief chemi- 
cal warfare officer for supply was established, but Rowan could find no 
one to fill it. Several colonels arrived in the theater during 1943, but 
they were either already assigned to the staffs of field organizations or 
were needed in the rapidly proliferating field headquarters. Rowan 
was forced to use captains, majors, and some lieutenant colonels in 
positions he had intended to fill with lieutenant colonels and colonels. 
For liaison and inspection he sometimes sought the assistance of field 
chemical officers. He was still short of manpower. At the end of 1943 
his officer allotment totaled forty-six. In Cheltenham he lost Colonel 
LeRoy who was returned to the United States under a policy of rotating 
officers with field experience. Major Powell, who had filled assignments 
both in Cheltenham and in the SOS depot system, became LeRoy’s 
replacement.62 
The importance of the June plan does not lie in its implementation, 
although it was implemented at about half strength and became the 
basic pattern for the remainder of the war. Its importance lies in the 
fact that its concept and scope demonstrate the changed character 
of the overseas CWS in World War II. It represents the anomaly of 
World War II: the technician and the specialist were taking a back 
seat in the war which was being touted as the technicians’ and specialists’ 
war. The technician, the specialist, and the logistician, had achieved 
positions of great importance in the warfare of World War I. In the 
period between the wars most CWS technicians, specialists, and logis- 
41 Functions and Duties of the OCCWO. 
62 (i) History, Sup Div, 42-43. (2) Ltrs, Rowan to Porter and Waitt, 22 Jul 4}. (3) Ltr, 
Waitt (in ETO) to Col Herrold E. Brooks, Chief, Pers Div OCCWS, 13 Sep 43. CWS 314.7 Pers 
Files, ETO. (4) Ltr, Col Ernest Greene, USAR, to Hist Off, 22 Jan 60. THE CWS IN THE EUROPEAN THEATER 
61 
ticians had been led to believe that they would work with bureaulike 
unity. Strategy, plans, materiel, and personnel would emanate from 
OCCWS to be translated into the theater commander’s policy by the 
theater chief chemical officer who would supervise execution at sub- 
ordinate levels. More than a year’s experience in the theater proved 
that the interposition of theater headquarters, OPD, and ASF between 
the theater CWS and OCCWS prevented OCCWS from accomplishing 
its planned direction. Theater emphasis on the discretion of the in- 
dividual commander, plus the organizational setup, in effect demoted 
the special staff officer to the role of supply administrator whose control 
even in the supply field depended on his ability to institute and main- 
tain decentralizing procedures. In the supply role Rowan and his staff 
fared very well despite the failure to acquire the personnel specified in 
the June plan. In the liaison role the failure to acquire the staff and 
rank indicated in the June plan threw the entire burden on Rowan 
and a few members of his staff. The Technical Division very success- 
fully maintained liaison with the British in the research and develop- 
ment areas.83 CWS officials also found the British very helpful in 
arranging reverse lend-lease for service and supply, areas in which 
Rowan and many members of his staff performed liaison.84 In matters 
of policy, liaison with the British was excellent since Rowan was 
Porter’s representative to the British policy group, the Inter-Service 
Chemical Warfare Committee.6,> It was in liaison with the American 
ground forces that difficulties arose. So small a staff with such varied 
duties could not maintain a regular ground forces liaison program. The 
partial solution for this problem was to emerge later during operations 
on the Continent. 
Planning and Organization: 1944-45 
By the end of 1943 the build-up in the ETO had reached a furious 
pace. All the CWS ETO supply installations and sections in the United 
Kingdom were firmly established and supplies, even the long-awaited 
toxic munitions, were coming in. In the SOS the base sections, the 
ports of debarkation, and selected general depots had working-strength 
chemical sections, and scarce chemical service units or detachments 
“interv, Hist Off with Col Thomas H. Magness, Jr., 5 May 59. 
“ Ltr, Gen Rowan to Hist Off, 8 Jul 60. 
65 Rowan Interv, z6 Sep 58. 62 
THE CHEMICAL WARFARE SERVICE 
were attached where necessary for operation. Arriving ground force 
organizations usually brought their own chemical sections. 
Staff and Organization Changes 
Many staff changes were made—some the result of organization and 
unit activations and some arising from a desire to have officers with 
theater experience in the United States. As noted above, Colonel 
LeRoy had for the latter reason returned to the United States in the 
fall of 1943. Colonel Kellogg had returned to the United States in 
July 1943 and his position as Chemical Officer, Eighth Air Force, had 
been assumed by Col. Harold J. Baum who subsequently became Chemi- 
cal Officer, United States Strategic Air Forces in Europe (USSTAF).66 
One lieutenant colonel from Rowan’s London staff also returned to the 
United States, while Colonel Blackburn left the Administration Divi- 
sion to become Chemical Officer, Ground Forces Replacement Com- 
mand, in the theater.67 Three field-grade officers arrived from the 
United States for duty in the London office.68 
With the organization of several ground commands late in 1943, 
the build-up reached the point where defensive gas warfare planning 
for specific forces had to be undertaken with a probable cross-Channel 
mission in mind. The requirements portion of such specific planning 
depended upon the ground forces elements themselves, but Rowan’s 
staff would be called on to co-ordinate planning and, more importantly, 
to translate plans and estimates into actual supply. The fact that 
supply lead time was running at about 180 days impressed Rowan’s 
staff with the necessity of anticipating the requirements of ground 
forces planners as far ahead as possible. Just before leaving for an 
extensive briefing and conference tour in the United States late in 
December 1943, Rowan designated a transitional Planning Group 
within the Operations and Training Division to work under the direct 
supervision of the deputy chief chemical warfare officer, Colonel 
MacArthur. This group was, in addition to its planning duties, to 
absorb the functions of the Supply Liaison Division.69 A few days 
later, MacArthur, acting chief chemical warfare officer, brought about 
44 History, Cml Sec Eighth AF. 
47 Interv, Hist Off with Lt Col Chester O. Blackburn, CmIC, USAR (Ret.), 21 Sep 59. 
48 Interv, Hist Off with Col Alexander Leggin, USAR, 13 Oct 61. Leggin served as Rowan’s 
executive officer during this period. 
49OCCWO ETO Off Order 21, 28 Dec 43. ETO Admin 544 Cml Warfare. Chart 4—Organization of Chemical Warfare Service Section, Headquarters. European Theater of Operations 
Medical Liaison 
Asst Chief Chemical 
Warfare Officer 
Training and Equip- 
ment Section, SOS 
Supply Division 
Branches 
Operations 
Statistical 
Service 
Engineering 
Administrative 
Operations and 
Training 
Intelligence 
Branches 
Equipment 
Operations 
Service 
Chief Chemical 
Warfare Officer 
Executive Officer 
Source: Adapted from: Ruppenthal, I, 198-201; CWS SOS ETOUSA, Office Orders No, 23, 4 Jan 44, No. 25, 25 Jan 44. ETO Adm 544. 
U.S. Army, January 1944 
Deputy 
Divisions 
Staff Co-ordination 
Planning 
Personnel and 
Troops 
Branches 
Troops 
Replacements 
Administration 
Technical 
Branches 
Offensive 
Munitions 
Defensive 
Munitions 
Chemicals 
CWS Laboratory 
and Liaison 
Supreme Commander 
SHAEF 
Commanding General 
SOS, ETOUSA 
Chief of Staff 
SOS, ETOUSA 
Chief of Staff 
SHAEF 
G-4 
Headquarters 
ETOUSA and SOS 
Commanding General 
ETOUSA 
Deputy Commander 
ETOUSA 
Deputy Chief of Staff 
ETOUSA 
Principal Commands 
(Administration only) 
SOS 
(Field) 
Chief of Staff 
ETOUSA 
G-3 
USSTAF 
G-2 
G-1 
Ground 
Forces 
289-149 0-68—6 64 
THE CHEMICAL WARFARE SERVICE 
a realignment of the theater office. {Chart 4) The Planning Group 
became the Planning Division under Lt. Col. Albert C. Bilicke, with 
Maj. Arthur T. Hingle, who was moved up from Cheltenham, and 
another field-grade officer as his principal assistants. This division was 
given the task of determining broad troop and supply requirements for 
future operations. The parent Operations and Training Division had 
like responsibilities for current operations as well as for training super- 
• • 70 
vision. 
The other divisions remained as indicated in the modified plan of 
June 1943, but a sign of the times was the appointment of Maj. 
Alexander Leggin, Executive Officer, OCCWO, ETO, to the added 
role of liaison officer to First United States Army Group (FUSAG). 
Leggin’s verbal instructions were to initiate the formation of a chemical 
section and to start chemical planning for FUSAG, then organizing 
in the United Kingdom as the principal American ground forces head- 
quarters.71 Also, Maj. William Foley came from the American School 
Center to Cheltenham to head an SOS Training and Equipment Section, 
an upgrading of the Training Branch, Supply Division.72 By the end 
of January it had become apparent that the Operations and Training 
Division could not handle all the detailed transactions concerning 
troops. A new Personnel Division was therefore established, and to it 
were assigned the personnel records functions of Administration 
Division.73 
The Personnel Division had a number of individual changes to 
record. Col. Marshall Stubbs in January had moved from Ninth Air 
Force to establish the chemical section for and become the deputy 
assistant chief of staff, G—4, of Advance Section, Communications 
Zone (ADSEC), the mobile base section scheduled to operate directly 
behind the combat forces. ADSEC, as an important distribution 
agency and link between combat and SOS forces, was of considerable 
interest to the CWS ETO. The ability to discover ground forces 
chemical supply requirements and to meet them could well depend 
on the successful operation of the ADSEC Chemical Section. Maj. 
Ingalls S. Bradley of Supply Division soon joined Stubbs as his 
70 OCCWO ETO Off Order 23, 4 Jan 44. ETO Admin 344 Cml Warfare. 
71 (1) OCCWO ETO Off Order 22, 4 Jan 44. ETO Admin 344 Cml Warfare. (2) Leggin 
Interv, ij Oct 61. 
72 OCCWO ETO Off Order 23,4 Jan 44. ETO Admin 344 Cml Warfare. 
73 OCCWO ETO Off Orders 25 and 26, 23 Jan 44. ETO Admin 344 Cml Warfare. THE CWS IN THE EUROPEAN THEATER 
65 
assistant.74 Leggin left his executive officer post in February formally 
to activate the FUSAG Chemical Section.75 In March, after Rowan’s 
return from the United States, MacArthur became FUSAG chemical 
officer with Leggin serving as his deputy. Col. Alfred C. Day, a 
Reserve officer and veteran of World War Fs ist Gas Regiment, who 
had been on temporary duty as chemical officer of the assault and 
amphibious training center in England, became Rowan’s deputy.76 
Col. Roy C. Charron, another Reserve officer with World War I 
experience, arrived from the United States to assume, after briefly 
filling the long-vacant position of assistant chief at Cheltenham, the 
post of Chemical Officer, Forward Echelon, Communications Zone 
(FECOMZ). The Forward Echelon was essentially a planning head- 
quarters, a smaller version of SOS itself, which was to plan for and 
provide logistical support to the combat forces on the Continent from 
D-day plus 41 to D plus 90 when the main headquarters of SOS, 
renamed Communications Zone (COMZ), was expected to be in 
operation on the Continent.77 The CWS SOS—COMZ complement was 
filled in May by the arrival of Col. Flubert B. Bramlet, a Regular Army 
officer who had been commissioned in the CWS during World War I, 
to fill the position of assistant chief at Cheltenham.78 (Chart 5) 
The change in staff assignments and the addition of the ADSEC 
and FECOMZ Chemical Sections enabled the CWS ETO to operate 
more effectively within the theater. Officers entirely familiar with the 
theater CWS system, such as MacArthur, were now in key positions 
while the new chemical sections were created in new organizations 
designed within the theater to serve theater purposes. These organiza- 
tions therefore had channels of communication, authority, and opera- 
tions specially suited to theater needs. Thus FECOMZ was a planning 
headquarters with "built-in” liaison to the parent SOS.79 ADSEC was 
71 Biographical Sketch, CMLHO: Maj Gen Marshall Stubbs. Thirty-seven years old at the time 
of his appointment, Stubbs was a Regular Army officer and a Military Academy graduate. Of the 
prominent chemical officers in the European theater, he was the first who was too young to have had 
World War I experience. (2) Opns History of ADSEC COM2 ETOUSA, Oct 43-10 Jul 45 (here- 
after cited as History, ADSEC). 
76OCCWO ETO Off Order 28, 16 Feb 44. ETO Admin 344 Cml Warfare. 
76OCCWO ETO Off Order 33, 23 Mar 44. ETO Admin 544 Cml Warfare. 
77 (1) History, FECOMZ ETOUSA, From Inception to Termination (9 Feb to 7 Aug 44) (here- 
after cited as History, FECOMZ). ETO Admin 136. (2) Personal Ltrs, Col Charron to Waitt, 2 Feb, 
19 Mar 44. CWS 314.7 Pers Files, ETO, Feb 44-Dec 44. 
78 OCCWO ETO Off Order 42, 30 May 44. ETO Admin 544 Cml Warfare. 
79 History, FECOMZ. Chart 5—Actual Distribution of Service Agencies and Combat Units 
Chemical Warfare Service, European Theater of Operations, 1944-1945 
SUPREME COMMANDER 
ALLIED EXPEDITIONARY FORCE 
CHIEF OF STAFF 
SUPREME HEADQUARTERS 
ALLIED EXPEDITIONARY FORCE (SHAEF) 
DEPUTY SUPREME COMMANDER 
GENERAL STAFF, SHAEF 
Chemical Adviser 
to G-3, SHAEF° 
Royal Air Force 
Bomber Command 
(British) 
First Allied 
Airborne Army 
Allied Naval 
Commander in Chief 
Expeditionary Force 
Northern Group 
of Armies 
(21 Army Group) 
(British) 
U.S. Strategic Air 
Forces in Europe 
Allied Expeditionary 
Air Forces^ 
Central Group 
of Armies 
(12th Army Group)* 
Southern Group 
of Armies 
(6th Army Group)** 
European Theater 
of Operations 
U.S. Army (ETOUSA) 
Deputy Commanding 
General for 
Administration 
American Component 
Communications Zone 
ETOUSA* 
Chemical Officer 
Chemical Officer 
Chemical 
Adviser to G-3 
Chief 
Chemical Officer 
Commanding General 
Air Service Command 
USSTAF 
Second Tactical 
Air Force 
(British) 
First 
U.S. Army 
First 
French Army 
Chemical 
Laboratory 
Companies 
Base Air Depot 
Area f 
Chemical Officer 
Air Defence 
Great Britain 
(British) 
Chemical Officer 
Corps 
Seventh 
U.S. Army 
Chemical Officer 
Chemical Officers 
Chemical Officer 
Advance 
Sections 
Chemical Companies 
Air Operations 
Ninth 
U.S. Air Force 
Divisions 
Chemical Officers 
Corps 
Chemical Officers 
Chemical Officers 
Base 
Sections 
Chemical Depot 
Companies, Aviation 
Chemical Officer 
Third 
U.S. Army 
Divisions 
Chemical Officers 
Chemical 
Maintenance 
Companies, Aviation 
Bomber 
Command 
Chemical Officer 
Chemical Officer 
Chemical Officers 
Chemical Technical 
Intelligence Teams 
Ports 
Fighter 
Command 
Corps 
| Chemical Officers 
Chemical 
Mortar Battalions 
and Companies 
Chemical Smoke 
Generator Battalions 
and Companies 
Chemical Officers 
Eighth 
U.S. Air Force 
Chemical Officer 
Divisions 
Chemical Officer 
Tactical Air 
Commands 
I Chemical Officers I 
Chemical Smoke 
Generator Battalions 
and Companies 
Chemical 
Depot and Base Depot 
Companies 
Bombardment 
Divisions 
Chemical Officers 
Ninth 
U.S. Army 
Chemical 
Maintenance 
Companies 
Chemical Processing 
(Impregnating) 
Companies 
Chemical Officers 
Service 
Command 
Chemical Officer 
Corps 
Chemical 
Decontamination 
Companies 
Chemical 
Maintenance 
Companies 
Fighter 
Command 
Chemical Officer 
Chemical Officcrsl 
Chemical Depot 
Companies 
Chemical Officer 
Chemical Companies 
Air Operations 
Divisions 
Chemical Officers 
Chemical 
Decontamination 
Companies 
Service 
Command 
Chemical Depot 
Companies, Aviation 
Chemical Officer 
Chemical 
Maintenance 
Companies, Aviation 
Fifteenth 
U.S. Air Force 9 
o. Position abolished, October 1944. 
b. January 1944 reorganization. Allied Expeditionary Air Forces abolished 15 Oct 44, 
c. First and Ninth Armies attached to the Northern Group for periods in 1944-1945. Fifteenth Army added to 12th Army Group in 1945. Chemical Officer, 12th Army Group, conducted 
liaison with chemical officer (British), 21 Army Group. 
d. As of December 1944. 
e. Theater and Communications Zone (then Services of Supply) Headquarters combined, January 1944. 
f. Base Air Depot Area supported Eighth and Ninth Air Force Service Commands in some functional areas. 
g. Fifteenth Air Force under USSTAF operational control. Under administrative control Mediterranean Allied Air Forces. 
Source: Pogue, Supreme Command, pp. 1 59, 262, 379, 428, 455; Ruppenthal, Logistical Support of the Armies, Vol. I, p. 199; Craven and Cate, Europe—TORCH to POINTBLANK, pp. 745, 
753, 839; Craven and Cate, Europe—ARGUMENT to V-E Day, pp. 111, 398, 576. 
Legend: 
Command 
. Staff, support, and unit assignment 
Support and unit attachment THE CWS IN THE EUROPEAN THEATER 
67 
a planning headquarters with "built-in” liaison to First Army (FUSA) 
and Third Army (TUSA), whose basic logistics planning it was 
handling and extending, as well as to SOS-COMZ, of which it was 
an organizational subordinate echelon.80 The ground forces-CWS 
ties were therefore good. 
First Army, whose chemical section was headed by Col. Joseph D. 
Goughian, was to direct all American operations on the Continent 
in the beachhead period. FUSAG co-ordinated all ground planning, 
and a successor army group headquarters, as yet unannounced, was 
to take over control of First Army and Third Army when the "secret” 
Third became operational. Third Army chemical officer was Col. 
Edward C. Wallington.81 
Air Forces liaison was more tenuous. Air Forces officers, probably 
as part of their bidding for a status independent of the Army, took 
the position that the theater and SOS headquarters had a ground forces 
jurisdiction only, even in logistics matters. Since Rowan and his 
staff were firmly identified with theater and SOS headquarters, they 
were doubly handicapped in approaching the Air Forces. The CWS 
situation in the Air Forces became worse when USSTAF combined 
its Ordnance and Chemical Sections under the ordnance officer, but 
Colonel Baum in USSTAF, Col. Joseph Triner, chemical officer in the 
Ninth Air Force, and Maj. Leonard C. Miller of Allied Expeditionary 
Air Forces (AEAF) managed to keep Rowan informed of their more 
important plans through their personal channels to the chief chemical 
warfare officer and his assistants.82 After January 1944 the planning 
channel for the Air Forces was through the Supreme Ffeadquarters, 
Allied Expeditionary Forces (SFiAEF), rather than through theater 
headquarters. In January theater and SOS headquarters were combined 
with the staff serving in a dual capacity. While General Lee became 
deputy theater commander, the staff carefully defined their theater 
functions which they performed in General Eisenhower’s name and 
their SOS functions which they carried out in General Lee’s. Despite 
the careful definition, the activation of other operational and planning 
commands restricted the combined headquarters to administrative and 
80 History, ADSEC. 
81 Biographical Sketches, CMLHO. Goughian and Wallington were senior Regular Army CWS 
officers. Both were graduates of the U.S. Military Academy, Class of 1915. 
82 (1) Interv, Hist Off with Col Leonard C. Miller, 2 Feb 60. (2) Rowan Interv, 26 Sep 58. (3) 
Rowan Comments 16 Dec 60. 68 
THE CHEMICAL WARFARE SERVICE 
supply matters and ultimately resulted in the predominance of logistic 
function.83 
In March Col. Adrian St. John arrived in the theater and be- 
came the chemical representative on the SHAEF staff. Although 
Colonel Wright, as liaison officer to COSSAC, the SHAEF predecessor, 
had been on Rowan’s staff, Colonel St. John did not report to Rowan. 
The air forces chemical officers co-ordinated their gas warfare planning 
with St. John. Organizational confusion resulted.84 Even General 
Porter believed that Rowan was no longer the principal chemical officer 
in the theater. He was under the impression that St. John, who was at 
the time senior to Rowan, had been appointed "Chief Chemical Officer, 
SHAEF,” and he asked Brig. Gen. Augustin M. Prentiss, who was on 
an observer mission to the theater, to indicate proper communications 
channels.85 Prentiss replied that the confusion in the United States 
was understandable since many individuals in the theater were also 
confused, but he affirmed Rowan’s position as theater chief of service, 
and St. John’s as chemical adviser to G-3, SHAEF, and indicated that 
communications should be channeled through Rowan.86 Rowan’s 
status became more clearly defined upon his advancement to brigadier 
general on 25 May 1944. 
During the three months of his European duty before the continental 
invasion, St. John assumed some of the gas warfare readiness planning 
responsibilities as appropriate to his assignment to the highest planning 
headquarters. He approved and staffed air forces operational readiness 
plans which included stocking toxics available for immediate retaliatory 
missions at operational airfields. He also secured the issuance of a 
SHAEF directive which required all commanders to make both offen- 
sive and defensive plans. Again, Porter was apparently under the im- 
pression that this directive had greater significance than it actually 
did.87 The SHAEF directive was in fact only a slightly stronger 
restatement of a number of theater directives which had preceded it, 
88 Ruppenthal, Logistical Support, I, 195-201. 
84 SHAEF had special staff divisions in only three technical services areas, Signal, Engineer, and 
Medical. These were all combined staff branches whose roles outside their own headquarters were like 
those of inspectors general; they did not perform the functions of theater sections or services (Pogue, 
Supreme Command, pages 91-93). St. John was not in a special staff position. He was originally as- 
signed as chemical adviser to G—4, SHAEF, and was shortly thereafter transferred to G—3 with the same 
title since little of his work had to do with logistics. (Personal Ltr, St. John to Porter, 28 Mar 44). 
88 Personal Ltr, Porter to Prentiss, 22 Mar 44. 
88 Personal Ltr, Prentiss to Porter, 14 Apr 44. 
87 Ltr, Porter to Prentiss, 22 Mar 44. THE CWS IN THE EUROPEAN THEATER 
69 
and the real key to readiness lay in the supply planning which was 
being handled by Rowan’s office, the air forces chemical sections, and 
the chemical sections in FECOMZ, ADSEC, FUSAG, FUSA, and 
TUSA. 
The liaison method of planning and the organizational confusion 
in the theater made chemical planning difficult at times and occasionally 
resulted in personal differences which normally occur in any organiza- 
tion, but both Rowan and St. John could informally handle problems 
as they arose. One problem was that Goughian was reluctant to submit 
to direction and co-ordination by the FUSAG Chemical Section or by 
Rowan’s staff. St. John managed to bring this matter to the attention 
of the FUSAG commander and planning co-ordination thereupon 
became effective. On the whole, both planning and actual preparations 
in the field proceeded apace.88 
When Porter indicated to Prentiss that, according to the reports, 
unspecified, which he had received, something was amiss in ETO 
chemical activities Prentiss replied that he could find nothing wrong. 
Plans were complete, the staff was competent, the supply situation, 
at least for immediate needs, was good, and the chemical officers 
seemed to enjoy the confidence of higher authority.89 In fact, Rowan 
felt that he had done precisely as Porter had recommended—he had 
"sold” his services to the theater forces. 
General Porter got the same impression that Prentiss did when he 
arrived in the European theater shortly before the cross-Channel attack. 
Fie inspected gas warfare readiness in both ground and service com- 
mands. He found no reluctance to acknowledge Rowan as the theater 
chief chemical officer and he found theater forces well prepared, from 
a CWS point of view, for the operation they were about to undertake.00 
On the Continent 
American commanders and staff officers knew that the assault on 
the Normandy beaches provided the enemy with an ideal opportunity 
to inaugurate gas warfare. General Omar N. Bradley, then First Army 
commander and principal United States ground commander for the 
assault, later wrote that "even a light sprinkling of persistent gas on 
88 (i) Leggin Interv, ij Oct 61. (2) Mac Arthur Interv, 19 Sep 61. (j) Interv, Hist Off with 
Col Maurice H. Wright, USAR (Ret.), 10 Jul 61. 
80 Prentiss to Porter, 14 Apr 44. 
“Porter Interv, 24 Aug 61. 70 
THE CHEMICAL WARFARE SERVICE 
Omaha Beach could have cost us our footing there.” 91 American 
intelligence experts believed that the German forces had the logistic 
capability to launch a gas attack although it was a comfort to know 
that their lack of aerial superiority made it unlikely that such an 
attack could be launched by aircraft. All assault forces wore antigas 
protective clothing and carried gas masks and other protective 
articles. While the adequacy of such protection was assured against 
known gases in a situation in which warning could be given, the danger 
of a high casualty rate was great in the event of surprise attack or the 
introduction of an unknown gas. Further, the adequacy of the warning, 
service, and retaliatory offensive systems could only be estimated. 
First Army requested 3 chemical mortar battalions for retaliation 
and 4 chemical service companies to meet possible gas warfare. The 
3 battalions, 1 chemical depot company, 1 chemical maintenance com- 
pany, 1 smoke generator battalion headquarters and 4 companies, and 
1 small detachment from a chemical laboratory company were assigned 
or attached to FUSA and scheduled for the assault echelons. The 
laboratory detachment and 3 chemical decontamination companies 
assigned to engineer special brigades joined the earliest assault waves 
with the mission of determining if gas was being used. These units 
were to identify the gas and take immediate protective measures.92 
The first chemical staff sections ashore in Normandy were those in 
the headquarters of the engineer special brigades, the V and VII Corps, 
and the 1st, 29th, 4th, and 30th Divisions. Three officers of FUSA 
Chemical Section landed on 9 June, three days after D-day. They 
found the chemical supply situation adequate and the 30th Chemical 
Decontamination Company ready to provide artificial smoke protec- 
tion if needed. The fear of enemy gas attack was still lively as demon- 
strated by several "gas scares,” reports that the enemy had employed 
war gases. All such reports proved false.93 
Since First Army was responsible for all logistics arrangements on 
the Continent in the early period, the first job was to establish dumps, 
especially dumps at which the chemical mortar battalions could draw 
ammunition. The initial supply of several chemical items, including 
91 General Omar N. Bradley, A Soldier’s Story (New York: Henry Holt and Company, Inc., 1951), 
p. 279. 
92 (1) FUSA Rpt of Opns, 20 Oct 43-1 Aug 44, an. 17, Cml Warfare Sec. (2) Ian F. Fraser, 
Clifford L. Jones, and Hugh Williamson, Opn Rpt Neptune, 30 Sep 44, pp. 38-39, 126. In CMLHO. 
98 FUSA Rpt of Opns, 20 Oct 43—1 Aug 44, an. 17. THE CWS IN THE EUROPEAN THEATER 
71 
ammunition, was being expended faster than anticipated. The FUSA 
Chemical Section and the assigned chemical service units handled these 
problems. Officers of the ADSEC Chemical Section, who had arrived 
a day after Coughlan and his assistants, assisted the FUSA section in 
these tasks.94 
The ADSEC Chemical Section gradually assumed direction of the 
distribution functions in the areas nearest the beaches. The FUSA 
Chemical Section retained its direct interest in all chemical supply 
since FUSA did not relinquish supply control to ADSEC.00 During 
July the FECOMZ, TUSA, and 12th Army Group Chemical Sections 
were established on the Continent as the headquarters of which they 
were part became established. FECOMZ never assumed operating re- 
sponsibility and the members of its chemical section, like those of Third 
Army and 12th Army Group, acted as observers and reporters on the 
combat, supply, and service situations until early August when the 
main COMZ (formerly SOS) headquarters began to arrive and 
absorb FECOMZ. Members of the chemical section then assumed 
their planned operating roles. Third Army and 12th Army Group 
became operational on 1 August 1944 and Mac Arthur’s chemical sec- 
tion became the senior chemical policy organization on the Continent 
pending the arrival of the remainder of Rowan’s office.96 
Rowan, Day, and St. John visited on the Continent during the 
beachhead and breakout period (June—August 1944), as did General 
Porter.97 They found little evidence of any enemy intention to initiate 
gas warfare, but, as insurance the CWS sections and units ashore were 
striving to increase and improve the level of gas warfare protection 
by collecting and refurbishing discarded gas masks, by distributing 
decontaminating equipment and supplies, and by setting up antigas 
clothing processing plants. The chemical mortar battalions were fully 
occupied and highly prized in their nongas warfare role, an intended 
one, of firing high explosive and smoke missions in direct combat 
support of the infantry. Artificial smoke, other than that produced 
91 Informal Comments of CWS Officer [Maj Hingle to Col Charron, CmlO FECOMZ], 20 Jun 44. 
CWS 314.7 Pets Files, ETO. 
90 (1) FUSA Rpt of Opns, 20 Oct 43—1 Aug 44, an. 17. (2) Ruppenthal, Logistical Support, I, 
433-36. 
98 (1) Ruppenthal, Logistical Support, 7, 436-37. (2) MacArthur Interv, 19 Sep 61. (3) TUSA 
AAR, 1 Aug 44—9 May 45, vol. II, CWS Sec. (4) 12th Army Group Rpt of Opns, vol. XI, Cml War- 
fare Sec, pp. 104-33. 
97 OCCWO COMZ ETO, Daily Journal, Jul and Aug 44. ETO Admin 467. 72 
THE CHEMICAL WARFARE SERVICE 
by white phosphorus shell, had not been used in expected quantities, 
and expensive fog oil, the smoke agent used in mechanical smoke 
generators, was being used to oil emergency aircraft landing strips. 
The smoke generator units were used as service units. The chemical 
supply situation was satisfactory at the moment, but Rowan and 
St. John predicted growing supply problems as the mortar battalions 
became more extensively used and the distribution area for smoke, 
flame, and gas warfare supplies became larger. From Rowan’s point 
of view the most immediate problem was the supply and allotment 
of CWS officers and enlisted men, particularly those for the chemical 
mortar battalions.98 
While Rowan had organized a Personnel Division and expanded it 
into a Personnel and Troops Division, he did not control the assign- 
ment of CWS-trained men. All assignments in the European theater 
were made under the supervision of the ETO SOS assistant chief of 
staff, G—1, by the theater adjutant general or a command adjutant 
general or by the Ground Forces Reinforcement System. The assigning 
agency commonly considered all CWS officers and men as service troops 
and indiscriminately assigned individuals to any CWS vacancy. While 
such indiscriminate assignment produced some problems in service 
units, such as the assignment of decontamination specialists to mainte- 
nance units, the real difficulty arose in connection with CWS combat 
assignment. Mortar battalion commanders found they were receiving 
service specialists or clerks while CWS-trained combat soldiers were 
assigned to service units. Chemical mortar battalion commanders con- 
sequently requested infantry- or artillery-trained men in preference 
to those trained by the CWS. It was easier to retrain men who could 
be counted upon to have received basic combat training than it was 
to retrain CWS men who had no combat training at all.99 
Rowan immediately began to tackle this problem both from the 
field end and from the theater staff end until he persuaded the theater 
adjutant general to consult the CWS in the allotment of both men 
and units. While it was still necessary to work through the theater 
98 (i) St. John to Porter, Rpt for CCWS, 28 Jun 44. CWS 314.7 Pers Ltr Files, ETO. (2) Personal 
Ltr, Rowan to Waitt, 2 Sep 44, inclosing Memo, Rowan, no addressee, 26 Aug 44, sub: Notes on Trip 
to Far Shore. (3) MacArthur Interv, 19 Sep 61. (4) Leggin Interv, 13 Oct 61. (3) Wright 
Interv, 12 Jul 61. 
99 (1) History of Pers and Troops Div OCCWO COMZ ETO, D Day to V~E Day (hereafter cited 
as History, Pers and Troops Div). ETO Admin 545A. (2) Rowan Interv, 28 Sep 58. (3) Waitt 
Comments, j Jan 61. THE CWS IN THE EUROPEAN THEATER 
73 
system, and while the preference of individual commanders could still 
outweigh OCCWO planning, this concession gave Rowan a much 
larger hand in the solution. Rowan and his subordinates were there- 
after able to correct many inequities in chemical assignments.100 
On moving to the Continent in September, Rowan began consoli- 
dating his offices. FECOMZ, its operational period having been cur- 
tailed on the one end by the extension of First Army’s control and on 
the other by the early arrival on the Continent of the main echelon, 
was absorbed into the COMZ headquarters. Little change was made 
in the theater chemical section organization when the section was 
established in Paris. The Supply Division carried on its day and night 
job much as it had in Cheltenham. The Technical Division remained 
in the United Kingdom with a liaison section in Paris. Colonel Bramlet 
remained in England to become Chemical Officer, United Kingdom 
Base Section, which was in fact a rear echelon of COMZ. The one 
significant change was the recombination, just after the arrival in 
Paris, of the Planning and the Operations and Training Divisions into 
a Planning and Training Division. Since there were no gas warfare 
operations, the concept of an Operations and Training Division as a 
successor to General Fries’ "military” offensive and defensive divisions 
faded completely, and toward the end of the war the division devoted 
itself to demobilization and redeployment planning.101 Since Colonel 
St. John had also primarily been employed in planning, his position 
was abolished in the fall of 1944. He, too, turned to demobilization 
work, mostly outside the CWS sphere.102 
Rowan gave much of his personal attention to the problems of 
operating in a nongas warfare situation. The chemical mortar bat- 
talions were in considerable demand for close infantry support from 
the time of their debut on the Continent, but since their extensive 
use in a nonchemical role had not been envisioned before the war, 
there was no well-established body of doctrine relating to their employ- 
ment. In the resultant controversy over infantry or artillery fire 
100 (i) History, Pers and Troops Div. (2) Personal Ltr, Rowan to Waitt, 1 Sep 44. (3) Personal 
Ltr, St. John to Waitt, 1 Sep 44. 
101 (1) CWS History, 1 Jan 44 to "D Day.” (2) History of the Administrative Div OCCWO, 
D Day to V-E Day, Hq COMZ ETOUSA. Both in ETO Admin 545A. (3) History of Sup Div 
OCCWO Hq ETOUSA, D Day to V-E Day (hereafter cited as History, Sup Div, II.) ETO Admin 
544. (4) History of CWS Plans and Tng Div in the ETO, 6 Jun 44 to 9 May 45. (5) History of 
the Tech Div CWS Hq ETOUSA, 6 Jun 44-9 May 45. Both in ETO Admin 545B. 
102 Personal Ltr, St. John to Col Elliott, DCCWS, 22 Nov 44. 74 
THE CHEMICAL WARFARE SERVICE 
direction, Rowan aligned himself firmly with the proponents of 
infantry control.105 Lacking the means to establish doctrine as a repre- 
sentative of the theater commander, Rowan chose to visit combat 
commanders to persuade them to use attached chemical mortar bat- 
talion elements under infantry control. Though he was sometimes 
frustrated in this attempt, Rowan usually found personal persuasion 
effective.104 
The theater chief chemical officer also used personal persuasion in 
an attempt to secure the proper employment of smoke generator units. 
Since many commanders were unaware of the new techniques in use 
of smoke which had been developed in the Mediterranean theater, 
they were unprepared and unwilling to initiate the employment of 
smoke. As a result, many smoke generator troops made their way 
across France engaged in such miscellaneous activities as service and 
transportation troops. General Rowan tried to persuade field com- 
manders to maintain the integrity of these units, to keep up their 
equipment and to employ them on their primary mission wherever 
possible. Smoke came into great demand for concealment in Germany 
when the river-crossing operations began. At that time many smoke 
units were recalled to their primary mission, but re-equipping and re- 
training was no easy task. Some units and their equipment had been 
so dispersed that they were never called back to their primary mission.105 
Rowan’s activities on the Continent, such as those in connection 
with the mortar battalions and the smoke generator units, raise the 
question of the proper role, in the absence of gas warfare, of the 
Chemical Warfare Service and of the various staff chemical officers. 
Neither Porter nor Rowan felt that the absence of gas warfare signifi- 
cantly altered the basic mission of the CWS or of CWS staff officers. 
Both believed that Fries’s concept of a service in which "research was 
linked with the closest possible ties to the firing line” still applied.106 
Although toxics had not been used and although the likelihood of 
their use became more remote with each succeeding month of the war, 
there was always the possibility that the Germans might use gas to cap 
the offensive which had created the "bulge” in the Ardennes, or to 
prevent the crossing of the Rhine, or in last-ditch defense of the 
308 See below, ch. XII. 
104 Rowan Interv, 28 Sep 58. (2) Rowan Comments, 16 Dec 60. 
105 (1) Rowan Interv, 28 Sep 58. (2) Rowan Comments, 16 Dec 60. 
109 Fries and West, Chemical Warfare, p. 73. THE CWS IN THE EUROPEAN THEATER 
75 
homeland.10' These possibilities were sufficiently real so that European 
theater forces had to be at least prepared to wage gas warfare. Pre- 
paredness meant that gas masks and protective clothing must be 
available for all troops in potential danger zones, that decontamination 
equipment and supplies must be available, that gas alarms and detection 
devices must be in the hands of line units or ready for issue and that 
gas defensive training for all troops must not be neglected. Further- 
more, preparedness meant that chemical intelligence information must 
be gathered and interpreted, that chemical advisers and service and 
combat troops must be ready to begin offensive or defensive operations 
or both with very short notice. And there was yet another threat—the 
threat of biological warfare. The gas warfare defensive system would 
serve for defense against biological warfare, but CWS officers had to 
be acquainted with the latest developments so that should such warfare 
be initiated, they could recognize it, furnish needed advice, and take 
proper defensive measures. Retaliation in this field was out of the 
question since the CWS had no biological munitions.108 Preparedness 
was no small task. But preparedness was only the first of the CWS 
tasks. There were also the tasks connected with the nongas warfare 
operations of the chemical mortar battalions, with the supply and field 
employment of artificial smoke, and with the supply and training for 
incendiary and flame weapons employment. 
Rowan had to reconsider, once the pattern of operations on the 
Continent was apparent, how to accomplish the CWS tasks. Since his 
own office operated a CWS supply system, he only had to see that his 
Supply Division was operating and secure the co-operation of the base 
sections in distribution and of the combat elements in stating require- 
ments. The contacts with the base sections were maintained, as in 
England, through the base section chemical officers who kept in in- 
formal touch with his office.109 The base section chemical officers also 
107 (i) Rowan Interv, 28 Sep 58. (2) Porter Interv, 24 Aug 61. (3) Waitt Interv, 13 May 61. 
(4) Interv, Hist Off with Col Kenneth A. Cunin, 5 Dec 45. 
108 See Brophy, Miles, and Cochrane, From Laboratory to Field, pp. 101—22. 
109 Information on the base sections is drawn from; (1) Wright Interv, 16 Jul 61 (Colonel Wright 
was Chemical Officer, Loire Base Section); (2) Intervs, Hist Off with Col Christian O. Christensen, 
USAR (Ret.), 13, 23 Oct 61 (Colonel Christensen was Chemical Officer, Oise Base Section); (3) Ltr, 
Col Greene to Hist Off, 22 Jan 60 (Colonel Greene was Chemical Officer, Brittany Base Section and 
Seine Base Section); (4) Ltr, Col Hubert B. Bramlet, USA (Ret.), to Hist Off, 6 Oct 59 (Colonel 
Bramlet was Chemical Officer, United Kingdom Base Section); (5) Ltr, Col Ferris U. Foster, AUS 
(Ret.), to Hist Off, 13 Oct 59 (Colonel Foster was Chemical Officer, Southern Base Section in England 
and subsequently assigned to United Kingdom Base Section). 76 
THE CHEMICAL WARFARE SERVICE 
maintained informal liaison with each other and with combat organiza- 
tion chemical officers. Base section chemical officers operated under 
their own command, but most of them asserted some independence in 
chemical supply matters. They were usually able to arrange transpor- 
tation as they saw fit, and they supervised the activities of chemical 
service units in their areas. Problems were handled directly with 
Rowan’s office—usually by telephone. 
The supply and service aspects of preparedness thus taken care of, 
Rowan could devote most of his time to his duties as "roving ambassa- 
dor.” He or Day frequently talked to MacArthur and his successor, 
Col. Patrick F. Powers, or their deputy, Leggin, in the 12th Army 
Group Chemical Section.110 These officers regularly, both officially 
and informally, saw and corresponded with the chemical officers of 
First, Third, and Ninth Armies, and they occasionally heard from 
Col. Benjamin F. Mattingly, chemical adviser to G-3, 6th Army 
Group, and from the chemical officer of Seventh Army. The 12th 
Army Group Chemical Section also maintained liaison with the British 
21 Army Group Chemical Section as long as General Sir Bernard L. 
Montgomery, 21 Army Group commander, was also Allied land com- 
mander. In September 1944, 12th Army Group was transferred to the 
direct control of SHAEF, and the chemical officers continued, as they 
had throughout the planning and early continental period, to corre- 
spond with St. John.111 Preparedness occupied much of the time of 
the 12 th Army Group Chemical Section. Mac Arthur’s first problem 
on arriving on the Continent was to determine what might be done 
to relieve the combat troops of the need to carry the gas mask. 
Soldiers individually discarded burdensome masks whenever they felt 
that there was no further danger of gas or whenever they had what 
they regarded as a more important item to carry. Even when retained 
masks suffered abuse because carriers were used as catch-alls. Instruc- 
tion and training were useless in persuading soldiers to care for their 
masks. MacArthur met with members of the army group staff on this 
problem, and General Bradley himself suggested at the conference 
that division commanders be given the option of withdrawing masks 
310 Information on the 12th Army Group Chemical Section is from: (1) MacArthur Interv, 19 Sep 
61; (2) Leggin Intervs, 13 Oct 61, 22 Nov 45; (3) Interv, Hist Off with Col Powers, USA (Ret.), 24 
Sep 595 (4) 12th Army Group, Rpt of Opns, vol. XI, Cml Warfare Sec. 
111 MacArthur (comments on draft of this volume) minimizes St. John’s role since it was only that 
of an adviser with SHAEF headquarters. THE CWS IN THE EUROPEAN THEATER 
77 
from individuals if transport could be found which would carry the 
masks with advancing troop units, making them readily available for 
reissue. Since no combat element either below or above division had 
an organizational baggage train, the only feasible solution from the 
army group point of view was to suggest that divisions allot the neces- 
sary space for masks in their division trains and this soon became 
SHAEF approved policy. 
The 12th Army Group Chemical Section was to perform its more 
routine duties through an organization which consisted of four 
branches: Administrative, Supply and Logistics, Operations, and Tech- 
nical and Intelligence. Five officers and 7 enlisted men were allotted 
to the organization, and on 1944 this allotment was reduced 
to 3 officers and 3 enlisted men. The duties of stating requirements for 
supplies and dividing scarce supplies, such as chemical mortar ammuni- 
tion, among the three armies proved to be time consuming. Formu- 
lating chemical annexes for army group tactical plans was also time 
consuming. Liaison, inspection, and intelligence duties and the constant 
and thorny problems posed by the necessity of advising on the allot- 
ment of chemical mortar units took the remaining time. Powers 
greatly regretted that no time remained to co-ordinate the direct gas 
warfare training being carried on by division chemical officers. He 
was not satisfied with the state of gas warfare preparedness although 
he felt that Rowan and his staff were doing an excellent job, considering 
the personal effort required for communication among the various 
elements in the theater. Powers managed to reverse the earlier policy 
and secure the reissue of the gas mask to individual soldiers. He felt 
that even a gas scare would have caused panic at the time of the Battle 
of the Bulge when troops had no individual protection.112 He was 
never able to achieve the movement of more than a token stock of 
toxic ground ammunition to the Continent, and no aerial toxic muni- 
tions were ever moved from England. On the point of the adequacy 
of aerial retaliation, Powers disagreed with both Porter and Waitt. He 
shared the view of the Chief and Assistant Chief of the CWS that 
strategic aerial retaliation in kind against the initiation of gas warfare 
was possible, but he maintained that essential tactical retaliation, which 
would have taken a ground effort, had been overlooked. Because 
ground retaliatory preparation was only token, Powers, like many of 
U2For discussion of supply problems caused by this decision, see below, Chapter IV. 78 
THE CHEMICAL WARFARE SERVICE 
his colleagues, believed the Allied forces fortunate in that the Germans 
never took advantage of their opportunities to initiate gas warfare. 
Lt. Col. Kenneth A. Cunin, who succeeded Coughlan as First Army 
chemical officer on 24 July 1944, also believed the American forces 
inadequately prepared for gas warfare because of the shortage of 
ground toxic ammunition.113 Cunin considered the protective supply 
adequate, but his section agreed with 12th Army Group policy in 
reissuing individual protection at the time of the December threat. 
The First Army Chemical Section could do little to improve the pre- 
paredness situation from the standpoint of toxic supply or gas warfare 
training. Although the section allotment was 6 officers and 16 enlisted 
men, 3 officers and 13 enlisted men more than the 12th Army Group 
Chemical Section, First Army chemical officers found themselves fully 
occupied with the problems of the mortar battalions and those of 
nongas chemical supply and gas warfare intelligence.114 
Colonel Wallington, Chemical Officer, Third U.S. Army, through- 
out the European campaigns, was less concerned about gas warfare 
preparedness than Powers and Cunin. He believed in preparedness, but 
he considered the gas warfare retaliatory potential in the European 
theater adequate in view of the absence of gas warfare. In Wallington’s 
opinion the theater command and combat commanders in Europe 
justifiably took the risk of being less than fully prepared for gas 
warfare. He believed the risk was justifiable because there were so 
many other pressing demands on commanders’ resources, because 
United States national policy forbade the initiation of gas warfare, 
and because intelligence was expected to provide warning if a policy 
change was required.115 
While Wallington believed that the state of gas warfare training 
among U.S. forces in Europe was such that the initiation of gas 
warfare would have resulted in panic, he conceived his job as being 
primarily that of supporting nongas warfare activities of the corps and 
divisions under Third Army. At the same time, he gave all the support 
he could to protective preparedness and intelligence activities.116 This 
conception of duties meant that the TUSA Chemical Section, like the 
118 Cunin Interv, 5 Dec 45. Cunin was succeeded as First Army chemical officer by Col. Frederick 
W. Gerhard in April 1945. 
114 FUSA Rpt of Opns, 1 Aug 44—22 Feb 45, vol. 4, an. ij, Cml Warfare Sec Rpt, pp. 253—67. 
116 Interv, Hist Off with Brig Gen Edward C. Wallington, USA (Ret.), 1 Dec 59. 
n,Ibid. THE CWS IN THE EUROPEAN THEATER 
79 
FUSA Chemical Section, devoted maximum attention to supply and 
to the needs of the chemical mortar battalions. It also meant the pro- 
vision of supply support and tactical advice for the smoke generator 
units which were heavily employed by TUSA, especially in its river 
crossings. As a result of experience in these tasks, the TUSA Chemical 
Section found that the one chemical depot company attached could 
not handle all supply requirements. It recommended that two such 
companies be assigned, and more important still, that CWS should 
have far more transportation for the depot company, the smoke gen- 
erator, and the mortar units. The CWS could not operate its own 
supply system, which it did with very little help from other supply 
services, and at the same time shift men and equipment in a fast- 
moving war without greatly increased transportation. The chemical 
section suggested addition of a truck company to the Army for CWS 
use.m 
To accomplish the intelligence mission, which Wallington deemed 
so important since warning of necessary policy change was to come 
from intelligence information, two technical intelligence teams were 
attached to Third Army. Several of these CWS technical intelligence 
teams were organized and trained by the CWS in the United States 
and several more were organized and trained by Rowan’s office. These 
teams were attached to Army chemical sections. They reported to 
the section to which they were attached and to Colonel Tarr’s Intelli- 
gence Division in Rowan’s office and to the CWS in the United States.118 
The work of all such teams is revealed in an account of the activities 
of CWS Enemy Equipment Intelligence Service Team (EEIST) Num- 
ber One, under Capt. James F. Munn.119 
EEIST Number One, consisting of Captain Munn and three enlisted 
men (a driver, a photographer, and an interpreter) was organized and 
trained in the United States and shipped to Europe in time to arrive 
in France on 18 July 1944. It was first attached to FUSA and was 
later under orders of the 12th Army Group Chemical Section until 
attached to the TUSA Chemical Section in September. During the 
campaign across France, the team investigated several French labora- 
tories and chemical factories used by the Germans, and analyzed, photo- 
nr TUSA AAR, i Aug 44-9 May 45, vol. II, CWS Sec. 
118 CWS COM2 ETO History of Intell Div, From D Day Through V-E Day. ETO Admin J45B. 
119 The following account is derived from: (1) Reds of CWS EEIST No. 1, Apr 44—Aug 45, CWS 
3 14.7 EEIST No. 1; (2) Information furnished by Lt Col James F. Munn, USAR (Ret.). 
289-149 0-68—7 80 
THE CHEMICAL WARFARE SERVICE 
graphed, and inventoried laboratory, manufacturing, and protective 
equipment. Although several rumors of German toxic stores were 
reported, the team found no German toxics and no equipment for 
manufacturing them.120 Interviews with Frenchmen who had been 
pressed into German employment revealed only that the Germans were 
interested in and had continued French toxic and munitions develop- 
ment. As the campaign moved into Germany, the team was called 
upon for numerous similar analyses and descriptions, and it became 
increasingly involved in the interrogation of prisoners of war who 
might have chemical information. Such interrogations were carried 
on in co-operation with Army prisoner of war and intelligence 
authorities. This team and others operating on the battlefront gradu- 
ally accumulated a fairly good store of information concerning German 
individual and collective protection, doctrine, and instructions for 
civilians as well as military forces. The teams also collected adequate, 
although not abundant, information on German weapons and agents 
and chemical investigative processes. On 20 April 1945 the Chemical 
Officer, Seventh Army, informed EEIST Number One that the forward 
elements of the 14th Armored Division had discovered a German war 
gas factory in Velden, Germany. The XV Corps Chemical Section 
moved in to investigate.121 A few days later, on 24 April 1945, XII 
Corps discovered a German toxic depot, whereupon the team set out, 
in co-operation with Colonel Wallington and Col. Ragnar E. Johnson, 
XII Corps chemical officer, to investigate and inventory this depot. 
The chemical analysis of captured munitions was beyond the capacity 
of this small team, but they were able to sort out munitions which 
could be sent to Rowan’s Intelligence and Technical Divisions for 
further analysis. The findings of EEIST Number One proved beyond 
a doubt that the Germans were well and elaborately prepared for gas 
warfare and that they possessed toxic munitions unknown to the 
Allied forces. 
The Ninth Army Chemical Section under Col. Harold Walmsley 
and the Seventh Army Chemical Section under Lt. Col. Bruce T. 
Humphreville operated in much the same way as the First and Third 
Army Chemical Sections. Again the principal interest was in nongas 
warfare and defensive gas warfare supply. The Ninth Army Chemical 
120 A small store of French toxics was found. Ltr, Chief HEIST No. i to CmlO TUSA, 3 Oct 44, 
sub: Ammunition Dump at Fameck, France. CWS—EEIST—ETO—R13 in CWS 314.7 CWS EEIST. 
121 Journal Memo, CmlO Seventh Army, 20 Apr 45. CWS 314.7 EEIST. THE CWS IN THE EUROPEAN THEATER 
81 
Section additionally performed extensive liaison functions since that 
Army was for a time attached to the British 21 Army Group.122 
Rowan was satisfied that chemical matters were well handled at the 
army group and army level. His greatest concern was that corps and 
division do their job well.121 This job was a demanding one. The 
division chemical officer was actually in charge of field training and 
intelligence. He was adviser to his commander on gas warfare pre- 
paredness and on the employment of mortar battalions and was also 
adviser to his commander and to engineer and infantry teams on the 
employment of the flame thrower. His section either actually handled 
or kept close track of the handling of chemical supply and it was 
called upon to mix flame thrower fuel and fill flame throwers whenever 
they were used. The ability of the division chemical officer to handle 
this job depended upon his own energy and inventiveness since he was 
handling weapons and materials not familiar to most line soldiers and 
since his job concerned gas warfare preparedness, which was not popu- 
lar with many commanders and most troops. His ability to do his job 
also depended upon the encouragement and support he got from the 
division commander and his staff and from higher echelon chemical 
officers. It was the duty of the corps chemical officer to oversee all 
these activities for the several division chemical officers under his corps 
except that he had no specific duties in supply. Since the corps head- 
122 (i) Ninth U.S. Army G-4 Per Rpts, 3-16 Sep 44; AAR’s i-ji Oct 44, Dec 44-Jun 43. Files 
Li96-Envelope 10 Cml Sec and L2i6_Envelope 1; (2) Seventh U.S. Army CWS Staff Sec Rpts, 
1 Jan-ji Oct 44, and Dec 44. File L-1139 7th Army Staff Sec ''43.” 
128 The following account of the corps and division chemical officer’s activities is derived from: (1) 
Rowan Interv, 28 Sep 58; (2) Rowan Comments, 16 Dec 60; (3) Col Ragnar E. Johnson, CWS, 
Study, Functions and Orgn, Cml Warfare-Liaison Sec Hq XII Corps, n.d.; (4) Interv, Hist Off with 
Col William C. Hammond, 26 Nov 36 (Colonel Hammond was Chemical Officer, VI Corps); (3) Ltr, 
Col John B. Cobb, USAR (Ret.), to Hist Off, 17 May 60 (Colonel Cobb was Chemical Officer, 35th 
Infantry Division and XIX Corps); (6) Interv, Hist Off with Col Edward J. Barta, USAR (Ret.), 23 
Sep 59 (Colonel Barta was Chemical Officer, XVIII Corps); (7) Cunin Interv, 3 Dec 43 (Colonel 
Cunin was Chemical Officer, 1st Inf Div, before becoming Chemical Officer, FUSA); (8) Interv Hist 
Off with Lt Col Levin B. Cottingham, 9 Oct 43 (Colonel Cottingham was Chemical Officer, 3th 
Infantry Division); (9) Intervs, Hist Off with Col William Foley, 16 Oct 46, 19 Dec 57 (Colonel 
Foley was Chemical Officer, 1st Infantry Division, succeeding Colonel Cunin); (10) Intervs, Hist Off 
with Col John L. Miles, 12 Apr 36, 9 Mar 61 (Colonel Miles was Chemical Officer, 26th Infantry 
Division); (11) Interv, Hist Off with Col Russell W. Dodds and Lt Col Samuel J. Boyles, 8 May 36 
(Colonel Dodds was Chemical Officer, 65 th Infantry Division, and Colonel Boyles was Chemical Officer, 
91st Infantry Division); (12) Interv, Hist Off with Lt Col Thomas B. Crawford, USAR, 18 Apr 36 
(Colonel Crawford was Chemical Officer, 80th Infantry Division); (13) Interv, Hist Off with Lt Col 
Herbert B. Livesey, Jr., USAR (Ret.), 8 Jun 36 (Colonel Livesey was Chemical Officer, 106th Infantry 
Division); (14) Interv, Hist Off with Col Alfred G. Karger, USAR, Jun 56 (Colonel Karger was 
Chemical Officer, 8th Infantry Division); (13) Daily Log, Cml Warfare Sec, 29th Inf Div, 6 Jun 
44-30 Dec 44. 82 
THE CHEMICAL WARFARE SERVICE 
quarters was primarily a tactical element, the corps chemical officer 
naturally centered his attention on tactical employment of chemical 
weapons and equipment. 
Rowan was of course concerned about the energy and resourcefulness 
of division and corps chemical officers since he, like Fries, believed that 
CWS services should be sold to combat commanders, but even after 
his arrangement on manpower with the ETO adjutant general, he 
could seldom control the assignment of division chemical officers since 
most such officers arrived with their divisions from the United States. 
Even in the few instances when replacements were made in the theater, 
the nearest ranking CWS officer was usually chosen by the organization 
commander without reference to theater manpower channels. Rowan 
was most anxious that the organization give the chemical officer a 
chance to do his job. Many commanders felt that in the absence of gas 
warfare, the corps or division chemical officer had nothing to do and 
was therefore available for any assignment in which there might be a 
vacancy. Rowan and the organization chemical officers expected that 
organization chemical officers would receive the normal quota of 
additional assignments to military courts, investigating and inspection 
teams, and the like, but Rowan urged all chemical officers to resist 
assignments to nonchemical duties which would occupy most or part 
of their time. Whenever Rowan had an opportunity in his tours he 
asked corps and division commanders or their chiefs of staff to permit 
chemical officers to devote most of their time to what were, in his 
opinion, the crucial duties of chemical training and intelligence. He 
also felt that chemical officers should be active in the staff supervision 
and tactical control of chemical mortar and smoke units which oper- 
ated under the organization commander. Despite Rowan’s pleas, most 
chemical officers received additional assignments which consumed most 
of their time. The usual assignment was the operation of the organiza- 
tion liaison section which handled liaison with other organizations and 
higher echelons, received and briefed visitors, and maintained a tactical 
and/or intelligence information center. One energetic chemical officer 
so assigned maintains that he spent precisely one and a half hours 
exclusively on chemical work while his division was in combat, but 
he believes he was a better division chemical officer because of his 
additional assignments. 
Those organization chemical officers not assigned the liaison task THE CWS IN THE EUROPEAN THEATER 
83 
had many other regular or part-time assignments such as reconnais- 
sance for the division commander, acting as headquarters commandant, 
and even serving as divisional mess officer. Many organization chemical 
officers disagreed with Rowan and welcomed these nonchemical assign- 
ments since they were usually with the forward or command echelon 
of the division where the chemical officer could not expect to be in 
a nongas warfare situation, and since the work usually kept them in 
better touch with the tactical situation than most staff officers. As one 
chemical officer phrased it, the CWS officer was an orphan, away from 
any CWS command echelon—he increased his own prestige and that 
of his service if he could make himself useful in a combat organization. 
Frequently his ability to sell CWS services varied in direct proportion 
to his usefulness in a nonchemical capacity. Lt. Col. William Foley, 
Chemical Officer, ist Infantry Division, was assigned as assistant to 
the division assistant chief of staff, G—3. He felt that this assignment 
to the operations and plans element was ideal since in the event of gas 
warfare he would have been acquainted with the tactical situation and 
able to render his advice as a member of the staff section charged with 
applying the tactical plan. Most organization chemical officers with 
other assignments, like Foley, believed that they were not neglecting 
their chemical job. The assistant division chemical officer, a captain, 
and some or all of the four enlisted men in the section could handle 
supply and administrative functions from the division rear echelon. 
The assistant chemical officer could and usually did refer really knotty 
problems involving liaison with higher echelons or special requests for 
authority or supplies to the organization chemical officer in forward 
echelon. 
Many assistant division chemical officers and their enlisted assistants 
became proficient at handling chemical training, to which the whole 
section had usually devoted most of its efforts in the United States.124 
Because of severe manpower restrictions on the CWS, every combat 
organization, just as in World War I, usually maintained unit gas 
officers (UGO’s) in all elements at regiment and battalion levels. 
Unlike the World War I precedent, these officers were usually given 
this duty as an additional assignment, and they did not report to the 
organization chemical officer except for training. The division chemical 
officer was also responsible for training unit gas noncommissioned offi- 
124 See Brophy and Fisher, Organizing for War, pp. 382-93. 84 
THE CHEMICAL WARFARE SERVICE 
cers (UGNCO’s) for every company-sized unit. This, too, was an 
additional duty and UGNCO’s usually reported for this duty to UGO’s. 
Most chemical officers attempted to keep the roster of UGO’s and 
UGNCO’s current by offering courses and demonstrations, even con- 
ducting them in forward areas, whenever commanders and operations 
officers would allot the time. The more ambitious chemical officers 
also trained decontamination squads from combat units, gave flame 
thrower training, and demonstrated the use of incendiary and smoke 
grenades. Corps and army chemical officers frequently co-operated, 
or at least provided moral support when the physical assistance they 
could give was limited. 
Division and corps chemical officers, like their seniors in army and 
army group, emphasized intelligence activities. Protecting captured 
munitions from souvenir hunters was one of the problems in this 
field as was securing transportation to take samples back for analysis. 
Corps chemical officers usually called upon the army chemical officer 
for EEIST assistance in such cases. 
A few corps and division chemical officers found it possible to par- 
ticipate actively in tactical plans and preparations, especially for 
smoke operation. 
Nearly every activity of the division and corps chemical officers 
presented problems. They were perpetually short of transportation 
and of service personnel. Supply of wanted items, such as incendiary 
or smoke grenades and mortar ammunition, was often short and com- 
munication to the rear to remedy these shortages was difficult. But 
despite these drawbacks, most corps and division chemical officers felt 
that they accomplished their mission and that their organizations were 
reasonably well prepared for gas warfare and had made effective nongas 
warfare use of mortars and smoke. The few who had biological warfare 
defensive training also felt that they were ready to cope with this kind 
of warfare should it come. Very few organization chemical officers 
seriously considered offensive gas warfare since, aside from the mortar 
battalions, they had no contact with any of the units scheduled to 
wage it and did not handle offensive supplies. 
Summary 
There is no simple way of measuring the work of the CWS in the 
theaters of operations. There is no accounting comparable to that of THE CWS IN THE EUROPEAN THEATER 
85 
tactical objectives taken, bridges built, and miles of communication 
wire laid. The 2,097 CWS officers and 26,909 CWS enlisted men in 
the European theater in March and April of 1945 were there, first, to 
provide the insurance that the American forces could continue to fight 
and retaliate in kind if the enemy initiated gas warfare.12'* Second, 
these "chemicals” as some denominated themselves, were there to 
provide CWS gas protective services, fire CWS nongas weapons, pro- 
vide supply of CWS items, and support the combat forces in any way 
which they or the theater commanders could devise. There was no 
question in Porter’s, or Waitt’s, or Rowan’s mind that they provided 
gas warfare insurance and that they performed extraordinarily well 
at their nongas warfare tasks.126 
Theater commanders, with a few exceptions, willingly supported 
the preparedness effort since they valued the insurance. They increas- 
ingly welcomed the CWS nongas warfare activities as the war pro- 
gressed. They had no heavy mortar other than the chemical mortar, 
which proved tremendously effective, and they had no means for 
sustained provision of artificial smoke other than the smoke generator 
units and CWS-furnished smoke pots and ammunition. 
There were many problems in accomplishing the CWS tasks ranging 
from lack of staff and service manpower to a general lack of under- 
standing of what the CWS might do in a nongas warfare situation. 
As in the Fries and Porter ideal, the ties between research and the 
battle lines, although tenuous, did exist, and Porter’s conception of 
the CWS as a unique service, which participated and aided in almost 
every phase of military activity, was most nearly realized in the 
European theater. Rowan came closer than any other theater chief 
chemical officer to Porter’s goal of operating a unified service although 
the unity in many cases completely depended on the personal obligation 
which most chemical officers felt toward their service and its senior 
representatives in the theater. 
125 Strength figures compiled from STM-30, Strength of the Army, prepared by The Adjutant 
General’s Machine Records Branch monthly. The 31 March 1945 figure of 26,909 enlisted men is the 
peak CWS strength for the European theater as is the 30 April 1945 strength of 2,097 officers. (Brophy 
and Fisher, Organizing for War, app. B.) 
129 (1) Porter Interv, 24 Aug 61. (2) Waitt Interv, 13 May 61. (3) Rowan Interv, 28 Sep 58. CHAPTER III 
CWS Administration and Supply 
Mediterranean 
The Chemical Warfare Service, like the rest of the Army, matricu- 
lated in the logistics school of the North African campaigns. The 
Army had directly participated in the global supply effort for eight 
months before the planning for North Africa got under way, but 
this was the first Army participation in an Allied logistics operation 
of great magnitude. Supply of any considerable force at any time 
during the war was far from a simple matter, but probably no other 
logistics operation of the war was surrounded by so many complicating 
circumstances as this initial venture. Planning got under way late. 
Allied forces strategy for a landing originally projected for October 
1942 and finally for November did not assume a clear pattern until 
5 September 1942. The Allied commander-designate, General Eisen- 
hower, set up his planning headquarters, AFHQ, in England, though 
the source of the bulk of materials was the United States, and a major 
combat force under Maj. Gen. George S. Patton, Jr., was to sail directly 
from the United States for the assault. The Navy had determined 
that an acute shortage of cargo ships, the grave threat of submarine 
warfare, and the shortage of escorts made small, fast-moving, infrequent 
convoys a necessity; thus, the quantities of materials and the numbers 
of men to be shipped were severely limited and the intervals between 
deliveries were lengthened. Few troops had received enough training 
to be considered ready for operations, and elsewhere in the Army, 
as in the CWS, few production lines were furnishing equipment, 
especially new equipment, in desired amounts. Furthermore, the 
administrative mechanisms were not yet working properly. Jurisdic- ADMINISTRATION AND SUPPLY: MEDITERRANEAN 
87 
tional boundaries between the Army Service Forces and the two other 
major War Department commands, Army Ground Forces and Army 
Air Forces, had not been clearly delineated. Strategic or tactical alter- 
ations time and again upset logistical plans. Details of port operation 
and organization still had to be fixed, and co-ordination among the 
ports, the technical services, and the Services of Supply headquarters 
was to be developed through the North African experience. General 
Eisenhower later wrote that the operation was ". . . in conflict with 
all operational and logistical methods laid down in textbooks. . . .Ml 
General Eisenhower called in Colonel Shadle one day in the middle 
of August 1942 and told him that he was appointed Chemical Warfare 
Officer, AFHQ.2 This appointment to a supreme allied headquarters 
placed Shadle in a position that no CWS officer had ever been in 
before; the headquarters of Marshall Ferdinand Foch, the only perti- 
nent World War I example, had no special staff. General Eisenhower 
created AFHQ from a number of military concepts both current and 
new to comply with his basic directive. AFHQ was, first, an instrument 
for co-ordinating Allied strategic plans and operations and a combined 
command for ground, sea, and air forces. It was next a theater head- 
quarters or at least it was designed to contain the nucleus of a theater 
headquarters in that it had a full general and special staff oriented to 
the direction of American Army activities in a theater of operations. 
It was, third, a tactical and operational headquarters approximating 
that of a field army with initial supervision of three corps. It was, 
fourth and least, the parent organization for a communications zone 
headquarters whose operating elements, the base section headquarters, 
were being formed as adjuncts of the corps headquarters.3 
Shadle and an officer assistant immediately set about making general 
chemical plans for the scheduled invasion, known as Operation Torch. 
On 15 September 1942, Shadle’s section was officially organized as the 
Chemical Warfare Section, AFHQ. Lt. Col. Ian A. Marriott, British 
Army, was appointed deputy and one of the two American officers 
assigned became executive officer. One British major, three American 
enlisted men, and two British enlisted men completed the staff. While 
1 (i) George F. Howe, Northwest Africa: Seizing the Initiative in the West, UNITED STATES 
ARMY IN WORLD WAR II (Washington, 1957), ch. II. (2) Leighton and Coakley, ch. XVI. The 
quotation from General Eisenhower is cited on page 455. (3) Ruppenthal, Logistical Support, I, 87-90. 
2 Interv, Hist Off with Gen Shadle, 16 May 61. 
8 History of AFHQ, pt. I, Aug-Dec 42, pp. 1-26. (2) Pogue, Supreme Command, pp. 56-58. (3) 
Howe, Northwest Africa, pp. 32-59. 88 
THE CHEMICAL WARFARE SERVICE 
the section was intended to serve both AFHQ and the planned Amer- 
ican theater Headquarters, North African Theater of Operations, 
United States Army (NATOUSA), the manpower allotment, as 
authorized by the AFHQ chief of staff, was sufficient only to form 
two divisions, one Administration, the other Technical and Intelligence. 
Despite the lack of a supply or logistics division, the AFHQ Chemical 
Section, in its NATOUSA role, was assigned staff responsibility for 
chemical materiel through the entire overseas span from requirements 
to salvage.4 
Since at this time national policy and the toxic supply capability of 
the Army forbade the employment, even in retaliation, of war gases, 
Shadle and his staff made no gas warfare offensive plan.5 They were 
also unable to make any nongas warfare offensive plans involving the 
use of chemical mortar units or the new portable flame throwers as 
neither units nor weapons were yet ready. Brig. Gen. Lyman L. 
Lemnitzer, AFHQ assistant chief of staff, G-}, suggested to Shadle that 
artificial smoke protection would be valuable in view of German air 
superiority over the Mediterranean and North Africa. Shadle accord- 
ingly requested smoke pots both from the United States and from the 
British and drew up tactical smoke plans. The CWS in the United 
States could furnish only the prewar training allowance of one pot 
per twenty soldiers, a ratio which Shadle viewed as entirely inadequate. 
A part of the smoke deficit was made up by the supply of British pots 
and another part by the inclusion of some new mechanical smoke 
generators and a. smoke generator unit in the forces to arrive from 
the United States. Still, Shadle considered preparedness for smoke 
operations to be below the desirable standard.6 
In the absence of gas warfare supplies, and with inadequate nongas 
warfare supply, the principal responsibility of the AFHQ and 
NATOUSA Chemical Sections was to provide for gas warfare pro- 
tection, and the prime corollary task was the computation of protec- 
tive materiel and service requirements for all forces expected to be 
in North Africa. Time was too short and the AFHQ staff section too 
small to accomplish this prime task without aid. Consequently, all 
* (i) History of AFHQ, pt. I, pp. 35-37, 59-61. (2) Personal Ltr, Shadle, Chief Cml Sec AFHQ, to 
Porter, CCWS, n Feb 43. CWS 201—Shadle, Charles S. (O) in CWS 314.7 Pers Files, NATO, 
Feb 43-Feb 44. 
6 For national policy and toxic supply potential in 1942, see Brophy and Fisher, Organizing for War, 
Chapters III and IV, and above, Chapter I. 
9 Shadle Interv, 16 May 61. ADMINISTRATION AND SUPPLY: MEDITERRANEAN 
89 
the existing and forming chemical sections in the European theater, 
the Office of the Chief, CWS, in the United States, and the Chemical 
Section of General Patton’s newly organized Western Task Force 
(WTF) headquarters in the United States pitched into the job, not 
only of estimating requirements, but also of actually supplying staff 
sections, materials, and troops. The OCCWS participated in these 
activities through liaison provided by ASF and OPD with the overseas 
staffs and with the WTF headquarters which was at first divided 
between Washington’s Munitions Building and Indiantown Gap Mili- 
tary Reservation and was later consolidated at Fort George G. Meade, 
Md.7 All echelons began planning before the character of the Torch 
operation had definitely been determined. 
In the United Kingdom, Maj. Gen. Mark W. Clark’s II Corps Head- 
quarters, in which Col. Walter P. Burn was chemical officer, assumed 
most of the planning burden for what was to become Center Task 
Force (CTF), an American force scheduled to make an assault on and 
in the vicinity of Oran, Algeria. The Office of the Chief Chemical 
Warfare Officer, European theater, transferred one officer and four 
enlisted men into II Corps headquarters in September 1942. During 
September, October, and November, the remainder of the planning 
period, a number of CWS ETO officers and men were transferred into 
or detailed for service with the forming Mediterranean Base Section 
(MBS) and Twelfth Air Force headquarters in which supply matters 
were being co-ordinated with II Corps.8 Maj. Herbert F. Croen, Jr., 
scheduled to be acting chief of the MBS Chemical Section, remained 
for some time with the CWS ETO to assist in the task of apportioning 
available chemical resources in England for Torch. Although SOS 
ETO had been advised that all Torch troops arriving from the United 
States to assemble in the United Kingdom would be fully equipped, 
the CWS ETO discovered that units and organizations inspected on 
7 (i) Memos, ACofS G—2 WDGS for CG’s AGF, AAF, SOS, and A Task Force, u, 20 Aug 42, sub: 
Security Control, A Special Opn. (2) Memo, Col Norman E. Fiske, ¥D Security Officer for All ¥D 
Security Officers, 18 Aug 42, sub: Rules Governing Security in the War Dept for A Special Opn. 
(j) Ltr, TAG to ACofS Opns SOS et al., 26 Aug 42, sub: Security Control, A Special Opn. SPX 
312.11 (8-25-42) MS-SPEX-M All in CWS 314.7, A Special Opn, Torch. 
8 (1) History of CWS Per Activities, in History, Sup Div CWS ETO (ca. Jan 1944). ETO Admin 
545A. (2) Narrative History of Mediterranean Base Section, NATOUSA-MTOUSA, Sep 42 to May 44 
(hereafter cited as History of MBS), no paging. OCMH. (3) Ltr, Maling, CmlO XII AFSC, to 
Porter, CCWS, 3 Apr 43, sub; Orgnl History of Cml Warfare Sec, Twelfth AF. CWS 314.7 
Twelfth AF. 90 
THE CHEMICAL WARFARE SERVICE 
disembarkation reported critical shortages of chemical equipment, 
especially protective equipment.9 
The European theater Bolero build-up was brought to a sudden 
halt.10 The CWS ETO diverted chemical equipment and supplies from 
Bolero reserves and from ordinary issues to fill shortages for Torch 
organizations and units. These organizations and units made requisition 
directly upon the CWS ETO for chemical supply, and the CWS in 
turn extracted requisitions to depots. Shortage of time, shortage of 
materials, and the fact that establishment of the depots had just begun 
did not permit the operation of the normal supply pattern under which 
a designated depot would receive requisitions from and make issues to 
all units in its geographical area. Since the impromptu supply arrange- 
ments were unlikely to cover all cases of critical shortage, the CWS 
ETO also undertook a program of inspecting the chemical readiness 
of units about to be shipped to North Africa in order to remedy needs 
which had been overlooked.11 
In the United States, OCCWS and the Chemical Section, WTF, 
computed requirements and determined shortages, as did the CWS ETO, 
by checking tables of basic allowances (TBA’s) and tables of organiza- 
tion and equipment (TOE’s) against unit and organization requisitions 
and against inventories of materials in the hands of troops. While the 
supply of troops scheduled for the assault was being completed, 
OCCWS and the various chemical sections of organizations scheduled 
for Torch also computed the reserves necessary to maintain supply 
when forces were operating in the combat zone. The level of supply 
reserves in terms of days of supply was set by agreement among War 
Department agencies, AFHQ, and ETO headquarters, and OCCWS 
arrived at estimated expenditure rates in order to translate day of 
supply into actual quantities of materials.12 Since no conclusive ex- 
penditure data were available, these estimates were at best educated 
guesses, but problems arising from lack of experience did not become 
apparent in the planning and early operational period. The CWS was 
able to supply gas warfare protective items, which made up the largest 
9 Interv, Hist Off with Col Herbert F. Croen, Jr., USAR, 21 Sep 59. 
10 Bolero was the code name for the build-up of supplies in the British Isles for a projected Allied 
attack on continental Europe. Ruppenthal, Logistical Support, I, pp. 87-99. 
11 History of CWS Sup System, CWS ETO (27 Jul 42-1 Jan 44) (hereafter cited as History, Sup 
System). ETO Admin 545A Cml Warfare. 
12 A "day of supply” was the amount of any item, group of items, or entire category of supply 
calculated to support a given number of men (force or theater strength) in one day’s operation. ADMINISTRATION AND SUPPLY: MEDITERRANEAN 
91 
portion of the requirements list, 
in sufficient quantities to meet 
demands.15 Problems arose in pro- 
viding commanders’ special re- 
quirements, in providing service 
troops, and in limiting both 
troops and supplies to available 
shipping space. 
In connection with com- 
manders’ special requirements, 
Col. Maurice E. Barker, WTF 
chemical officer, declared that 
General Patton would have "in- 
cluded a regiment of wizards” if 
such an inclusion would have 
given promise of help on the far 
shore.14 Regiments of wizards 
were in short supply, but each 
service conducted a search for any special equipment or special allow- 
ances of ordinary supplies which might be valuable in the operation. 
One OCCWS contribution was the recently developed mechanical 
smoke generator which was not available in time for shipment to 
the forces assembling in England but was included in WTF.15 WTF 
also requested and received special allowances of incendiary hand 
grenades so that six grenades could be placed in every vehicle of 
the force and be used for destroying the vehicle in event of cap- 
ture.16 Army Service Forces made a special allotment of chemical 
land mines for Maj. Gen. Ernest N. Harmon’s Subtask Force Black- 
Colonel Barker 
18 (i) Requisitions and statements of shortages checked by OCCWS appear in CWS 320.2 files. 
(2) Memo, Brig Gen LeRoy Lutes, ACofS Opns SOS, for Chief of Sup Servs; Dir of Distr Div SOS; 
and Dir of Mil Pers Div SOS, 14 Sep 42, sub: Distr of Equip. SPOPP 475 in file CWS J14.7 
A Special Opn, Torch. (3) Interv, Hist Off with Lt Col Lyman C. Duncan, 3 Jun 55. (Colonel 
Duncan was a member and chief of the OCCWS requirements staff during most of the war period.) 
(4) Howe, Northwest Africa, pp. 65-67. (5) Interv, Hist Off with Lt Col Matthew A. Capone, 
USAR, 24 Apr 58. (Colonel Capone worked at requirements computation in CWS ETO in the 
fall of 1942.) 
14 Personal Ltr, Col Maurice E. Barker, USA (Ret.), to Hist Off, 12 Jul 49. 
15 (1) For development of the mechanical smoke generator, see Brophy, Miles, and Cochrane, From 
Laboratory to Field, Chapter IX. (2) For smoke generator operations in North Africa, see below, 
Chapter VIII. 
18 (1) Ltr, AG Task Force A [WTF] to ACofS OPD WDGS, 10 Oct 42, sub; Request for Grenades, 
Incendiary, M14. (2) DF, ACofS OPD to CG SOS, 11 Oct 42, sub: Request for Grenades, Incendiary, 
Mi4. OPD 400 TF (10-10-42). Both in Class V Sup File, Theaters Br Plans Div SOS. 92 
THE CHEMICAL WARFARE SERVICE 
stone, an element of WTF, and in answer to Shadle’s request, ordered 
16,000 smoke pots and 11,300 incendiary grenades shipped to England 
for early delivery to CTF.1 ‘ While the number of smoke pots was inade- 
quate from Shadle’s point of view, the shipment at least denoted the 
firm intention of providing smoke cover for the debarkation ports. 
This port concealment operation was one the CWS had not previously 
attempted. 
Port defenses required the provision of chemical troops not only 
for smoke generator operation and for manning pot lines but also for 
supply, service, and maintenance of smoke units and their equipment. 
Very early in North African planning, before the operation had even 
acquired a code name, and before even chemical officers realized how 
large the smoke mission might be, the OCCWS decided that no 
chemical troops would be required in the initial phase of the operation 
and recommended that two chemical composite companies and three 
decontamination companies be landed only after beachheads were 
firmly established. The OCCWS also suggested that four impregnating 
companies should be considered as later additions to the force then 
contemplated while requirements for depot units and smoke generator 
units should be determined by the field commander on the basis of the 
tactical and logistical situation.18 
These OCCWS troop recommendations and suggestions established 
the minimum chemical service requirement according to doctrine then 
current, and reflected the idea that gas warfare protection would be 
needed until forces started moving inland. Even this minimum service 
could not be provided until long after the beachheads were established. 
Lack of shipping space and lack of troops who could complete training 
and be prepared for overseas shipment in a short time caused a drastic 
alteration of plans. Commanders of the troops mounting in England, 
assuming that reserve stocks of chemical supplies would not arrive in 
the combat zone before service troops could be made available to 
handle them, and agreeing with the view that gas warfare would not 
start early, accepted a schedule under which chemical service troops 
were not provided in the initial phases of the operation. The possibility 
17 (i) Memo, CG SOS for CCWS, 23 Oct 42, sub: Mines, Land, for Mvmt 9999-Q-CWS-V. SPDDO 
476 Mines. (2) Memo, CG SOS for Dir Distr Div SOS and CofT, } Oct 42. SPOPP. (3) Memo, 
CG SOS for CCWS, 2 Nov 42, sub: Ammunition for 9999-R. SPDDO 471.6 Grenades. All in Class 
V Sup File, Theaters Br Plans Div SOS. 
18 Ltr, Chief Field Serv OCCWS to Lt Col George H. Decker, Opns Div SOS, 28 Jul 42, sub: Cml 
Troops for Bolero. CWS 320.2/314 (7-28-42). CWS 314.7, A Special Opn, Torch. ADMINISTRATION AND SUPPLY: MEDITERRANEAN 
of enemy initiation of gas warfare before arrival of chemical service 
troops was accepted as a calculated risk. Even had commanders re- 
quested such troops, few were available; the 6th Chemical Depot 
Company was the only chemical service unit available in England. The 
planners scheduled this company to arrive in the CTF area about one 
month after the initial landings. CTF planners also requested that a 
smoke generator company be scheduled to arrive as soon as possible 
from the United States. General Patton and his chief of staff, Col. 
Ffobart R. Gay, wanted both service and smoke generator troops in 
the initial phase. WTF plans provided, because of superior resources 
in the United States and because General Patton deemed it a logistic 
necessity, for building up both reserve and operating stockages, in- 
cluding chemical, to a 90-day level as soon as troops and supplies could 
be landed. Colonel Barker decided to take along in the earliest echelon 
one platoon of a decontamination company, since such a unit could 
provide decontamination services in event of gas warfare, could initially 
handle chemical supply, and could use its decontaminating equipment 
to clean and disinfect buildings to be occupied by WTF headquarters 
and troops. He also obtained a smoke generator company to embark 
on the initial resupply convoy in order that smoke cover might be 
provided in port areas as soon as supplies began to be landed in quantity. 
Colonel Barker devised a plan under which the smoke generator com- 
pany could provide convoy smoke cover using deck-mounted gen- 
erators from its own organizational equipment.19 
Planning completed, or at least terminated, the assault and assault 
support convoys, late in October and early in November, sailed from 
Hampton Roads, Va., and England’s Mersey ports. The first convoy 
from England entered the Strait of Gibraltar on 5 November 1942. 
19 (1) For data on units, see Brophy and Fisher, Organizing for War, Appendix F. Units involved 
were the 6th Chemical Depot Company and the 69th Chemical Smoke Generator Company for CTF, 
and one platoon of the 21st Chemical Decontamination Company and the 78th Chemical Smoke 
Generator Company for WTF. No chemical units were originally scheduled for Eastern Task Force, 
a predominantly British force scheduled to land near Algiers. (2) Memo, ACofS OPD for CG SOS, 
6 Oct 42, sub: Preparation of the 78th Cml Co, Smoke Generator, for Overseas Mvmt. OPD 370.5/CT 
(10-6-42). (3) Memo, ACofS OPD for CG SOS, 6 Oct 42, sub: Assignment of the 69th Cml Smoke 
Generator Co. OPD 320.2 (10—6—42). (4) Memo, with Incl, ACofS G-3 Hq II Corps CTF for CG 
II Corps, 9 Oct 42, sub: Over-all Troop Rqmts. (5) Ltr, CG Task Force A to ACofS OPD, 7 Oct 42, 
sub; Request for Cml Co, Smoke Generator. (6) DF, ACofS OPD to CG SOS, 11 Oct 42, sub: 
Request for Cml Smoke Generator. OPD 320.2 TF (10-7-42). Last three in 7B Troop Unit File, 
Theaters Br Plans Div SOS. (7) Personal Ltr, Barker to Hist Off, 12 Jul 49. (8) Ltr, Burn, CmlO 
Hq II Corps CTF, to CCWS, 5 Dec 42, sub: CWS Opn in the Field. MTO CWS 370, Employment, 
Opn and Mvmt of Troops. (9) Barker, Comments on draft of this volume, Feb 61. 94 
THE CHEMICAL WARFARE SERVICE 
The WTF convoy moved into assault position off the Moroccan coast 
a day later. On 8 November the three task forces struck and war in 
the Atlantic area began for the United States ground forces.20 The 
token chemical sections and units still at sea on the support convoys 
probably had but little comprehension of the magnitude of the logistics 
operation in which they were about to participate. 
Chemical Supply—The Beachhead Phase 
Chemical supply experience in the North African and Mediterranean 
Theaters of Operations passed through several phases, each illustrative 
of a development in both the theater supply system and the chemical 
supply system. The terms theater supply system and chemical supply 
system are employed advisedly, because the theater system and each 
technical service system tended to develop independently although 
both were dependent to a considerable degree upon the War Depart- 
ment system. But that War Department system was only eight months 
old at the time of the landings in North Africa, and, as it was never 
able completely to overcome the traditional autonomy of the technical 
services in the United States, so was it even less able to exert its influence 
on the theater technical services through the intermediary of the 
theater organization. 
The theaters themselves had developed no consistent policy of supply 
organization. It was, for example, more than two years after the 
initial landings before the North African theater corrected a "serious 
flaw in the structure of organization,” the assignment of base sections 
to NATOUSA rather than SOS NATOUSA headquarters.21 War 
Department and theater attempts at supply system evaluation and 
co-ordination were consequently sporadic. With an almost overwhelm- 
ing amount of logistical work to be done in an unfamiliar and difficult 
set of circumstances and in the apparent absence of specific and con- 
sistent guidance from the major commands, each supply officer in the 
theater, whether of high or low echelon, pitched in to do the job as 
he saw it, creating his own policy in the process. Such ad hoc procedures 
inevitably resulted in the establishment of several systems, and, as the 
Mediterranean theater assistant chief of staff, G-q, later pointed out 
20 Howe, Northwest Africa, pp. 84-96. The third force was Eastern Task Force, a British con- 
trolled element. 
21 Logistical History of NATOUSA-MTOUSA, p. 30. ADMINISTRATION AND SUPPLY: MEDITERRANEAN 
95 
with some asperity, each theater chief of technical service developed his 
own supply system.22 
The period of the landings and the two months thereafter represent 
the initial phase in the establishment of the theater CWS supply system. 
During this phase the confusion and frustration of the lower echelon 
chemical supply officers led to measures for co-ordination at theater 
technical service level. 
Western Task Force 
Maj. Bruce T. Humphreville, Colonel Barker’s assistant, who had 
won a coin toss with his chief for the honor, and four of the chemical 
section’s enlisted men went in with the first wave of the WTF landing 
at Fedala and in the process lost all their personal equipment except 
the clothing they were wearing and their weapons. Colonel Barker, 
Capt. James J. Fieffner, and the remainder of the WTF CWS contin- 
gent arrived in the D+5 (n-13 November 1942) support convoy 
outside the wreckage-strewn harbor of Casablanca, French Morocco, 
but the lack of facilities ashore kept them from landing. A few hours 
before debarkation at Casablanca on 19 November 1942, Colonel 
Barker informed the men of the decontamination platoon through 
their commanding officer, 1st Lt. Robert D. Myers, that they were to 
operate the task force chemical depot while the 78th Chemical Smoke 
Generator Company, which was to arrive with the D+20 convoy, 
worked with the Navy and the antiaircraft regiment on port air 
defense. Depot operation proved to be more of a job than the sixty 
days of chemical supply carried on the D+ 5 convoy and the thirty 
days from the assault convoy would seem to indicate. The principal 
difficulty was the lack of operating equipment and vehicles. The first 
platoon unit equipment was never unloaded from the transport, at 
least not at Casablanca, since the support convoy turned back after 
discharging only half its load. Unit transportation was scheduled to 
arrive on a later convoy. Most of the equipment and transportation 
of the task force chemical section had been lost when three transport 
ships were torpedoed and burned off the Moroccan port of Fedala. 
Chemical supplies were widely scattered throughout the Casablanca- 
Fedala area, even as far away as Safi (120 miles from Casablanca), 
22 Ibid., p. 76. 
289-149 0-68—8 96 
THE CHEMICAL WARFARE SERVICE 
in an all-services, all-classes23 jumble which became only the more 
confused with each incoming shipload.24 
Barker and Humphreville had fortunately been furnished money 
belts well stuffed with worn French francs, mostly in large notes. They 
bought a Ford truck and a Renault sedan, rented a tile factory for a 
depot, and hired some local labor. In Barker’s opinion the money was 
the most valuable commodity they took ashore. The first platoon 
moved into a part of the tile factory, borrowed some quartermaster 
trucks, and proceeded to collect, transport, sort, stack, and inventory 
chemical supplies, most of which were located by a bicycle-mounted 
squad that regularly patrolled the docks. Barker’s own WTF Chemical 
Section, except for two men, worked with them. The bulk of the 
supply, Class II protective items, was stored in the factory warehouses. 
Class V items, mostly incendiary and smoke grenades and fog oil, were 
stored in an open courtyard adjacent to the factory. On 21 December 
Colonel Barker reported the local supply position stabilized with about 
3,000 tons of all supplies in storage. The chemical supply plan was 
entirely of chemical section creation. WTF headquarters, while it had 
not interposed objections, had offered no help and no direction to the 
chemical procedures. Each of the other technical services represented 
had likewise set up its own procedures and was operating according 
to its own policy.25 
Center Task Force 
Chemical officers with CTF—Colonel Burn, task force (II Corps) 
chemical officer, Major Croen, acting chemical officer of Mediterranean 
Base Section, and Colonel Elliott, chemical officer of Twelfth Air Force 
and XII Air Force Service Command—landed near Oran from the 
assault and assault support convoys (11-21 November 1942) to find 
28 Classes refers to classes of supply, designated as follows: Class I, food; Class II, unit and organiza- 
tion allowances of clothing, weapons, vehicles, and tools; Class III, fuels and lubricants; Class IV, unit 
and organization special equipment not subject to prescribed allowances but allotted according to opera- 
tional needs; Class V, ammunition, pyrotechnics, mines, and chemical warfare agents. 
21 (1) Personal Ltr, Barker, CmlO WTF, to Porter, 20 Nov 42, no sub. CWS SPCW J14.1/188 in 
file CWS 314.7 Barker Corresp, NATO, 1942-43. (2) 21st Cml Decontamination Co History, Sep 42 
to Sep 44. (3) Leighton and Coakley, Global Logistics, 1940-45, pp. 449-ji. (4) Ltr, Barker to 
Hist Off, 11 Aug 59. 
35 (1) 21st Cml Decontamination Co History, Sep 42 to Sep 44. (2) Personal Ltr, Barker to 
Porter, 21 Dec 42. CWS SPCW 319.1/188 in file CWS 314.7, Barker Corresp, NATO. (3) Barker 
to Hist Off, 11 Aug 59. ADMINISTRATION AND SUPPLY: MEDITERRANEAN 
97 
a supply situation as bad as the one first experienced at Casablanca.26 
Although the lack of service units and materials had enabled the plan- 
ners to schedule only twenty-seven tons of Classes II and IV and only 
nineteen tons of ammunition for these convoys, the landing organiza- 
tions had strewn poorly marked supplies of all shapes and sizes through- 
out the beachhead area. The chemical officers found that to distinguish 
between maintenance supplies and the 6o-day reserve, which organiza- 
tions and units were scheduled to retain as their property, was virtually 
impossible. Even when the organization property was identified, the 
combat commanders understandably asked to be relieved of the burden 
of caring for it.27 
Colonel Burn, his 3 officers and 7 men, established a chemical depot 
in a slaughterhouse on the outskirts of Oran, Algeria, in which they 
handled more than 70 tons of Classes II and IV in less than a month 
with the help of local labor and a detail of engineer troops. Burn 
vigorously stated his need for chemical service troops and suggested 
that service troops be assigned to the leading elements of any future 
operation.28 Croen and his section, which eventually numbered 8 
officers and 17 men, established themselves in Oran where Mediter- 
ranean Base Section became operative under the supervision of II Corps 
on 11 November 1942, the day on which the first echelon landed. The 
MBS Chemical Section concentrated on setting up chemical storage 
and supply operations. The base section group took over the slaughter- 
house depot and began gathering such chemical supplies as Burn and 
his men had been unable to locate or unable to move. Knowing that 
British smoke pots were subject to spontaneous combustion when wet, 
Croen made an extra effort to collect them with the idea of establishing 
several small ammunition dumps at some distance from the city. The 
sites had been prepared and most of the pots collected in the slaughter- 
house courtyard awaiting the availability of transportation, when one 
of the pots ignited. The courtyard, which had been the only storage 
point, became an inferno minutes after the first pot flared. Most of 
the other supplies were saved, and the slaughterhouse was sufficiently 
isolated so that no other damage was done, but the new AFHQ head- 
28 Colonel Maling, who was at the time assigned to staff duty with the advance echelon of AFHQ, 
reached the landing area from a ship which was torpedoed and sunk just offshore. 
27 (i) Burn Ltr, 5 Dec 42. (2) Capone Interv, 24 Apr 58. (Major Capone was a member of the 
Twelfth Air Force Chemical Section.) (3) History of MBS. (4) Maling Ltr, 3 Apr 43. 
28 Burn Ltr, 5 Dec 42. 98 
THE CHEMICAL WARFARE SERVICE 
quarters in Algiers had to await resupply before effective smoke con- 
cealment could be provided. The lesson of this unfortunate accident 
was that specialist service troops and transportation are needed early 
in any operation. After the arrival of the 6th Chemical Depot Com- 
pany with the base section third echelon on 6 December to take over 
the job of establishing chemical depots and depot sections, the service 
problem was considerably eased.29 
Since there was no transportation available, members of Elliott’s 
section hiked several miles to their designated area near La Senia, 
Algeria, on the day of their landing. They bivouacked in a sea of mud 
and returned the next day to the port area to begin collecting supplies. 
Whenever any form of transportation could be begged or borrowed 
or whenever space could be obtained on any truck going in the right 
direction, they shipped supplies to La Senia. Since they had no ma- 
terials-handling equipment, no shelter and no depot setup, the only 
virtue in sending the material to La Senia was that it could be sorted, 
identified, and piled in some sort of order. They hired local workers 
whenever possible, sometimes paying them from personal funds or by 
bartering personal possessions. Arrangements had been made in plan- 
ning for the Twelfth Air Force to draw chemical supply from II Corps 
stocks while that organization controlled supply and subsequently from 
the base section. II Corps was unable to meet the air force’s demands, 
and when the responsibility passed to the base section, that headquarters 
was forced to restrict the air force share to 25 percent of available 
supplies. MBS early became the focal point of supply for the Tunisia 
Campaign, and, in view of the fact that its original maintenance level 
was half that of WTF, a quota issue policy was the only answer to an 
increasingly perilous stock situation. Air force’s chemical officers 
approved the quota imposition because they understood that their 
requisitions would otherwise have exhausted base section supplies. 
Under these conditions, the Chemical Section, XII AFSC, was six 
months in building up to a 30-day balanced supply.30 
Shadle, his 2 British colleagues, 1 other American officer, and 2 
American enlisted men arrived in the theater in early December. As 
* (i) History of MBS. The base section became independent of II Corps on 6 December. (2) 
Logistical History of NATOUSA-MTOUSA, pp. 20-22. (3) 6th Chemical Depot Co History (12 
Jul 42 to 8 Aug 43), 1944. (4) Croen Interv, 21 Sep 59. 
30 (x) Capone Interv, 24 Apr 38. (2) Maling to Porter, 3 Apr 43. (3) Elliott Comments 
16 Jan 61. ADMINISTRATION AND SUPPLY: MEDITERRANEAN 
99 
Shadle indicated to the Chief, CWS, 2 officers could not thoroughly 
perform the multifarious duties demanded of the American 
(NATOUSA) complement of the Allied Force Headquarters, but 
they devoted as much time as possible to "one of the biggest jobs” 
they had, the supply of troops. Shadle examined operations in MBS 
and noted that, despite great obstacles, Croen was doing "a 'bang-up’ 
job.” Then, accompanied by Elliott, he visited WTF, which had not 
yet received the designated base section complement from the United 
States, and discussed chemical matters with Barker. Shadle found the 
whole theater force prepared to provide individual protection against 
gas warfare, and he found the CWS capable of meeting its supply 
responsibilities of the moment, but offensive preparedness was only 
in the early planning stage while almost the entire theater chemical 
supply organization and process remained to be developed.31 
Chemical Supply—Theater Organization Phase 
Colonel Shadle’s first task in the second phase of North African 
logistics development, after the task force service groups were absorbed 
in and supplanted by Atlantic Base Section (WTF) and Mediterranean 
Base Section (CTF) under AFHQ on 30 December 1942, was to decide 
upon an issue policy and to make corresponding storage and handling 
arrangements.32 In theory, the base section chemical sections would 
simply have ordered their depots to fill table of equipment or table of 
allowance shortages for any organization or unit according to unit or 
organization requisition, but continental theory failed to cover the 
rough facts of life on the far shore. Many tables of allowances and 
tables of organization and equipment were incomplete, and the chem- 
ical sections were unacquainted with many others which had recently 
been revised or introduced. Even had information concerning new 
tables been provided in the theater, it would have been of no help. The 
North African logistics arrangements had been made with the old 
tables in mind and implemented with materiel available; therefore, 
chemical section depots lacked the quantity and variety of equipment 
demanded. Furthermore, many units arrived without basic equipment 
or with unusual demands for equipment to suit special operational 
*l (i) Personal Ltr, Shadle, Chief Cml Sec AFHQ, to Porter, CCWS, n Feb 43. CWS 201—Shadle, 
Charles S. (O) in file CWS 314.7 Pers Files, NATO, Feb-Dec 43. (2) Barker to Porter, 21 Dec 42. 
32 Base sections were organized by AFHQ General Orders, 38, 30 December 1942, cited in History 
of AFHQ, Part II, Section i, pages 169-75. 100 
THE CHEMICAL WARFARE SERVICE 
needs. Shortages developed, but the chemical supply officers’ immediate 
concern was the determination of the extent of these shortages and the 
forecasting of future demands on the issue system. Colonel Shadle; 
Col. Siegfried P. Coblentz, Chemical Officer, Atlantic Base Section, 
who had arrived with part of his section in Casablanca on Christmas 
Eve, 1942; Colonel Johnson, who arrived in February 1943 to become 
Chemical Officer, MBS; and Colonel Barker, who became Chemical 
Officer, Fifth United States Army, when it was activated at Oujda, 
Morocco, on 5 January 1943—all found that the principal obstacle to 
the determination of an issue policy was lack of information on current 
and forecast demand and on supply allowances.33 
As an interim measure pending the establishment of an issue policy, 
Shadle adopted a compilation of chemical logistics data prepared by 
Colonel Barker on the basis of his experience.34 This compilation was 
intended to serve as a guide in estimating issue, storage, and handling 
requirements, but the chemical officers were aware of the fact that 
it was far from definitive. They exhorted their colleagues in the 
United States to supply them with such information as the number 
of troops scheduled for the theater, the current descriptions of items 
and packaging in shipments, and the new development of material and 
techniques. Barker particularly requested a compact compilation of 
logistics data for field use which would be so handy and so valuable 
that it could compete for space in personal baggage with such essential 
items as candy bars and toilet paper. General Waitt, Assistant Chief, 
CWS, for Field Operations, promised that a pocket-size supply and 
issue catalog would be forthcoming, but no War Department approval 
for such a publication was ever secured.35 
OCCWS found it difficult to provide information to the theater 
chemical officers. Both Porter and Waitt tried to include all informa- 
tion possible in personal letters. The personal letter method was un- 
88 (i) Shadle to Porter, n Feb 43. (2) Personal Ltr, Coblentz, CmlO ABS, to Waitt, Chief Opns 
Div OCCWS, 23 Feb 43. CWS SPVCO (4-3-43) in file CWS 314.7 Pers Files, NATO, Feb-Dec 43. 
(3) Ltr, Johnson, CmlO MBS, to CCWS, 12 Apr 43, sub: Resume of CWS Problems. CWS 314.7 
Corresp, NATO, Apr-Jun 43. (4) Ltr, Barker, CmlO Fifth Army, to CCWS, attn: Waitt, 9 Jan 43, 
no sub. CWS 314.7 Barker Corresp, NATO, 1942-43. 
w (1) Coblentz to Waitt, 25 Feb 43. (2) Hq Fifth Army Cml Warfare Memo 1, 4 Feb 43, sub: 
Data on Cml Warfare Sups [Col Barker’s logistics data compilation]. CWS MTO 050 Logistical Data. 
85 (1) Ltr, Waitt, Chief Opns Div OCCWS to CmlO Fifth Army, 5 Mar 43, sub: Development of 
CWS Items. CWS SPCVO (3—5 —43) in file CWS 314 7 Barker Corresp, NATO, 1942-43. (2) Ltr, 
Waitt, ACCWS Fid Opns, to CCmlO [sic] MBS, thru CCmIO AFHQ, 30 Jun 43, sub: Resume of CWS 
Problems. CWS SPCVO (30 Jun 43) in file CWS 314-7 Corresp, NATO, Apr-Jun 43. ADMINISTRATION AND SUPPLY: MEDITERRANEAN 
101 
orthodox, but it was effective for some kinds of information particu- 
larly since the small number of regular CWS officers were so well 
acquainted with one another that there was little chance that personal 
letters would be misunderstood. When Porter and Loucks came to 
North Africa in April 1943 after their sojourn in the European theater, 
Porter appraised the information problem as being the most serious 
matter facing the chemical officers overseas. He accordingly directed 
the establishment of a liaison officer position for each theater in his 
own office.36 These liaison officers were assembled in a theaters division 
operating under Waitt. Waitt inaugurated a special series of "Theater 
of Operations Letters” in May to let all principal overseas chemical 
officers know what was going on in the United States and in other 
theaters. Waitt almost immediately ran into a stumbling block. ASF 
wished to clear all information sent to the theaters and even wanted 
to control the content of technical channels communications. The 
CWS and the other technical services were forbidden to reproduce or 
even make extracts from official publications. Waitt deemed it neces- 
sary to continue technical channels communications which, as he later 
expressed it, "short-circuited ASF.” 37 The use of theater of operations 
letters continued, but they were carefully oriented to technical, mostly 
research and development and intelligence, matters. Waitt’s listing 
of official publications must have been frustrating to North African 
chemical officers since assembling a set of such publications was not 
possible at the time.38 Indeed, Waitt and his liaison officers in the 
United States were frustrated at being unable to furnish all the in- 
formation required in any form the chemical officers overseas might 
want it. Waitt felt that most of the information desired was eventually 
supplied, even if by means almost clandestine.39 But the problem of the 
moment early in 1943 was information on which to base an issue policy 
and that need was not met at the time. During the second phase of 
NATOUSA CWS development, for approximately the first six months 
of 1943, each of the base section chemical officers decided what allow - 
36 Ltr, Loucks to All Concerned [OCCWS], 23 Apr 43. CWS SPCWS 319.1 (CW Activities in 
Great Britain). 
87 Ltr, Waitt to Hist Off, 14 Sep 39. 
38 (1) Barker to Porter, 9 Jan 43. (2) Johnson to Porter, 12 Apr 43. (3) Croen Interv, 21 Sep 59. 
39 (1) Waitt Comments, 5 Jan 61. (2) Waitt Interv, 13 May 61. 102 
THE CHEMICAL WARFARE SERVICE 
ances of materiel to make as each instance of demand on the chemical 
supply system arose.40 
Theater Chemical Section Organization 
The fact that base section chemical officers had to make their own 
interim policy decisions demonstrates that Shadle had a communica- 
tions problem of his own. During the first two months ashore, no com- 
munications system was operating well enough across the 1,500-mile 
range of the North African campaign to permit a comprehensive 
assessment of the situation. Personal visits provided the only feasible 
solution to this problem. Shadle visited the field elements, as he had 
done soon after arriving in North Africa, whenever he could, and 
field officers, in turn, visited him and each other. As a means of control 
these visits were too infrequent and too brief to be effective, but they 
at least kept chemical officers informed on the activities of their col- 
leagues. In February 1943 the War Department drew new boundaries 
and created the North African Theater of Operations. While Ameri- 
cans in AFHQ had long assumed that this theater was to be activated, 
there was officially no theater organization in North Africa. The 
theater organization in charge was the ETO in recognition of General 
Eisenhower’s dual role as AFHQ and European theater commander. 
Upon the official creation of a new theater, Eisenhower designated the 
American element of AFHQ as the NATOUSA headquarters without 
physically separating the Allied and American elements. Shadle then 
added to his own office two American-staffed divisions, one for opera- 
tions and training, the other for supply and requirements.41 
Neither of these new divisions had any operating function compar- 
able to that of Supply Division in the European theater. Again, dis- 
tance prevented direct control. Barker was handling training in the 
Fifth Army headquarters, and supply operations were still handled by 
the base section and combat organization chemical officers. A supply 
co-ordinating and operating agency was in the process of activation. 
The Services of Supply, NATOUSA, had been organized, and Maj. 
Arthur C. Rogers, assisted by one enlisted man, opened the chemical 
section on 25 February 1943.42 Col. Lewis F. Acker served as Chemical 
40 (i) Col Siegfried P. Coblentz, USAR (Ret.), Comments on draft of this volume, 9 Jan 61. (2) 
Croen Interv, 21 Sep 59. 
41 History of AFHQ, pt. II, sec. 4, pp. jio-ii. 
42 History, COM2 NATOUSA-MTOUSA, Nov 42-44, pt. I. ADMINISTRATION AND SUPPLY: MEDITERRANEAN 
103 
Officer, SOS NATOUSA, during the month of March, but he could 
accomplish little beyond arranging section organization since supply 
supervision channels were not yet in operation. In any case, early SOS 
lines of authority were not clear, manpower was not allotted in suffi- 
cient numbers for the task at hand, and existing regulations failed to 
cover the functions or the procedures of the organization. During 
April, with a section enlarged to three officers and twelve enlisted 
men, Maj. Alfred J. P. Wilson, acting chemical officer, began to 
assume the responsibilities of requirements computation and super- 
vision of supply status reporting. Shadle pointed out to Wilson and 
to Col. Alfred L. Rockwood, who became SOS NATOUSA chemical 
officer in May, that chemical supply policy was the province of the 
theater chief of service. Shadle exercised his policy control through 
his Supply and Requirements Division which was assigned the addi- 
tional duty of compiling and reporting statistical data on supply levels 
and on handling of chemical warfare supplies in the theater. In prac- 
tice, the function of Shadle’s office became more one of review than 
of control since nearly every operational act involved policy decisions, 
and the SOS headquarters at Oran was too far removed from AFHQ 
and NATOUSA organizations in Algiers to permit concomitant 
review.43 The control-review situation was, however, not the only 
complication. The base sections continued to report to NATOUSA 
rather than to SOS, and base section chemical officers sometimes looked 
to Shadle’s office for co-ordination of activities. Further, as in the 
European theater, many chemical problems continued to be handled 
through informal, personal contact outside the established channels 
of authority. Maj. Gen. Thomas B. Larkin, SOS NATOUSA com- 
mander, once asked Shadle to handle a chemical staffing problem in 
SOS. When Shadle pointed out that the SOS, a separate command, 
was outside his area, Larkin disagreed and reasserted that Shadle as 
theater chief chemical officer should deal with the matter.44 Shadle 
did provide a solution to this problem and in so doing set his own 
precedent for an authority crossing a command line. Subsequently, 
43 (i) History of COMZ NATOUSA-MTOUSA, pt. IV, Introduction, and History of Cml Warfare 
Sec SOS NATOUSA. (2) History of AFHQ, pt. II, sec. 4, pp. 510-13. (3) Personal Ltr, Shadle 
to Waitt, 26 May 43. CWS 314.7 Pers Files, NATO, Feb 43-Feb 44. (4) Interv, Hist Off with Col 
Alfred J. P. Wilson, USAR, 16 Oct 58. 
44 Shadle Interv, 16 May 61, 104 
THE CHEMICAL WARFARE SERVICE 
Shadle, or members of his immediate staff, did informally handle a 
number of other problems outside the theater headquarters. 
While problems of control did arise and while the CWS of AFHQ 
and NATOUSA was tending to be a separate service as in the European 
theater, Shadle did not view his control problem as being as serious as 
Rowan’s. Shadle was in a better prestige position than Rowan since 
his position on the AFHQ and NATOUSA staffs was not complicated 
by an SOS jurisdiction over the technical services. Also, while Rowan 
from the end of 1942 to the end of 1943 was left largely without the 
support of ranking, experienced chemical officers, Shadle had experi- 
enced, aggressive, ranking chemical officers in almost every field 
position.45 He could count on the field officers to perform their own 
liaison with field elements and to direct field CWS activities. Shadle 
did have a matter of some personal embarrassment in this connection— 
both Rockwood and Barker were his seniors in rank and the seniority 
rule for appointment to top positions had been almost inflexible in the 
Army prior to World War II. Shadle did not view seniority as being 
of great importance in his own case; only on one occasion did a senior 
officer point out his junior status.46 On the whole, the autonomy of 
the field chemical sections and the rank represented there worked in 
the favor of the NATOUSA CWS and its chief. 
Shadle concentrated on the staff relationships within his own head- 
quarters and he consulted with or worked with the AFHQ and 
NATOUSA assistant chiefs of staff whenever chemical warfare matters 
were under consideration. He informed Waitt that his advice was 
sought and accepted by these officers.47 This is not to say that there 
were no stresses and strains in CWS administration in North Africa. 
At the time of the organization of NATOUSA, Shadle praised the 
work of his American and British subordinates, but privately com- 
plained to Porter that Rowan and Montgomery had prevented his 
acquisition of more experienced officers. How the European theater 
officers could have blocked him he did not make clear since his own 
headquarters allotment prevented an increase in his immediate staff and 
45 Rowan highly valued the Reserve and AUS officers serving on his staff and in the field in the 
European theater. Both he and General Porter indicate that the contribution of such officers to the 
success of CWS operations in Europe can hardly be overstated, but the fact remained that prior to the 
cross-Channel attack Rowan suffered from a lack of sufficient rank and experience among ETO CWS 
officers, (r) Rowan Comments, 16 Dec 60. (2) Porter Interv, 24 Aug 61. 
48 (1) Personal Ltr, Shadle to Waitt, 26 May 43. (2) Shadle Interv, 16 May 61. 
47 (1) Shadle to Waitt, 26 May 43. (2) Shadle Interv, 16 May 61. ADMINISTRATION AND SUPPLY: MEDITERRANEAN 
105 
since most of the senior ETO CWS officers had moved into North 
African field commands.48 By the time of Porter’s and Louck’s visit 
to North Africa in April, the CWS NATOUSA had apparently ad- 
justed to the staffing situation since the visiting officers did not mention 
it in their letters reporting North African troubles. The pressing 
problem at the moment was that the chemical supply situation as a 
whole in North Africa had deteriorated to a "dangerously low 
position.” 49 
Chemical Supply Situation: Spring 1943 
The serious threat to the North African theater’s chemical warfare 
potential in April was the result of failure to obtain sufficient material 
from the zone of interior to raise the theater stock level and to balance 
it. As in the case of issue, the acquisition and balancing of theater 
stocks was, in theory, a simple matter. Theater levels were determined 
by the War Department on the advice of the theater commander. The 
ports of embarkation then automatically furnished food, fuel, and 
spare parts according to theater strength and number of vehicles in use. 
The theater requisitioned shipments in supply Classes II and IV to 
bring stocks up to desired levels. Ammunition was to be furnished 
according to War Department allotment.50 But again, as task force 
experience demonstrated, theory rode high in the clouds while fact 
plodded the Tunisian sands. In the first place, the War Department 
instructions were issued at the time that planning for the North 
African operation was at its peak; even if the official publication was 
immediately and widely circulated, it is doubtful that supply officers 
would have had the time to give it much consideration. In the second 
place, the War Department for some time in effect suspended its own 
procedures, supplying Class II and IV supplies automatically rather 
than on requisitions based on actual consumption rates in the theater. 
The New York Port of Embarkation (NYPE) could not adjust 
quantities or kinds of supply until there was a considerable easing 
of the problems of shipping space and supply documentation.51 The 
48Shadle to Porter, 11 Feb 43. 
48 Rpt, Cm! Warfare Statistical Summary, Text Summary (hereafter cited as Statistical Summary), 
30 Apr 43. MTO CWS 400.19 Statistical Summary. 
50 WD Memo 700-8-42, 10 Oct 42. 
ol (1) Leighton and Coakley, Global Logistics, 1940-1943, p. 321 and ch. XVI. (2) Logistical 
History of NATOUSA-MTOUSA, pp. 51-34. 106 
THE CHEMICAL WARFARE SERVICE 
theater staff found over-all supply documentation virtually impossible: 
there was no common reporting form, and, if there had been, the 
situation was too fluid and communication too poor for assembling 
data, particularly from the combat units. 
The base section chemical officers assumed the burden of evaluating 
chemical supply status on the receiving end because no one else pos- 
sessed as much chemical information. They then submitted requisitions 
for shortages to the United States (NYPE), but some of these were 
edited or rejected by the port of embarkation because of noncompliance 
with the WD overseas supply procedures memorandum. Even in cases 
when the material was shipped, the port required a 90-day processing 
and shipping period. The base section chemical officers pleaded with 
the OCCWS to expedite supply, particularly items such as FS smoke, 
colored smoke, white phosphorus and thermite grenades, stocks of 
which were entirely depleted. General Waitt replied that he was 
unable to influence the requisitioning and shipping situation which 
was entirely governed by ASF and higher headquarters.52 
The North African chemical officers could do little but wait and 
hope that shipments would be forthcoming from the United States. 
Their hopes were met, quantitatively at least, during the next month. 
Shipments received during May increased stocks so that 80 percent 
of major ground forces items were stocked in levels above the author- 
ized forty-five days. The air force’s chemical supply position also 
improved although not as much as the ground force supply. The 
Chemical Section, Eastern Base Section, established by Capt. Carl E. 
Grant in February, was authorized to allot 50 percent of its stocks to 
the XII Air Force Service Command. Balancing stocks among the 
base sections continued to be a problem until at least the fall of 1943, 
since congested ports and inadequate railroad facilities rendered inter- 
depot transfers extremely difficult.13 
Qualitatively, the supply picture was not so bright. Most of the 
items reported stocked at or exceeding authorized levels were protective 
items. The level of individual gas protection had been high and had 
62 (i) Personal Ltr, Barker to Porter, 21 Feb 43. CWS 412.} APO 464 (Sabotage Device) in CWS 
314.7 Barker Corresp NATO, 1942-43. (2) Personal Ltr, Coblentz to Waitt, 3 Mar 43. CWS 314.7 
Pers Files, NATO, Feb-Oct 43. (3) Personal Ltr, Coblentz to Waitt, 22 Apr 43. ABSCW in same 
file. (4) Personal Ltr, Waitt to Coblentz, 3 Apr 43. CWS SPCVO (4-3-43) in CWS 314.7 Pers 
Files, NATO, Feb-Oct 43. (j) Waitt to CmlO MBS, 30 Jun 43. (6) Johnson to Porter, 12 Apr 43. 
53 (1) Statistical Summary, 30 Apr, 31 May 43. (2) Maling Ltr, 3 Apr 43. (3) Logistical History 
of NATOUSA-MTOUSA, p. 23. ADMINISTRATION AND SUPPLY: MEDITERRANEAN 
107 
remained so although the quantity of individual protective items in 
the resupply system was low in April. The collective protection 
potential,04 on the other hand, was lower than that for individual pro- 
tection: the SOS Chemical Section reported shortages of the common 
decontaminating agent, bleach (chloride of lime), of the power-driven 
decontaminating apparatus, and of the collective protector.55 These 
shortages of protective supplies were important given the assumption 
that gas warfare could be initiated at any time, but the supply of gas 
warfare items to be used offensively should gas warfare retaliation be 
necessary was even more important. Supply of the nongas warfare 
chemical munitions such as incendiary bombs and high explosive mortar 
shell was highly important also. 
At the end of May, Shadle expressed his satisfaction with the chemical 
offensive potential and ammunition status in the North African theater. 
His view seems to have been overly optimistic since smoke pots, tear 
gas, and HC smoke grenades were the only ammunition items available 
in sufficient supply. All the chemical supply officers reported urgent 
requests for unavailable white phosphorus grenades. The Twelfth Air 
Force reported limited quantities of ANM50A1 4-pound incendiary 
bombs, a few M52 500-pound incendiary bomb clusters, and a con- 
siderable number of M54 100-pound incendiary bomb clusters. There 
was no other chemical ammunition in the theater although the New 
York port had promised that 120 days’ supply of high explosive and 
smoke shell was en route for the three chemical mortar battalions which 
had recently arrived in the theater. Aside from a small amount of 
artillery shell stored by Ordnance, no toxics were available in the 
theater and none was scheduled to arrive until the fall of 1943. The 
March theater plan for gas warfare, the first such plan, was based on 
meeting possible enemy gas attack with this plainly inadequate supply 
of artillery shell. The new War Department policy for retaliation in 
event of enemy initiation of gas warfare called for the use of aerial 
munitions as the principal gas weapons. Shadle’s satisfaction with the 
toxic supply status can be explained by the fact that he did not con- 
64 Collective protection is that provided to units or groups of men. For example, units and organiza- 
tions were provided with area and equipment decontaminating agents and the means to apply them 
should vesicant gases be used. The collective protector, a machine for filtering and circulating air, 
was to be provided for command posts and other crucial command and service installations which could 
not readily be moved in the event of gas attack. Brophy, Miles and Cochrane, From Laboratory to 
Field, ch. IV. 
K (i) Statistical Summary, 30 Apr, ji May 43. (2) Shadle to Waitt, 16 May 43. 108 
THE CHEMICAL WARFARE SERVICE 
sider the lack of aerial munitions to be a critical problem. He believed 
that the Axis Powers were in no position to initiate gas warfare in 
North Africa, a correct estimate, as it happens, for subsequent investi- 
gation proved that there were no German toxic munitions in North 
Africa. Still, in terms of War Department policy and authorized 
theater levels, the North African theater was critically short of offen- 
sive chemical munitions.56 
Field conditions produced a further complication in the supply 
problem which was not unanticipated among chemical officers but 
which was not provided for by the War Department. Troops in the 
field are ingenious at adapting supplies to their own purposes. While 
the use of the gas mask carrier as a carry-all was frowned upon because 
it meant loss of the mask, chemical officers overlooked or unofficially 
encouraged secondary use of other gas warfare supplies in a nongas 
warfare situation. An acetate eyeshield had been developed by the 
British to provide readily available individual protection against liquid 
vesicant droplets in the absence of the gas mask. The United States 
forces in North Africa had been supplied with these eyeshields before 
the War Department declared them obsolete. North African troops 
used eyeshields in lieu of sunglasses and as protection against swirling 
dust and sand. Constant demand nearly exhausted the supply and, 
since there was no resupply channel for obsolete items, created a prob- 
lem for which chemical officers saw only one solution. The War 
Department had to be convinced that gas warfare items such as the 
eyeshield could be used in a nongas warfare situation so that a resupply 
channel such as existed for other items could be provided. Antigas 
shoe impregnite could be used as "canned heat,” as could the chemical 
fire starter, and, when applied to tents, shoe impregnite proved an 
excellent waterproofing substance and served as a base for sand camou- 
flage. Antigas covers could also be used as a waterproof covering for 
shelter tents, and antigas curtains, when obtainable, served as ground 
sheets, tarpaulins, and foxhole covers. The decontaminating appa- 
69 (i) Statistical Summary, 30 Apr, 31 May 43. (2) Shadle Ltr, 26 May 43. (3) Maling Ltr, 3 Apr 
43. (4) Col Gerhard to CCWS, 13 May 43, Notes on Visit by Col Frederick W. Gerhard, CWS, to 
Theaters of Operations in England and Northern Africa. CWS 314.7 Observer Rpts. (3) Memo, 
Actg ACofS OPD WDGS for CG ASF, 11 Aug 43, sub: Implementation of Theater Plans for Gas 
Warfare NATO. OPD 385 CWP (11 Aug 43). (6) Ltr, CinC AFHQ to TAG, 19 Mar 43, sub: 
Cml Warfare Plan for NATO. AFHQ AG 322.095/378 CWS-M in file OPD 385 CWS sec. 11B. ADMINISTRATION AND SUPPLY: MEDITERRANEAN 
109 
ratuses could be used for insecticide spraying, carrying water, fighting 
fires, and giving showers. CWS nongas warfare supply turned out to 
be a considerably more active business than had been intended, par- 
ticularly since CWS officers could not allow the secondary uses of 
chemical items to lower the gas protective potential.57 
As the second phase of the chemical supply operation in the North 
African theater drew to a close in June, the weapons and ammunition 
status took a turn for the worse. Supplies earmarked for the Sicilian 
operation were withdrawn without the prospect of immediate replace- 
ment. The process of chemical supply planning for the assault on 
Sicily had begun in March when Major Humphreville, newly desig- 
nated Chemical Officer, Seventh Army, sent the supply unit of his 
section to Oran to plan with the Chemical Section, SOS NATOUSA.58 
Since logistic data were not available, the Chemical Section, MBS, 
supplied estimated data which the SOS and Seventh Army sections 
used to compute requirements. The SOS Chemical Section submitted 
requisitions to the zone of interior for assault materiel requirements 
and for maintenance stocks which were to be built up to a 30-day 
level as soon as depot operations in Sicily were practicable. The SOS 
section computed requirements on a regular table of allowance and 
maintenance factor basis, relying on estimates in cases when informa- 
tion was lacking.1*9 This system presented no problems in Class II 
supply except for spare parts for which maintenance factors were 
unavailable. Any determination of spare parts usage rate was purely 
guesswork, and, even had estimates been accurate, spare parts stocks 
both in the theater and the ZI were wholly inadequate to meet the 
demand. The SOS supply officers found that the great drain on 
theater reserves came in the Class IV and special equipment categories. 
Major Humphreville requested special allotments of grenades and flame 
throwers and, in view of the constant need for smoke concealment in 
07 (i) Statistical Summary, 30 Apr, 31 May 43. (2) Barker Comments, Feb 61. (3) Coblentz 
Comments, 9 Jan 61. (4) For more information on eyeshields, see Brophy, Miles, and Cochrane, From 
Laboratory to Field, Chapter IV. 
58 Seventh Army was not officially activated until 10 July 1943. The predecessor headquarters was 
I Armored Corps. 
68 A maintenance factor was the estimated resupply quantity per month, stated as a percentage of the 
total theater stock, or of any item, necessary to maintain stock level, both in depots and in the hands 
of troops, while losses because of wearing out, capture, abandonment, pilferage, and the like were 
occurring. This designation was, in November 1943, changed to “replacement factor” to avoid 
confusion between repair and resupply. WD Cir 297, 13 Nov 43. THE CHEMICAL WARFARE SERVICE 
the North African ports, 100,000 smoke pots for emergency use in the 
Sicilian ports.60 
Major Wilson, then acting chief of the SOS Chemical Section, pro- 
tested this smoke pot allotment to the SOS commander, General Larkin, 
for two reasons; (1) regardless of requirements, a lack of shipping 
dictated a space allotment plan for Sicilian cargo, and most of the 
CWS space would be filled with smoke pots; (2) filling the Seventh 
Army demand for smoke pots would exhaust theater stocks and would 
require special shipments from the United States. General Larkin 
agreed to revise the Seventh Army requisition to a smaller amount, 
but General Patton, now Seventh Army commander designate, ap- 
pealed directly to General Eisenhower. Reasoning from the point of 
view which thereafter governed supply policy for both the North 
African and European theaters—that the combat commander should 
have anything he wanted—General Eisenhower insisted on the supply 
of the original smoke pot requisition.61 
In this particular instance Major Wilson was probably right. But, 
in retrospect, this incident and the supply operations which it represents 
assume more significance than the immediate problems imply, for this 
operation marks the bifurcation of the chemical supply system. Hence- 
forth, one element of the chemical supply system was oriented, despite 
doctrine to the contrary, to an impetus from the front.62 This element 
of the system was primarily devoted to meeting the demands and 
special requirements of the combat forces, especially for new equip- 
ment, such as the lightweight mechanical smoke generator, or equip- 
ment used in new missions, such as the 4.2-inch chemical mortar.63 
*° (1) Maj Humphreville, CmlO Seventh Army [to CG Seventh Army] (copy to CCWS), 15 Sep 43, 
Rpt of Cml Warfare Opns, Sicilian Campaign, reproduced as sec. H, pt. II, of Rpt of Opn of the U.S. 
Seventh Army in the Sicilian Campaign, 10 Jul-17 Aug 43, Sep 43. (2) History of Cml Warfare Sec 
SOS NATOUSA, in History of COM2 NATOUSA-MTOUSA. (3) Wilson Interv, 16 Oct 58. (4) 
IOM, A.L.R. [Col Alfred L Rockwood, CmlO SOS NATOUSA] to'CofS [SOS NATOUSA], 20 Jul 43, 
no sub. CWS MTO 400.19 Statistical Summary. (5) MBS reported\no spare parts, except for a wholly 
inadequate supply of some mortar parts, on hand as of 28 June CWS MBS [to Cml Sec SOS 
NATOUSA], Stock Status and Materiel Issue Rpt, 28 Jun 43. CWS MTO 142.1 Inventory (Corresp). 
61 (1) Wilson Interv, 16 Oct y8. (2) Memo for Red, Rpt of Material on Hand in Depots and ASP’s 
in Sicily as of 20 Aug 43, dated 29 Aug 43, Cml Sec AFHQ and NATOUSA. In CWS MTO 142.1 
Inventory (Corresp). (3) Min of Staff Conf, Hq SOS NATOUSA, 4 May 43. CWS MTO 337 Confs. 
92 Colonel Coblentz maintains (Comments, 9 January 1961) that the impetus from the front orienta- 
tion started earlier when base section chemical officers began deciding their own issue policy. 
63 For use of new equipment and smoke technique development, see below. Chapter VIII, and for 
mortar operations, see Chapter XI. ADMINISTRATION AND SUPPLY: MEDITERRANEAN 
111 
Impetus from the front meant that line organizations determined their 
own requirements for materials, determined how those materials should 
be used, and what the procedures of the supply system which provided 
them should be. It must be noted that under the impetus from the 
rear theory the line organizations had also always determined their own 
requirements, but the point of difference is that they selected their 
requirements from a list provided by and with procedures ordained 
by supply organizations, whereas under impetus from the front they 
drew up their own lists and established their own procedures. The 
other element, which retained the impetus from the rear orientation, 
was concentrated on the development of gas warfare offensive and 
defensive potential. Although the two elements of the chemical supply 
system overlapped and although they were both handled by the whole 
CWS organization in the theater, base and field chemical sections 
became increasingly concerned with the immediate nongas warfare 
support of combat forces and their routine preparedness for gas war- 
fare defense. The impetus from the front pattern imposed great 
strains on the supply system. War Department long-range supply 
planning and even the planning of the SOS in the theater was fre- 
quently scrapped or greatly amended when combat forces demanded 
a 6-month supply of an item for a 30-day operation or when a standard 
item of supply was rejected. This pattern also called for many 
improvisations. Many front-line organization chemical officers gave 
reality and immediacy to Fries’s concept of the closest possible con- 
nection between research and the fighting line by carrying on a certain 
amount of research and even manufacture in the combat zone. 
Initially, the CWS in the theater used the same supply channels and 
procedures for both elements of the system, but as the Joint and 
Combined Chiefs of Staff and their subsidiary committees assumed 
more direct control of gas warfare policy,64 the impetus of supply 
for the preparedness mission moved even farther to the rear than 
formerly. 
Chemical Supply and Administration—Development 
of the Theater Chemical System 
The accommodation of the existing system of impetus from the 
rear to the new demands of the unofficial system of impetus from the 
w See Brophy and Fisher, Organizing for War, ch. IV 
289-149 0-68—9 112 
THE CHEMICAL WARFARE SERVICE 
front characterized the third phase of chemical supply in North Africa. 
This phase in the theater CWS supply and administrative system, in 
contrast to the second phase, was marked by the availability of an 
increasing amount of supply information to chemical supply officers. 
This development had its inception in the establishment, mentioned 
above, of a statistical reporting function in Shadle’s office. It gathered 
momentum from the activities of each supply officer in the field and 
from the operation of the SOS Chemical Section and from the improved 
communications throughout the theater. In April, for example, Major 
Wilson invited the chemical supply officers to a conference in which 
they arrived at a common understanding of procedures and where they 
received the latest information available to SOS NATOUSA.65 At the 
end of May the theater "went on” the materiel status report, which 
was a War Department prescribed report prepared in the ports of 
embarkation to show the zone of interior, in-transit, and theater status 
of certain controlled and critical items. Since only about one-quarter 
of the 200 stock chemical items in North Africa was included, the 
immediate impact on theater chemical supply was not great, but the 
materiel status report and its supporting perpetual inventory in the 
ports of embarkation required more exact reporting of theater on-hand 
and expenditure data—data which became part of a more extensive 
accounting and reporting system.66 
The base sections had begun to report stock status to the theater 
and SOS chemical sections in April under the increased reporting 
requirement. However, their reports were little more comprehensive 
than the earlier informal reports until June, when comprehensive 
reports from ABS and MBS and a partial report from Eastern Base 
Section permitted the theater and SOS chemical sections to compile 
the first full-scale stock status report. Even then, quantity in the 
hands of troops was known for only one item, the eyeshield, which 
had been reported 500,000 short. The theater chemical section assumed 
65Min of Sup Officers Mtg, Hq SOS NATOUSA, 24 Apr 4}. CWS SOS NATOUSA 337/4 in CWS 
MTO 337 Confs. 
98 (1) Logistical History of NATOUSA-MTOUSA, pp. 59-60. (2) History of COMZ NATOUSA, 
pt. I. (3) Rqmts and Stock Conti Div ASF, Rpt, Survey of the Opn of the Materiel Status Rpt, Aug 
44. Files of Rqmts and Stock Conti Div ASF. ADMINISTRATION AND SUPPLY: MEDITERRANEAN 
113 
that supply of all other items in the hands of troops equaled authoriza- 
tion since no other complaints had been received.67 
The SOS Chemical Section requested, in July, that the Commanding 
General, NATOUSA, require troop units and organizations to submit 
full reports of chemical materials in their hands.68 These reports began 
to arrive in August, and the chemical supply officers thereafter calcu- 
lated the status of theater supply much more realistically. The 
improvement in calculating supply status again raised the question of 
the adequacy of requirements and logistical data computations. While 
the CWS supply catalogs, which contained detailed information on 
requirements, allowances, spare parts, and item nomenclature, were 
not available until January 1944, chemical supply officers assembled 
such data from other sources in 1943.69 
The Army Service Forces manual, Logistical Planning and Reference 
Data, arrived in the theater in May 1943. Although the ASF manual 
primarily dealt with transportation of supplies, it did present some 
helpful examples of requirements computations.70 Such information 
as the ASF manual provided was useful, both in the headquarters and 
to the supply officers in the field, but it met only part of the need. 
To satisfy the whole need, Colonel Coblentz, Chemical Officer, ABS, 
made his own compilation of logistical data.71 In July he obtained 
OCCWS Circular No. 1, issued on 20 June 1943 as a predecessor to 
CWS supply catalogs. Although the OCCWS circular contained the 
latest War Department information, Colonel Coblentz’ experience in 
the theater led him to reproduce a table of maintenance factors pre- 
pared by the CWS ETO. The European theater was not engaged in 
87 (1) Ltr Rpt, AG EBS to CG SOS NATOUSA, 3 Jul 43, sub; Stock Status and Material Issue Rpt. 
EBS CWS 400.11 in CWS MTO 142.1 Inventory, Base Sec, vol. I. (2) AG ABS to CG SOS NATOUSA, 
4 Jul 43, Stock Status and Material Issue Rpt. ABS AG 319.1 in CWS MTO 142.1 Inventory, Base Sec, 
vol. I. (3) CWS MBS [to CG SOS NATOUSA], Stock Status and Material Issue Rpt as of 28 Jun 43, 
2400 H [29 Jun 43]. CWS MTO 142.1 Inventory (Corresp). (4) [Chief Cml Sec AFHQ and 
NATOUSA to CG NYPE thru CG NATOUSA], ca. 15 Jul 43, Rpt, Theater Status, Chemical Warfare, 
Selected Class II Items—30 Jun 1943, and Chemical Warfare, Selected Class V Items—In Depots 30 Jun 
1943. CWS MTO 030 Logistical Data. 
68 Ltr, AG SOS NATOUSA to CG NATOUSA, 10 Jul 43, sub: Inventory of Cml Warfare Materiel 
in Hands of Troops. SOS AG 142.1 in CWS MTO 142.1 Inventory (Corresp). 
99 1st Ind, Lt Col Lloyd E. Fellenz, ExO CW Sec Hqs NATOUSA, to CmlO Seventh Army, ij Jan 
44, on Ltr, CmlO Seventh Arm)' to CmlO NATOUSA, 8 Jan 44, sub: Request for Logistical Data. 
Seventh Army 400-CW in CWS MTO 050 Logistical Data. 
70 Unnumbered manual, Hqs SOS, Feb 43, Logistical Planning and Reference Data. Stamped "May 
1943” in Cml Sec AFHQ and NATOUSA. CWS MTO 050 Logistical Data. 
71 Memo, Off of CmlO ABS, no addressee, 4 Jul 43, sub: Logistical Data—CWS Supplies. CWS MTO 
300.6 Memo Book I. 114 
THE CHEMICAL WARFARE SERVICE 
ground combat, but, from the point of view of the chemical supply 
officer, the data compiled by the CWS ETO was the best and most 
realistic then available. Accordingly, the NATO Chemical Section 
relayed through the OCCWS a request for a complete set of the CWS 
logistical tables prepared by CWS ETO. In August CWS ETO for- 
warded to NATO a complete set of its tables plus a description of the 
computing processes and a listing of pertinent authorities. But, shortly 
after this material was received the situation in NATO changed. A 2 6 
October note on the ETO letter of transmittal indicated that Colonel 
Shadle consigned the ETO material to the dead file "as ETOUSA logis- 
tics [are] not necessarily applicable here.” 72 
It seems probable that Colonel Shadle meant that the ETO data had 
been useful only until the North African theater had revised and 
adapted the information to its own use. Theater officers quickly learned 
a lesson which the War Department seemed to have great difficulty in 
understanding—that the procedures of one theater were not necessarily 
applicable to the conditions of another. The theater and SOS chemical 
sections, having learned this lesson, were consequently in the process of 
adapting and revising all logistical data to fit the experience of the 
Tunisian, Sicilian, and early Italian campaigns. Many theater supply 
officers continued to believe that the War Department supply authori- 
ties were unresponsive to their needs, but their logistics analyses led 
them to request adjustments in the War Department governing 
directives. For example, the theater CWS suggested, as early as July, 
a revision in some War Department maintenance factors. As such 
suggestions demonstrated, chemical supply officers were becoming more 
sophisticated in the handling of their system, and, as a consequence, 
the system was becoming more standardized internally; yet, at the 
same time, it was becoming more individual since its logistical data, 
the basis for its operation, was compiled and controlled within the 
70 
system. 
By the end of August, Colonel Coblentz, then chemical officer desig- 
73 (1) Ltr with Incls, Col LeRoy, Chief Sup Div CWS ETOUSA, to CmlO NATOUSA, 24 Aug 43, 
sub: Transmittal of Logistic Tables. CWS ETO SOS CW 050/77 (10 Aug 4j)SD in CWS MTO 050 
Logistical Data. (2) For more information on the CWS ETO system, see below, Chapter IV. 
73 (1) Wilson Interv, 16 Oct 58. (2) Statistical Summary, 31 Jul 43. (3) Ltr, Harold L. Field 
to Hist Off, 1 Feb 59. Mr. Field, as lieutenant and captain, was a supply officer in the Chemical Sec- 
tion, SOS NATOUSA. (4) Lt Col Joseph F. Padlon and Maj Howard P. McCormick, War Plans Br 
OACCWS Field Opns, to CCWS, Rpt on Visit to NATOUSA (hereafter cited as Padlon-McCormick 
Rpt), 24 Feb 44. CWS 314.7 Observer Rpts. ADMINISTRATION AND SUPPLY: MEDITERRANEAN 
115 
nate of Peninsular Base Section, which was organizing within Atlantic 
Base Section for supply operation in Italy, had assembled enough 
information to compile a detailed set of chemical supply instructions 
covering definitions, organization methods, reporting forms, distribu- 
tion, and storage operating data.74 This compilation is evidence of a 
significant improvement in procedures, and it is noteworthy that these 
procedures and the reports which controlled them were largely of 
theater CWS origin. 
At the same time individual performance was improving as the 
chemical supply officers gained confidence in themselves and their 
system. Colonel Shadle had advised General Porter in May that 
". . . everything pertaining to supply knowledge is deficient. Our 
officers are simply not trained in supply work and staff procedure.” 
Major Wilson agreed.'0 But in November Colonel Shadle wrote to 
General Porter, "All of the officers over here . . . are doing a splendid 
job.” 76 The change had been wrought by extensive on-the-job supply 
training afforded by actual supply experience and by such compilations, 
both official and unofficial, as Colonel Coblentz had prepared. As 
Colonel Shadle also declared, ". . . we now know what we are talking 
about and what is needed. . . .” “ In other words, the field elements 
of the chemical supply system, with the exception of that portion 
applying to the Army Air Forces, were well established during the fall 
of 1943. In October Colonel Maling’s Twelfth Air Force Chemical 
Section still lacked a basis for requirements computation both for 
incendiary bombs and toxics. Such information by War Department 
decision could emanate only from Army Air Forces headquarters in 
Washington.78 
At the same time that the supply level was improving during 1943, 
the supply handling situation was also improving. The SOS Chemical 
Section increased its operating responsibilities with the addition of 
such duties as those assigned in June of editing, consolidating, and 
74 CWS Sup Cir Ltr No. i, i Sep 43. CWS MTO 300.6 Memo Book I. This copy, apparently a 
draft, is headed, ''Chemical Section, Base Headquarters.” There is no signature and no indication that 
the draft was submitted for staff comment or that the circular was ever issued, either by Peninsular 
Base Section or by Headquarters, NATOUSA. 
70 (1) Personal Ltr, Shadle to Porter, 4 May 43. CWS 320.2/20 in file CWS 314.7 Pers Files, NATO, 
Feb-Dec 43. (2) Wilson Interv, 16 Oct 58. 
Personal Ltr, Shadle to Porter, 23 Nov 43. CWS 314-7 Pers Files, NATO, Feb-Dec 43. 
77 Personal Ltr, Shadle to Waitt, 2 Dec 43. CWS 314.7 Pers Files, NATO, Feb-Dec 43. 
75 (1) Padlon-McCormick Rpt, 24 Feb 44. (2) Notes on visit to North African theater made by Brig 
Gen Alden H. Waitt and Lt Col Jacob K. Javits, OCCWS, 17-26 Oct 43. CWS 314-7 Observer Rpts. 116 
THE CHEMICAL WARFARE SERVICE 
forwarding to the zone of interior base section chemical requisitions. 
Rockwood’s section increased to seven officers, a warrant officer, and 
thirteen enlisted men and women organized into Administration, 
Supply, Control, and Technical Divisions.79 These divisions supervised 
base section requisitioning, inventorying, and reporting activities on 
what SOS termed "a sort of individual project” basis. The lines of 
supervision were by no means direct or consistent since SOS still did 
not have command control of base sections.80 
The base section chemical officers and those in the air forces con- 
tinued to develop their own systems of operation. Each chemical 
officer received a different type of assistance from his own command 
organization. In Coblentz’ opinion, base section headquarters’ attempts 
to help created "nothing more than a bottleneck,” because the base 
section staff knew no more than the chemical officers about supply 
procedures, and because the staff officers lacked such chemical informa- 
tion as the chemical officers compiled for themselves or got from their 
colleagues in the United States and in the theater.81 The base sections 
did designate storage locations and did provide some co-ordination 
among the services. Chemical sections improved storage and handling 
at these locations with the help of a number of service units.82 By the 
end of February 1943, the Twelfth Air Force had received its comple- 
ment of four chemical air service companies.83 
Staff and Functions, AFHQ and NATOUSA 
During 1943 Shadle’s office acquired several new functions, in addi- 
tion to those authorized when the AFfiQ Chemical Section was first 
established. (Chart 6) An analysis of actual performance of these 
functions demonstrates what role the CWS NATO had come to play.84 
80 Ibid. 
79 History of Cml Warfare Sec SOS NATOUSA, in pt. IV, History of COMZ NATOUSA-MTOUSA. 
82 In addition to the early units mentioned above, the nth Chemical Maintenance Company arrived in 
January 1943; the 63d Chemical Depot Company and the 12th Chemical Maintenance Company in 
March; the 41st Chemical Laboratory Company, the 926 Chemical Composite Company, the remainder 
of the 21st Chemical Decontamination Company, and the 5 2d and 53d Chemical Processing Companies 
in May; and the 24th and 25th Chemical Decontamination Companies in June 1943. See Brophy and 
Fisher, Organizing for War, app. H, and see below, ch. VII. 
81 (1) Coblentz to Waitt, 25 Feb 43. (2) Croen Interv, 21 Sep 59. (3) Capone Interv, 24 Apr 58. 
83The 751st and 758th Chemical Depot Companies, Aviation, arrived in December 1942; the 753d 
Chemical Depot Company, Aviation, and the 875th Chemical Company, Air Operations, reached the 
theater in February 1943. 
“Functions are stated in History of AFHQ, Part I, pages 59, 60, Part II, Section 4, page 5 11. This 
analysis, unless otherwise noted, is derived from a survey of the collected files of CWS MTO. Chart 6—Organization of Chemical Warfare Section, Allied Force Headquarters, and Headquarters, 
North African Theater of Operations, U.S. Army, November 1943 
Supply and 
Requirements 
CHEMICAL WARFARE SECTION, HEADQUARTERS, SERVICES OF SUPPLY 
NORTH AFRICAN THEATER OF OPERATIONS, U.S. ARMY 
Supply 
Operating and 
Training f 
Technical 
Chief, Chemical 
Warfare Section (A) 
Deputy Chief (B) 
Executive (A) 
Subsections 
Chief, Chemical 
Warfare Section 
Executive 
Divisions 
Technical and 
Intelligence (' 
Control 
Source: Adapted from: History of AFHO, pt, II, pp. 203, 223-24, 241, 512, History of COM2, NATOUSA-MTOUSA, pts. III and IV. 
Administration 
/. 
Administration 
Staff Co-ordination, American 
Commander in Chief 
AFHO 
Chief of Staff 
AFHO 
Legend: (A) American element 
(B) British element 
(a) Combined element headed by an American 
Deputy Theater Commander 
Commanding General 
Communications Zone 
NATOUSA 
Commanding General 
NATOUSA 
Commanding General 
SOS, NATOUSA 
Chief of Staff 
SOS, NATOUSA 
:a) 
Chief of Staff 
NATOUSA 118 
THE CHEMICAL WARFARE SERVICE 
The principal function was to advise the commander in chief (AFHQ 
and theater commander) and his staff on chemical matters. This was a 
standard special staff function which involved, for the CWS, gas 
warfare planning and any other matters which might require theater 
supervision. In the absence of gas warfare, performance under this 
function became a routine matter of concurring or advising on theater 
personnel, operation, and supply. 
Another function was to plan the use and allotment of chemical 
troop units, and in 1943 the scope of this planning was extended to 
the procurement and supervision of all CWS personnel in the theater. 
Performance under these functions was advisory since Shadle had no 
command responsibilities. The advisory capacity was severely limited 
by theater quotas on both personnel and units, and by the requests of 
individual field commanders for personnel and units—requests which 
usually overrode staff advice. Shadle’s Chemical Section managed to 
get enough service units even when training in the United States could 
not keep pace with worldwide demand. Combat units were eventually 
obtained on about the same basis on which they were furnished other 
theaters, three battalions per authorized army during peak combat 
activity.85 With respect to officers, Shadle experienced difficulties similar 
to Rowan’s—the theater received a number of CWS casual officers 
who frequently were badly handled by the replacement system. It was 
practically impossible to find vacancies for all arriving officers, and it 
was absolutely impossible to determine their qualifications so as to 
channel officers to duties for which they were fitted.86 
The principal mission of the theater CWS in the event of gas warfare 
was to supervise "chemical operations, gas-proofing, decontaminations, 
and filling of chemical munitions in the Theater,” 8l as well as chemical 
training. This mission resulted in the establishment of review activities 
rather than of supervisory controls since, in a nongas warfare situation 
and under the organization of the theater, actual supervision devolved 
upon the base section and field army chemical officers and their sub- 
ordinates. The theater chemical section usually learned of chemical 
operations after their accomplishment. Shadle did use field reports of 
experience to supplement War Department directives with theater 
85 See Brophy and Fisher, Organizing for War, app. H-i. 
86 (1) Interv, Hist Off with Wilson, 16 Oct 58. (2) Waitt Comments, 5 Jan 61. Waitt’s comment 
on the replacement system is "scandalous.” 
87 History of AFHQ, pt. I, p. 60. ADMINISTRATION AND SUPPLY: MEDITERRANEAN 
119 
directives on operation, and he did make his office serve as a clearing- 
house for operational information, but these activities were too remote 
to be classed as supervision. In unusual cases either the theater or the 
SOS Chemical Section followed up on compliance with directives or 
solutions to problems, but the staff was not large enough to make this 
an invariable practice.88 Functions added in the operational sphere 
during 1943 were planning and advising on the smoke protection of 
port areas and distributing technical information on area smoke screens. 
While the theater chemical section became more directly involved in 
the direction and appraisal of smoke operations, these functions, too, 
were usually performed by working with field chemical officers who 
had prime supervisory responsibilities. 
Two functions, intelligence and co-operation with the theater sur- 
geon, were primarily liaison and reporting functions. Intelligence was 
initially handled by the British complement of the AFHQ Chemical 
Section, and the British continued to play a large part in this activity 
after it became a joint enterprise. One officer, Lt. Col. Henry I. 
Stubblefield, was added to the section for medical liaison and to plan 
protection against the possibility of biological warfare. 
Three of the remaining original functions covered the supervision 
of supply from requirements to distribution. Since the theater section 
was not staffed to handle supply supervision, since the theater chemical 
section had no opportunity to inaugurate a basic supply plan like that 
used in the ETO, and since theater organization in effect decentralized 
supply operations to such a degree that field chemical officers in fact 
instituted their own supply plans, the 1943 assignment of functions 
provided that the theater chemical section should "merely” procure 
"logistical and statistical data on chemical warfare supplies in the 
theater.” 89 Shadle spent most of his own time dealing with supply 
matters. He was proud of his accomplishments, and he was commended 
by British as well as American authorities for performance in this 
area.90 From Shadle’s own point of view, he and his AFHQ section 
performed exactly those functions which should have been theirs in 
the light of tradition and of theater conditions. He saw no need, as 
chief chemical officers in other theaters did, for enlarging his planning 
88 Interv, Hist Off with Julius F. Klaswick, 6 Mar 59. (Mr. Klaswick, as lieutenant and captain, 
served with the SOS and theater chemical sections.) 
89 History of AFHQ, pt. II, sec. 4, p. 511. 
00 Ltr, Shadle to Hist Off, 18 Aug 59. 120 
THE CHEMICAL WARFARE SERVICE 
Colonel Shadle and Staff in Algiers, Fall of 1943 
responsibilities, or for attempting to influence combat operations, or 
for striving to exercise control of the theater CWS through technical 
channels. He felt that he appropriately operated most of the time 
through command channels. He later pointed out that his position 
as a staff officer in a supreme headquarters, AFHQ, made it possible 
for him to operate differently from Rowan, who did not occupy such 
• • Q1 
a position. 
By the end of 1943, Shadle’s AFHQ section was authorized 5 
American officers, 3 more than authorized at the time of the invasion, 
and 3 British officers, one more than in the previous year. Enlisted 
strength had grown from 2 to 4 Americans, but the number of British 
soldiers had remained at 2.92 Lt. Col. Lloyd E. Fellenz, a Regular Army 
officer and a smoke expert, had arrived to become executive officer.93 
Lt. Col. Ian A. Marriott had returned to London to be replaced by 
Lt. Col. G. des C. Chamier as British deputy. 
91 Shadle Interv, 16 May 61. 
93 History of AFHQ, pt. II, sec. 4, p. 513. 
"Shadle to Porter, 4 May 43. ADMINISTRATION AND SUPPLY: MEDITERRANEAN 
121 
Theater and CWS Re organizations 
When, early in 1944, General Eisenhower left the North African 
theater to take command in Europe, the character of the North African 
organization was changed slightly to accommodate to a British supreme 
commander and to new responsibilities. The theater at last corrected 
what from a staff point of view had been a serious error in the original 
organization.94 The Communications Zone, which had been inseparable 
from the theater organization except in the person of its commander, 
Maj. Gen. Everett S. Hughes, also deputy theater commander, was 
combined with the theater SOS, and the new command was given 
those theater functions which pertained to the COM2. At the same 
time, the remaining American responsibilities were restricted to ad- 
ministration—all control of combat operations passing to AFHQ or 
the combat organizations. The result was essentially the creation of 
a tricommand organization like that of the War Department.05 
Shadle’s office maintained its staff and its AFHQ-theater position, 
but the functions of control of COM2 personnel and units, COM2 
training and gas warfare defense, and all allocation and issue of supply 
passed to the SOS Chemical Section. Colonel Maling moved from 
Twelfth Air Force to assume Rockwood’s position as chief of this 
section which was augmented by the addition of one colonel, three 
majors, and a captain.96 
The COM2 Chemical Section then assumed control of the "impetus 
from the rear” supply system and took over some of the administrative 
functions which had been the province of AFHQ, and of NATOUSA, 
then renamed Mediterranean Theater of Operations (MTOUSA). 
Shadle, who became a brigadier general on the same day that Rowan 
received his promotion, maintained his section as a clearinghouse for 
chemical information and did a considerable amount of troubleshooting 
in the field of both CWS supply systems. But the work of the theater 
headquarters chemical section was declining while that in the European 
theater section was as great or greater than it had been.97 One reason 
for this was the growing emphasis in MTOUSA on combat organiza- 
tion and function rather than theater organization. Another reason 
9‘ Logistical History of NATOUSA-MTOUSA, p. 30. 
05 (1) Ibid. (2) History of AFHQ, pt. Ill, sec. I. 
88 (1) History, Cml Warfare Sec SOS NATOUSA. (2) History of AFHQ, pt. Ill, sec. 4, pp. 979-80. 
97 Interv, Hist Off with Col Johnson, 18 Aug 59. (Johnson at the time was Shadle’s American 
deputy.) 122 
THE CHEMICAL WARFARE SERVICE 
was Shadle’s view of his own function. Since he emphasized the staff 
role and since, ideally, staff work declines when administrative systems 
are functioning smoothly, it was appropriate that the work of his own 
section would decline. The administrative systems were, for the most 
part functioning smoothly by the middle of 1944, or, at least, the 
problems which had beset the systems had become less important. 
If gas warfare had ever been a threat in the Mediterranean area, it 
would have been at the time of the assault landings. Shadle had been 
proved right in his estimate that there was little threat in the North 
African landings. In the Sicilian landings small stores of enemy toxics 
were found, but their placement and manner of storage indicated 
that there was no intention of using them.98 For the landings on the 
Italian mainland, Allied intelligence officers feared that toxics would 
be employed by the enemy, and as a result retaliatory stocks were 
brought in too soon. A tragic gassing of Allied forces in the harbor of 
Bari, Italy, occurred when enemy action breached a ship carrying 
Allied gas.99 No clear signs of German intent were found when troops 
broke through into the Italian mainland. The prolonged struggle along 
the Rapido and the Winter Line would have given the Germans an 
excellent tactical opportunity to use gas, but again no evidence turned 
up that they had considered the employment of toxics.100 The principal 
CWS mission, preparedness for gas warfare, therefore lost weight in 
the Mediterranean theater, and the part of the COM2 Chemical 
Section mission which related to gas warfare supply became of little 
importance. The whole of the COM2 organization declined in im- 
portance late in 1944, possibly because the impetus from the front 
system had its own de facto communications zone. In the opinion of 
the chemical officer, Peninsular Base Section—which supported Fifth 
Army—was a communications zone itself.101 His opinion was con- 
firmed by an organizational change in November 1944 under which 
COM2 was discontinued and its functions delegated to Peninsular Base 
Section.102 
88 Hammond Interv, 26 Nov 56. 
99 (1) Shadle Comments on draft of this volume, 24 Jan 61. (2) Interv, Hist Off with Col Francis 
Browne, USAFR (Ret.), 23 Oct 61. (3) Capone Interv, 24 Apr 58. 
100 Porter Interv, 24 Aug 61. 
101 Memo, Coblentz to Rowan [ca. 1946], sub: Comments on Theater CWS Orgn. CWS 314.7. 
102 Logistical History of NATOUSA-MTOUSA, pp. 37-38. ADMINISTRATION AND SUPPLY: MEDITERRANEAN 
123 
Still another reason for the decline of the theater headquarters CWS 
sections was that the intelligence activity, largely managed by the 
British, had never assumed much importance in the American group. 
Furthermore, since facilities were lacking for a technical activity and 
since liaison with the British on technical matters was carried on by 
the European theater CWS, there was no need for a large technical 
organization in NATOUSA-MTOUSA. The theater chemical lab- 
oratory company did not experience, as did chemical laboratory com- 
panies in most other theaters, frequent calls for development work. 
A recurrent theme of the CWS effort in the Mediterranean area 
was that the service’s most important experience here was supply 
experience. The CWS MTO supply system entered its fourth phase 
in the winter of 1943-44. During this phase, which eventually included 
most of the period prior to victory in Europe, the bifurcation of the 
supply system was most marked. Ground chemical supply officers 
brought nearly all of their attention to bear on item troubleshooting 
which had been a part, but only a subsidiary part, of their concern 
since the initial landings. As they became more and more concerned 
with the immediate needs of the combat forces it became more appar- 
ent that to wait for instructions and supplies to filter down through 
the complicated system from the zone of interior was not always 
possible. The local arrangement, the informal agreement, and the 
field expedient became the order of the day. The officers in the field 
evolved new techniques and used supplies and equipment where and 
when they were needed, regardless of the original intention or function. 
Whenever it was possible they manufactured supplies or adapted 
equipment to their immediate needs. They tended to suspect the 
motives of every rear area organization, even that of their own theater. 
One base section chemical officer bitterly remarked, perhaps with some 
exaggeration, that it was easier to manufacture spare parts than it was 
to "argue SOS [NATOUSA] out of them.” 103 
The basic problem was that the War Department’s impetus from 
the rear supply system was not sufficiently responsive to the immediate 
needs generated by changing conditions in the field. Yet even the 
suggestion that an impetus from the front policy was being employed 
108Memo, Lt Col Henry C. Hall for Col Rockwood [CmlO SOS NATOUSA], 21 Mar 44, no sub. 
CWS MTO 333 Inspections and Investigations. 124 
THE CHEMICAL WARFARE SERVICE 
was enough to call forth official investigators.104 Despite this official 
disapproval, CWS and other ground supply officers in MTO accom- 
plished their supply tasks. 
For example, Lt. Gen. Mark W. Clark’s Fifth Army set up its own 
system. Ammunition supply points (ASP’s) were set up close to the 
front for each corps plus one ASP for troops not attached to corps. 
Each supply point contained a chemical, an ordnance, and an engineer 
section manned by service troops of the appropriate branch but com- 
manded by the Ordnance Department representative. Combat troops 
drew what they needed from the ASP after certifying that the amount 
drawn plus that on hand would not exceed the basic authorized load 
for their organization. Supply points for other classes of supply were 
so located that each combat organization could form one convoy to 
bring up all its supplies. Late every afternoon, Colonel Barker’s 
assistants visited each supply point and reported back to him an 
estimate of stock status. Barker consulted operational plans furnished 
him by the Army staff and calculated necessary levels in each ASP. 
He then telephoned Coblentz in base section headquarters at Naples 
to tell him what supplies were needed at what points and depots. 
CWS officers and men waiting in trucks loaded with supplies, which 
usually had been sorted, cleaned, reboxed, and marked in the base 
section depots, received Coblentz’ instructions and departed to re- 
plenish all Army ASP’s and depots before daylight. As the Army 
moved forward, the base section took over and expanded forward area 
depots established by Fifth Army so that there would be no change 
in the distance through which immediate supply action need take 
place.105 
Coblentz and his section, plagued by continual shortages of man- 
power and equipment, by what he considered to be a lack of under- 
standing of combat needs on the part of all echelons to the rear, and 
by the continual necessity of refurbishing or even making wanted items, 
found themselves hard put to keep up with Fifth Army needs.106 
104IOM, ACofS G-4 MTO to CofS MTO, ij Dec 44, sub: Rpts of Inspection Made by War Dept 
Inspectors. CWS MTO 333 Inspection and Investigations. 
106 (1) Barker to Hist Off, 11 Aug 59. (2) Ltr, Coblentz to Hist Off, 17 Aug 59. 
108Coblentz to Hist Off, 17 Aug 39. ADMINISTRATION AND SUPPLY: MEDITERRANEAN 
125 
Theater Chemical Supply Problems 
The first of the troubleshooting problems the CWS dealt with in 
the Mediterranean area was that of item overages and shortages. The 
second was the fact that the condition of some material on reaching 
the theater was such that extensive repair, renovation, or adaptation 
was required—this was the maintenance problem. There were many 
other troubleshooting problems, but, examples of the overages and 
shortages and of maintenance problems not only demonstrate solutions 
but also show how the practice of impetus from the front operated. 
Overages and Shortages 
The problem of item overages and shortages resulted from several 
causes. Overages were brought about by oversupply from the United 
States or by failure to deplete stocks as anticipated. Shortages were 
caused by breakdown of faulty or damaged materials, by failure to 
unload ships because of lack of facilities, by failure to estimate needs, 
or by enemy destruction of ships or depots. One major cause of over- 
ages was automatic supply. The New York Port of Embarkation con- 
tinued automatic supply or materiel status report supply, which was 
virtually automatic, on many items. Consequently, by the end of 
July 1943, the stocks of three items, noncorrosive decontaminating 
agent, protective ointment, and shoe impregnite ranged from 125 
percent to 143 percent of authorization. Before the end of the year 
the overages on some of these items reached nearly 200 percent of 
authorization. Although the SOS Chemical Section cabled the port 
of embarkation canceling requisitions and requesting discontinuance 
of automatic supply on the grounds that the storage and transportation 
expenditures exceeded the value of stocks, stock continued to accumu- 
late. In desperation, theater chemical officers appealed to General 
Somervell during one of his trips to the theater, but it was 1944 before 
shipments began to decline. The first three items remained in excess 
stockage until disposal procedures were instituted late in 1944. Shadle, 
claiming that the Arabs sometimes pilfered shoe impregnite for use 
as a butter substitute, suggested that one solution for the problem of 
excesses was to encourage this practice.107 
107 (1) Statistical Summary, 31 Jul 43, 31 Aug 43, 30 Sep 43, 25 Oct 43, 31 Oct 43, 25 Nov 43, 
30 Nov 43, 25 Dec 43, 31 Jan 44. (2) Wilson Interv, 16 Oct 58. (3) Ltr, Shadle to Hist Off, 18 
Aug 59. (4) "Sup Status of CWS Protective Materiel in MTO,” table compiled from theater materiel 
status reports, reproduced in Baldwin, Bingham, and Pritchard, Readiness for Gas Warfare in Theaters 
of Operations, app. B. 126 
THE CHEMICAL WARFARE SERVICE 
Other overages in the stocks of canisters for collective protectors, 
diaphragm gas masks, and dust respirators resulted from changes in 
the basis of issue. In the absence of gas warfare, replacement stocks 
of collective protector canisters were not sent forward, and, since 
there was no expenditure, excess stocks accumulated in depots. The 
diaphragm gas mask, equipped for voice transmission, proved to be 
cumbersome and not much more efficient for voice transmission than 
the service mask with M8 outlet valve. The basis of issue was therefore 
eventually changed from 30 percent of issue requirements for gas 
masks of all kinds to issue to artillery and Signal Corps units only. 
But meanwhile shipments of diaphragm masks continued to arrive at 
the rate set by estimate, resulting in excess stocks. Although the troop 
demand for dust respirators in North Africa was heavy, individuals 
in the field found that they were principally used by drivers of vehicles 
and that other soldiers were so weighted down with equipment that 
the respirator could not conveniently be carried. Respirators were 
therefore issued in substantially reduced numbers on a per-vehicle 
rather than per-person basis. The new issue policy led to overages in 
depots. Excess stocks of the diaphragm mask were returned to the 
United States after issue of the new lightweight service mask, which 
began late in 1943, was complete. Excess stocks of the collective pro- 
tector canister and dust respirator were held in the theater until late 
in the war since it was considered possible that the theater commander 
might again have to change the basis of issue if events took a different 
turn.108 
While theater chemical supply officers found the problems presented 
by overages annoying, as the overages tended to create inefficiency in 
the supply system, the problem of shortages threatened, on several 
occasions, to destroy part of the CWS effectiveness in the theater. The 
first serious shortages after the stabilization of the supply system were 
holdovers from the prestabilization period. The CWS in the United 
States was unable to initiate production of the Mi 5 white phosphorus 
grenades until July 1943 and was unable to supply the theaters during 
that year.109 The MB HC smoke grenade was substituted in the North 
108 (i) Statistical summary cited in n. 107 (1) above. (2) Sup Status of CWS Protective Materiel 
in MTO cited in n. 107 (4), above. 
109 (1) CWS Consolidated Rpt of Procurement, 1 Jan 40-31 Aug 43. (2) 2d Ind, ACCWS Field 
Opns to CCmlO NATOUSA, 15 Dec 43, on basic Ltr, CmlO Seventh Army to CCWS, thru CCmlO 
AFHQ and NATOUSA, 24 Sep 43, sub: Cml Warfare Opns Sicilian Campaign. CWS SPCVO 319.1. ADMINISTRATION AND SUPPLY: MEDITERRANEAN 
127 
African theater, but Seventh Army chemical officers reported that 
the M8 grenade was not effective in the Sicily Campaign because it 
produced an insufficient volume of smoke and because it lacked the 
antipersonnel effect of the white phosphorus grenade. The M8 grenade 
was nevertheless again substituted for the white phosphorus grenade 
early in the Italian campaign as there was still no theater stock of the 
Mi5. The theater CWS acquired some white phosphorus grenades in 
the fall of 1943, and a sufficient stock was built up by December 1943. 
Although a total of 269,639 white phosphorus grenades was used in 
combat in the theater by the end of the war, this munition would 
probably have been more extensively employed had combat soldiers 
become acquainted with it during the initial campaigns.110 
Another, and even more critical item was the 4.2-inch chemical 
mortar, with spare parts and ammunition. After twenty days of 
fighting in Sicily, where the chemical mortar battalions saw their first 
extensive action and where they proved themselves invaluable and 
practically indispensable in a close support role, the theater had only 
one complete mortar and about a dozen barrels and base plates in depot 
stock.111 Since the mortar was already being used considerably more 
than had been intended, barrels wore out rapidly—so rapidly in fact 
that a dozen replacement barrels did not begin to satisfy the demand. 
The really critical need, however, was not for the barrel, nor even for 
the base plate, which broke at the excessive ranges demanded of the 
weapon, but for elevating screws and recoil springs, which were not 
even listed among spare parts available. In August CWS supply officers 
listed no mortars or mortar parts whatever. In September they received 
stocks although still insufficient to meet demands, and the SOS Chem- 
ical Section noted that Shadle had requested 120 days’ reserve of mor- 
tars, comparable to the reserve for ammunition rather than that for 
other Class II weapons. The need for parts was so great that mortars 
received in working condition were broken down for this purpose.112 
In October the North African CWS again had no mortars. In 
110 (i) Statistical Summary as cited in n. 107 (1), above. (2) Ammunition Sup Rpt, 31 Oct 43, 
31 Dec 43, 31 Jul 45. This report was a feeder report prepared in OCCWS for the ASF monthly 
progress report. Ltr, CG ASF to CofOrd and CCWS, 3 Nov 43, sub: Instructions for Preparation of 
Ammunition Supply of MPR. ASF SPX 319.1 (30 Oct 43) OB-P-SPDDL-MB-A. (3) Rpt of Cml 
Warfare Opns Sicilian Campaign. (4) Padlon-McCormick Rpt, 24 Feb. 44. 
111 Statistical Summary, 31 Jul 43. 
112 (1) Statistical Summary, 31 Aug 43, 30 Sep 43. (2) Padlon-McCormick Rpt, 24 Feb 44. (3) 
Wilson Interv, 16 Oct 58. 
289-149 0-68—10 128 
THE CHEMICAL WARFARE SERVICE 
November the War Department increased the maintenance factor 
from 7 percent to i ix/z percent, but experience in Italy outmoded 
the new factor before it was received.113 By the end of 1943 General 
Porter had personally intervened to secure air shipment of 12 mortars 
and a few critical mortar parts to the theater. In all, late in 1943 and 
early in 1944, 172 mortars were scheduled to arrive by air or by 
convoy to relieve the situation in which depot stocks were nil and there 
was an actual shortage of 16 mortars in the operating battalions. Also 
in November 1943, the first serious theaterwide shortage of 4.2-inch 
mortar ammunition was reported. Despite the mortar shipments and 
the 40,000 rounds of HE mortar shell en route to the theater, supply 
proved to be insufficient.114 
In February 1944 Rockwood diagnosed the difficulty as a lack of 
systematization in mortar supply and repair and the failure of the 
CWS in the United States to observe existing directives with respect 
to spare parts and replacement.11'’ His analysis undoubtedly covered at 
least part of the problem, but the CWS in the zone of interior could 
not supply the parts it did not have. The CWS inaugurated its first 
comprehensive procurement plan for spare parts in 1944, and it was 
not until late 1944 and early 1945 that the products of this plan 
became available in quantity through an integrated spare parts opera- 
tion.116 The CWS also made herculean efforts to supply ammunition, 
and, while theater problems of maintenance and distribution, as will 
be indicated below, and occasional lags in delivery to the theater caused 
critical local situations and ammunition rationing, the over-all supply 
met the demand in 1944 and 1945.117 Rationing of ammunition also 
became necessary at Anzio in January of 1944 because of the large 
llsCoblentz Comments, 9 Jan 61. 
114 (1) Statistical Summary, 31 Oct 43, 23 Nov 43, 23 Dec 43. (2) Ammunition Sup Rpt, 31 Dec 
43- (3) Wilson Interv, 16 Oct 38. (4) Msg, CM-IN-I49I4, CG NATOUSA to WD, 24 Nov 43. 
(3) Ltr, CCWS to CCmlO AFHQ and NATOUSA, 11 Dec 43. (6) ASF, Cml Warfare Serv Monthly 
Maint Factors, 4 Nov 43; ASF, Cml Warfare Monthly Replacement Factors, 13 Jan 44. CWS MTO 
400.6 Replacement and Maint Factors. (7) Ltr, CG SOS NATOUSA to CG NATOUSA, 3 Feb 44, 
sub: Replacement of 4.2-inch Cml Mortar Parts. SOS NATOUSA 472.4 in CWS MTO 400.6 
Replacement Factors. 
115Col Rockwood, CmlO SOS NATOUSA to CG NATOUSA (attn: CmlO), 1 Feb 44, sub: Sup 
Procedure of 4.2-inch Cml Mortar. SOS CWS 319.1/48 in CWS MTO 400 Supply of Base Secs, 
Units, etc. 
116 For discussion of the spare parts situation in the zone of interior, see Brophy, Miles, and Cochrane, 
From Laboratory to Field, Chapter XIII. 
117 (1) Ammunition Sup Rpt, Monthly, 1944-43. (2) IOM, Col Walter A. Guild, CCmlO 
NATOUSA for ACofS G-4 MTOUSA, 29 Oct 43, sub: CWS Sup Methods. CWS MTO 400 Supplies, 
Servs and Equip. ADMINISTRATION AND SUPPLY: MEDITERRANEAN 
129 
number of ammunition dumps destroyed by enemy action. Fifth Army 
chemical officers improvised ammunition protection by bulldozing 
earth over stacked ammunition boxes.118 The parts situation on the 
other hand became so critical that Barker, acting in the spirit of 
General Clark’s instruction to give the combat commanders what 
they wanted even if it was necessary to manufacture the material, 
in December 1943 joined the Fifth Army ordnance officer in re- 
establishing operations at the Italian Capua arsenal. 
At Capua a composite Fifth Army chemical group and nearly 1,000 
Italian workmen under the direction of 1st Lt. Anthony Notorangelo 
cast and machined mortar and smoke generator parts. The "Capua” 
mortar slide, cast from Italian navy bronze taken from the Naples 
harbor, was considered superior to the stateside product, as was the 
"Capua” integrally cast barrel cap and firing pin. For some time in 
1944 more than half of the mortar and smoke generator maintenance 
supplies used were made in Italy at Capua and in chemical service unit 
shops at Florence and Leghorn. After Fifth Army moved on, Penin- 
sular Base Section assumed the job of operating the CWS half of 
Capua arsenal with Lieutenant Notorangelo remaining in charge.119 
In August of 1944, the Army Service Forces promised an adequate 
stock of spare parts within the next six months.120 Also in August the 
theater formulated, and in September put into practice, an individual 
CWS NATOUSA spare parts policy, concentrating supply and control 
of spare parts in Peninsular and Delta Base Sections.121 But, as the 
investigations of a CWS spare parts team from December 1944 to 
February 1945 demonstrated, the Mediterranean theater CWS never 
reached the goal of adequate parts stockage.122 
Despite these handicaps, the chemical mortar battalions in the North 
African-Mediterranean theater reported only one instance when mortar 
fire was actually curtailed because of the shortage of weapons, parts, 
or ammunition.121 That there was only one such instance, in this case 
118 Barker Comments, i 3 Dec 60. 
119 (1) Col. Maurice E. Barker, USA (Ret.) "War Is Not All Fighting,” Armed Forces Chemical 
Journal, VII (October, 195}), 16-19, 27■ (a) Barker to Hist Off, 11 Aug 59. (}) Coblentz to Hist 
Off, 17 Aug 59. 
120 Ltr, Actg Dir Plans and Opns ASF to CG SOS NATOUSA, 25 Aug 44, sub: Theaters Plans for 
Cml Warfare. ASF SPOPP 381 in file CWS MTO 381 Theater Plans for CW. 
121 SOS NATOUSA, Cir 109, 26 Sep 44. 
,22OCCWS, Final Rpt, CWS Spare Parts Team in MTO and ETO, 19 Jun 45. (2) See below, Chapter 
IV. (3) Statistical Summary, 30 Jun, 31 Aug 44. 
123 History of 3d Cml Mortar Bn, Nov 43, Journal of Co D, 29-30 Nov 43. 130 
THE CHEMICAL WARFARE SERVICE 
an ammunition shortage, is a testimonial to the ingenuity and energy 
of theater chemical officers who manufactured parts, as at Capua, and 
arranged for welding teams to repair broken weapons right in the 
front-line mortar positions.124 Thus the most serious supply threat to 
CWS operations in the theater was met. 
There were shortages besides those of weapons and ammunition, but 
none so critical. An example of such shortages was the power-driven 
decontaminating apparatus, which was diverted from its gas warfare 
role to water carrying, fire fighting, and providing showers.12’ It was 
this type of apparatus that was used to provide all the water for the 
city of Naples during the first ten days after Allied forces took the 
city because the Germans had cut off the water supply and the Army 
engineers were unable to re-establish service immediately. The high- 
pressure pump on the apparatus was also used to open sewage drains 
which had dried up and become clogged because of the lack of water. 
The apparatus, using a chloride of lime mixture spray, was also used 
to disinfect and delouse buildings subsequently used as hospitals and 
barracks. 126 
The Twelfth Air Force considered the provision of showers for 
combat pilots returning from missions essential to morale and efficiency, 
but only in rare cases was it able to acquire engineer or quartermaster 
shower facilities. Consequently, the power-driven decontaminating 
apparatus became the most jealously guarded item of chemical equip- 
ment allotted to the air force. Stocks of the truck-mounted M3A1 
apparatus were low when supply status was first reported in May 1943, 
and by the end of July the air forces were forty short. Accounting 
for these had been transferred to the materiel status report, indicating 
that supply was automatic. Despite automatic supply, the total theater 
stockage in November was only about 80 percent of authorization and 
demand had increased so much in the Twelfth Air Force that the 
AFSC chemical officer maintained a waiting list for issues. At one 
time the Commanding General, XII AFSC, personally assumed re- 
sponsibility for distribution within his command. The AFSC chemical 
124 Wilson Interv, 16 Oct 58. 
125 (1) Postscript on Ltr, Barker to Porter, 27 Feb 43. CWS 314.7 Barker Corresp, NATO, 1942-43. 
(2) Barker, “War Is Not All Fighting,” Armed Forces Chemical Journal, VII (October, 1953), 
16-19, 17- 
126 Coblentz Comments, 9 Jan 61. ADMINISTRATION AND SUPPLY: MEDITERRANEAN 
131 
Decontamination Unit Functioning as a Shower 
officer secured copies of ship manifests from SOS and base section 
chemical officers so that he could have someone on hand to claim the 
air force allotment as soon as the ship carrying the cargo docked. 
Since the apparatus was also one of the items which presented almost 
insuperable maintenance problems, supply was frequently complicated 
by a large number of apparatus deadlined for repairs. In the month 
before V-E Day the theater at last reached its quota of apparatus.127 
Maintenance Problems 
Chemical maintenance officers, like many others, got their first real 
experience and learned their first logistics lessons in the Mediterranean 
area. For one thing, the Mediterranean campaigns were among the 
earliest of World War II, and in many instances the latest refinements 
in equipment and materiel did not arrive there until after the peak 
of combat activity. Then, too, adverse conditions, such as the damp 
climate and rough terrain in Italy, made faults and defects far more 
serious than they would have been elsewhere. Maintenance problems 
127 (i) Statistical Summary, 31 May, ji Jul 43, 2j Nov 43. (2) Sup Status of CWS Protective 
Materiel in MTO. (3) Capone Interv, 24 Apr 58. 132 
THE CHEMICAL WARFARE SERVICE 
had their greatest impact in the forward areas where weapons, equip- 
ment, and ammunition saw the heaviest use and where, by the time 
they reached these positions, they had been heavily exposed to weather 
and rough handling. Again chemical officers were forced to reorient 
their thinking—repair, renovation, and rebuilding of materiel and 
equipment had to take place wherever feasible and wherever needed 
rather than, as planned, in some rear area shop. Again, improvisation 
was the order of the day. 
Theater chemical officers found maintenance and repair of the 
power-driven decontaminating apparatus only one of their extremely 
difficult maintenance problems. In the case of the apparatus the prime 
difficulty was caused by the fact that four different manufacturers 
produced the equipment, essentially a truck-mounted orchard 
sprayer.128 Each manufacturer produced an item according to his own 
specifications with the result that four stocks of spare parts had to 
be maintained and that operating instructions varied according to the 
product used. This situation was further complicated by the fact that 
another apparatus mounted on skids rather than on a truck was also 
supplied to the theater. The skid-mounted apparatus early proved 
unsatisfactory because shortage of trucks made it immobile and mo- 
bility was of great importance either for primary or secondary missions. 
Depending on the local situation, maintenance and repair of the appa- 
ratus was performed by using units or by chemical and ordnance 
maintenance companies. Although the spare parts problem was largely 
solved by the end of 1944, theater distribution of parts remained 
difficult. The SOS (COMZ) Chemical Section sometimes found itself 
in the peculiar situation of dealing with an overage of spare parts, 
especially small items such as nuts and bolts, interchangeable among 
apparatus, while field units failed in attempts to acquire an adequate 
supply of the more critical parts which were not interchangeable.129 
128 For an account of development and procurement, see Brophy, Miles, and Cochrane, From Labora- 
tory to Field, ch. XIV. 
129 (i) Capone Interv, 24 Apr 58. (2) Padlon-McCormick Rpt, 24 Feb 44. (3) Brig Gen William 
C. Kabrich, Chief Tech Div OCCWS, and Maj Francis B. Stewart [to CCWS], n.d., Rpt of Inspection 
Trip to NATO, 22 Feb—3 Apr 44. CWS 314.7 Observer Rpts. (4) Ltr, AG Delta Base Sec to CG 
COM2 MTOUSA, 19 Nov 44, sub: Study To Determine Necessary Replacement of CWS Major Items 
of Equip. DBS AG 400.61 (DBSCW) in CWS MTO 400.6 Reclamations and Replacements. (5) 
Ltr, AG MBS to CG MTOUSA, 19 Nov 44, sub: Study To Determine Necessary Replacement of CWS 
Major Items of Equipment. MBS AG 47 (BMCML) in same file as (4), above. (6) Ltr, Shadle, 
CCmlO MTO, to CCWS, 22 Dec 44, sub: Rpt of Study To Determine Necessary Replacement of 
CWS Major Items of Equip. CWS MTO 400.6 CWS. (7) Klaswick Interv, 6 Mar 59. ADMINISTRATION AND SUPPLY: MEDITERRANEAN 
133 
While the problem of maintaining the decontaminating apparatus 
was tied in with the problem of shortages, maintenance of 4.2-inch 
mortar shell and its propellant charges—in many ways the most critical 
theater maintenance problem—was complicated by problems of ammu- 
nition shortages, provision of service troops, packing and packaging, 
and poor condition of supplies and equipment. Experience in the 
maintenance of mortar shell is illustrative of similar experience with 
Mi and M4 smoke pots, grenades, bombs and clusters, and gas masks. 
From the outset of the Sicily Campaign, the Seventh Army Chemical 
Section discovered chemical mortar shells in need of reconditioning. 
The shells were corroded as a result of becoming wet while poorly 
packaged. The 12th Chemical Maintenance Company, which was 
attached to Seventh Army for the campaign, was assigned the respon- 
sibility of renovating and repacking shells in addition to its supply 
and mortar repair duties.130 In the campaign on the Italian mainland 
the situation was worse. Shell cartridges and fuzes proved to be 
defective, shells needed cleaning, and, as Barker reported, "the powder 
came in wet and got wetter.” 131 Barker set up a drying operation for 
propellant charges at the army supply point, and Coblentz started 
another at the base section. Both used blowers from collective pro- 
tectors to force air through a heater fabricated from a 5 5-gallon drum. 
The charges were hung on wooden rods in a box through which the 
hot air passed. After the charges were thoroughly dry, the maintenance 
crews replaced them in their original "ice cream” cartons and then 
packed the cartons in German shell containers which were sealed to 
be opened only at the mortar position. German containers were so 
prized that Fifth Army Chemical Section made it a regular practice 
to scavenge the battlefield for these items on the heels of the retreating 
enemy.132 The drying operation was carried on at Naples in a series of 
caves which the Germans had used for ammunition storage. A serious 
fire, later attributed to an unknown store of German ammunition, 
broke out in the caves and the fire and the explosions which followed 
destroyed so many rounds of mortar shell, so many smoke pots, incen- 
diary grenades, gas masks, and other chemical supplies that Fifth Army 
was short until resupply could be effected. Coblentz resumed propel- 
130 Humphreville, Rpt of Cml Warfare Opns, Sicilian Campaign. 
m Personal Ltr, Barker to Shadle, 20 Dec 43. CWS 314.7 Pers files, NATO. 
182 (1) Ibid. (2) Barker to Hist Off, 11 Aug 59. 134 
THE CHEMICAL WARFARE SERVICE 
lant drying operations on the new supply with an improved steam coil 
dryer.1*3 
The number of bad fuzes which caused premature shell explosions 
plagued both CWS and Ordnance throughout the war. During the 
winter of 1943-44, Barker was forced to set up a line near San Pietro, 
Italy, to disassemble all chemical mortar shell fuzes and check and 
clean the components. Coblentz later established a similar line at 
Naples.134 
Meanwhile, the OCCWS made strenuous efforts to improve the 
ammunition and the packing and packaging.13'1 A new cartridge was 
provided. On 1 August 1943 ASF adopted a new method of packing 
in which two unassembled rounds coated with cosmoline or a corrosion 
preventative and with noses covered by vinylite sacks were packed in 
a stained wooden box.136 Propellant charges and cartridges were packed 
in sealed waterproof tin cans. A final packing method was developed 
for all shipments after 1 February 1944 whereby the assembled round 
was sealed in a laminated fiber cylinder before being packed in the 
box.137 These packing methods lessened theater problems with respect 
to newly received shell except when shipping damage resulted in leak- 
ing containers or when shell was reclaimed or repacked in the theater.138 
The 76 officers and 575 enlisted men of the CWS in North Africa 
by the end of December 1942 knew their mission—to prepare for the 
eventuality of gas warfare, to provide artificial smoke concealment, and 
to support combat troops with chemical weapons and equipment—but 
few of these men could have had much conception of what the mission 
involved or how they were to accomplish it.139 They had no toxics and 
no means to use them. The mechanical smoke generator was a new 
133 (i) Barker Comments, 15 Dec 60. (2) Coblentz Comments, 9 Jan 61. 
134 Barker Comments, 1 j Dec 60. 
135For general packaging improvement, see Brophy, Miles, and Cochrane, From Laboratory to Field, 
ch. XVI. 
180 Fifth Army Peninsular Base Section earlier sprayed white pine ammunition boxes with a tar mixture 
so that they could more readily be camouflaged in forward positions (Coblentz Comments, 9 Jan 61). 
187 (1) Personal Ltr, Porter to Shadle, 3 Feb 44. CWS 314.7 Pers Files, NATO. (2) IOM, Col 
B, L. Neis, Chief Conservation Br ASF, for Dir of Materiel ASF, 9 Feb 44, sub: Extracts from History 
of 2d Cml Bn in Sicilian and Part of Italian Campaigns, 1 May to 9 Sep 43, Commenting Upon Pack- 
aging 4.2-inch Cml Mortar Ammunition. ASF SPUPC 4051, in files Off Dir of Materiel ASF. 
138 Such difficulties are illustrated in Proceedings, Board of Investigation, Lt Col Lawrence M. Hoover, 
President, Hq Fwd Echelon PBS, 2 Oct 44. CWS MTO Folder too Accidental Explosion of 4.2-inch 
HE Shell in MTO. 
130 For strength figures, see Brophy and Fisher, Organizing for War, app. A. ADMINISTRATION AND SUPPLY: MEDITERRANEAN 
135 
item unfamiliar to most men of the CWS. The 4.2-inch chemical 
mortar had not yet been officially recognized as a weapon which could 
fire high explosives, and, in any case, there were neither mortar units 
nor mortars in North Africa at the time. Some of the officers who 
had come from England and a few from the United States were ac- 
quainted with incendiary bombs, but not even all of these few had 
seen such bombs or knew of the existence of the portable flame thrower. 
Organizationally, the man who was soon to be theater chief chemical 
officer then occupied a supreme headquarters position, as AFHQ chem- 
ical officer, which was unlike any position ever held by or planned for 
any chemical officer. No field army chemical section had been organ- 
ized overseas since World War I. Supply procedures, still in the process 
of formulation late in 1942, were known but vaguely if at all. 
In this situation it is not strange that not only did an autonomous 
CWS develop in the Mediterranean area but also that each element 
of it developed its own independence. Such independence was en- 
couraged by Shadle who believed in the importance of his staff 
function and preferred to give strong field elements their head. The 
organizational situation was, in turn, excellent seed ground for the 
development of two chemical supply systems, one oriented toward 
impetus from the front and the other toward impetus from the rear. 
In the final analysis, the CWS in the North African—Mediterranean 
theater accomplished its tasks and that accomplishment was largely 
the product of great independence of spirit and a great willingness of 
chemical officers and men at all levels to improvise and innovate—to 
adapt the procedures and the equipment and the organization as each 
new situation demanded. CHAPTER IV 
Theater Supply: Europe 
Evolving the Theater CWS Supply System 
European Theater—The Strategic and Logistical Pattern 
The theater environment in which the Chemical Warfare Service, 
European Theater of Operations, performed its supply tasks was 
unusual in that the theater, after remaining uninvolved in ground 
combat for nearly a year, directed the largest combat effort of the war. 
While the Army Air Forces was on the offensive in several overseas 
areas and the Navy was strategically and tactically involved in the 
Pacific early in the war, the ETO ground forces in 1944 were still 
striving to build up launching places for assaults. In the Pacific the 
ground assaults began in August of 1942 and continued in November 
in North Africa. At the end of June 1943 General MacArthur 
launched his broad-scale offensive in the Southwest Pacific, and by 
early winter the ground forces were fighting in the middle Pacific atolls. 
The European theater, activated in June 1942, had theoretically been 
responsible for early operations in North Africa, but the whole theater 
organization had been primarily devoted, from the U.S. Army point 
of view, to the conversion of the British Isles into a vast supply base 
for the greatest ground offensive of the war. Two years, lacking a 
few days, elapsed between activation of the theater and the initiation 
of that offensive. During those two years the theater, and the Chemical 
Warfare Service within the theater, built up the most comprehensive 
overseas supply operation of the war. Under such circumstances it 
would seem axiomatic that theater control of the technical services 
would be more encompassing than in any other theater. The fact of 
the matter is that the CWS ETO was the most independent of all 
overseas CWS organizations. The CWS ETO developed a supply THEATER SUPPLY: EUROPE 
137 
system unlike any other in the European theater and unlike that of 
any other CWS organization in any theater, although some supply 
problems and their solutions were markedly similar to those of the 
CWS MTO. 
The CWS ETO was the largest overseas organization of the service. 
The extent of CWS activity is shown by the fact that, at peak 
strength, the number of CWS officers and men in the theater was 
nearly twice as great as in any other theater or overseas area.1 The 
service supplied every individual in this, the theater with the greatest 
total strength, with complete gas warfare protection. And, although 
chemical mortars were in action almost a year longer in the North 
African-Mediterranean theater, the sixteen mortar battalions in the 
ETO expended nearly twice as much ammunition as did those in the 
Mediterranean.2 CWS ETO officers forecast the demands of this supply 
job in terms of procedures which must be developed almost immediately 
after establishment of a theater headquarters. 
Supply Role of the Chief, CWS ETO 
Soon after the activation of the theater and its special staff agencies, 
Captain LeRoy, acting chief of the Storage and Issue Section of the 
Supply Division, Office of the Chief, CWS ETO, laid the groundwork, 
for the CWS ETO supply system. Introducing the medium which 
remained throughout the war as the principal means of disseminating 
supply instructions, CWS ETO supply circular letters, LeRoy, by 
authority of Colonel Montgomery, then Chief, CWS ETO, briefed 
chemical supply officers on their duties and responsibilities and on the 
theater chemical supply procedures. This initial supply circular letter 
indicated that the Chief, CWS ETO, would: (i) exercise technical 
control over CWS depots and chemical sections of general depots; 
(2) set chemical stock levels for the theater; (3) allocate credits to 
major theater commands;3 (4) distribute stocks arriving from the 
1 For a comparison of CWS theater strengths, see Brophy and Fisher, Organizing for War, Appendix A. 
2 (1) Ammunition Sup Rpt, 31 Jul 45. This was a feeder report prepared in OCCWS for the ASF 
monthly progress report. (2) Ltr, CG ASF to CofOrd and CCWS, 3 Nov 43, sub: Instructions for 
Preparation of Ammunition Sup of MPR. ASF SPX 319.1 (30 Oct 43) OB—P-SPDDL-MB—A. 
3 "A credit consists of a notification to a Headquarters that specific items are available in definite 
quantities in a specified depot subject to requisition [draft] by the Headquarters for whom the credit is 
established. Materials which have been credited to a Headquarters may be withdrawn at the discretion 
of the using Headquarters without reference to Tables of Basic Allowances or Tables of Allowances.” 
In CWS ETO Sup Circ Ltr i, 30 Jul 42. CWS ETO 300.4/1 (26-7-42)80. In ETO Admin 545A. 138 
THE CHEMICAL WARFARE SERVICE 
ports of debarkation among the depots; (5) order interdepot transfers; 
(6) determine stock reporting and recording procedures; (7) receive 
requests for supplies and services required for depot operations when 
not available locally; and (8) provide policy for and control over 
chemical service operations. The depot commanders or chemical supply 
officers were charged with operating the depots, supervising service 
operations, securing transportation not otherwise provided, and re- 
porting to the Chief, CWS ETO.4 
The chemical supply officers of the chemical supply sections which 
had been established on 11 July 1942 in general depots at Ashchurch 
and Bristol in Gloucestershire, at Thatcham in Berkshire, and at 
Taunton in Somersetshire, and the commanding officers of chemical 
depots which had been activated on 15 July at Savernake Forest in 
Wiltshire and at Marston Magna in Somersetshire received these in- 
structions, but lacked the means to comply. It was late in August 
before the 6th Chemical Depot Company and the 51st Chemical Im- 
pregnating Company, the only chemical service units in the theater, 
could provide sufficient men to carry out the operating instructions.5 
Supply Status, July-December 1942 
There was in any case not a large quantity of supply with which 
to operate. By the end of July, the total accumulation of all supplies 
in the theater amounted to only 181,979 long tons, and, judging from 
the CWS portion of total supply arriving in the theater during the 
first year, CWS stockages could hardly have exceeded 2,000 tons.6 
The 10 August 1942 ETO materiel status report indicates the CWS 
had received a smaller proportion—69 percent—of its authorized 
supplies than any other service in the theater. Detailed listings in the 
same report reveal that fewer than half the number of service gas 
masks authorized was available.' 
By the end of September, the CWS ETO reported the supply pros- 
pects as encouraging, but the actual status of stocks had not improved. 
The average number of days of combat maintenance of all items was 
4 (1) History, Sup Div, 42-4J. (2) CWS ETO Sup Circ Ltr 1, 30 Jul 42. CWS ETO 300.4/1 
(26-7-42)80. (3) History, Sup System. 
5 (1) History of CWS Depot Installation in the ETO, CWS ETO (May 42-Dec 43). ETO Admin 
545A. (2) History, 6th Cml Depot. (3) History of the 51st Cml Processing Co. 
6 (1) Ruppenthal, Logistical Support, I, 103. (2) Transportation Service ETO, Rpt, U.S. Army 
Cargo Arrivals—UK: Percentage Composition by Serv, 10 Jan 44. ETO Admin 424. 
7 Msg, S724, CG SOS ETO (G-4) to AGWAR, 10 Aug 42. ETO Admin 311A. THEATER SUPPLY: EUROPE 
139 
24, but in view of the imbalance of stocks, ranging from 873 days 
for the gas alarm to zero days for vesicant detector crayon, the 
average was not significant. The significant fact was that even based 
on a troop strength of 217,123 then reported in the United Kingdom, 
there was a serious shortage of both individual and collective protection 
items, such as the gas mask and the portable decontaminating appa- 
ratus. This strength was slightly more than half the strength, 427,000, 
for which ETO planners set requirements in the same month. The 
real CWS supply level was estimated at 12 days for Class II (general 
supplies issued against established allowances) items and practically 
nil for all other classes. This real level was not more than one-sixth 
of the lowest authorized theater supply level computed on the 427,000 
strength figure for 60 days of supply. The figure for the number of 
days of supply fluctuated from 60 to 90 days in the several versions of 
the theater plan formulated in the fall of 1942.8 The quantity of supply 
immediately available was critically low. Yet, the ETO was then 
primarily a planning theater, and CWS ETO officers took the long- 
range view that the immediate problem of supply shortages was im- 
portant only insofar as the shortages reflected the need for planning 
to meet the ultimate goal—supplying the theater at full strength. 
Major Hayes, Chief, Requirements Division, CWS ETO, stated in 
the October supply report to the War Department that the immediate 
supply shortage resulted from the necessity for filling initial shortages 
for all units and organizations in and arriving in the United Kingdom. 
Filling initial shortages depleted stocks much more rapidly than re- 
placing normal consumption, and Major Hayes was anxious to know 
if plans should provide for the greater issue rate. If so, he pointed out, 
the CWS ETO planners would have to know the approximate extent 
of shortages among arriving troops. The CWS ETO was in a poor 
position to forecast issue requirements even if only normal replacement 
supply would be required. Planners did not know the theater priority 
for supply, nor did they know how much shipping tonnage would be 
allocated to CWS supply and how much of that allocation might be 
lost because of extensive enemy submarine warfare. Further, they 
had not been informed whether CWS ETO requisitions would be hon- 
ored in the United States, and they had received no information on 
8 (1) Actg CCWS Hq SOS ETOUSA to ACofS G-4 WDGS, thru channels, Initial G-4 Per Rpt, 
From Arrival in Theater to 30 Sep 42, 2400 Hours, 1 Oct 42 (hereafter cited as G-4 Kept, 1 Oct 42). 
CWS 319.1/3040 1942. (2) Ruppenthal, Logistical Sttpport, I, 103-03. 140 
THE CHEMICAL WARFARE SERVICE 
the War Department ammunition supply policy. Apparently the 
failure to provide information extended even to their own theater 
headquarters. At the end of September, the CWS ETO was still plan- 
ning on a 180-day level of supply for Class II instead of on the 90- to 
60-day level mentioned above.9 Hayes urged the War Department to 
provide requirements information at once since, despite the lack of 
supplies, supply officers were convinced that the Bolero and Roundup 
build-ups would result in the theater having to handle vast quantities 
of materials within a few months.10 
The CWS Credit System 
Anticipating a greatly increased workload, CWS supply officers bent 
their efforts to turning out a comprehensive supply plan. The com- 
pleted plan made the Chief, CWS ETO, as stated above, directly 
responsible for stating requirements and preparing theater requisitions 
on the United States and for supervising the receipt and storage of 
goods. In handling the third element of the supply system, distribu- 
tion, LeRoy realized that the small number of men and the lack of 
available facilities meant that distribution would have to be decentral- 
ized for efficient operation. He accordingly based the distribution 
system on the allocation of supply credits. The allocation of supply 
credits to using units and organizations was an established War De- 
partment procedure which the CWS in the United States had incor- 
porated into its supply manual.11 Credit allocations were made spo- 
radically throughout the Army’s distribution system and in many 
cases, as in corps area distribution in the United States, these allocations 
were used early in the war to establish quota distributions for short 
supply items of lesser importance than controlled items.12 
The CWS ETO anticipated a credit-employment trend in the 
United States by using the credit system to govern the issue of con- 
10 Roundup was an Allied plan for a cross-Channel attack in 194}. Bolero was a more encompassing 
plan for building up Allied strength in the British Isles for continental invasion and follow-through. 
The two plans were complementary until Torch (the North African plan) outmoded Roundup. 
Bolero continued, through many modifications, as the build-up plan. Ruppenthal, Logistical Support, 
I, ch. II. 
8 G—4 Rpt, 1 Oct 42. 
“Controlled items were scarce and important items whose issue was controlled by the War Depart- 
ment (OPD and/or ASF) on a priority or urgency basis. Leighton and Coakley, Global Logistics and 
Strategy, 1940-4}, p. 304. 
11 (1) FM 100-10, 9 Dec 40. Revised 15 Nov 43. (2) FM 3-15, CWS, 17 Feb 41. THEATER SUPPLY: EUROPE 
141 
trolled as well as less important items when, as early as 31 July 1942, 
they made all Class II noncontrolled items and the majority of Class II 
controlled items subject to credit allocations. Theater requirements 
for Class IV (special supplies outside regular allowances) items were 
not firm enough to warrant credit allocations, but procedures were 
adopted to place ammunition (Class V) on credit in accordance with 
authorized training allowances whenever a sufficient supply became 
available.1 ‘ Total stocks of air chemical Class V were credited to the 
Eighth Air Force from the inception of the system.14 The CWS ETO 
thus inaugurated the only comprehensive credit distribution system 
to be used in the theater. 
Although administrative arrangements for the CWS ETO issue 
system were complete by the end of July 1942, operating difficulties 
prevented more than token allotment of credits during the remainder 
of the year. The first of these difficulties arose because there was too 
small a staff at all levels of theater organization to manage the system. 
The great advantage in the credit issue system was that only one action, 
the allocation of credits, had to be performed at theater or SOS head- 
quarters level; the responsibility for requesting allocations and for 
receiving issues from depots lay with major commands subordinate 
to the theater commander. Issuing allocations to minor commands 
would have involved theater headquarters in so much detail that the 
purpose of decentralizing supply operations would have been defeated. 
Throughout 1942, there were insufficient numbers of chemical supply 
management officers at the subordinate major command levels to 
handle the workload for their commands. The planned use of the new 
base section organizations for area distribution of chemical supplies to 
SOS units was likewise thwarted by the lack of chemical manpower.15 
The expected major ground forces command comparable to Army 
Ground Forces in the United States was never organized in the theater, 
and no acceptable alternative co-ordinating command was available 
until the activation of an army group headquarters late in 1943. 
Although the Eighth Air Force became operational in August 1942 
and although a bulk Class V credit was issued, the air force head- 
13 (i) Ibid., pp. 303-04. (2) History, Sup System. (3) CWS ETO Sup Circ Ltr 4, 31 Jul 42. 
CWS ETO 400-35 (28-7-42)50. (4) G-4 Rpt, 1 Oct 42. 
11 For more information on air chemical ammunition, see below, pp. 149-63. 
15 The Eastern, Western, Southern, and Northern Ireland Base Sections were organized by SOS ETO 
on 20 July 1942, but only with skeleton staffing. Ruppenthal, Logistical Support, I, 84-85. 142 
THE CHEMICAL WARFARE SERVICE 
quarters, which served as the theater air command, was not well enough 
organized for the next several months to handle the issue accounting 
problems which would result from crediting other supplies.16 
The burden placed on the supply system by the requirements for 
Torch and the virtual suspension of the Bolero build-up resulted 
in a diversion of the supply effort from the long-range goal. Shipments 
earmarked for Torch began to replace Bolero shipments in August. 
In the ensuing three months almost the entire theater supply effort 
was directed toward equipping units alerted for the Torch operation 
and, for two months thereafter, to setting up maintenance shipments 
for North Africa. The seriousness of the supply situation was greatly 
aggravated. The CWS ETO participated in the Torch effort by 
assuming the burden of detailed supply operations which included 
receiving unit requisitions from alerted units, extracting requisition 
items to the depots where stock was known to exist, and conducting 
unit "show down” inspections to determine if requisitions had been 
placed for basic equipment and if supplies had been received. To speed 
up and to simplify the actual details of requesting and handling 
materials, Captain LeRoy’s section devised a multicarbon single control 
form which could be used as a requisition, tally sheet, packing slip, 
bill of lading, and notice of receipt. A Control Division, SOS, officer 
visiting in the ETO saw the CWS forms in Supply Division, CWS ETO, 
and took a number of them to Washington with him. About six 
months later ASF published a "War Department Shipping Document” 
which was similar to the CWS ETO form.17 
Some conception of the magnitude of the Torch supply tasks can 
be derived from the fact that 10,020 U.S. troops sailed as part of 
Eastern Task Force and 70,800 as part of Center Task Force in convoys 
originating in the United Kingdom. Many of these troops had to be 
equipped in part and almost all had to be inspected in the United 
Kingdom. Also, the War Department directed the European theater 
to set up twenty-two maintenance shipments of CWS supplies totaling 
3,133 deadweight tons to be sent in twelve North African resupply 
16 (i) History, Sup System. (2) Ruppenthal, Logistical Support, I, 84-85, 202-03. (3) Wesley F. 
Craven and James L. Cate, eds., "The Army Air Forces in World War II,” vol. II, Europe: TORCH to 
POINTBLANK, August 1942 to December 194} (Chicago: University of Chicago Press, 1949), pp. 
210—11, 216. (4) History, Cml Sec Eighth AF. 
17 (1) History, Sup System. (2) Interv, Hist Off with Col LeRoy, 17 Apr 52. (}) WD SM 38-401, 
Jul 43- THEATER SUPPLY: EUROPE 
143 
convoys between November 1942 and February 1943.18 Despite the 
amount of this work, or perhaps because of it, the headquarters supply 
officers were unaware of the inroads Torch was making into Bolero. 
The CWS ETO supply policy consequently remained unchanged and, 
indeed, supply officers found it possible to issue twenty credits for 
local supply during the second half of calendar year 1942.19 
Logistical Data 
While theater stocks were virtually exhausted when the ETO was 
finally relieved of responsibility for North Africa in February 1943, 
it was probably fortunate that there had been no change in CWS ETO 
supply policy. The Allied leaders agreed at the Casablanca Conference 
in January 1943 to reinstate Bolero and, at the Trident Conference in 
Washington in May, they set targets for an approximately 1.5-million 
troop strength to be ready for a cross-Channel operation about 1 May 
1944. The CWS system, which had been predicated on such a build-up, 
was therefore ready to go into more extensive operation when, about 
the middle of 1943, Bolero moved from crawl to sprint. But, in the 
meantime, from November 1942 to May 1943, the theater staff, in- 
cluding the CWS, had not been idle. The theater and SOS general 
staffs drew up detailed plans of troop requirements to be used when 
the order to proceed with the build-up was received, and they decided 
how to allot forces for the air and supply effort and the eventual ground 
effort. The G-4, SOS, compiled basic logistical planning factors, such 
as required storage space per 1,000 men per 30 days’ maintenance and 
tonnage per day required to support given strengths. Colonel LeRoy, 
now chief of the Supply Division, CWS ETO, realized that these 
computations prepared at higher echelons would have little meaning 
for the CWS as long as they lacked basic logistical data for CWS 
items.'0 The information which Hayes had urgently requested from 
the United States in October had not yet been received since it was not 
18 (i) History, Sup System. (2) History of CWS ETO Statistical Summaries. ETO Admin 543A. 
(3) Leighton and Coakley, Global Logistics ami Strategy, 1940-4}, p. 437. (4) Howe, Northwest 
Africa. (5) Rowan Comments, 16 Dec 60. 
19 (x) History, Sup System. (2) Ruppenthal, Logistical Support, I, 87-113. 
20 LeRoy was acting chief of the Storage and Issue Section, Supply Division, from 27 July to 19 
September 1942 and executive officer from that time until 5 December; he was acting chief of the Supply 
Division from December 1942 to 17 February 1943, then on temporary duty in the United States until 
4 April 1943 when, now a lieutenant colonel, he returned to the theater as chief of the Supply Division; 
on 26 October 1943 he was reassigned and sent to the United States. 
289-149 0-68—11 144 
THE CHEMICAL WARFARE SERVICE 
then available in the United States. Preparations for the Torch opera- 
tion had made CWS ETO planners understand how essential such 
logistical data were for adequate supply planning. LeRoy accordingly 
embarked on an extensive project for the assembly of CWS logistical 
data.21 
The job done by Colonel LeRoy and the members of the Supply 
Division on CWS logistical data was monumental. The work was 
begun in December 1942, and distribution of the initial portions took 
place in February and March 1943. In June 1943 the CWS ETO sent 
out a complete set of compiled tables for the guidance of all supply 
officers and of chemical officers at all echelons of command. The 
compilation was divided into four sections. The first section provided 
basic data, a list of all items for which the CWS had procurement, 
storage, and issue responsibilities together with correct nomenclatures, 
types of packaging, unit and package weights and cubages, storage and 
shipping factors, and a list of all British and American cargo vehicles 
and railway cars which showed weight and load limit and cargo meas- 
urement for each type. The second section set forth the basis for 
computing requirements, giving consolidated chemical supply listings 
from tables of basic allowances, tables of allowances, tables of organiza- 
tion and equipment, and lists of chemical expendable supplies. This 
section also listed the basis for issue of ammunition and gave established 
units of fire, days of supply, and replacement factors on specific items. 
In the third section the logistic requirements of each type of organiza- 
tion in the Army were analyzed in terms of initial issue of chemical 
materiel, and the weight and cubage of each item authorized were 
given together with total weights and cubages converted into total 
tonnage and shipping space needed. Such special logistic problems as 
the supply of impregnating materials and the proper calculation of 
payloads per aircraft for chemical or incendiary aerial bombardment 
were set forth in detail in the fourth section. The compilation closed 
with a detailed account of the use of these data in planning operations. 
This invaluable compilation was amended many times as required by 
changes in equipment and organization, and an extensive revision was 
issued, section by section, in 1944. It was the foundation of all CWS 
21 (1) Ruppenthal, Logistical Support, I, 113-23. (2) History of CWS Logistics in the ETO (here- 
after cited as History, Logistics). (3) For logistical data problems in North Africa, see above, 
Chapter III. THEATER SUPPLY: EUROPE 
145 
ETO logistical planning throughout the war, even after the issuance 
of the CWS supply catalogs which covered some of the same area.22 
The CWS ETO logistical data compilation served, on the one hand, 
as the basis for computing total theater chemical materiel requirements 
according to present or expected strengths, and on the other hand, as 
a source of shipment, storage, and distribution information, including 
a rapid means of calculating credit allocations once the materiel arrived 
in the theater. In March 1943 the decentralization of the supply dis- 
tribution process was encouraged by extending the credit allocation 
plan to cover all classes of supply.23 While the basic credit system 
procedures were thus set, the CWS ETO was well aware of the fact 
that the system would be workable only when field elements were 
prepared for storage, issue, and accounting. 
Storage and Issue 
Storage and issue was one of the original CWS ETO problems. 
Supply authorities, as mentioned above, had a difficult time staffing the 
depots and depot sections. This problem was somewhat alleviated, at 
least in the management sphere, when supply officers arrived in Sep- 
tember 1942 to replace the troop officers who had been managing the 
depots and depot sections. This benefit was almost immediately can- 
celed out, however, by the transfer of some of these officers and most 
of the enlisted men to the North African forces then being assembled. 
The 6th Chemical Depot Company, the only such unit in the theater, 
also embarked for North Africa. The 51st Chemical Impregnating 
Company became the sole theater chemical service unit. The staff 
reduction was so drastic that the chemical section of the general depot 
at Taunton was left with one officer and no enlisted men, and the 
chemical section of the general depot at Thatcham with two officers 
and no enlisted men. The chemical section of the Ashchurch general 
depot had one officer and eleven enlisted men while the chemical section 
22 (1) History, Logistics. (2) Sup Div CWS SOS ETO, Cml Warfare Logistics, various portions 
dated from 1 Feb 45 to Jun 43. ETO Admin 345A. (}) Sup Div OCCWO Hq SOS ETO and Hq 
COM2 ETO, CWS Logistics, various portions dated from, 13 Jan 44 to 10 Aug 44. ETO Admin 544. 
(4) Sup Circ Ltr 31, CWS SOS ETO, 18 Mar 43, sub; Computation of Rqmts. SOSCW 471.6/51 
(13 Mar 43)SD. ETO Admin 543A. (5) ASF Cml Warfare Sup Catalog, prepared by Field Rqmts 
Div OCCWS, 1 Apr 44. (This catalog is an assembly of various catalogs and lists on which publica- 
tion began 23 September 1943.) 
23 Sup Circ Ltr 31, CWS SOS ETO, 18 Mar 43. 146 
THE CHEMICAL WARFARE SERVICE 
in the Bristol general depot had two officers and six enlisted men. 24 The 
heavy demands of the Torch preparations could not have been met 
but for the help of British pioneer troops and civilians. The British 
could not provide manpower on a permanent basis since their own 
manpower shortages were severe and since they operated on a strict 
priority system. The labor problem was further complicated by a lack 
of facilities. Storage buildings provided were not well lighted, floors 
were rough and uneven, and in one of the designated locations the 
maximum safe floor load was so low as to preclude efficient storage 
operation. In another depot the chemical section was assigned space 
on the fifth floor of a building with only one small elevator. Only 
one depot possessed car-level loading platforms, and the lack of 
mechanized equipment and even roller conveyors meant that all 
lifting, loading, sorting, and stacking had to be performed manually. 
This bad situation was made worse by a lack of adequate communica- 
tions between the SOS headquarters, the ports, and the depots and, 
until January 1943, the absence of maintenance facilities. The one 
chemical maintenance company in the theater was being used in depot 
operation, and the second company did not arrive until November 
I943-25 
The CWS ETO storage manpower situation reached a low in 
December of 1942. From the supply handling point of view it was 
fortunate that theater stocks were virtually exhausted and that few 
shipments were arriving. The 7th Chemical Depot Company arrived 
in the theater in December and by early January had been parceled 
out into detachments to operate the two chemical depots and four 
chemical sections of general depots which had been established six 
months earlier, and one general depot chemical section which had 
been established at Sudbury Egginton, Derby, Staffordshire, in De- 
cember. At the time these detachments were sent out, a new chemical 
depot, soon to be converted into a chemical section of an ordnance 
depot, was activated at Cinderford, Gloucestershire. Another general 
24 History of CWS Installations in the ETO, CWS ETO, Jul 42-Dec 44 (hereafter cited as History, 
Depot Installations). ETO Admin 545A. 
25 (1) History, Depot Installations. (2) Personal Ltr, Rowan to Waitt, 5 May 43. CWO-400/32 
Sec in CWS 314.7 Pers Files, ETO, Oct 42-Jan 44. (3) G-4 Rpt, 1 Oct 42. (4) For maintenance 
companies in the theater, see Brophy and Fisher, Organizing for War, Appendix H-9. As indicated in 
Appendix H-7, one chemical maintenance company (aviation) arrived in the theater in August 1943. THEATER SUPPLY: EUROPE 
147 
depot chemical section was activated at Moneymore, Northern Ireland, 
before the end of January.26 
While the Allied leaders had agreed in January to renew the Bolero 
build-up, tonnage arrivals remained light for the first three months of 
1943, the March incoming CWS shipments amounting to only 25 long 
tons. The April figure suddenly shot up to 826 long tons of CWS 
supplies, and, after the official rescheduling of Bolero targets in May, 
the June figure reached 4,004 long tons.2' Such a cargo inflow was 
certainly more than one depot company could handle, particularly 
since work had been increased by the establishment of another chemical 
depot in Sudbury, Suffolk, on 1 June 1943. On 1 July 1943, the 
handling situation was relieved by the arrival of the 60th Chemical 
Depot Company. The two companies were then able to operate with 
a maximum of five detachments each. Incoming tonnage rates soared, 
plummeting occasionally, but reaching more than 9,000 tons in 
September, more than 12,000 in December, and a peak of 34,604 tons 
in June 1944. The handling situation would have grown rapidly 
worse again but for the arrival of new units and a comprehensive 
depot installation plan which had been laid down in May i943.“8 
The unit complement for the build-up period in the British Isles 
was rounded out during the last six months of 1943. One chemical 
depot company (aviation) arrived in July and two in August. The 
65 th Chemical Depot Company disembarked in England about 6 
October, and the 761st Chemical Depot Company (Aviation) followed 
a few days later. Three chemical depot companies, the 9th, the 61st, 
and the 64th, completed the list in November. Meanwhile, the SOS 
depot plan brought about the establishment of chemical sections in 
general depots at Barry, Glamorganshire, in July, and at Hilsea, Hamp- 
shire, at Westbury, Wiltshire, and at Histon, Cambridgeshire, in No- 
vember. Chemical ammunition depots were activated at Shepton 
Mallet, Somersetshire, and at Loton Deer Park, Alderbury, Shropshire, 
in November. From December 1943 until after the invasion of the 
Continent six months later, the CWS ETO, in 9 of the theater’s 18 
general depots and in 6 of its 54 branch and ammunition depots, 
managed more than 700,000 square feet of closed storage space, more 
26 History, Depot Installations. 
27 Summary of Army Cargo Arrivals by Port Area and Serv, Statistical Summary prepared by Program 
Div SOS ETO, n.d. ETO Admin 416. 
28 (1) Ibid. (2) History, Depot Installations. 148 
THE CHEMICAL WARFARE SERVICE 
Chemical Warfare Depot, Loton Deer Park, England 
than one million square feet of open storage space, more than 50,000 
square feet of shop space, and space for 68,400 long tons of ammu- 
nition.29 The CWS ETO stood fourth, approximately equal with the 
Engineers, among the technical services in operation of both closed 
and open space. The only service other than Ordnance and Engineers 
operating shop space and the only service other than Ordnance oper- 
29 (1) History, Depot Installations. Exact totals of storage space given are as follows: 
Closed space 
sq. ft. 
Open space 
sq. ft. 
Shop space 
sq. ft. 
Tons of 
ammunition 
Total 
732,006 
1.034,975 
56,250 
68,400 
General depots 
Branch and ammunition depots . 
439,006 
293,000 
924>97 5 
110,000 
56,250 
68,400 
(2) ICAF SR 46-8, Rpt of Committee on Production, Jan-Jun 1946 course, sub: Transportation, 
Storage, Packaging, cites report (of travel) of Col. A. B. Drake to the United Kingdom, 1943, which 
gives the following total figures for the CWS ETO: 
Closed space sq. ft 812,016 
Open space sq. ft 1,265,050 
Shop space sq. ft 42,600 
Ammunition dumps tons capacity . , 62,000 
(j) Ruppenthal, Logistical Support, I, 158. THEATER SUPPLY: EUROPE 
149 
ating ammunition storage space, the CWS ETO was a poor second in 
these two categories.30 
Air Chemical Supply 
After eighteen months of operations in the theater, the CWS ETO 
was at last in a position to handle supply adequately. Admirable pro- 
cedures had been established; facilities and installations were satisfac- 
tory if not ideal; and sufficient manpower was available to implement 
the procedures and to staff the installations. Problems for the remaining 
six months of the build-up period, as well as for the major part of the 
subsequent operational period on the Continent, centered about the 
provision of specific items of supply and the operation of specific 
supply plans. The CWS ETO was not without experience in these 
problem areas. While most of the activities of the theater had been 
directed toward build-up, the CWS ETO had received its logistics 
baptism of fire in the preparations for the North African campaigns, 
and the steadily increasing combat activities of the Army Air Forces 
kept the theater in operational status throughout the build-up period. 
The CWS ETO was heavily involved in the Army Air Forces efforts 
for two reasons: (i) the CWS provided the incendiary and fire bombs 
which became major weapons for both bomber and fighter elements 
of the air arm; and (2) the greater part of the gas warfare retaliatory 
effort was to be concentrated in the air forces should the enemy initiate 
gas warfare.31 
Founding the Air Chemical Supply System, ETO 
CWS computations of air chemical munitions requirements for the 
European theater were begun in the United States before the activation 
of the theater organization. Colonel Kellogg initiated the requirements 
work immediately upon his assignment as Eighth Air Force chemical 
80 The Drake report, cited above, lists: 
Closed space 
sq. ft. 
Open space 
sq. ft. 
Shop space 
sq. ft. 
Ammunition 
(tons capacity) 
Quartermaster 
6,766,373 
4,998,694 
— 
— 
Ordnance 
2,716,844 
1,444,000 
1,002,400 
395,000 
Engineers 
831,000 
12,236,000 
34,968 
— 
Medical 
1,184,417 
8 5,000 
— 
— 
81 For description of incendiary and fire bombs, see below, Chapter XVII. 150 
THE CHEMICAL WARFARE SERVICE 
officer and the organization of his chemical section in April 1942. 
Colonel Kellogg’s section, proceeding on inadequate data as to aircraft 
strength and capacity, submitted its requirements estimate for the 
second half of 1942 on 16 May, a few days before the Eighth Air 
Force headquarters moved to an overseas staging area. On reaching 
England in June, Colonel Kellogg realized that the probable inaccuracy 
of the May submission was not significant since there was little hope 
of acquiring any substantial stockage of munitions during 1942.82 
He at once inaugurated a threefold program in the supply field. His 
objectives were: first, to secure materiel, such as gas defensive equip- 
ment, aerial incendiaries, toxics, and smoke munitions, from the 
United States, or, as an interim measure, from the British; second, 
to acquire or construct storage space for toxics and incendiaries; and 
third, to provide a firm basis for supply planning and requirements 
computations.88 While the air forces in the theater, like the Army 
Air Forces headquarters in the United States, were tending to become 
independent in matters of supply, the whole CWS organization in the 
theater was vitally involved in all the elements of the Eighth Air Force 
program because the theater CWS was charged with co-ordination 
of all theater chemical warfare policy, including liaison with the 
British. Also, the SOS section of the CWS ETO was already providing 
storage for air chemical supplies and had begun, as noted above, to 
work on air chemical logistical data. 
The accomplishment of all phases of the Eighth Air Force chemical 
supply program was fraught with difficulties. The only incendiary 
bombs in production in the United States in this early period were 
the small 4-pound magnesium and steel case bombs. Most of the 
magnesium bombs were going to the British under lend-lease, and all 
production was slowed by the scarcity of magnesium. The steel case 
bomb was not an effective incendiary for use on many targets, and it 
was consequently rarely issued to the theaters of operations. The 
32 (1) History, Cml Sec Eighth AF.. (2) History, Hq Eighth AF, vol. II, pt. 2, 17 Aug 42 to 1 
May 43. Eighth AF 520.01-36, 17 Aug 42-1 May 43. (3) For CWS organization in the ETO Army 
Air Forces, see above, Chapter II. 
33 (1) History, Cml Sec Eighth AF. (2) Capt John F. Crowther, Cml Sec Eighth AF, to Col 
Kellogg, CmlO Eighth AF, Staff Study, Study of Tactical Rqmts for New Types of Cml Bombs, 
27 Jul 42. Eighth AF 471.6 in app. C, History, Cml Sec Eighth AF. (3) Memo, CmlO Eighth AF for 
ACofS G-3 Eighth AF, n Aug 42, sub: Summary of Requests for Cml Warfare Servs Munitions. 
App. C, History, Cml Sec Eighth AF. (4) Memo, CmlO Eighth AF for CofS, ACsofS G—3, G-4 
Eighth AF, 28 Jul 42, sub: Conf With Principal RAF Officers of 42 Group, Reading, England. 
Eighth AF 5 19.225, 4 Jul 42-May 45. THEATER SUPPLY: EUROPE 
151 
M47 100-pound bomb with an incendiary filling was satisfactory, but 
it was late in 1942 before a successful filling could be produced in 
quantity.34 Quantity production of toxics was just beginning, and 
not even token shipments to the European theater were authorized 
until January 1943.30 Defensive equipment and service supplies were 
no more available to the air forces than they were to the ground and 
service forces, and all stockages in and destined for the European 
theater were subject to the demands of the North African campaigns. 
Existing demands on the British supply system had reached monumental 
proportions, but the British were in a position to be of some assistance 
to the chemical preparedness of the United States forces. 
Air Toxic Supply 
The United Kingdom had the capacity to produce toxics, but pro- 
duction had almost come to a standstill for lack of containers in which 
to store the finished product. The small British supply of corrosion- 
resistant steel, the ideal container material, was diverted to other high- 
priority purposes. While the chances of obtaining such steel were 
slightly better in the United States, rigorous shipping priorities forbade 
the shipment of empty containers.36 As to munitions for the delivery 
of toxics on the enemy, the United States had the M47 100-pound 
bomb which was considered to be satisfactory and which was available 
in limited quantities. The British had a 65-pound and a 30-pound 
bomb, but the Eighth Air Force was skeptical about their usefulness; 
furthermore, the bombs did not lend themselves to economical opera- 
tional loading in American aircraft. Neither the United States nor 
Great Britain had a bomb cluster for toxics, but the British 250-pound 
bomb was considered acceptable pending the availability of larger 
bombs or clusters of smaller bombs. The British 500-pound bomb for 
filling with nonpersistent agents was considered so highly effective that 
air chemical officers requested a comparable American munition. Smoke 
tanks adaptable to aerial vesicant spray missions were the American 
500-pound, available in small quantities but virtually obsolete because 
of the scarcity of aircraft on which it could be carried, the American 
34See Brophy, Miles, and Cochrane, From Laboratory to Field, chs. VIII and XV. 
35 Personal Ltr, Waitt to Kellogg, n Jan 43. 
36 (1) Waitt to Kellogg, 11 Jan 43. (2) Rpt of Visit of Col W. Hepburn Chamberlain and Capt 
John L. Armitage to ETO, 18 Mar 44 (hereafter cited as Chamberlain-Armitage Rpt). CWS 314.7 
Observer Rpts. 152 
THE CHEMICAL WARFARE SERVICE 
2,000 pound, which was not expected to be available in quantity for 
some time, and the British 400-pound Flying Cow, a bomb which 
sprayed smoke or toxics when released from an airplane. The British 
were able to manufacture the Flying Cow for the American Air 
Forces, and it was consequently scheduled to be the mainstay of the 
potential for spraying toxics from aircraft until a better munition 
should become available.37 
In addition to supplying the Flying Cow and a small reserve of toxics, 
the British agreed to provide their 30-pound bomb with an incendiary 
fill, their 250-pound bomb with an oil incendiary fill, and about 6,500 
of the 500-pound phosgene-filled bombs. Also, since the Eighth Air 
Force was occupying air stations established by the Royal Air Force 
(RAF), Colonel Montgomery was able to get the RAF to leave their 
protective equipment and decontaminating facilities intact when va- 
cating the stations. The British further agreed to manufacture some 
protective, warning, and detection supplies for the United States 
Army forces, including the air forces.38 
While the total quantity of British chemical warfare materials 
furnished the United States Forces was small, and while only token 
deliveries were made in 1942, awareness of British capability and 
British reserves was nearly the only reassuring gleam in the dark 
chemical supply picture from July 1942 to July 1943- The entire 
gas warfare retaliatory potential depended on British resources for 
most of that period. CWS ETO officers measured the British contribu- 
tion as much or more in terms of their willingness to co-operate and 
their readiness to provide technical and operating experience data as 
they did in their provision of supplies under reverse lend-lease.39 
Through the provision of such technical advice as well as actual labor 
and materials, the British helped to solve the dilemma with respect to 
toxic storage. Late in 1941 and early in 1942, the British experimented 
with the storage of toxics in concrete tanks only to reject that method 
in the spring of 1942 because the toxics seeped through the concrete. 
37 (i) Crowther Staff Study, 27 Jul 42. (2) Memo, CmlO Eighth AF for ACofS G-3 Eighth AF, 
11 Aug 42, sub: Summary of Requests for Cml Warfare Servs Munitions. (3) Memo, CmlO Eighth 
AF for CmlO’s Eighth AF, 11 Dec 42, sub: Cml Warfare Munitions on Order for 1943. In app. C, 
History, Cml Sec Eighth AF. 
38 (1) Memo for File, CmlO Eighth AF, 24 Jun 42, sub; Conf, 22 Xun 42> (2) tr> Chief Sup 
Div CWS ETO to General Purchasing Agent SOS ETO, 2 Sep 43, sub; Rpt of Material Procured by 
U.S. Forces in the U.K. SOSCW 400.12/121-Sec (2 Sep 43)SD. (3) History, Cml Sec Eighth AF. 
39 (1) Rowan Interv, 26 Sep 58. (2) Magness Interv, 5 May 59. THEATER SUPPLY: EUROPE 
153 
Almost immediately after the rejection, however, scientists of the 
Imperial Chemical Industries working for the Ministry of Supply and 
the Ministry of Aircraft Production hit upon a simple method of lead- 
lining the concrete tanks to provide a seepage-proof seal. The British 
quickly constructed a number of lead-lined tanks at three installations 
to store some of their own reserves, and they offered to build similar 
facilities for the U.S. Eighth Air Force. Working with the RAF, the 
Ministry of Supply, and the Imperial Chemical Industries under reverse 
lend-lease authorizations, Kellogg and Ft. Col. Albert H. Hooker, 
Chemical Officer, VIII Air Force Service Command, selected sites for 
advance chemical parks at Barnham, Suffolk, and at Melchbourne Park, 
near Kettering, Northamptonshire, and the Imperial Chemical Indus- 
tries agreed to construct three 500-ton tanks at each location. Hard- 
standings and Romney huts were also built at each site for the storage 
of 4,000 tons of chemical ammunition and 6,000 tons of incendiaries. 
The VIII AFSC later installed American toxic and incendiary filling 
apparatus at both locations. The tanks at the Barnham site were com- 
pleted and filled by the end of 1943 and, while the Melchbourne Park 
facility was not completed until the spring of 1944, 1,21 5 tons of toxics 
were in storage there in December 1943.40 
Although the construction of the advance chemical parks repre- 
sented a major achievement, Army Air Forces chemical officers never 
assumed, even at the outset, that these parks would solve the problems 
of storage space for air chemical supplies. For example, against the 
air park capacity of 3,000 tons of bulk toxics and 8,000 tons of chem- 
ical ammunition, the initial estimate of requirements for bulk persistent 
toxics alone was 34,000 tons.41 Furthermore, the air chemical officers 
were concerned not only with storage of reserve and normal station 
issue supplies but also with the daily munitions requirements of aerial 
operations. Combat operations requirements, principally of incendiary 
40 (i) History, Cml Sec Eighth AF. (2) Ltr [CG USSTAF] to CG AAF (Attn: Air CmlO) 
[1 Aug 44], sub: Status of Cml Cos, Air Opns and Cml Depot Cos, Aviation Assigned to Orgns of 
USSTAF in Europe. Eighth AF 225 Cmls. (3) Memo, CmlO Eighth AF for CofS, ACsofS G-j and 
G-4 Eighth AF, 28 Jul 42, sub: Conf With Principal RAF Officers of 42 Group, Reading, England. 
(4) History of VIII AFSC (Eighth Strategic Air Depot Area), vol. I, Narrative. Eighth AF 528.01, 
17 Feb 42-1 Mar 44. (5) Memo, no signature for Col Kellogg et ah, 3 Nov 42, sub: Notes on a 
Mtg to Discuss FFD, 1 and 2 held at Special Products Dept on 30th Oct 1942. Eighth AF 226.9(8) 
Cml Warfare Confs. (6) Memo for File, CmlO Eighth AF, 11 Mar 43, sub: Conf on Advanced 
Cml Parks. Eighth AF 400.24 in Eighth AF 226.9(8) Cml Warfare Confs. 
41 Memo, CmlO Eighth AF for CmlO’s Eighth AF, 11 Dec 42, sub: Cml Warfare Munitions on 
Order for 1943. 154 
THE CHEMICAL WARFARE SERVICE 
bombs, had to be immediately available at each operational base from 
August 1942, when the Eighth Air Force initiated its famous raids on 
the Continent, until the end of the war in Europe. In the first month, 
6.1 tons of incendiary bombs were expended.42 Despite the fact that 
Ordnance was officially charged with storage of toxic munitions and 
usually with the storage of incendiaries, air chemical officers found it 
almost as difficult, for the whole of the combat period, to find and 
maintain adequate storage space as it was to obtain munitions. 
As supplies began rolling in, in the second half of 1943, air force 
storage facilities were soon filled. For example, while 18,875 mustard- 
filled 100-pound bombs were brought into SOS depots and 12,000 into 
air force depots between April and July 1943, 205,485 toxic-filled M47 
bombs were in theater storage by the end of December.43 Despite the 
fact that all ammunition storage was an Ordnance function, SOS CWS 
and even RAF chemical ammunition depots initially assumed most of 
the load of air force chemical storage. Eventually so much of the air 
force storage backlog was in SOS depots that the chemical section of 
the ordnance ammunition depot at Cinderford became in fact, if not 
in name, a Ninth Air Force depot operated by air chemical service 
units.44 The largest SOS CWS ammunition storage facility, that at 
Loton Deer Park, was designed primarily for incendiary storage, sec- 
ondarily for toxic storage, mostly of air force munitions, and only 
incidentally for the storage of ground forces ammunition.43 
A comparison of ground and air forces toxic stockages in the theater 
is illuminating, both because it indicates the scope of the storage prob- 
lems and because it states retaliatory capability in terms of munitions 
available. The level of ground forces toxic artillery ammunition, all 
of which was stored by Ordnance, increased only slightly from De- 
cember 1943, at approximately 301,000 rounds, until March 1945 
42 (1) History of the Cml Warfare Sec ist Bombardment Div, Aug 42-Feb 44. Eighth AF 323. 
(2) Statistical Summary of Eighth AF Opns, European Theater, 17 Aug 42—8 May 45. Eighth AF 
520.308A, Archives of AF Hist Off Maxwell Air Force Base, Ala. 
43 (i) Baldwin, Bingham, and Pritchard, Readiness for Gas Warfare in Theaters of Operations, app. B. 
(2) Draft, History of Eighth AF—History of Special Staff Sec, May to Dec 43. Eighth AF 320.01- 
4B. (3) History, VIII AFSC (Eighth Strategic Air Depot Area), vol. I, pt. I, Narrative. 
44 (1) IOM, Col Hooker, CmlO VIII AFSC, for Col Stuart, Plans Sec, 3 Feb 43, sub: Supplies for 
Advanced Air Depots. (2) Ltr, Chief Admin IX AFSC to CG ASC USSTAF, 17 Mar 44, sub: Use of 
Savernake Forest as an Advanced Cml Warfare Class V Depot for Ninth AF Stations. (3) IOM, Col 
Baum, CmlO USSTAF, for Dir of Pers, Dir of Sups, Dir of Admin Serv USSTAF, 21 Aug 44, sub: 
Transfer of Cml Depot Cos (Colored). All in Eighth AF 519.223-4 Jul 42-May 43. 
45 History of CWS Storage Depot C-900 at Loton Deer Park, Alderbury, Shropshire. ETO Admin 
545 A. THEATER SUPPLY: EUROPE 
155 
when the number of rounds stored nearly doubled. The February 1945 
stockage of 308,352 rounds contained approximately 895.45 long tons 
of toxic filling while the March stockage of 568,225 rounds contained 
about 1,500 long tons. Nearly a million rounds in storage at the end 
of the war in Europe contained only about 650 long tons more filling 
than the March stockage because the type of shell acquired after 
March included a small payload. The stock of 4.2-inch chemical 
mortar toxic shell, also stored by Ordnance but of more direct concern 
to the CWS, was built up from approximately 26,000 rounds in 
December 1943 to more than 60,000 rounds in March 1944 and then, 
suddenly, to 137,732 rounds in February 1945. This peak stock, less 
than half of the 345,000-round peak authorization level, contained 
approximately 375 tons of toxics. Bulk persistent toxics which, except 
for the amount stored in the air chemical park tanks, were stored in 
ton containers and 55-gallon drums, rose from about 6,600 to 8,200 
long tons from December 1943 to April 1945. In April 1945 aerial 
munitions stocks amounted to 306,963 100-pound bombs, 13,081 500- 
pound bombs, and 35,898 1,000-pound bombs with a total of approxi- 
mately 16,785 long tons of toxic filling.46 
The problem of toxic storage in England was finding, improving, 
and managing storage space. The difficulties encountered in other 
theaters, such as corroding and leaking munitions, were not experienced 
to any significant extent. General Waitt and chemical officers in the 
theater examined toxic munitions stocks in the theater at the end of 
the war in Europe. They found a small number of M47 bombs, about 
one percent, that were leaking persistent gas. A small percentage of 
the remainder were seriously corroded, and a large percentage slightly 
corroded. The leaking and seriously corroded bombs were destroyed 
while the rest were cleaned and painted and prepared for shipment out 
of the theater. A few of the 5 5-gallon drums were leaking and others 
needed cleaning and painting. The cleaning and painting process had 
been continuous during storage in the theater. No serious defects were 
found in other toxic munitions.47 
Despite the problem of finding space for the storage of aerial toxic 
munitions, the level of supply mentioned above was by no means over- 
49 Baldwin, Bingham, and Pritchard, Readiness for Gas Warfare in Theaters of Opns, app. B. 
47 (i) Ltr, Maj J. T. Herndon, Tech Div CWS ETO to Gen Waitt, 4 Jun 45, sub: Shipment of U.K. 
Base Stored CWS Toxic Munitions to the Pacific Theater. CWS ETO CWOTD 471/8 in CWS 314.7 
Observer Rpts. (2) Chamberlain-Armitage Rpt. 15 6 
THE CHEMICAL WARFARE SERVICE 
generous. Though ground toxic munitions were available, they were 
considered only supplementary to the basic retaliation potential. The 
CWS ETO based its gas warfare retaliatory potential on the bomb 
stockage plus a large portion of the bulk gas intended to fill aerial 
munitions, and chemical planners reckoned this aerial supply as capable 
of supporting only 14 operational days of retaliatory gas warfare.48 
Had the Germans resorted to gas warfare, the possible 2- or even 4- 
week duration of the initial operation would have been a short time in 
which to move additional supplies from the United States. Indeed, in 
May 1944 air planners estimated that 45 days would be required to 
move a stock of the principal toxic weapon, persistent-gas-filled M47 
bombs, into the theater. At that time, less than a month before D-day, 
the theater command considered the threat of German initiation of 
gas warfare serious enough to order combat-ready toxic bomb loadings 
sent to operating air stations so that a retaliatory strike could be 
launched in a maximum of 24 hours.49 When the continental invasion 
produced no indications of the initiation of gas warfare, no new prep- 
arations for retaliation were made in the fall of 1944. On two subse- 
quent occasions, in December 1944 and near the end of the war, 
theater planners feared that Germany might turn to gas warfare as a 
last-ditch defense of the homeland although Rowan believed there 
was little danger. Aside from the increase in toxic munitions stocks 
in the early months of 1945, no further aerial bombardment retaliatory 
preparations were made in response to the last-ditch threat.50 
Incendiary Bombs 
The CWS ETO was unable for most of 1942 to supply incendiary 
bombs.51 The British 30- and 250-pound incendiaries were therefore 
48 (1) Interv, Hist Off with Col Baum, formerly CmlO USSTAF, 5 Dec 45. (2) Estimates of aerial 
gas warfare capabilities varied. Chemical Section, 12th Army Group, believed the theater air forces 
capable of supporting 21 operational days. Leggin Interv, 22 Nov 45. 
49 (1) Memo for Red, Baum, 18 May 44, sub: Notes on the State of Preparedness of USAAF in the 
U.K. for Retaliatory and Sustained Effort in the Event Gas Warfare Is Initiated by the Enemy. Eighth 
AF 519.253, 1944. (2) Baum Interv, 5 Dec 45. (3) Miller Interv, 2 Feb 60. Air Chief Marshal Sir 
Trafford Leigh-Mallory, AEAF commander, was designated Air Commander-in-Chief for the initial 
phase of the continental operation. Wesley Frank Craven and James Lea Cate, eds., "The Army Air 
Forces in World War II,” vol. Ill, Europe: ARGUMENT to V-E Day (Chicago: University of Chicago 
Press, 1951), pp. 80-82. 
50 Notes by Col M. T. Hankins on Conf of CmlO’s at Dillingen, Germany, 29 Apr 45. CWS 314.7 
Observer Rpts. 
51 For a discussion of European theater development and employment of incendiary bombs see below. 
Chapter XVII. THEATER SUPPLY: EUROPE 
157 
adopted for American use, but the British were little more prepared 
than the Americans to provide supply in the quantities soon demanded. 
Kellogg obtained 10,000 American thin cased, 100-pound (M47) 
bomb bodies late in 1942 and had them filled with an incendiary mix- 
ture by air chemical service units in England. Just about the time this 
field improvisation was completed, a substantial supply of American 
100-pound clusters of 4-pound magnesium bombs began to arrive. 
Just as the incendiary supply situation was beginning to look good, 
air chemical officers discovered that the 100-pound clusters were 
defective. They were forced to withdraw the clusters from issue.52 
Beginning with successful incendiary raids on German industrial 
targets in occupied France during the summer of 1943, incendiary 
bomb expenditures, especially of the M47 bomb, then available from 
the United States, reached large proportions in the fall of 1943 and 
by December accounted for 40 percent of the total American bomb 
load.93 The Chemical Section, VIII AFSC, took extraordinary meas- 
ures to meet operational demands. They routed incendiary shipments 
from the United States directly from the port of debarkation to the 
operational air stations. Short supply Mi26 fuzes for the M47 were 
airlifted from the United States. Still there were shortages and some 
of the tonnage expended included the alternative British oil-perspex- 
filled 250-pound bomb. At the end of December 1943, M47 stocks 
were double the tonnage expended in that month, and 1,424 tons of the 
new 500-pound aimable cluster, Mi7, had been received. Nearly 
16,000 of the ioo-pound clusters of 4-pound bombs, now capable of 
modification by a special fuze to permit cluster opening at an altitude 
safe to carrying aircraft, were on hand. Seven other clusters of small 
bombs and the British 250-pound bomb were also stocked in small 
quantities, in one case as low as six tons. By January 1944 the Mi7 
cluster, which contained no 4-pound magnesium bombs, had reached 
VIII Bomber Command stations, and within a week, on 11 January 
1944, three groups of the 1st Bombardment Division dropped Miy’s 
on Wilhelmshaven. Although bombardiers had to learn its aiming 
53 (1) History, Cml Sec Eighth AF. (2) History, Cml Warfare Sec 1st Bombardment Div. (j) 
Interv, Hist Off with Lt Col John A. Martin, formerly OpnsO Cml Sec Eighth AF, 28 Aug ji. 
63 Statistical Summary of Eighth AF Opns, European Theater. 158 
THE CHEMICAL WARFARE SERVICE 
characteristics, the new cluster proved to be an accurate weapon of 
KA 
great power. 
The long awaited M76 5co-pound bomb filled with incendiary gel 
arrived in the theater early in 1944, but operational results of this 
weapon, dubbed the Block Burner, were disappointing. While the 
My6 was used with moderate success against Berlin on 6 March 1944, 
subsequent operations proved that target opportunities for so large a 
bomb, which contained a low percentage of incendiary fuel with 
respect to total weight, were few in number. By September the Eighth 
Air Force had no plans for use of this munition, and a large portion of 
the stock was turned over to the Ninth Air Force whose tactical targets 
were more suitable.55 
The 1944 and 1945 expenditures of incendiary bombs were spotty— 
the highest month of Eighth Air Force expenditure was October 1944 
at 11,337.1 tons while the next month was the lowest at 566.4 tons. 
The monthly average expenditure for 1944 was nearly 5,200 tons and 
for 1945 nearly 6,400 tons, approximately one-seventh the monthly 
average of all Eighth Air Force bombs on target. The Mi7 cluster 
comprised about 70 percent of the expenditure, and most of the re- 
mainder was the M47. Although on one occasion air chemical officers 
had to request that Mi7 shipments be rushed, supply was normally 
excellent. The curtailed usage of M76 and M47 bombs resulted in 
stockages beyond the authorized theater 7 5-day level, and supply 
officers recommended, in the fall of 1944, that further shipments from 
the United States be halted. They did not propose that the theater 
overage be returned since variation in operations or types of targets 
available might again have meant a large demand.06 
S4 (1) History, Cml Sec Eighth AF. (2) Cml Sec VIII AFSC, Rpt, Incendiaries, Eighth AF, 194}, 
Jun-Dec, prepared by Statistical Conti Eighth AF, 7 Jan 44. Eighth AF 519.225-1. (3) Hist, Cml 
Warfare Sec 1st Bombardment Div. 
65 (1) History, Cml Sec Eighth AF. (2) CG USSTAF to CG AAF, Rpt, Monthly Ammunition 
Rpt, 6 Oct 44. Eighth AF 519.225-1. (3) Ltr, CG USSTAF to CG AAF [5 Aug 44], sub: Level of 
Sup of Incendiary Bombs. Eighth AF 5 19.225-1. 
66 (1) Ltr, CG Base Air Depot Area ASC USSTAF to CG ASC USSTAF, 16 Sep 44, sub: Level of 
Sup of Incendiary Bombs. (2) IOM, Baum, CmlO USSTAF, for Dir of Sup, Dir of Opns, OrdO, 
and AG USSTAF, 4 Sep 44, sub: Rqmts for M76 500-lb. Incendiary Bombs. (3) Msg, Doolittle 
[CG Eighth AF] to AWW, 3 Sep 44. (4) IOM, Baum for Dir of Sup USSTAF, 3 Oct 44. (5) Ltr, 
CmlO USSTAF to Chief, Sup Div CWS COMZ ETO, 14 Oct 44, sub: USSTAF Incendiary Bomb 
Rqmts. (6) Msg, CG USSTAF to CG Eighth AF [20 Jun 44]. (7) IOM, Baum for Dir of Sup 
and AG USSTAF, 1 Nov 44, sub: Shipments of M17 Incendiary Bomb Clusters. (8) Msg, MF-03482, 
CG USSTAF to CG Eighth AF [30 Dec 44]. (9) IOM, Lt Col Clarance H. Breedlove, Asst OrdO 
and CmlO, Eighth AF for Opn/Research Sec, 5 Jan 45, sub: MF-03482. Eighth AF 471.18. (10) 
Msg, D-65036, CG Eighth AF to CG USSTAF, 8 Jan 45. All in Eighth AF 519.225-1. (11) Sta- 
tistical Summary of Eighth AF Opns European Theater. THEATER SUPPLY: EUROPE 
159 
Fire Bombs 
During the second half of 1944 the most pressing air chemical supply 
problem concerned the provision of another field expedient, the fire 
bomb. This bomb was a field improvised incendiary bomb fabricated 
from expendable, auxiliary, aircraft gasoline tanks. Air service units 
filled the tank with a mixture of gasoline and a thickener (usually 
napalm) and wired on an incendiary grenade or part of a magnesium 
bomb as an igniter. The fire bomb was an excellent tactical weapon 
to use against supply dumps, troop concentrations, convoys, and 
vehicles. Air chemical officers in the United Kingdom anticipated 
post-D-day use of fire bombs by the VIII and IX Fighter Commands. 
The Air Service Command, USSTAF, accordingly increased amounts 
and priorities on their orders for thickeners and other fire bomb com- 
ponents from the United States. By June of 1944 it was apparent that 
shipments would not be received in time to meet the demand, and air 
chemical officers conducted a theaterwide survey of thickener supply. 
They concluded that interim needs could be met, but with difficulty.57 
Intensive fire bomb missions were inaugurated in July, and supplies 
proved adequate, particularly since the Ninth Air Force was using 
the M76 500-pound bomb on the same kind of mission.58 At the same 
time, USSTAF requested that SOS transfer 50,000 gallons of the 
ground forces flame thrower fuel, which was not being used in antici- 
pated quantities, to the air forces. 
By the first week in August, SOS had delivered 20,000 gallons of 
fuel to the air forces and had agreed to lend enough packaged dry 
napalm from SOS depots for mixing the remaining 30,000 gallons. 
Air Service Command delivered the entire loan of napalm to the 
Ninth Air Force and directed the Commanding General, Base Air 
Depot Area, to complete arrangements, already informally approved, 
to have the British mix some or most of this fuel. The IX Air Force 
57 (1) IOM, Baum for Dir of Sup, Dir of Opns, and AG USSTAF, 17 Jun 44, sub: Thickened Fuel 
for Use in Jcttisonablc Gasoline Tanks. (2) Ltr, CG USSTAF to CG’s Eighth and Ninth AF’s and 
ASC, n.d., sub; Nomenclature and Reds for the Blaze Bomb. Both in Eighth AF 5 19.225-1. 
r,s Ltr, CmlO USSTAF to Air CmlO AAF WD, 5 Aug 44, sub: Eighth and Ninth AF’s Expenditure 
of Incendiaries, Jul 44. Eighth AF 5 19.225-1. 
289-149 0-68—12 160 
THE CHEMICAL WARFARE SERVICE 
Service Command was to mix, using a borrowed Canadian mixing 
apparatus, any fuel that the British could not handle.59 
Despite the SOS loan and the successful completion of arrangements 
for British mixing, the anticipated shortage became critical. USSTAF, 
during August 1944, reminded SOS that the 59 tons of napalm sched- 
uled to arrive from the United States must be available by 25 August 
and that 64 additional tons already on order must be received by 16 
September. Two more pleas for expedited delivery were sent before 
the first shipment arrived in two parts late in August and about the 
middle of September.60 
About 70 percent of the first two shipments—the second had arrived 
early in October—was dispatched directly to a plant of the National 
Oil Refining Company, subsidiary of the Anglo-Iranian Oil Company, 
in Swansea, Wales, which had been ready for processing since 21 
August. The rest of those shipments were sent for field mixing by 
the air force service commands. The British plant mixed more than 
375,000 gallons of fuel before the end of October and contracted to 
continue this job. In addition, a factory in the north of England con- 
tracted to supplement the American supply by providing 185,500 
gallons of perspex mix fuel from September through November.61 The 
fuel supply in the mixing process plus the assured prospect of continu- 
ing deliveries from the United States should have removed the fire 
bomb supply problem from the critical list by the end of September, 
but plans were knocked awry during the month by startling statements 
of new requirements and by a distribution problem. 
Eighth Air Force in September 1944 decided to drop fire bombs from 
heavy bombers on targets so well fortified as to have withstood high 
explosive bombardment. The air force initially requested 600,000 
gallons of mixed fuel and in November increased that request to 
1,000,000 gallons to be expended at the rate of 130,000 gallons per 
month. As an alternative to the availability of mixed fuel, the air force 
60 (1) Ltr, CG USSTAF to CG FTOUSA (Attn: CCWO), 21 Jul 44, sub: Flame Thrower Thick- 
ened Fuel, with 1st Ind, CG ETOUSA to CG USSTAF, 3 Aug 44, and 2d Ind, CG USSTAF to CG 
BADA ASC, n.d. (2) Msg, Brig Gen Hugh J. Knerr [CG ASC] to CG BADA ASC, 7 Aug 44, no 
sub. Both in Eighth AF 5 19.225-1. 
“(1) IOM, Baum for AG USSTAF, 16 Aug 44, no sub. (2) Msg, CG ASC USSTAF to CG 
ETOUSA, 26 Aug 44, no sub. (j) Ltr, CG ASC USSTAF to CG ETOUSA, 28 Aug 44, sub: Rqmts 
of Napalm and Mr 5 Grenades for Blaze Bomb Fuel. All in Eighth AF 5 19.225-1. 
81 (1) Ltr, CG BADA ASC to CG ASC USSTAF, 19 Aug 44, sub: Thickened Incendiary Fuel. 
(2) Personal Ltr, Baum to Brig Gen Edward Montgomery, Air CmlO AAF ¥D, 16 Oct 44. Both in 
Eighth AF 5 19.225. THEATER SUPPLY: EUROPE 
161 
requested 7 5 tons of dry napalm and a sufficient number of mixing units 
to handle it. USSTAF chemical officers reshuffled their planned distri- 
bution schedule and notified Eighth Air Force in tones of justifiable 
pique that, while its original request was out of the question, 60,000 
gallons could be furnished at the end of September, an additional 30,000 
gallons during October, and that attempts would be made to meet 
the 130,000-gallon requirement in November and December. At this 
point the air chemical officer in War Department Headquarters, Army 
Air Forces, cabled to ask if his headquarters could be of assistance in 
improving the fire bomb supply situation. USSTAF answered that 
the greatest possible assistance would be in insuring the delivery of 
100 tons of dry napalm per month by setting up fast ship and air 
transportation in addition to that already allotted to USSTAF. This 
plea was renewed after Eighth Air Force increased its requests. 
Meanwhile, air chemical officers even canvassed the Twelfth Air Force 
in the Mediterranean area in the hope of securing thickener, but the 
Twelfth Air Force was itself then attempting to borrow thickened 
fuels from the Ninth. In December 1944 and in 1945 the problem 
was solved by the arrival of a sufficient supply of thickeners from the 
United States. About the same time, American mixing and transfer 
kits became available in quantity. AAF enlarged the table of equip- 
ment for chemical air operations companies to provide eight of these 
mixing and transfer kits for each unit, and USSTAF secured special 
kit allowances for the Eighth Air Force. Thus, field units could mix 
enough fuel to greatly augment the British capacity.62 
The use of mixing and transfer units also helped to solve the dis- 
tribution problem arising from the supply of fire bomb fuel. The 
nature of this problem was that the Ninth Air Force was already 
operating from the Continent by the time mixed fuels began to come 
off the processing lines in the United Kingdom, sometime in September. 
** (1) Msg MF-00742, Lt Gen Carl Spaatz to CG Eighth AF, 21 Sep 44, no sub. (2) IOM, Baum 
for Dir of Opns USSTAF, 30 Sep 44, Sup of Thickened Fuel for Eighth Air Force. (3) IOM, Baum 
for Dir of Sup and Dir of Opns USSTAF, 2 Oct 44, sub: Cable From Gen Henry H. Arnold re Fire 
Bombs. (4) IOM, Baum for Dir of Sup and AG ASC USSTAF, 4 Oct 44, no sub. (5) Msg MF- 
01268, Spaatz for CG Eighth AF, 11 Oct 44, no sub, with 1st Ind, CG Eighth AF to CG USSTAF, 
n.d., and 2d Ind, CG USSTAF to CG Eighth AF, n.d. (6) IOM, Baum for Dir of Sup, Dir of Opns, 
and AG USSTAF, 13 Oct 44, no sub. (7) Baum to Montgomery, 16 Oct 44. (8) IOM, Baum for 
Dir of Opns, Dir of Sup, and AG USSTAF, 1 Nov 44, sub; Supply of Napalm for Fire Bomb Fuel. 
(9) IOM, Baum for Dir of Sup and AG ASC USSTAF, 4 Nov 44, sub: Eighth Air Force Fire Bomb 
Fuel Rqmts. (10) IOM, Baum for AG USSTAF, 10 Nov 44, sub; Mixing and Transfer Units. 
(11) Msg, Spaatz to CG Ninth AF, 19 Nov 44, no sub. All in Eighth AF 519.225. 162 
THE CHEMICAL WARFARE SERVICE 
Routing these fuels, packed for the most part in still scarce 5 5-gallon 
drums, through normal supply channels resulted in insupportable 
delays. The USSTAF Chemical Section accordingly arranged with 
COMZ ETO to transfer fuel distribution from the normal channels 
to Army Air Forces priority supply channels from the beachheads and 
ports forward. The change in channels resulted in special and rapid 
handling of fuel. Colonel Baum stationed "expediters,” chemical offi- 
cers or air chemical units, at crucial points along the supply line to 
see that the fuel kept moving. The mixing and transfer kits also per- 
mitted the air chemical units attached directly to the operation groups 
to fill fire bombs on the spot, thus eliminating drum shortage complaints 
and relieving the overtaxed distribution system.63 
By the beginning of 1945 air chemical supply was proceeding 
smoothly, and more than a month before the end of the war in Europe 
air chemical officers turned their attention to the disposition of sup- 
plies on hand. For the air forces as for all forces in the theater, D-day 
had been a momentous event, and the character of air forces operations 
had changed substantially because of the nature of D-day preparations 
and post-D-day requirements, but D-day was not a turning point in 
air chemical supply as it was in ground chemical supply. The turning 
points in air chemical supply were two: the first at the beginning of 
1944 when the minimum required supply for toxic retaliation was at 
last reached and when incendiary supply was at last equal to operational 
demands, and the second at the beginning of 1945 when the avail- 
ability of fire bomb material could be counted on to meet operational 
demands. Despite this difference in culmination of air and ground 
efforts, the problems of air and ground chemical supply were essentially 
alike. The foremost question was always how to compute requirements 
for toxics, a weapon which might not be used, or for incendiaries and 
fire bombs, weapons which had not previously been used. But the 
question which required greater expenditure of energy and ingenuity 
was how to meet the requirements once computed or presented by 
operational usage. The air chemical supply system answered both of 
these questions but neither answer was quick and easy. To consider 
ground chemical supply it is therefore necessary to return to the end 
(i) Baum to Montgomery, 16 Oct 44. (2) Mgs, Gen Spaatz to Maj Gen Hoyt S. Vandenberg 
[CG Ninth AF], cited in TOM, Baum for Dir of Sup, Dir of Opns, and AG USSTAF, 5 Oct 44, no 
su b. Both in Eighth AF 519.225. THEATER SUPPLY: EUROPE 
163 
of 1943 when ground preparations for the scheduled spring continental 
operation became the dominating theater activity. 
Ground Chemical Supply 
The CWS ETO and all its sister services in the theater had been 
involved in preparations for D-day ever since the establishment of the 
theater headquarters in June 1942, for a build-up supporting the 
cross-Channel operation was the aim of the Bolero plan under which 
they functioned. But, until the end of 1943, the problems of the 
build-up and of supply shortages were so grave as to obscure the main 
objective. In the fall of 1943 chemical supply was arriving in a suffi- 
cient quantity, as noted above, to make the assault on the Continent 
seem more feasible. Furthermore, in November and December 1943 
the Allied Staffs were beginning to consider the precise nature and 
scope of Overlord, the forthcoming operation.64 The basic ques- 
tion facing the ground planners was tactical: how can a Normandy 
beachhead large enough to serve as a point of departure for continental 
operations be secured? This basic question quickly resolved itself into 
two logistical questions: (1) how many men could the Allied forces 
get across the Channel and on the beachhead; (2) how much build-up 
of materiel would be required to support them? 
Plans and Planning Agencies 
The answer to the basic tactical question from the American point 
of view was to mount an overwhelmingly superior force, which would 
mean using all the men in every combat-ready unit which could be 
assembled in the United Kingdom and which could be provided with 
transport to the Continent. The technical services in turn would have 
to accumulate sufficient materiel to support such a force. The CWS 
ETO portion of the materiel project involved three basic categories 
of supply: (1) individual and collective gas warfare protective and 
decontaminating items for the entire force; (2) weapons and ammu- 
nition for chemical mortar units plus flame and smoke weapons and 
equipment for all combat forces; (3) and special operational require- 
ments such as smoke protection for the beachhead. The first job was 
64 Ruppenthal, Logistical Support, I, 175-89. 164 
THE CHEMICAL WARFARE SERVICE 
to secure statements of chemical requirements in each category from 
each of the responsible planning headquarters. 
Activation of the planning headquarters had begun late in 1943. 
First United States Army was to be responsible for all supply opera- 
tions until two weeks after D-day. Advance Section, Communications 
Zone, a mobile base section headquarters, was to take over for the 
next twenty-seven days. Forward Echelon, Communications Zone, 
was to assume control of supply operations in the remaining forty-nine 
days of the first three months on the far shore. It was assumed that 
Communications Zone, the redesignated SOS ETO, would be in oper- 
ation on the Continent at the end of the third month. Major Hingle 
moved over from Supply Division, CWS ETO, in January to establish 
a supply division in the FECOMZ Chemical Section. Chemical sections 
of all these closely co-ordinated agencies immediately set to work on 
their requirements planning. Since initial issue of all regular supplies 
had already been made or materials credited to all units and organiza- 
tions in or arriving in the United Kingdom, the requirements plans 
were for cross-Channel resupply.65 
On 15 April FUSA began submitting requisitions for the materials 
in its chemical supply plan which had been the last of the major plans 
to be formulated.66 CWS Supply Division issued 375 shipping orders 
releasing 8,364 ship tons of Classes II and IV supplies and 12,072 ship 
tons of Class V supplies for movement over the beaches in the first 2- 
week phase. Three weeks later Third United States Army, the organi- 
zation to which ADSEC was scheduled to render most of its support, 
submitted requisitions for chemical resupply in the ADSEC control 
phase. Materials requisitioned totaled 4,026 ship tons of Classes II 
and IV and 7,815 tons of ammunition. The CWS ETO discovered some 
shortages in filling these requisitions, but none were serious, and 
acceptable substitute items were available. FECOMZ phase requisitions 
required 400 shipping orders for 9,053 ship tons of protective items, 
weapons, and equipment, and 9,084 ship tons of ammunition. Again, 
some substitutions which FECOMZ considered satisfactory were 
made.67 
65 (i) History, Sup Div, II. (2) Hq 12th Army Group Final AAR, 31 Jul 45. (}) History, 
ADSEC. (4) History, FECOMZ. (5) Ruppenthal, Logistical Support, I, 219-26. 
66 Personal Ltr, Prentiss to Porter, CCWS, 12 Apr 44. CWS 314.7 Pers Files, ETO. 
07 History, Sup Div, II. THEATER SUPPLY: EUROPE 
165 
While normal resupply was being set up, theater headquarters, an- 
ticipating unpredictable and unusual demands once the operation 
started, set up two procedures for rapid filling of spot needs. The 
"Red Ball Express” 6S provided for a daily coaster service shipment 
of too long tons of urgently needed general cargo unobtainable from 
normal resupply. "Red Ball Express” shipments were to be called 
for and allocated by the senior commander ashore. The CWS ETO 
was called upon to provide a total of 90 ship tons during the 3-month 
operation of this measure. The "Green Light Supply” plan was 
evolved just a few days before D-day to meet extraordinary ammuni- 
tion requirements, unavailable from normal resupply, at an estimated 
rate of 600 long tons per day in the critical period from D plus 14 to 
D plus 41. CWS shipped 400 ship tons of ammunition through "Green 
Light.” 69 Chemical resupply was thus expeditiously handled with 
minimum difficulty from the wholesale issue point of view, but the 
acquisition of some of the items and of services which went into the 
CWS resupply effort and the initial issue effort had not been easy. 
Protective and Decontaminating Equipment 
Since the service gas mask had been proved too bulky and too heavy 
during the North African campaigns, chemical officers in the ETO 
hoped that the CWS in the United States would be able to provide a 
promised lighter weight mask before their own campaigns began. 
Late in 1943 the new lightweight mask began to arrive and the CWS 
ETO embarked on the not inconsiderable task of exchanging the old 
masks in the hands of each individual in the theater for the new. Unit 
and organization and depot mask reserves were also exchanged. 
Chemical officers and gas officers at all echelons then examined the fit 
and adjustment of every mask in the possession of every individual 
and conducted gas chamber and wearing exercises and tests, even in 
the Supreme Headquarters. The tests and exercises sometimes turned 
up masks that did not fit and could not be adjusted to fit. Fortunately, 
the number of nonadjustable masks, a defect which OCCWS blamed 
on the molds used by one manufacturer in early production, was not 
great. These masks were called in and facepieces from the old masks 
were assembled to render them serviceable. Issue of the new masks 
'“'Not to be confused with the later and better-known motor transport operation of the same name. 
69 History, Sup Div, II. 166 
THE CHEMICAL WARFARE SERVICE 
was completed in March 1944, and chemical maintenance companies 
examined, cleaned, and repaired salvageable old masks turned in to 
provide a secondary reserve and to build up an inventory of repair 
parts. Not long after the invasion, Colonel St. John, chemical adviser 
to G—3, SHAEF, wrote, "There are sufficient gas masks in the UK to 
cover the faces of all Europe and Asia.” l0 
The gas mask was the most important of the protective items, but, 
since chemical officers assumed that vesicant gases would be employed 
in far greater quantities than nonpersistent gases, protective clothing 
was also very important. Storage and issue of protective clothing was 
a responsibility of the Quartermaster Corps, but the CWS was charged 
with impregnating permeable clothing with gas-resistant chemicals. 
The CWS provided chemical processing companies to perform this 
service in the theaters. As noted above, the 51st Chemical Processing 
Company was one of the first two chemical service units in the 
European theater. Late in 1942 this company began to set up a large 
capacity impregnating facility, in fact a modified commercial dry- 
cleaning plant, in the factory of the Blythe Colour Works at Cresswell, 
Staffordshire. This "zone of the interior impregnating plant,” which 
crated weighed nearly 215 long tons and occupied more than 43,000 
cubic feet, was intended to be the first of nearly a dozen such plants 
to be erected in the United Kingdom; but, when it was discovered 
that sites were unavailable and that requirements for water, waste 
disposal facilities, and power were more than the overburdened British 
economy could bear, the CWS ETO requested that the schedule be 
changed to provide the smaller "theater of operations” plant.71 
By the end of 1943, ten more chemical processing companies had 
arrived in the United Kingdom, had been equipped with two theater 
of operations impregnating plants each, and had been installed, usually 
within or adjacent to quartermaster clothing depots. A number of 
70 (i) Ibid. (2) Ltr, TAG to CG’s AGF, AAF, ASF, POE’s et al, 28 Oct 43, sub: Instr on 
Issuing New Type Gas Masks. AG 470.72 (26 Oct 43) OB-S-E-SPMOT-M, in Rqmts and Stock 
Conti Div, ASF 470.72 Gas Masks, (j) Ltr, CCWO ETO to CmlO USSTAF, 22 Aug, sub: Special 
Fitting of Gas Masks. CWO 470.72/499 in Eighth AF 225.5 Protective Equip. (4) 8th Ind (Basic 
Ltr not available), CmlO USSTAF to Air CmlO AAF WD, 1 Sep 44, no sub. AAF 470.72 (25 Apr 
44) in Eighth AF 225.5 Protective Equip. (5) Personal Ltr, Porter to Prentiss, 22 Mar 44. CWS 
314.7 Pers Files, ETO. (6) Rpt for CCWS, St. John, 28 Jun 1944. CWS 314.7 Pers Files, ETO. 
(7) Personal Ltr, Porter to St. John, 2 Aug 44. CWS 314.7 Pers Files, ETO. (General Porter 
pointed out that ETO mask stockage was 2,246,000, with 213,000 in the hands of troops. This quan- 
tity, even considering the 719,000 old-style masks still in reserve, was not a significant overage.) 
71 History, Impregnation in ETO, 1 Jul 42-1 Jan 44, CWS ETO. ETO Admin 545A. THEATER SUPPLY: EUROPE 
167 
the plants utilized the new water emulsion impregnating process. The 
Quartermaster Corps had been able to obtain impregnated clothing 
from the United States to satisfy most of the theater’s planned needs, 
so that there was little initial impregnating work to do. By agreement 
between the theater quartermaster and the CWS, all but one of the 
processing companies were given laundry work. Most of the companies 
"kept a hand in” by doing reimpregnation on clothing which had 
been turned in and by doing initial impregnation of Navy uniforms. 
In January 1944 the theater commander assigned to the CWS ETO 
the responsibility of inspecting clothing in storage to determine how 
impregnation was holding up. Rowan delegated the inspection func- 
tion to teams picked from the processing companies. The inspection 
operation further improved the technical proficiency of the companies 
and also served to identify lots of clothing needing reimpregnation.72 
The theater quartermaster called in and reissued protective clothing 
for every individual in the theater at the same time that the distribution 
of the lightweight mask was in progress. The European theater was 
authorized an initial issue of double layer protection, that is, antigas 
impregnated underwear and socks, hood, combat uniform, gloves, and 
leggings, for every individual. In April 1944 the War Department 
authorized in addition to this initial issue a theater reserve (in the 
absence of gas warfare) of double layer protection for 35 percent of 
the theater force and one and one half layer, that is, antigas socks, 
drawers, and outer uniform plus hood, gloves, and leggings, for the 
remainder of the theater force.'2 Thus, every soldier in the theater 
had available two complete sets of protective clothing except that 65 
percent of the force would lack a second protective undershirt. The 
invasion plan called for every soldier to wear protective outer garments 
for the landing, to carry the gas mask, and to carry two cellophane 
protective covers, four eyeshields, one tube of eye ointment, one can 
of shoe impregnite, and one package of protective ointment. Most 
soldiers were also equipped with sleeve detectors (a brassard of gas 
detector paper) which the CWS had procured from the British.74 
While most items of chemical protective, gas warning, and decon- 
taminating equipment existed in ample supply by January 1944, 
72 History, Sup Div, II. 
73 Ltr, TAG to CinC SWPA et al., 24 Apr 44, sub: Cml Warfare Protective Clothing Accessories and 
Equip. AG 420 23 May 42(2) sec. 2. 
74 History, Sup Div, II. 168 
THE CHEMICAL WARFARE SERVICE 
there were several shortages. One acute shortage was for gas alarms, 
and the CWS ETO through reverse lend-lease procured the British 
trench rattle as a substitute. Another more acute shortage was for the 
power-driven decontaminating apparatus. As in North Africa and 
Italy, the decontaminating apparatus was cherished by the Army Air 
Forces in the United Kingdom for its secondary uses, such as giving 
showers, hauling water, serving as fire-fighting equipment, and washing 
aircraft. The Army Air Forces found the skid-mounted Mq power- 
driven apparatus completely unsatisfactory for their needs, and the 
ground and service forces took an equally dim view of this immobile 
equipment. Consequently, the CWS ETO set its maintenance com- 
panies to work truck-mounting the Mq apparatus. The job was com- 
pleted in the spring of 1944, and, while the Mq apparatus failed to 
meet Air Forces requirements even when mounted, the ground forces 
and service forces were willing to accept it. As of June 1944 the au- 
thorized theater level for the M3 and Mq apparatus was 1,336 while 
the supply was 1,298. In the absence of gas warfare, this shortage 
was not a serious matter, but it did present chemical officers with the 
problem of giving air forces and ground forces elements reasons for 
not supplying them with all the apparatus they wanted for secondary 
uses.70 
Weapons, Ammunition, and Smoke Equipment 
The availability of and requirement for chemical mortar battalions 
remained in doubt during the entire preparation period, and conse- 
quently no firm basis existed on which to compute weapons and am- 
munition requirements. Weapons supply and ammunition supply, 
in Colonel St. John’s opinion, were adequate, and he believed that the 
only serious preinvasion chemical shortage was in repair parts for the 
mortar. ETO chemical officers, aware of the spare parts problems in 
the Mediterranean area, attempted to improve their own situation by 
requesting supply from the United States. The CWS at home had 
not yet remedied the repair parts situation. The task was doubly 
difficult because ASF was attempting to standardize all repair parts 
requirements computations, and, owing to the uncertain weapons 
75 (i) Ibid. (2) History, Cml Sec Eighth AF. (3) Msg D-1441, Maj Gen Ira C. Faker [CG 
Eighth AF] to Arnold [CG AAF], jo Jun 43. Eighth AF 519.233 1944. (4) Baldwin, Bingham, 
and Pritchard, Readiness for Gas Warfare in Theaters of Opns, app. B. THEATER SUPPLY: EUROPE 
169 
requirement situation and the lack of expenditure experience in the 
ETO, CWS could furnish ASF with recommendations based only on 
roughly estimated data. But even had requirements recommendations 
been firm, it is doubtful that the supply system could have operated 
rapidly enough to furnish the ETO with stocks in the few months 
before the cross-Channel attack. Experience was to prove the limited 
supply of repair parts grossly inadequate.76 
Other weapons and ammunition furnished by the CWS ETO to the 
combat forces included the flame thrower, smoke pots, and smoke 
grenades. The CWS ETO had acquired a sufficient supply of the 
portable flame throwers, and chemical units had mixed a substantial 
quantity of thickened fuel. No American tank-mounted flame thrower 
was available, but fuel had been mixed for use in British models on 
loan in limited numbers to the United States forces. Soon after the 
invasion, St. John reported critical shortages of both portable and 
mechanized flame throwers and of fuels as well as of mortars and 
mortar parts, but subsequent experience did not warrant the critical 
designation since flame throwers were not popular in Europe.77 
Not enough smoke pots or grenades were available to meet antici- 
pated requirements. British No. 24 smoke generators, similar to the 
American smoke pots, were procured as substitutes, and the British 
No. 79 grenade was procured as a substitute for the American M8 
smoke grenade. The American mechanical smoke generator should 
also be included in this category although it was not technically classed 
as a weapon. The bulky semimobile Mi generator was available in 
sufficient quantity, but a supply of the newly produced, highly mobile 
M2 was considered essential for combat operations. The CWS in the 
United States sent new generators, some by airlift, just in time to be 
used in the invasion. Generator fuel was provided by the British.78 
Special Requirements 
ETO chemical officers, anticipating the need for concealing mount- 
ing areas in England and assault beaches in France, had long expected 
that the need for smoke materials would far exceed the normal demands 
76 (i) History, Sup Div, II. (2) Personal Ltr, St. John to Waitt, 17 May 44. CWS 314.7 Pers 
Files, ETO. (3) Rowan Interv, 26 Sep 58. 
7,(i) For additional information on flame thrower experience in Europe, see below, Chapter XVI. 
(2) History, Sup Div, II. (3) St. John to Porter, 28 Jun 44. 
7R History, Sup Div, II. 170 
THE CHEMICAL WARFARE SERVICE 
Conferring Somewhere in England Just Before D-Day. (Left to right) 
Colonel Cunin, General Porter, Lf. Col. Thomas H. James, and Colonel St. John. 
of combat operations. They also anticipated a number of special de- 
mands for other CWS materials for use on the Continent. The fact 
that the Germans were to lose their air superiority by the time of the 
invasion, negating the need for smoke during the mounting and assault 
phases, could not have been counted on or, indeed, foreseen by these 
planners. 
To take care of such special demands, the War Department set up 
a project system known as PROCO (projects for continental opera- 
tion) soon after the 1943 reinstatement of Bolero. PROCO was to 
be set up by the technical services in the theater. Each technical service 
was to state specific requirements for each project together with 
shipping weights and cubages and an extensive justification for the 
use of materials beyond regular authorizations. The justifications were 
to be reviewed by higher authority in the theater and by ASF and OPD 
in the United States. CWS ETO PROCO 1 requested 1,164,508 Mi 
smoke pots and 20,000 M4 smoke pots. The first project was submitted THEATER SUPPLY: EUROPE 
171 
on 20 July 1943, and on that and the following day nine other projects 
for decontaminating, impregnating, and gasproofing materials and 
supply handling and maintenance equipment were dispatched.'9 
The first ten CWS projects initially called for 179,283 long tons, 
or 590,059 ship tons, of materiel, delivery for which was to be phased 
over a period of nearly a year. In view of the fact that this gross ship 
tonnage was more than ten times the CWS cubage eventually shipped 
to the Continent in the first ninety days, it is apparent that PROCO 
was no insignificant matter in the eyes of ETO chemical supply officers; 
indeed, PROCO must have been manna to the CWS officers who 
believed ETO supply inadequate for chemical warfare. PROCO as 
interpreted in the theater presented the first and last opportunity for 
the CWS in any theater of operations to prepare for gas, smoke, and 
flame warfare on a scale considered by many chemical officers as wise. 
CWS ETO in September 1941 accordingly submitted three more 
projects, one for flame thrower accessories and two for smoke materials, 
before any word had been received from the War Department on the 
fate of the first ten. On 22 October 1943 ASF directed shipment of 
those items which CWS ETO had scheduled for early theater delivery 
in projects one through ten, and theater officers assumed that the 
whole schedule would be followed. But, before this first shipment 
could be made theater hopes were shattered. On 3 November 1943 
ASF withdrew all projects for review by the United States Chemical 
Warfare Committee (USCWC).80 
ASF restored CWS PROCO after review by the USCWC and after 
much correspondence with the theater and the intercession of General 
Waitt, Assistant Chief Chemical Officer for Field Operations, but they 
restored only 40 percent of the original quantities. Project 12 for 
79 (1) Ruppenthal, Logistical Support, I, 260-61. (2) Ltrs, CCWO ETO to TAG through CG SOS 
ETO, 20 Jul 43, sub: Proj 1, SOSCW 470.72/134-Ci-Sec (20 Jul 43)SD; 21 Jul 43, sub: CWS Proj 
2, SOSCW 470.72/31 i-Sec (21 Jul 43)SD; 21 Jul 43, sub: CWS Proj 3, same file; 20 Jul 43, sub: 
CWS Proj 4, SOSCW 470.72/309-Sec (20 Jul 43)SD; 20 Jul 43, sub: CWS Proj 5, SOSCW 470.72/ 
310-Sec (20 Jul 43)SD; 20 Jul 43, sub: CWS Proj 6, SOSCW 470.72/134-Ci-Sec (20 Jul 43)SD; 
2i Jul 43, sub: CWS Proj 7, SOSCW 470.72/311 Sec (21 Jul 43)SD; 21 Jul 43, sub: CWS Project 8, 
same file; 20 Jul 43, sub; CWS Proj 9, same file; 20 Jul 43, sub: CWS Proj io, SOSCW 470.72/134- 
Ci-Sec (20 Jul 43)SD. All in Planning Div ASF Proj for Continental Opn PROCO. 
80 (1) Ltrs, CCWO ETO to TAG through CG SOS ETO, 22 Sep 43, sub: CWS Project 11; CWS 
Project 12; CWS Project 13. All SOSCW 381-Pro Sec (22 Sep 43) SD in Planning Div ASF, Proj for 
Continental Opn PROCO. (2) Memo, Col Carter B. Magruder, Chief Planning Div ASF, for Deputy 
Dir for Plans and Opns ASF, 28 Apr 44, sub; History of Opnl Projects for ETO. ASF SPOPP 400 
(ETO) in Off of CG ASF 400. 172 
THE CHEMICAL WARFARE SERVICE 
smoke grenades was disapproved on the theory that increases in normal 
allowances would take care of the requirement. Projects 11 and 13 
were approved after a 60-percent slash. ASF again directed shipment 
of the materials specified in these modified projects and six additional 
projects in February, March, and April of 1944. The CWS ETO had 
submitted Project 14 for smoke (WP) bombs in November 1943, 
and Project 16 for smoke grenades, Project 18 for gas mask parts, and 
Project 19 for flame thrower parts and accessories in February 1944. 
In March it submitted Project 23 for flame throwers and Project 20 
for flame thrower pressure cylinders. ASF disapproved Project 17 for 
grenades and smoke pots to be used by the air forces, indicating that 
regular theater stocks would cover the requirement. It disapproved 
Project 1 5 for equipment to convert decontamination companies to 
smoke generator companies, and Project 22 for a combat reserve of 
smoke generators, on the ground that these materials also could be 
provided from theater stocks. Project 21 seems to have vanished from 
the record.81 The significant feature of the 1944 projects as opposed 
to the 1943 projects was that the 1944 projects were so limited in scope 
as to seem almost niggardly. Gone were the implications of vast and 
all-out preparations for gas, smoke, and flame warfare. 
While the curtailed PROCO shipments did help out in the opera- 
tional period, PROCO did not live up to theater expectations. The 
CWS ETO undoubtedly expected too much, and it is apparent in 
retrospect that theater chemical officers got along despite shortages. 
Materials which CWS ETO requested under the original PROCO 
would certainly have added to the theater gas warfare defensive po- 
tential since they would have provided for more collective protection 
and more decontamination. ETO combat forces would probably not 
have used smoke and flame in any greater quantities had more materials 
been available. That ASF after postwar analysis found it had guessed 
right with respect to requirements does not alter the fact that ASF 
81 (1) Magruder for Dep Dir for Plans and Opns ASF, 28 Apr 44. (2) Ltrs, CCWO ETO to 
TAG through CG SOS ETO, 27 Nov 43, sub: CWS Proj 14, SOSCW 381-Pro Sec (27 Nov 43)SD; 
15 Jan 44, sub; CWS Proj 15, SOSCW 38i-Pro Sec (15 Jan 44)SD; 11 Feb 44, sub: CWS Proj 18, 
SOSCW 381-Pro Sec (11 Feb 44)SD; 12 Feb 44, sub: CWS Proj 19, SOSCW 381-Pro Sec (12 Feb 
44)SD; 3 Apr 44, sub: CWS Proj 20, SOSCW 381-Pro Sec (3 Apr 44)SD; 17 Mar 44, sub: CWS 
Proj 22, SOSCW 381-Pro Sec (17 Mar 44)SD; 31 Mar 44, sub: CWS Project 23, SOSCW 381-Pro Sec 
(31 Mar 44) SD. (3) Msg WL-470, Lee (CG SOS ETO) for War, 21 Jan 44 (Project 16). (4) 
Msg W-11067, Lee for War, 12 Feb 44 (Project 17). THEATER SUPPLY: EUROPE 
173 
handling of PROCO violated the principle of theater requirements 
determination. 
PROCO’s importance from a chemical point of view is that the 
history of the system demonstrated the lack of understanding and lack 
of adequate communication between the theater and War Department 
headquarters, and perhaps even between ASF and its technical services 
at home. Maj. Gen. LeRoy Lutes, Director for Planning and Opera- 
tions, ASF, complained in May 1944 that theater officers had misunder- 
stood and misapplied the concept of PROCO. He charged that the 
theater had failed to plan adequately in advance.82 General Lutes 
undoubtedly had grounds for complaint as far as theater strategic and 
tactical decisions were concerned, but the CWS ETO could hardly 
have begun requirements planning any earlier since CWS officers did 
begin planning in the month of theater activation, and CWS ETO 
could hardly have had less help in such planning from ASF. Specifically 
with respect to PROCO, the War Department allowed the theater to 
labor under a misapprehension of the PROCO concept from June 
until November 1943, and apparently the War Department concept 
was not understood by the CWS ETO until the reinstatement of the 
revised projects in February 1944. Almost a year elapsed between the 
system authorization and General Lutes’ statement of his complaints. 
It is not strange, therefore, that at the time of the Normandy assault 
the CWS ETO was a vigorously individualistic organization many of 
whose officers and enlisted men felt that they must meet their own 
needs without much help from the official logistics organization. The 
experience of these officers and enlisted men on the Continent was to 
confirm this belief. 
On the Continent 
The Landings 
The 1st Platoon, 30th Chemical Decontamination Company, under 
the command of 1st Lt. Bernard Miller, landed on Omaha Beach at 
H plus sixteen minutes. The platoon fought its way ashore with the 
first wave, providing grenade smoke screens to conceal infantry land- 
ings. Lieutenant Miller and six enlisted men were wounded or missing 
82 Memo, Lutes for ACofS OPD, 25 May 44, sub: Opnl Projects for ETO. Ping Div ASF 400 
History of Projects. (Also cited in Ruppenthal, Logistical Support, I, 260). 174 
THE CHEMICAL WARFARE SERVICE 
in action. Sgt. John J. Cunningham assumed command of the platoon, 
which then pushed on, probing for land mines, giving aid to the 
wounded, fighting as infantrymen, and providing what smoke con- 
cealment it could. At 1300 the 3d Platoon under 1st Lt. James W. 
Cassidy joined the 1st Platoon, and together they salvaged and put 
into working order a few of the Mi smoke generators which had been 
sunk on an incoming Dukw. On D plus one Capt. Milton M. Moore, 
company commander, arrived with the remainder of the company, 
and the entire unit launched more extensively into its special mission 
activity, gas reconnaissance. First Army, then commanding all 
American forces on the Continent, made few calls on the company’s 
secondary mission, provision of smoke concealment, but the company 
got smoke pots ashore and set up smoke lines in the vicinity of Colle- 
ville sur Mer. By the time a company overstrength had been landed, 
14 June, the 30th Chemical Decontamination Company was in the 
supply and service business, setting up and working in supply dumps, 
furnishing showers, settling road dust, and fighting fires with power- 
driven decontaminating apparatus.83 
The id Platoon, 33d Chemical Decontamination Company, went 
ashore on Utah Beach at approximately H plus 3 (0930). Since 
resistance at first was light on Utah, the id Platoon at once established 
the first CWS beach dump of the invasion. By D plus 1 detachments 
of the company which had landed with elements of the 531st Engineer 
Shore Regiment were ordered to assemble under the command of Lt. 
Carroll W. Wright. The assembled 33d Company expanded the 
original CWS dump into a CWS maintenance and supply dump which 
the unit operated until D plus 11. It handled about 5,000 tons of 
CWS Class II and IV supplies during this period. Like their colleagues 
on Omaha Beach, the men of the 33d also performed gas reconnais- 
sance, provided showers, and fought fires.84 
Headquarters Detachment, 60th Chemical Depot Company, Capt. 
George W. Brown, commanding, debarked on Omaha on D plus 4 
(10 June) and on the following day set up operations of a FUSA CWS 
dump at Mosles. The advance party of another detachment joined the 
33d Company on Utah on the next day. The whole company was 
83 History, 30th Cml Decontamination Co. 
84 (1) History, 33d Cml Decontamination Co. (2) Gordon A. Harrison, Cross-Channel Attack, 
UNITED STATES ARMY IN WORLD WAR II (Washington, 1951), pp. 302-05. THEATER SUPPLY: EUROPE 
175 
at work operating FUSA dumps by 28 June.80 Meanwhile, Major 
Hingle, FECOMZ chemical supply chief, arrived on D plus 13 (19 
June) in ADSEC headquarters, which had become operational three 
days earlier, to begin preparations for the FECOMZ assumption of 
supply control. He found Colonel Stubbs’s ADSEC Chemical Section, 
staffed by Major Bradley and six other officers, without enlisted men 
or the scheduled stock control team. Since the invasion had not been 
going as rapidly as planned, FUSA had not transferred supply control 
to ADSEC, and the ADSEC staff members on the Continent were 
assisting FUSA while preparing for their own operational role. Hingle 
also visited Colonel Coughlan, Chemical Officer, FUSA, and learned 
from his assistant for supply, Capt. J. R. Yankhauer, that chemical 
supply, unlike that of other services, had run into no very serious 
problems. The expenditure of chemical mortar shell was running 
greater than had been expected, and a greater proportion than 
expected, about 3 5 percent, was white phosphorus shell. Both combat 
and service troops made extensive use of dust respirators and eyeshields 
against dust, and Captain Yankhauer called upon the CWS in the 
United Kingdom for increased resupply of these items. He also re- 
quested that the quota be cut on smoke materials which were piling 
up.86 
Hingle decided that principal CWS supply efforts on the Continent 
in the immediate future would need to be directed toward storage, 
maintenance, salvage, and service. While chemical supplies were 
arriving in good shape, except for a few inevitable instances of exces- 
sively rough handling, he did not believe that all stocks would stand 
up well under the expected ninety days’ open storage. Some chemical 
weapons and equipment, such as the chemical mortar and the power- 
driven decontaminating apparatus, were being employed at or beyond 
rated capacity. Flame throwers and gas masks were discarded by 
advancing troops. A number of men had their masks hit because the 
mask bulge in silhouette offered a sniper target. Some troops had 
ceased to wear gas protective clothing, and, while salvage was a quarter- 
master problem, the CWS was likely to be called upon for laundering 
garments as well as for reimpregnation. All these factors meant ex- 
tensive repair and materials rehabilitation work, particularly since the 
86 Informal Comments of CWSO [Hingle to Charron, CmlO FECOMZ], 20 Jun 44. CWS 314.7 
Pets files, ETO. 
85 History, 6oth Cml Depot Co. 
289-149 0-68—13 / see Comp ny E got th' new style gas maskj, Joe.” THEATER SUPPLY: EUROPE 
177 
demand for mortars was increasing and that for flame throwers was 
expected to increase/' FUSA also insisted that the gas warfare protec- 
tion level be maintained. While several gas warfare scares had all 
proved false, the Germans still might initiate gas warfare. Capt. 
John J. O’Brien, Acting Chemical Officer, 29th Infantry Division, 
who had been captured and had escaped, reported that the Germans 
would use any weapons in their possession, including gas, to stop the 
Allied advance. Since Allied progress at the time was halting and 
uncertain, enemy initiation of gas warfare would have been catastro- 
phic. Hingle, accordingly, in order to accelerate rehabilitation of 
protective equipment which ADSEC was gathering up, asked FUSA 
to lend its chemical maintenance company to ADSEC, and accom- 
panied Major Bradley in a search for shop space. He recommended to 
his chief, Colonel Charron, that chemical supply and service officers 
and men be sent to the Continent as soon as possible and that service 
troop build-up plans be closely followed up.88 
Establishing the CWS Supply Base 
Since FECOMZ never assumed control of supply operations on the 
Continent,89 Colonel Charron, in his FECOMZ capacity, did not 
have the opportunity to put Major Hingle’s recommendations into 
effect, but FECOMZ officers did assist ADSEC in its efforts and later 
opened the COMZ headquarters CWS section on the Continent. 
ADSEC gradually assumed responsibility for various supply installa- 
tions after FUSA, while still retaining supply control, on 20 June 
designated an ADSEC area of operations. ADSEC retained the three 
FUSA supply dumps. The dump at Mosles it converted into a Class 
II and IV depot while the the dump at Longueville behind Omaha 
became a Class V depot and that at Audouville-la-Hubert behind 
Utah became an all-classes depot. Audouville materials were soon 
transferred to a permanent installation at Montebourg, and both 
Audouville and Longueville were closed out by COMZ in October. 
The American lodgment on the Continent failed to grow as planned, 
but manpower increased almost on schedule, as Hingle had hoped, and 
tonnages, despite port and beachhead discharge difficulties, accumu- 
87 The flame thrower demand did not materalize, but the CWS could not afford to be unprepared in 
event demand should arise. 
88 [Hingle to Charron], 20 Jun, 21 Jun, 22 Jun 44. CWS 314.7 Pers Files, ETO. 
89 Ruppenthal, Logistical Support, I, 43 6. 178 
THE CHEMICAL WARFARE SERVICE 
lated at a rate in excess of the June-August needs. The ADSEC Chem- 
ical Section accordingly established an all-classes depot at Cherbourg, 
a II and IV depot at Villedieu, a II and IV depot and an ammunition 
depot at Le Mans, and at Rennes an all-classes depot, which COMZ 
split into a II and IV and an ammunition depot. The 65 th and 7th 
Chemical Depot Companies and the 66th and 9th Chemical Base 
Depot Companies operated these installations while the 711th Chemical 
Maintenance Company set up a shop at Valognes, the site of the first 
continental COMZ headquarters.90 
On D plus 20 St. John analyzed the chemical supply situation on 
the Continent. He noted critical shortages of mortars and mortar parts 
and expressed the belief that flame thrower supply would not meet 
demand. On the other hand, he took the view that some protection 
and decontamination materials were excess to all future needs while 
smoke materials, for which he expected demand to increase, were 
adequate for the time being.91 In reply to these observations, General 
Porter indicated that while the theater had reached or slightly exceeded 
supply authorizations in all categories mentioned except mortar spare 
parts, he could not concede that any of these excesses were significant. 
Porter believed that the parts need could be met by supplying an over- 
age of complete mortars. The CWS had no outstanding unfilled orders 
from the theater, and General Porter was powerless to increase any 
allotment without a specific theater request approved through War 
Department channels.92 As in the case of NATO-MTO CWS supply, 
here was the rub. A supply crisis was coming in the ETO which would 
affect the CWS, although not as extensively as the other services, but 
the individuals most concerned could do little to forestall its arrival. 
Although the theater had top supply priority over all other theaters 
and although the theater commander was firmly committed to the 
policy of giving combat commanders everything they desired, the 
exigencies of transportation and War Department-controlled supply 
authorization procedures tended to block timely measures for pre- 
venting a crisis. Just how much of the ensuing supply crisis might be 
attributable to physical limitations in obtaining and moving supplies 
and how much to the complications of supply management in the 
®°(i) Ruppenthal, Logistical Support, I, 434-44. (2) History, FECOMZ. (j) History, ADSEC. 
(4) History, Sup Div, II. 
01 St. John to Porter, 28 Jun 44. 
02 Porter to St. John, 2 Aug 44. THEATER SUPPLY: EUROPE 
179 
theater and in the United States is, from the CWS point of view, 
impossible to say. 
The Supply Crisis 
General Rowan, on D plus 44, pointed out even more vigorously than 
Colonel St. John the critical nature of mortar parts and ammunition 
supply. He suggested to General Waitt that the CWS plan to double 
its production quotas for those items. The last CWS ETO ammunition 
requisition, he wrote, had been cut in half, presumably by NYPE, and 
he had been unable to determine on what basis the cut was made.93 
The CWS in the United States could not raise its production quotas 
until theater recommendations for increases in War Department 
allowances had been approved. Three weeks later Rowan paid a 
flying visit to his new office, which Charron had established in the 
Valognes COM2 headquarters. Rowan joined St. John for a tour of 
mortar units, field headquarters, and forward areas. He found the 
CWS supply situation still satisfactory on the whole, but he noted 
not only that the shortage of mortars, mortar parts, and ammunition 
was critical but also that some of the mortar battalion equipment 
needed replacement.94 
As the combat forces broke out of the beachhead in July 1944 and 
headed toward Germany, all chemical sections in the combat organiza- 
tion became increasingly involved in supply.9'1 The chemical sections 
in the base sections became active, as ADSEC had already been, in 
the support of combat organizations. The 12th Army Group Chemical 
Section allotted supplies to the armies and kept Rowan’s office and 
sometimes the base section chemical officers informed as to long-range 
requirements and immediate needs.96 The 12th Army Group Chemical 
Section considered protective supply adequate throughout the Euro- 
pean campaigns except for a brief period late in 1944 when "cold set” 
destroyed the usefulness of the synthetic rubber facepiece of the light- 
weight mask.9' The First and Third Army chemical officers likewise 
93 Personal Ltr, Rowan to Waitt, 20 Jul 44. CWS 314.7 Pers Files, ETO. 
94 Memo, Rowan, no addressee, sub: Notes on Trip to Far Shore, 26 Aug 44, in Ltr, Rowan to 
Waitt, 2 Sep 44. CWS 314.7 Pers Files, ETO. 
96 See above, ch. II. 
96 (1) MacArthur Interv, 19 Sep 61. (2) Leggin Intervs, 13 Oct 61, 22 Nov 45. (3) Powers 
Interv, 24 Sep 59. 
97 12th Army Group, Rpt of Opns, vol. XI, Cml Warfare Sec. 180 
THE CHEMICAL WARFARE SERVICE 
considered protection adequate except in isolated circumstances.08 
Dissent on the adequacy of protection came from base section chemical 
officers who felt that, in the early period on the Continent, the CWS 
distribution plan looked better on paper than it did in practice. The 
problem was that since supplies were so scattered about in dumps and 
since so much equipment, especially masks, had been abandoned by 
troops moving forward, it would have been a tremendous and perhaps 
impossible task to assemble, rehabilitate, and reissue protective equip- 
ment in event of need." Fortunately, no large-scale call for protective 
equipment was made until the following December by which time 
chemical service units had collected and refurbished protective equip- 
ment. Also, by December the distribution system was working well 
with the aid of a considerable amount of troubleshooting from most 
chemical officers in both COMZ and combat organizations.100 
The CWS supply problems began to multiply with the September 
1944 supply crisis. Most of these problems arose not because of the 
malfunctioning of the distribution system but because of a general 
shortage of supplies, equipment, and transportation. The CWS problem 
was increased by the flaws in certain chemical items, notably chemical 
mortar shell, spare parts, and protective materials. 
Chemical Mortar Shell 
The armies were moving rapidly forward in September when Rowan 
and the United Kingdom section of his office moved into the new 
COMZ headquarters in Paris. Supply of fast-moving items was by 
then on a hand-to-mouth basis. General Rowan personally visited the 
ports to expedite the distribution of chemical mortar shell which was 
finally arriving from the United States. Shortage of docking facilities 
frequently made it difficult to unload ships. But, when he could get 
shells ashore, he got the theater chief of ordnance to allot railway 
ammunition cars for his use and he had these cars included in priority 
supply trains. Usually no more than one day’s reserve of shell was 
available in forward areas.101 
In November two barrel bursts of high explosive shell in chemical 
98 (i) Cunin Interv, j Dec 45. (2) Wallington Interv, 1 Dec 59. 
80 (1) Wright Interv, 16 Jul 61. (2) Christensen Intervs, 13, 23 Oct 61. 
100 (1) Christensen Intervs, 13, 23 Oct 61. 
101 Rowan Interv, 26 Sep 58. THEATER SUPPLY: EUROPE 
181 
mortars led to the assumption that some shell was defective.102 This 
assumption complicated the supply situation since no one knew how 
much of the available stocks was serviceable. But in the same month, 
when a shell shortage in southern France imperiled operations supplied 
by Southern Line of Communications (SOLOC), the CWS ETO 
released 50,000 shells to SOLOC in return for a December shipment 
scheduled for that area.103 Chemical mortar units in northern France 
had enough shells at the time to continue operations although rationing 
was frequently necessary. But rationing had been necessary from time 
to time since early in the Normandy campaign, and, while mortar men 
could have used more shell, the 20 rounds per weapon per day usually 
allotted against the official 25 to 30 rounds per day of supply was 
enough to keep them going. In December, 12th Army Group Chemical 
Section, the agency charged with shell allocation, requested 40 rounds 
per weapon per day for the next six months.104 Using the 40-round 
base for all the 10 battalions then in the theater and assuming 36 oper- 
ational mortars per battalion as allotted under the tables of organization 
and equipment then going into effect, the 12th Army Group recom- 
mendation would have meant immediate supply of almost 15,000 
shells per day. Computed on the basis of 15 battalions in the line in 
1945 nearly 22,000 rounds per day would have been required.100 The 
12th Army Group ammunition supply goal was never reached. 
In January 1945, barrel and muzzle bursts reached epidemic pro- 
portions. During theater and OCCWS investigations of the problem, 
CWS ETO impounded lot after lot of shell until nearly the whole 
theater supply was impounded. Allotment per weapon sometimes fell 
from twenty to ten rounds per day. When spring weather came, faulty 
shell ceased to be a problem. Shell supply improved, but supply never 
equaled demand during the period of combat.106 
102 Personal Ltr, Powers, CmlO 12th Army Group, to Porter, 21 Nov 44. CWS 314.7 Pers Files, 
ETO. 
103 History, Sup Div, II. 
104 Leggin Interv, 22 Nov 43. 
105 See Brophy and Fisher, Organizing for War, Appendix H-i, for information on battalions in the 
theater. Sixteen battalions had entered action by V-E Day, but the sixteenth saw only a few days of 
combat. 
106 (1) Rowan Interv, 26 Sep 58. (2) Leggin Interv, 22 Nov 43. (3) For more details on the 
faulty shell problem, see below, Chapter XII. 182 
THE CHEMICAL WARFARE SERVICE 
Spare Parts 
The parts situation also failed to improve during continental opera- 
tions. According to Rowan the "lack of spare parts was the outstand- 
ing failure of the American Army supply system, and the CWS was 
just as bad as the rest of the technical services.” 107 In early October, 
CWS ETO found it necessary to embargo all CWS spare parts issues 
except "Red Ball Express” shipments which were directed to chemical 
maintenance companies operating with the armies. Issue for levels of 
maintenance less than major overhaul was banned. Some items in need 
of repair, such as masks, dust respirators, and hand decontaminating 
apparatus, were exchanged for serviceable items in lieu of repair.108 
Chemical maintenance companies repaired chemical mortars, flame 
throwers, and power-driven decontaminating apparatus on a "parts 
available” basis and exchange items were supplied, with the specific 
approval of the Supply Division, CWS ETO, when parts were not 
available but alternative end items were. The maintenance companies 
also fabricated parts whenever possible and some parts which would 
normally have been considered beyond repair were rebuilt. Late in 
1944 orders were given to French firms for the manufacture of parts 
for mortars, smoke generators, then being heavily employed to produce 
tactical smoke concealment, and flame throwers. In January 1945, the 
CWS ETO engaged firms in Belgium and Luxembourg to manufacture 
mortar base plates, reinforcing plates, shock absorber slides, cup forks, 
tube caps, and base caps. As in the case of manufacture in Italy, 
many chemical officers preferred the parts manufactured in Europe 
to those shipped from the United States. In Europe greater skill and 
better equipment were available for small parts manufacture than in 
the war-burdened United States industry.109 
The CWS spare parts team which surveyed the theater situation in 
1945 found parts supply still inadequate, and General Waitt confirmed 
this finding in his visit to the theater at the end of the war.110 
107 Rowan Comments, 16 Dec 60. 
108 The mask parts situation was one of the few not critical. The principal problem here was the great 
volume of maintenance work caused by abuse of the mask. Rowan Comments, x6 Dec 60. 
109 (i) History, Sup Div, II. (2) Histories, 2x1th (71th), 12th, 13th, and 14th Cml Maintenance 
Cos. (3) Magness Interv, j May 59. (4) Rowan Comments, 16 Dec 60. 
110 (1) OCCWS, Final Rpt, CWS Spare Parts Team in MTO and ETO, Dec 44-Feb 4$, prepared by 
OCCWS, 19 Jun 43. (2) IOM, Lt Col J. C. Morgan, Chief War Planning Br OCCWS, for Chief Wax 
Plans and Theaters Div OCCWS, 13 Apr 45, sub: Topics for Discussion in ETO and MTO. CWS 
314.7 Observer Rpts. THEATER SUPPLY: EUROPE 
183 
Protective Material 
Although FUSA and FUSAG insisted on having each individual 
maintain his gas mask during the beachhead period, the breakthrough 
and rapid advance after the end of July brought a change in attitude. 
Many commanders and some chemical officers assumed there would be 
no further risk of gas warfare. Indeed, SHAEF itself seemed to 
assume that the risk of gas warfare was past and St. John, whose 
position in SHAEF was abolished in the fall, did not express disagree- 
ment.111 MacArthur and other members of the FUSAG/iath Army 
Group staff were concerned lest mistreatment and abandonment of 
the mask by individual soldiers drastically reduce the gas warfare 
defensive preparedness on the Continent. They consequently decided 
to act upon General Bradley’s suggestion that masks be withdrawn 
from individual soldiers on the organization commander’s option. One 
of St. John’s final acts in his SHAEF position was to make the army 
group decision SHAEF policy. 
Rowan conceded, in September, that reduction in the theater pro- 
tective clothing level was not inconsistent with the calculated risk 
policy. He further advised reducing the protective clothing reserve to 
two-layer protection for 50 percent rather than 100 percent of theater 
strength as he had earlier recommended.112 Commanders in most cases 
authorized the withdrawal of protective clothing and masks from indi- 
viduals. The masks were theoretically available in unit supply trains. 
A number of chemical officers felt that calling masks back to regimental 
and even divisional trains was a hazardous policy, particularly since 
it was reasonable to expect the likelihood of gas warfare to increase 
as the German homeland was approached. In October when he suc- 
ceeded MacArthur, who had been requested for a position in the 
United States, Colonel Powers strongly expressed his disapproval of 
the mask policy.113 
Powers paid a call on the Supreme Commander, General Eisenhower, 
a prewar fellow staff officer. He expressed his misgivings concerning 
protective policy to General Eisenhower and General Bradley, who 
happened to be visiting the supreme commander. General Eisenhower 
111 Personal Ltrs, St. John to Waitt, i Sep 44; to Col Lowell A. Elliott, Deputy CCWS, 2} Oct 44; 
to Elliott, 8 Nov 44. 
112Personal Ltrs, Rowan to Waitt, 17 Sep 44. (2) See above, p. 167. The actual reserve au- 
thorization at the time of the Normandy operation had been 35 percent double-layer protection. 
113 Powers Interv, 24 Sep 59. 184 
THE CHEMICAL WARFARE SERVICE 
indicated that he thought German initiation of gas warfare most 
unlikely, but he displayed some interest in the defensive situation.114 
Although not immediately successful in his campaign to increase the 
availability of individual protection, Colonel Powers found he had 
strong support among the Army chemical officers. He recommended 
to the Chief of Staff, 12th Army Group, that the theater be requested 
to reverse the policy decision so that each individual soldier could again 
carry a mask.115 
The 12th Army Group did request a change which was approved 
by SHAEF in December. Shortly thereafter the German counterattack 
in the Ardennes threatened the American advance and many com- 
manders were given added incentive to insure individual gas protection 
since it appeared conceivable that the German forces might try to 
consolidate their initial success in the Battle of the Bulge by using gas. 
The reissue of masks caused a flurry throughout the CWS supply 
system. Some organizations could find no trace of their masks. Others 
discovered that many masks had become unserviceable because of fre- 
quent moves and poor storage conditions. One corps chemical officer 
finally managed to scrape up enough transportation to send several 
truckloads of masks forward, only to hear that both trucks and masks 
were destroyed or captured in the German advance. Spot issues to 
replace such losses caused temporary shortages, but fortunately the 
reserve was large enough so that demands could be met and reserves 
restocked from the United States on an emergency basis.116 St. John’s 
assertion that there were enough masks in the theater to cover all the 
faces of Europe and Asia proved to be even more overdrawn than he 
had intended.117 Some of Powers’ colleagues were critical of his action, 
contending that his lack of experience in the theater made him over- 
zealous. The possibility exists, however, that the reissue of masks, which 
could hardly have been unknown to German intelligence, deterred the 
Germans from exploiting what would have been an excellent oppor- 
tunity to turn the Bulge into a World War II Ypres.118 
The maintenance load imposed by mask rehabilitation, particularly 
in view of occasional parts shortages, was very heavy. When "cold set” 
114 Ibid. 
115 Personal Ltrs, Powers to Elliott, 7 Nov 44, and to Porter, 21 Nov 44. 
116 (1) Rowan Interv, 26 Sep 58. (2) Powers Interv, 24 Sep 59. (3) Barta Interv, 23 Sep 39. 
117 See above, p. 166. 
”8Leggin Interv, 13 Oct 61. THEATER SUPPLY: EUROPE 
185 
(cold weather hardening) was discovered in reclaimed and synthetic 
rubber mask facepieces during the winter, the CWS ETO mainte- 
nance burden became greater than the maintenance units could 
handle.119 Since the facepieces hardened by "cold set” could not be 
properly fitted, CWS ETO contracted with eight French firms for 
the exchange of 400,000 faulty facepieces for the natural rubber face- 
piece from the old-style mask. At the same time another French firm 
initiated remanufacture of old-style gas mask carriers into 133,000 
lightweight mask carriers.120 After considerable effort, the CWS ETO 
successfully met the challenge of bringing protective supply up to a 
highly effective level for the remainder of the war. 
The CWS ETO Stipply System—Final Form 
Considering the many unexpected problems it ran into, the CWS 
ETO supply system changed amazingly little during the period of 
continental operation. The credit system continued to operate effec- 
tively although during the fall supply crisis it became necessary to 
delegate credit allocation for ammunition and certain critical supplies 
to 12th Army Group. Supply Division, CWS ETO, headed during 
the entire period on the Continent by Col. Frederick E. Powell, con- 
tinued to allocate credits for normal Class II and IV supply. The 
supply pattern brought materials into CWS branch depots from the 
ports and beaches.121 CWS ETO established forty such depots under 
COM2 control in the advance across France and Germany. Supply 
Division or 12th Army Group allocated materials in depots to using 
organizations on credits or assigned them to reserve stocks. Credit 
allocation notices were forwarded to ADSEC or to Continental Ad- 
vance Section (CONAD), to the regulating stations which distributed 
materials to combat echelons, to the depot commanders, and to the 
credited organizations. The using combat organizations in northern 
France and northern Germany then called forward from the depots 
through the regulating stations and ADSEC, or in southern France 
and Germany, through CONAD, such materials from their credited 
119 (i) For a discussion of "cold set,” see Brophy, Miles, and Cochrane, From Laboratory to Field, 
PP 323-24. (a) Leggin telephoned the development authorities in the United States when "cold set” was 
discovered to ask advice. The only recommendation offered was that the CWS ETO provide warm stor- 
age for masks! (Leggin Interv, ij Oct 61.) 
120 History, Sup Div, II. 
121 No general depots were established on the Continent. 186 
THE CHEMICAL WARFARE SERVICE 
stocks as they desired. The using organization, the regulating stations, 
and the advance section could always easily calculate the quantities of 
any item to be transported and the quantities remaining to the credit 
of any organization in the depots.122 
122 History, Sup Div, II. CHAPTER V 
CWS Administration: Pacific 
The CWS in the West and Southwest Pacific, 1941-42 
Defending the Philippines 
After the Japanese attacked Clark Field on 8 December 1941 and 
brought World War II to the Philippines, Col. Stuart A. Hamilton, 
Chemical Officer, Philippine Department, the 14 officers, 275 enlisted 
men, and 12 Philippine Scouts assigned to the CWS in the Philippines 
immediately stepped up efforts to prepare for gas warfare.1 Intensive 
preparations for gas warfare in the department had begun the preceding 
spring with the dedication of a new impregnating plant in the Manila 
port area for the production of gas resistant clothing. By the day of 
the attack the department’s defense preparations were in many respects 
satisfactory, but chemical officers were disturbed that training rather 
than service masks had been the authorized issue to individual soldiers 
and that the protective clothing supply was completely inadequate 
even with the new plant in operation. 
Both the U.S. forces and the enemy greatly feared that the other’s 
next move would be a gas attack. On 8 December the Japanese assault 
commanders on Formosa issued masks to their troops.2 In Manila, 
requests for masks poured in to the departmental chemical office. On 
10 December General Mac Arthur’s Headquarters, United States Army 
1 This section is based on: (i) Log Book and Journal—CWS, Hq Philippine Dept USAFFE and 
USFIP, 8 Dec 41—17 Apr 42. (Mailed to CCWS in one of the last mails leaving the Philippine Islands 
before the surrender.) CWS 319.1/2275. (2) Hamilton to CCWS, 6 Apr 1946, Rpt, Personal Ex- 
periences During World War II. (3) Hamilton to CG USFIP (Gen Jonathan M. Wainwright), 22 
Nov 46, Rpt Activities, CWS, Philippine Islands, World War II. (4) Louis Morton, The Fall of the 
Philippines, UNITED STATES ARMY IN WORLD WAR II (Washington, 1953). (5) Lt Col 
Charles A. Morgan, Jr., Comments on draft of this volume, 16 Jan 61. 
2 Morton, Fall of the Philippines, p. 80. 188 
THE CHEMICAL WARFARE SERVICE 
Forces, Far East (USAFFE), ordered training masks exchanged for 
service masks. On the same day the CWS began issuing service masks 
to Philippine Army units. Some training and service masks were later 
provided for civilian employees of the Army. Chemical troops under 
1st Lt. Charles A. Morgan, Jr., operated the new impregnating plant 
on a 24-hour basis until 23 December, when the power plant was 
bombed. The clothing was to provide individual protection against 
expected gas attacks and to equip unit gas warfare decontamination 
details. About a week later Colonel Hamilton supervised the destruc- 
tion of the plant, along with supplies and records, to prevent capture. 
After the loss of the plant, the CWS contingent on Bataan continued 
clothing impregnation by hand in order to finish equipping the de- 
contamination squads. A day after the plant was destroyed Hamilton 
moved his office into an improvised chemical laboratory in the Malinta 
Tunnel, Fort Mills, Corregidor. The CWS hastily completed part of 
a large gasproofing project so that the ventilating blowers could be 
used to make the Malinta Tunnel usable for a hospital, offices, and 
quarters. 
The few CWS officers and men not continuously used as infantry 
labored mightily to adapt existing materials to emergency needs. 
Hamilton’s men improvised field plants to produce liquid bleach 
(chloride of lime) for sanitation purposes both on Bataan and Cor- 
regidor. These plants used lime and liquid chlorine originally intended 
for decontamination of vesicant gases. Bleach was also used as an 
insecticide by the hospitals, around latrines, and on the battlefields. 
The field plant on Corregidor continued to operate even after the 
Japanese occupation. The CWS laboratory assayed and packaged an- 
other vesicant decontaminant, high-test hypochlorite, for water puri- 
fication. The Philippine Chemical Depot staff, operating on Bataan, 
prepared tiki-tiki extract from rice bran for the prevention and 
treatment of beriberi and polyneuritis, but an effort to develop a 
substitute for quinine sulphate was only partially successful. The 
CWS also converted FS smoke fillings from Livens projectors and 
4.2-inch chemical mortar shells into sulphuric acid to keep in operation 
the storage batteries in electric generator units, radio sets, and vehicles. 
After an enemy bomb destroyed the first field acid plant and killed 
four of its five operators, another plant was set up where production 
continued until the week of the Corregidor surrender. To aid the ADMINISTRATION: PACIFIC 
189 
fighting units, Lt. Frank L. Schaf, Jr., CWS, assisted by a U.S. Navy 
detachment, improvised a flame thrower from two 3-gallon decon- 
taminating apparatus. The chemical depot group also contributed to 
the fighting units thousands of Molotov cocktails hastily improvised 
from beer bottles and other scrap materials. 
When not busy with emergency improvisations, the CWS laboratory 
analyzed and described captured Japanese materials, such as gas masks 
and canisters, explosive charges, and flame throwers, brought in by 
men of the Philippine Chemical Depot. These analyses and descriptions 
were radioed to OCCWS, and samples of captured equipment were 
shipped to the United States. When surrender seemed inevitable, the 
CWS destroyed all remaining chemical materials. Colonel Hamilton 
and his surviving men were taken prisoner after the surrender of 
Corregidor on 6 May 1942 and remained in Japanese prison camps 
for the rest of the war. 
Establishment in Australia 
On 7 December 1941 the 3d Chemical Field Laboratory Company 
was aboard a Pacific convoy carrying units and individual officers and 
men destined to augment the American forces in the Philippines. On 
12 December Brig. Gen. Julian F. Barnes, the senior officer aboard, 
organized the Army forces in the convoy into Task Force, South 
Pacific, and appointed a general and special staff. The War Depart- 
ment next day ordered General Barnes’s convoy and task force to 
proceed to Australia where Barnes would assume command of United 
States troops. The convoy docked at Brisbane on 22 December, and 
General Barnes spent the following month straightening out the con- 
fused command situation, organizing the United States Army Forces 
in Australia (USAFIA) at Melbourne, and making desperate and 
unsuccessful attempts to send troops, aircraft, and supplies to the 
Philippines. On 28 January 1942 Capt. John C. Morgan, an officer 
of the 3d Chemical Field Laboratory Company, set about establishing 
a chemical section in USAFIA. Col. William A. Copthorne arrived 
on 2 February with a number of experienced officers and enlisted men. 
Known as the Remember Pearl Harbor Group, these men were being 
rushed to the Pacific to serve wherever senior command and staff 
officers and specialists were needed. Copthorne became chemical officer THE CHEMICAL WARFARE SERVICE 
190 
and was assigned to the USAFIA chief of staff’s special mission for 
co-ordinating relief shipments to Corregidor.3 
The CWS, U.S. Army Forces in Australia 
Colonel Copthorne and Maj. John C. Morgan, now assigned as 
Copthorne’s executive officer, tackled the job of setting up a CWS 
for USAFIA. First, they had to set up and staff the territorial organi- 
zation in Australia and allocate personnel and units among other 
organizations, both those already in the area and those being activated. 
Then there was the task of providing chemical supplies for American 
forces. The third undertaking was the establishment of CWS planning 
and training functions. And the fourth act was to expand and super- 
vise CWS technical and technical intelligence functions established by 
the laboratory company. 
Six numerically designated base sections with headquarters at Dar- 
win, Townsville, Brisbane, Melbourne, Adelaide, and Perth were set 
up on 3 March 1942. The seventh base section was established at 
Sydney in the following month. Sixteen CWS officers arrived in April, 
and Copthorne managed to assign one or two officers and one or two 
enlisted men to the chemical section of each base section, after a brief 
period of training and orientation in his own office. Chemical officers, 
like other base section special staff officers, were directly responsible 
to their chief of service in matters of plans, policies, and supply, but 
they served the additional function of advisers to base section com- 
manders under whose administrative control they worked. Since the 
original intention of the Australian establishment was to support 
Lt. Gen. George FI. Brett’s Far East Air Force, Copthorne and Morgan, 
who held a second position as chemical officer in the Air Section, 
USAFIA, also sought to provide chemical manpower and service for 
the air forces.4 Fiis ability to accomplish such work was severely 
s (1) MS, Mil History of USASOS in the Southwest Pacific, vol. I (hereafter cited as History, 
USASOS). OCMH. (2) Elizabeth Bingham and Richard Leighton, MS, Development of the U.S. 
Supply Base in Australia, pp. i-io. OCMH. (j) Interv, Hist Off with Lt Col John C. Morgan, 
1 Oct 45. (4) Col William A. Copthorne, USA (Ret.), Comments on draft of this volume, 13 Jan 61. 
(5) Col John C. Morgan, USAR (Ret.), Comments on draft of this volume, 9 Feb 61. 
* The United States establishment in Australia had been set up to provide air and logistical support for 
the Philippines and for the forces operating in the Netherlands East Indies. After Japanese seizure of 
the Netherlands East Indies and after it proved to be impossible to support the Philippines, Fast East Air 
Force was inactivated and the conception of the American command in Australia as predominantly an 
air command was abandoned. The air command, subsequently designated Fifth Air Force, became an 
important element of the Allied land, naval, and air forces. History, USASOS, vol. I. ADMINISTRATION: PACIFIC 
191 
limited by lack of officers and men and by a lack of information as 
to air forces chemical organization and duties. The information finally 
arrived from OCCWS in July, and two months later the theater 
acquired enough personnel to activate four chemical air operations 
companies, using detachments and a platoon of the 3d Chemical 
Service Company (Aviation), already in the theater, as nuclei.5 
Organizing the Chemical Section, U. S. Army Services of Supply 
In March 1942 Allied leaders designated the Pacific as one of the 
three main theaters for prosecuting the war against the Axis. The 
Joint Chiefs of Staff in turn subdivided the Pacific into areas: the 
Southwest Pacific Area (SWPA) from Australia to the Philippines, 
and the Pacific Ocean Areas (POA) to the east of the Philippines, 
the Netherlands East Indies, and Australia. (Map 2) POA was again 
subdivided into North Pacific Area, Central Pacific Area (CENPAC) 
(including the Hawaiian, Gilbert, Marshall, Mariana, Bonin, and 
Ryukyu Islands), and South Pacific Area (SOPAC) (including New 
Zealand and New Caledonia). POA came under the command of Ad- 
miral Chester W. Nimitz who designated a deputy to head the South 
Pacific Area. In April MacArthur, now in Australia, organized GHQ, 
SWPA, an Allied and supreme command over all air, land, and sea 
forces in the area.6 The Southwest Pacific Area was not technically a 
theater but GHQ, SWPA in mission and responsibility was an Allied 
headquarters as well as the senior American strategic and tactical 
headquarters in the area. After the creation of GHQ, USAFIA became 
a supply and service headquarters,7 redesignated United States Army 
Services of Supply (USASOS) in July. Copthorne retained his posi- 
tion in USAFIA and its successor. Although he was regarded as chief 
chemical officer for the U.S. forces, he had no direct role in GHQ. 
By 1 July Copthorne and Morgan had their section in operation. The 
5 (1) History, USASOS. (2) Interv, Hist Off with Col Burton D. Willis and Col Robert N. Gay, 
12 Jun 50. Colonel Willis’ first assignments were chemical officer of the base sections at Brisbane and 
later at Townsville. (3) Personal Ltr, Copthorne, CCmlO USAFIA, to Brig Gen Alexander Wilson, 
Chief Field Serv OCCWS, 13 Jul 42. CWS 319.1 1942. (4) Personal Ltr, Copthorne to Porter, 17 
Aug 42. CWS 314.7 Pers Files, SWPA. (All personal letters hereafter cited, unless otherwise noted, 
are from this file.) 
7 The term theater will hereafter be used to indicate each of the Pacific areas and the senior U.S. 
Army headquarters therein. The North Pacific and the South Pacific Areas will not be considered here 
since the major features of the Chemical Warfare Service experience are apparent in the SWPA and 
POA accounts. 
8Matloff and Snell, Strategic Planning for Coalition Warfare, 1941-42, pp. 164-73. 
289-149 0-68—14 THE CHEMICAL WARFARE SERVICE 
192 
PACIFIC OCEAN AREAS 
1 August 1942 
Area boundaries 
Subdivision boundaries 
STATUTE MILES ON THE EQUATOR 
R. Johnstone 
MAP 2 
technical function, involving liaison with Australian chemical warfare 
authorities, and the supervision of the chemical laboratory, recently 
redesignated the 4id Chemical Laboratory Company, Copthorne exer- 
cised through his technical and intelligence officer, Maj. Walter W. F. 
Enz. Capt. Arthur H. Williams, Jr., handled fiscal and administrative 
matters, including supply, and was purchasing and contracting officer 
for the CWS. Capt. Carl V. Burke was operations and training officer. 
One other officer and three enlisted men completed the section.8 
8(i) History, USASOS. (2) History, Cml Sec Hq USASOS, SWPA Orgn Files, AFWESPAC, 
Folder USASOS History of Cml Warfare School, APO 923, Jul 42-May 44. (3) Ltr, Copthorne to 
Hist Off, 16 Feb 51. (4)Copthorne Comments, 13 Jan 61. (5) Morgan Comments, 9 Feb 61. ADMINISTRATION: PACIFIC 
193 
Copthorne was the only CWS Regular Army officer in SWPA, not 
only at the time of organization but also for another year. A Military 
Academy graduate, he was 52 years of age at the time and had seen 
service in World War I but not overseas. He had a variety of chemical 
experience, including a tour as Philippine Department chemical 
officer, a tour as a corps area chemical officer in the United States, and 
had most recently been an instructor at the Army’s Command and 
General Staff School.9 
Supply was a very difficult matter to handle. Since there had been 
no preplanning for a theater headquarters based in Australia, all sup- 
plies obtained in the early period were destined for arriving organiza- 
tions. There was no theater reserve. American forces supplies and 
services of all kinds were obtained from the Australians when possible 
through a necessarily complicated series of procedures which prevented 
a fatal drain on the Australian economy and which precluded compe- 
tition among American and Allied forces for available goods and 
services. Captain Williams had little to work with; Copthorne wrote 
to OCCWS that he could determine neither theater strength nor the 
availability of supplies in the hands of troops.10 
The Theater CWS School 
The training job was more readily, although not easily, handled. 
Copthorne urged all base section chemical officers to give the troops 
as much chemical training as possible. Many of them were too short- 
handed to accomplish much training outside their immediate head- 
quarters, but Maj. Burton D. Willis, Chemical Officer, Base Section 3 
in Brisbane, had a larger staff, and he could call upon the 42nd Chemical 
Laboratory Company (formerly the 3d Chemical Field Laboratory). 
He gave several courses in chemical warfare defense, using a classroom 
in the University of Queensland. Although base section training was 
on a part-time basis, such training was a good foundation on which 
to build, and Copthorne dispatched Captain Burke to open a theater 
school. On 12 July 1942 Burke reported to the Brisbane base section 
headquarters to establish a chemical warfare school for all American 
forces. Since no authority existed for such an establishment, Burke 
9 CMLHO Biographical Sketches. Copthorne was also Acting Adjutant General, USAFIA, from 
March to May 1942. 
10 Copthorne to Wilson, ij Jul 42. 194 
THE CHEMICAL WARFARE SERVICE 
officially assumed the operation of the base section school while in 
fact preparing for the establishment of a SWPA CWS school. The 
first class with thirty-three unit gas officer students was in session 
before the school was approved in August, and the third class, also 
of unit gas officers, was ready to graduate before September, when the 
school officially became a theater activity as part of the Chemical 
Warfare Service Training Center.11 
Burke started his school in a converted private residence with one 
officer and two enlisted assistants. He called on Willis, soon promoted 
to lieutenant colonel, on officers of the laboratory company, the 6zd 
Chemical Depot Company, and on the 10th Chemical Maintenance 
Company to assist him with instruction. In the following year, with 
a peak staff of five officers, the CW school conducted thirty courses, 
including those for unit gas officers, unit gas noncommissioned officers, 
and special, technical, decontaminating, and demonstration courses for 
other soldiers. These courses, usually of two weeks’ duration, graduated 
nearly 1,000 students.12 But even this accomplishment was not equal 
to the task at hand of training and retraining SWPA forces in defense 
against gas warfare. Even before the school started, Copthorne drew 
upon his meager supply of officers, again supplementing them with 
details from the chemical service units, to establish four mobile training 
teams for the purpose of instructing widely dispersed units in chemical 
warfare defense. In driving home instruction these training teams 
demonstrated chemical warfare defensive and decontaminating equip- 
ment and tested procedures in which live toxic agents were used. The 
demonstrations and tests were usually given at company level for 
selected officers and NCO’s. Length of instruction varied from a few 
hours to two days, according to the company’s needs and schedules.13 
The training teams, like the school, were attached to the Chemical 
Warfare Service Training Center, which was supported by the base 
section headquarters at Brisbane. The training center, in addition to 
administering the school and the teams, also arranged or conducted 
special co-operative instruction and demonstrations which called for 
11 (i) Interv, Hist Off with Lt Col Carl V. Burke, 28 Jan 46. (2) Summary of Past History of 
the Cml Warfare School, APO 923 (hereafter cited as History, Cml Warfare School). Orgn Files, 
AFWESPAC, Folder USASOS History of Cml Warfare School, APO 923. (3) Willis-Gay Interv, 12 
Jun 50. 
12 History, Cml Warfare School. 
13 (1) History, Cml Sec USASOS. (2) Burke Interv, 28 Jan 46. (3) Copthorne Comments, 13 
Jan 61. ADMINISTRATION: PACIFIC 
195 
Annex Building, Chemical Warfare School, Brisbane, Australia 
more equipment or a greater instruction load than the school or the 
teams could handle individually. Standard U.S. training aids and 
equipment were not available. Major Enz acquired a small laboratory 
at the University of Melbourne and manufactured gas identification 
sets using commercial materials and toxics furnished by the Australian 
and American Armies. Instructors or chemical service units fabricated 
other equipment and aids. The school got very little instruction and 
no materials from the United States, but it did benefit by an exchange 
of information with the Australian Antigas School near Toowoomba.14 
The newly established training facilities were used by the 3 id and 
41st Infantry Divisions, first American tactical ground forces organi- 
zations in the theater. The 41st Division had reached Australia on 
7 April 1942, and the 3 id Division on 14 May 1941. Both organizations 
14 Burke Interv, 28 Jan 46. 196 
THE CHEMICAL WARFARE SERVICE 
included chemical sections, the 41st section headed by Maj. Frank M. 
Arthur, and the 3 2d section by Capt. Edward H. Sandell. Both of 
these officers established division chemical warfare schools.15 
When General MacArthur converted USAFIA into USASOS on 
20 July 1942, general and special staffs retained their responsibilities 
virtually unchanged. Such reorganization as was accomplished was 
apparently intended to bring USASOS into line with a War Depart- 
ment directive for theater communications zone organization.16 
Copthorne felt that there should be a chemical officer in General Mac- 
Arthur’s GHQ, but, he also felt that for the time being his location 
in USASOS permitted him close supervision of the matters in which 
the CWS had the greatest immediate concern.17 A position in GHQ 
would presumably have been an Allied staff position similar to the one 
which Shadle had just taken over in AFHQ. Since there was no World 
War I precedent and since Shadle’s was the only such CWS appoint- 
ment in World War II, a like appointment in GHQ would have been 
unusual. 
CWS Functions 
CWS functions of immediate concern were those of personnel, 
supply, and training, as they had been earlier; but now Copthorne also 
had reason to become deeply interested in the technical preparations 
for gas warfare. As theater chemical officers the world over were then 
discovering or were about to discover, he had found that they had 
"almost an independent Chemical Warfare Service out here.” 18 The 
manifestation of this independence in SWPA was not, as in other 
theaters, in the realm of supply, but rather in the provision of technical 
chemical information to all forces in the theater and in the exchange 
of information with the Allies. As far as supply was concerned, the 
time lag between the United States and the theater was so great that 
the individual service could as yet do little to influence shipments. 
Distribution within the theater was tightly controlled by USASOS 
since critically short transportation had to be centrally controlled. In 
technical matters, however, Copthorne had charge of the only full- 
fledged laboratory in the theater, and he strongly believed that it was 
16 ibid. 
16 History, USASOS, pp. 27-29. 
17 Personal Ltr, Copthorne to Porter, 17 Aug 42. 
16 Ibid. ADMINISTRATION: PACIFIC 
197 
to the advantage of the service for 
this laboratory to handle any tech- 
nical problem referred to it. Since 
the Japanese had reportedly em- 
ployed gas in China, since they 
were apparently logistically cap- 
able of mounting a gas attack, and 
since it would be to their advan- 
tage to initiate such an attack be- 
fore the American defenses were 
organized, Copthorne also believed 
that the Japanese might initiate 
gas warfare at any time. This pos- 
sibility, he felt, called for active 
intelligence work and extensive 
technical investigation of the 
characteristics of available muni- 
tions in the theater’s tropical environment. He also saw the need for 
improvising new munitions and techniques to be used before supplies 
and information became available from the United States.19 
Colonel Riegelman 
In order to meet the technical portion of his functions, Copthorne 
had set up a Technical Advisory Board to maintain scientific liaison 
with the British, the Australians, and within the U.S. forces, and to 
advise the laboratories. Also, several of Copthorne’s subordinates had 
begun munitions testing. Two of them, Capt. Richard H. Cone and 
Lt. James W. Parker were killed in an air accident while carrying out 
experiments to determine whether incendiary bombs could be im- 
provised from training bombs, using gasoline thickened with crude 
rubber as a filling.20 
In September 1942 the chemical section went along with USASOS 
headquarters to Sydney, but the change in location made little change 
in the section’s operation. In the following month the chemical section 
began circulating a mimeographed Chemical Warfare information 
bulletin designed to apprise officers in the field of technical and intelli- 
gence developments.21 Also, during this period Headquarters, I Corps, 
under the command of Lt. Gen. Robert L. Eichelberger, arrived in 
18 Ibid. 
* Ibid. 
21 History, Cml Sec USASOS. 198 
THE CHEMICAL WARFARE SERVICE 
Australia to become the senior tactical American ground command. 
The I Corps chemical officer was Col. Harold Riegelman, a distinguished 
New York attorney who had served in World War I as a gas officer 
and had since been prominent in Reserve activities. In the words of 
his commander, he was "a loyal efficient staff officer with an analytical 
brain who pursued his work with diligence.” 22 Riegelman’s section 
included an officer assistant, a warrant officer, and six enlisted men.23 
On arrival in Australia, Colonel Riegelman at once began to lay plans 
with Major Arthur of the 41st Division, and to await an opportunity 
to confer with Captain Sandell of the 3 id Division. 
CWS Baptism—The Papua Campaign 
This opportunity never arose. Two regiments of the 3 id Division 
had been ordered forward to New Guinea in September, and on 18 
October Sandell, T/Sgt. John K. King, and Sgt. Raymond F. Dasman, 
as the advance detail of the chemical section, reported to their com- 
manding general at Port Moresby on the southern tip of New Guinea.24 
Sandell’s was among the first chemical sections to participate in combat 
in World War II after the fall of the Philippines. The duties performed 
by the 3 id Division Chemical Section, while they might not be cate- 
gorized as either administrative or staff work, which were theoretically 
the section’s main responsibilities, demonstrate the ingenuity with 
which chemical sections in many combat elements in all parts of the 
world approached and defined their tasks.25 
Sandell and his sergeants spent a few days in the Port Moresby area 
locating the chemical equipment which the regiments had discarded 
on landing. Most of the equipment was in a deplorable state, having 
been scattered in odd piles about Port Moresby and exposed to the 
elements. The gas masks, approximately 5,000, had been collected and 
put under cover. USASOS had established a forward base at Port 
Moresby, but the base chemical officer, inexperienced and recuperating 
from malaria, had been unable to locate either the labor or the materials 
22 Gen Robert L. Eichelberger, USA (Ret.), "A Prefatory Note,” in Harold Riegelman, Caves of Biak 
(New York: Dial, 1955). 
23 Riegelman, Caves of Biak, pp. 3-4. 
24 For a complete account of the Papua Campaign, see Samuel Milner, Victory in Papua, UNITED 
STATES ARMY IN WORLD WAR II (Washington, 19j7). 
26 The following account of the initial activities of the 3 ad Division Chemical Section is based on: 
Acting Div CmlO to CG 3ad Inf Div, 18 Feb 43, sub: Rpt on the Activities of the 3ad Inf Div Cml 
Sec During the Papuan Campaign. ADMINISTRATION: PACIFIC 
199 
to build storage places and to collect and store other equipment. 
Nearly all troops in the area had been fighting to repel the Japanese 
invasion until a short time before Sandell’s arrival. 
Sandell managed to get a 10-man detail from the 107th Quarter- 
master Battalion, then assigned to the Port Moresby base, and with 
this help he and his men gathered, inspected, and stored any materiel 
that gave promise of serviceability. Sandell and his men were also given 
the mission of searching the jungle to discover if any native garden 
or jungle foods could be found to supplement the ration. From 8 to 21 
November Sandell attended the New Guinea Force school on jungle 
tactics as a student and presented briefings on chemical warfare as an 
instructor. 
On 27 November Sandell was ordered forward to the Buna-Gona 
area, where an assault had been launched ten days earlier, to see if 
chemical smoke or incendiary supplies would be useful in pushing the 
attack. The assault was going badly because locating the enemy in 
his cleverly camouflaged positions was difficult and driving him from 
well-fortified bunkers with the weapons available was almost impos- 
sible. To get a line on enemy fortifications and master the assault 
problem, Sandell led a patrol to a point south of the Buna Mission.26 
He returned to Port Moresby, joined forces with Sergeants King and 
Dasman, and together they collected HC smoke pots, Australian rifle 
smoke grenades, thermite aerial bombs, blasting powder, gelignite, 
safety fuzes, detonators, and friction tape. Back in the fighting zone 
on 4 December, they set to work improvising hand grenades from the 
rifle smoke grenades. They had some difficulty persuading infantrymen 
to use them until an infantry captain demonstrated that it was safe 
to pass through the smoke released by two grenades thrown directly 
in front of an active bunker. The grenades were then much in demand. 
On 7 December 1942 men of the 114th Engineer Combat Battalion 
brought forward the first two portable flame throwers to arrive in the 
combat area. Despite King’s one attempt to put the flame throwers 
in operating condition, they failed to fire properly. Flame throwers 
were not again used in the Papua Campaign.27 After receiving chemical 
and ordnance supplies on 11 December, King and Dasman refined their 
modified smoke grenade. Persisting in spite of a number of false starts, 
they also produced a dependable Molotov cocktail and developed a 
26 For this patrol action Captain Sandell was awarded a Silver Star. 
27 See below, Chapter XIV, for full account of this failure. THE CHEMICAL WARFARE SERVICE 
200 
hand-thrown concussion torpedo capable of killing all the occupants 
of a large bunker. After combat testing the improvised weapon, the 
127th Infantry requested all the torpedoes the CWS sergeants could 
manufacture. 
Captain Sandell was killed in action on 26 December 1942, and 
Dasman became a victim of malaria. King carried on at the front 
until the division was relieved late in January 1943.28 The initiative 
and resourcefulness of Sandell and his men fitted in well with the con- 
cept of the CWS developed by Fries and Porter. 
The Principal Mission—r 943 
Preparedness for Chemical Warfare 
In February 1943 Riegelman visited New Guinea to assess the combat 
situation. He felt that Sandell and his men had done a fine job under 
extremely difficult circumstances, but he was disturbed by the lack of 
chemical weapons and the evidences of the poor use of smoke in the 
whole campaign. Like Copthorne, he was firmly convinced that the 
chemical officers should learn what effect gas would have in the tropics, 
and he agreed with Copthorne that the best place to find out was on 
the spot. While he believed defensive training was better than it had 
been in World War I, he was still concerned about the adequacy of 
both training and equipment since he believed the Japanese to be 
capable of using gas, and feared that even if they did not, some of the 
jungle odors might cause gas scares, which like an actual attack would 
result in panic if more specific training was not given. Riegelman 
reported his observations to his superiors and set to work in corps head- 
quarters to provide remedies to the problems he foresaw.29 
Copthorne likewise continued to be much concerned with the tactical 
problems of preparedness, but he believed that his position in USASOS 
prevented him from acting adequately in the tactical and planning 
field. In February 1943 he and his section moved up to the newly 
reconstituted U.S. Army Forces in the Far East, a headquarters some- 
what comparable to the army theater headquarters in Europe and 
North Africa. He took with him to Brisbane Lt. Col. John C. Morgan, 
28 King was later commissioned and served in the Sixth Army Chemical Section. 
29 (i) Riegelman, Caves of Biak, pp. 26-30. (2) Personal Ltrs, Riegelman to Waitt, 26 Jan 43, and 
Riegelman to Porter, 26 Feb 43. CWS 314.7 Pers Ltrs of Colonel Riegelman. ADMINISTRATION: PACIFIC 
201 
recently promoted, Major Enz, and three other officer assistants. Lt. 
Col. John C. Morcock, Jr., became Chemical Officer, USASOS, serving 
with Captain Williams and two other officer assistants. 
Copthorne still felt that he should be in GHQ where the chief 
engineer and chief signal officer resided but recognized that although 
the new USAFFE was a headquarters without tactical functions, it at 
least promised to offer a better place for gas warfare preparedness 
planning than USASOS.30 USAFFE headquarters did not offer chan- 
nels for formal co-ordination of the preparedness effort with Australian 
chemical warfare authorities. Although informal relationships with 
the Australians were good, Copthorne strongly felt that there should 
be a formal relationship, particularly since the Australians found it 
possible to communicate through their technical channels with the 
chemical warfare establishment in England, and thereby with the 
CWS and with the U.S. Chemical Warfare Committee in the United 
States. Copthorne himself had found neither a command nor a tech- 
nical channel which permitted easy communication with the technical 
and planning authorities in the United States.31 The Australians had 
established a Chemical Warfare Service early in 1942 which like the 
British counterpart was a joint effort of their army, navy, and air 
force. Lt. Col. F. S. Gorrill of the British establishment was on duty 
in Australia, and in 1943 he undertook an investigation of gas warfare 
in the tropics.32 
Staffing Problems 
The move to higher headquarters and the completion of the first 
theater gas warfare plan in March 33 again brought to the fore the 
problem, which had been troublesome from the beginning, of providing 
a chemical staff. Copthorne had still received no allotment of officers 
in which each officer was earmarked for the kind of job he was intended 
to fill. The only officers with appropriate rank, military education, 
and experience to fill the top positions were Col. Carl L. Marriott who 
arrived in April as Chemical Officer, Sixth Army, and Colonel Riegel- 
80 (1) History, Cml Sec USASOS. (2) Ltr, Copthorne to Hist Off, 22 May ji. 
31 Interv, Hist Off with Copthorne, 26 Apr 61. 
33 D. P. Mellor, "Australia in the War of 1939—45,” The Role of Science and Industry (Canberra: 
Australian War Memorial, 1958) pp. 372-76. 
33 Ltr, CinC GHQ SWPA to TAG, 7 Apr 43, sub: Theater Plans for Cml Warfare. GHQ AG 381 
(12-8-42)0 202 
THE CHEMICAL WARFARE SERVICE 
man. Both men already had important posts and were unavailable to 
the theater organization. By the end of July 1943, no requisition for 
CWS personnel channeled through the USAFFE G-i had yet been 
filled. Copthorne took the view that most of the young Reserve officers 
assisting him were doing excellent, and in some cases, outstanding work, 
but in implementing and revising the theater gas warfare plan and 
the training responsibilities which were growing daily, he had no one 
with sufficient rank and experience to handle the operations (planning) 
tasks. Furthermore, a large part of offensive gas warfare planning had 
to originate with the air forces where preparation for the retaliatory 
effort would be concentrated. Neither in USASOS nor in USAFFE 
did Copthorne have any power to control the Fifth Air Force, which 
reported to GHQ through Allied Air Forces. His relationship with 
Maj. Walter C. Weber, Fifth Air Force Air Staff chemical officer, was 
so cordial that he could practically consider him as an assistant, but 
Weber, then the only field-grade chemical officer in the Fifth Air 
Force, had his hands too full with supply and service functions to 
give any deep consideration to long-range planning.34 
In the face of such problems, Copthorne increased his strength as 
best he could. It had been demonstrated by the time of the move to 
USAFFE that the existing organization for securing chemical technical 
intelligence through unit gas officers and NCO’s was ineffective. Cop- 
thorne accordingly assigned Maj. John A. Riddick, who had been Enz’s 
assistant, to head a new Intelligence Section in his office. Fie charged 
Riddick with securing six junior officers and twelve NCO’s to organize 
and train six technical intelligence teams. Riddick found the officers 
and men and brought them into the USAFFE Chemical Section for 
training. At the same time the headquarters rule that all captured 
equipment must be channeled to the Australians was relaxed. The 
teams soon went out on attachment to combat units. Riddick compiled 
their findings, together with laboratory analyses and descriptions of 
captured enemy equipment, and forwarded the resulting report to 
chemical officers and unit gas officers as well as to the headquarters of 
other theaters and areas in contact with the Japanese.30 
At the same time the CWS SWPA began to rotate chemical officers 
among assignments so that as many officers as possible could have field 
34 Personal Ltrs, Copthorne to Waitt, 14 Jul 43; Copthorne to Porter, 27, 28 Jul 43. 
3“ (1) Copthorne Comments, 13 Jan 61. (2) Morgan, Comments, 9 Feb 61. ADMINISTRATION: PACIFIC 
203 
and staff experience. Lt. Col. 
Robert W. Smith became Mor- 
cock’s executive, and Maj. Irving 
R. Mollen came from Base Section 
3 to be his supply officer. The 
Melbourne base section chemical 
officer came in to be supply officer 
in the USAFFE section for a few 
months and then returned to Mel- 
bourne. Another field officer was 
assigned to a brief tour as opera- 
tions and training officer in the 
Chemical Section, USAFFE, be- 
fore becoming commandant of 
the school. Maj. Carl V. Burke 
replaced Colonel Morgan as exec- 
utive officer in the USAFFE sec- 
tion after Morgan became CWS 
Liaison Officer with the Australian Army, a position established in 
place of formal co-ordination. Colonel Willis moved from Brisbane 
to Townsville since Townsville was the base most actively in support 
of forward operations. Fie then served a short tour in the Advance 
Section, USASOS, in New Guinea, and returned to Townsville. 
Morcock moved out to become chemical officer of the Advance Section 
and Colonel Smith took his place in USASOS.36 
Colonel Marriott examining 
Japanese gas mask. 
Co-ordinating the Theater CWS 
Copthorne felt the CWS in the United States should provide gas 
warfare technical and preparedness doctrine for the tropics, or else 
that it should assist him and his colleagues in the Pacific areas in formu- 
lating such doctrine, but he was not satisfied that his appeals for help 
had received sufficient attention in the United States.37 Fie found 
communication with the Central Pacific Area chemical staff too diffi- 
cult in 1943 to offer adequate opportunity for co-ordinated study of 
chemical problems, but his colleagues in the South Pacific were closer 
38 (1) Information Bull, CWS Hqs USAFFE Nos. 8-16, xo May-10 Sep 4}. (2) Morgan Interv, 
10 Oct 45. (j) Burke Interv, 28 Jan 46. 
37 Copthorne Interv, 26 Apr 61. 204 
THE CHEMICAL WARFARE SERVICE 
and had more experience with tropical warfare so there the oppor- 
tunities for exchange of information seemed better. The Chemical 
Section, U.S. Army Forces in the South Pacific Area (USAFISPA), 
had been organized by Col. Leonard J. Greeley in August 1942. In 
November 1942 Greeley was designated Deputy Chief of Staff, 
USAFISPA, and Lt. Col. Joel L. Burkitt became chemical officer. 
While the USAFISPA Chemical Section had been hampered by short- 
age of manpower, lack of chemical materials, and the perpetual Pacific 
problems of difficulties in communication and transportation, its staff, 
as Copthorne knew, had kept in close touch with the combat organi- 
zation chemical officers.38 
Copthorne decided that he might be able to accomplish gas warfare 
doctrinal formulation by "committee.” He accordingly invited 
Greeley and Burkitt along with the principal chemical officers in 
SWPA to a conference at the SWPA CWS school from 1-3 July 1943. 
Col. Robert N. Gay, Chemical Officer, XIV Corps, then in SOP AC, 
joined Greeley and Burkitt. From SWPA came Marriott, Riegelman, 
Lt. Col. Lyle A. Clough, Chemical Officer, 3 2d Division, Lt. Col. 
James O. Andes, who was soon to replace Clough, and Major Arthur, 
along with principal members of the USAFFE and USASOS staffs. 
The conference first "defined” the tropics in terms of the effect of pre- 
vailing meteorological conditions and terrain on gas warfare. Next 
the conferees observed demonstrations of incendiary, flame, and smoke 
weapons and munitions. They then spent a day on tactical gas warfare 
requirements and a half a day on tactics of smoke employment. The 
meeting concluded with a half-day session on ammunition supply 
requirements. The principal value of the conference appears to have 
been that the chemical officers were able to agree on what they did 
and did not know. What they did know or were able to conclude 
concerning the performance of available munitions in the tropics was 
stated as area tactical doctrine for the employment of chemical agents 
and weapons. A list of items related to munitions performance char- 
acteristics about which they were in doubt was drawn up for investi- 
gation in the theater or referral to OCCWS.39 
As Riegelman expressed his views on the conference, "Everybody 
3S (i) CMLHO Biographical Sketches, (a) ist Ind, CG USAFISPA to TAG, i Apr 43, on Ltr, 
TAG to CG USAFISPA, 19 Dec 42, sub: Theater Plans for Cml Warfare. AG 381 (12-8-42) OB-S- 
E-M. (3) Interv, Hist Off with Col Nelson McKaig, USA (Ret.), 27 Apr 61. 
™Rpt of Conf of Cml Warfare Officers, 1, 2, 3 Jul 43, Cml Sec USAFFE, n.d. ADMINISTRATION: PACIFIC 
205 
profited enormously. Everybody contributed values from his own 
experience.” 40 But in retrospect, the conference was more significant 
than its immediate value in providing a forum for the exchange of 
experience and as a means of formulating temporary doctrine would 
indicate. Its significance lay in the fact that it presented practically 
the only means of integrating the CWS in SWPA. It accomplished 
for Copthorne a measure of the co-ordination of effort which Rowan 
achieved in the ETO through supply control and continuous personal 
liaison. It was less successful as a means of control than Rowan’s 
because a conference is a transitory affair, and in the SWPA the means 
of sustaining its co-ordinating benefits were few. The organization 
of the SWPA forces, the tremendous physical distances over which 
the forces in the theater had to move troops and materiel, and the 
continuing difficulty of communication within the theater and with 
the United States all militated against maintaining a continuously co- 
ordinated effort. Copthorne could only hope to provide a link between 
research and the firing line by enlarging and continuously revitalizing 
his two greatest sources of strength, control of technical intelligence 
and authority to advise on, and sometimes even to make, CWS per- 
sonnel assignments. He also still sought to build up the function of 
formulating supply policy and the capability of planning within his 
own staff. 
A temporary hitch in the operation of Copthorne’s plans came in 
September 1943 when he and the other service chiefs were transferred 
back to USASOS. Except for about two weeks’ confusion attendant 
upon the move, the transfer had little impact on Copthorne’s functions 
because the promise of improved prestige and capability and of better 
lines of communication in USAFFE had not been fulfilled. An officer 
remained in the G—4 office in USAFFE as CWS representative. The 
reorganized USASOS office included Enz, Burke, and Riddick in their 
respective technical, training, and intelligence positions. Smith became 
supply officer and Mollen remained as his assistant. A lieutenant colonel 
recently arrived from the United States became operations and training 
officer. Two other officers and two warrant officers completed the 
section. Intelligence trainees were transferred to the 4id Laboratory 
for further training.41 
40 Personal Ltr, Riegelman to Waitt, 9 Jul 43. 
41 Info Bull, CWS USASOS, No. 18, 25 Oct 43. 206 
THE CHEMICAL WARFARE SERVICE 
Preparedness—The Theater CWS Situation at the End of 194} 
After the period of adjustment, prospects for the chemical section 
became brighter. Lt. Col. John P. Youngman, a supply officer with 
considerable background and experience whom Copthorne had long 
wanted in the theater, arrived from the United States to take over 
the supply position. Colonel Smith became Copthorne’s deputy. Maj. 
Jack F. Lane, a young officer with a training background, arrived to 
take a training center assignment. Lt. Col. Augustin M. Prentiss, Jr., 
a vigorous, young (28 years old) Military Academy graduate with in- 
fantry, CWS, and air experience, also arrived from the United States 
to become Chemical Officer, Fifth Air Force. Major Weber became 
Chemical Officer, V Air Force Service Command, thus giving Prentiss 
an opportunity to devote his time to planning and policy.42 
Lt. Col. Donald G. Grothaus and Maj. Richard T. Brady of the 
Field Operations staff, OCCWS, agreed with Copthorne’s estimate of 
his problems and accomplishments during their visit to the theater 
late in 1943 and early in 1944. Grothaus agreed with Copthorne that 
the Pacific was the most likely area for the initiation of gas warfare, 
and he pointed out, as Copthorne had, that the CWS deficiency of 
knowledge as to the employment of gas in the tropics was a serious 
drawback in planning and could well be a vital defect should actual 
gas operations commence.43 He also noted that Prentiss was hampered 
in planning for gas warfare retaliation by a lack of information on 
the effectiveness of toxic munitions in a tropical environment. 
Grothaus praised Copthorne’s policy of setting the service units, 
such as the chemical laboratory, to work on any technical problem 
within their range of competence whether the solution would have 
chemical significance or not. He believed that these services performed 
for a number of theater elements had added significantly to the respect 
for and acceptance of the CWS in the theater. Other factors increasing 
respect resulted from four successful Fifth Air Force smoke operations 
43 (1) Info Bull, CWS USASOS, No. 19, 25 Nov 43. (2) Personal Ltr, Copthorne to Porter, 24 
Nov 43. 
43 The following remarks on Grothaus’ and Brady’s estimate of the situation are drawn from: Grothaus 
and Brady, OCCWS to CCWS through ACCWS Field Opns, 29 Mar 44, Rpt on Visit to SWPA, SOPAC, 
and CENPAC (hereafter cited as Grothaus-Brady Rpt). CWS 314.7 Observer Rpts. While Grothaus 
and Brady worked part of the time as a team, Brady was charged only with the investigation of technical 
intelligence and wrote only that portion of the report. ADMINISTRATION: PACIFIC 
207 
in New Guinea,44 and from excellent liaison with the Australian forces. 
One CWS officer, Capt. Howard E. Skipper, had been sent to work 
in the Australian Chemical Warfare experimental station, and Grothaus 
believed that the CWS should provide more help, both in manpower 
and materials, to further the Australian experiments on gas in the 
tropics. Another source of increased respect was the record of the 
4.2-inch chemical mortar battalion in the South Pacific Area. In the 
United States this mortar battalion had been assigned to SWPA, but 
since the SWPA chemical staff was not informed that the unit was 
authorized to fire high-explosive shells nor that such shells were 
available, the battalion had been given so low a movement priority as 
a gas warfare unit that it was diverted to SOPAC.4> Reports filtering 
into SWPA on the effectiveness of the chemical mortar using high- 
explosive shells made several ground commanders eager to obtain bat- 
talions for their own employment. On the debit side, Grothaus, again 
as Copthorne had, deplored the poor condition of CWS materiel 
arriving in the theater and indicated that OCCWS action to improve 
the situation was imperative. Also, despite some recent improvements 
in the manpower situation, SWPA still had a greater shortage of 
experienced officers than any other major theater. While strict theater 
personnel ceilings prevented large additions to the theater CWS com- 
plement, Grothaus was of the opinion that in future shipments 
OCCWS could do much to make up in quality what was lacking 
in quantity. 
Major Brady, whose specific mission was to investigate intelligence, 
was so impressed with Major Riddick’s accomplishments that he for- 
warded to OCCWS Riddick’s schedule for training technical intelli- 
gence teams. Brady recommended that these teams be trained in the 
United States. He visited some of the teams which had begun to 
operate in forward areas with command sanction early in November 
and approved their activities.40 The intelligence teams were a valuable 
aid to the CWS SWPA for the remainder of the war. Copthorne later 
”(1) Prentiss personally supervised these four operations and flew in the lead plane on the first one. 
Prentiss Interv, 25 Oct 61. (2) For details on one of these operations at Lae, see below, Chapter X. 
Copthorne Comments, ij Jan 61. 
IG Personal Ltr, Riddick to Morgan, 14 Nov 43, inclosing: (1) Ltr, AG USAFFE to CG USASOS: 
9 Nov 43, sub; Responsibility for Technical Intelligence, FEGC 323.361; (2) Memo for Red, Riddick. 
12 Nov 43, sub; Conf with Col E. R. Thorpe, ACofS G—2 USAFFE. 
289-149 0-68—15 208 
THE CHEMICAL WARFARE SERVICE 
commented that the organization for intelligence was so effective that 
it should stand as an example for all similar theater activities.47 
CWS, Southwest Pacific Area, 1944-45 
The year 1944 was somewhat paradoxical for the Office of the Chief 
Chemical Officer, USASOS. On the one hand, the supply situation 
was good; the condition of equipment had improved; planning capa- 
bilities improved throughout the year; training was progressing 
smoothly; technical intelligence was working well; and technical in- 
vestigations continued to produce worthwhile information. On the 
other hand, until late in the year, the advance of forces toward the 
Philippines put increasingly greater distances between Copthorne’s 
immediate staff and the CWS in the field, thereby making communica- 
tion increasingly more difficult. Even the advanced echelons of 
USASOS communicated more readily with the combat forces than 
with their own main echelon. Thus, while the USASOS Chemical 
Section was successfully accomplishing its aims and missions, the chief 
chemical officer, because of the organization of the theater and its 
physical setup, had a less important role in the operation of the theater 
CWS as a whole. (Chart 7) 
A Solution for Technical Planning Problems 
Copthorne made a trip to Washington in the spring of 1944 for 
consultations in OCCWS, where he gave special attention to his man- 
power and planning problems. Lt. Col. William A. Johnson, an officer 
whom Copthorne had several times requested, arrived in the theater 
during Copthorne’s absence to take over the operations and training 
functions. In June the theater gas warfare plan was revised, and the 
revision indicated a considerable improvement in the theater situation 
both with respect to supply and plans. Technical and munitions per- 
formance information was still deficient, but a team of two officers 
sent out to SWPA by OCCWS had made a preliminary survey of 
requirements for information on gas warfare in the tropics just before 
Copthorne’s departure, and OCCWS was soon to set up a project for 
assessment of gas in tropical situations in the western hemisphere.48 
4‘ Copthorne to Hist Off, 22 May 51. 
48 (1) Info Bulls, CWS USASOS, Nos. 24 and 25, 25 Apr and 25 May 44. (2) History of the Cml 
Sec USASOS, Mar 44-Jul 45. USASOS Mil History Rpts. Command Channel 
Staff Channel 
Liaison or Technical Channel 
Chart 7—Organization of Chemical Section, Headquarters, United States Army Services of Supply 
Southwest Pacific Area, 1 June 1944 
Supply and 
Services 
Operafing and 
Training 
Legend: 
Deputy Chemical Officer 
and 
Executive Officer 
Chemical Officer 
Chemical 
Officer 
Branches 
Technical 
Intelligence 
Alamo 
Force 
(Sixth Army) 
Liaison Officer 
to G-4, USAFFE 
Technical 
Advisory 
Source: Adapted from; SWPA Personnel and Administration, CWS 314.7; Organizational Man- 
ual, U.S. Army Services o( Supply, SWPA, revised 1 Jun 44, ASF 200; Cannon, Leyte: Return 
to the Philippines, p. 25. 
Allied 
Naval 
Forces 
Personnel and 
Administration 
Allied 
Land 
Forces 
Commander in Chief 
General Headquarters 
Southwest Pacific Area 
Chief of Staff, GHQ 
General Staff, GHQ 
Chemical 
Officer 
Allied 
Air 
Forces 
U.S. Fifth 
Air 
Force 
Distribution 
Division 
USASOS 
Chemical 
Branch 
Commanding General 
United States Army 
Forces, Far East 
Chief of Staff, USAFFE 
General Staff, USAFFE 
Commanding General 
U.S. Army Services 
of Supply, SWPA 
Chief of Staff, USASOS 
Procurement 
Division 
USASOS 
Chemical 
Branch 210 
THE CHEMICAL WARFARE SERVICE 
By the end of 1944 the SWPA gas warfare planning enterprise at 
last reached the echelon where it had been in theory but not in fact 
for three years.49 Copthorne personally went on temporary duty with 
G-3, GHQ, to make another revision of the gas warfare plan. This 
superior headquarters could co-ordinate the activities of the ground, 
naval, air, and service commands affecting plans for gas warfare. The 
remaining technical problems were also approaching solution. In 
November 1944 the theater and the Allies concurred in a proposal 
forwarded to the theater by General Waitt for the establishment of a 
Far Eastern Technical Unit (FETU) to investigate the performance 
of toxics and toxic munitions in the theater. Enz had originally sug- 
gested such an establishment to OCCWS. FETU, under the command 
of Lt. Col. John D. Reagh, completed its tests and analyses during 
1945 and in the process furnished needed planning data to the theater. 
The unit employed officers and civilian scientists from the United States 
and drew upon the theater CWS for assistance, service, and supply.50 
Theater Training—Final Phase 
The Chemical Warfare Service training center continued to be a 
SWPA focus for chemical training during 1944 although corps and 
division courses had become common in the latter half of 1943. Early 
in 1944 the distance of most combat units from Australia made it 
impractical to send large groups back to Brisbane. A new Chemical 
Warfare Service training center was therefore established at Oro Bay 
in New Guinea. At first the school remained at Brisbane, but gave 
some assistance in conducting courses at Oro Bay. About the middle 
of 1944, a little less than two years after its establishment at Brisbane, 
the school moved to Oro Bay where it remained until early in 1945. 
The Chemical Warfare Service Training Center and the school were 
subsequently re-established in the Manila area, but the war ended 
before the school was in full operation.51 
In the Oro Bay location, the training center and school came under 
the jurisdiction of the Chemical Officer, Intermediate Section, USA- 
SOS. Intermediate Section (later New Guinea Base Section) was a 
forward area service and supply command with jurisdiction over all 
49 SWPA gas warfare plans from the first officially emanated from GHQ. 
50 (1) History, Cml Sec USASOS, 44-45. (2) FETU’s Rpts and Corresp. CWS 314.7 FETU. 
61 (1) History, Cml Sec USASOS, 44-45. (2) Burke Interv, 28 Jan 46. ADMINISTRATION: PACIFIC 
211 
but the most forward bases. Copthorne had secured the transfer of 
Colonel Gay from SOP AC to SWPA in December 1943 to be Chemical 
Officer, Intermediate Section. In January 1944 Colonel Gay became 
chemical officer of an advanced headquarters of USASOS and Burke, 
recently promoted to lieutenant colonel, became Intermediate Section 
chemical officer. In this position, Burke was in charge of direct support 
to the combat forces as supplied by the New Guinea bases. This was 
a difficult position since the occupant in effect served two masters. 
General instructions and command came from USASOS, but decisions 
on allocation of resources and requests for supply, services, and training 
came primarily from Sixth Army.1’2 
The CWS in the Combat Forces, 1944-45 
The SWPA combat forces had from the beginning enjoyed a greater 
degree of independence than most similar forces elsewhere in the world 
because the nature of the area, as noted earlier, made closely co-ordi- 
nated operation extremely difficult. The independence, at least with 
respect to chemical matters, increased throughout 1944. Sixth Army 
was the principal U.S. Army ground combat organization in the 
theater in 1944, although Eighth Army was to be organized late in 
1944 and to become operational in i945-u3 Colonel Marriott presided 
over the Sixth Army chemical establishment. Maj. Leonard L. Mc- 
Kinney was assistant, deputy, and frequently operations officer, for 
Colonel Marriott.'4 The Sixth Army Chemical Section included a 
supply officer with one or sometimes two assistants, and usually an 
operations officer. Colonel Marriott was invalided home in mid-1944 
and was replaced by Col. John R. Burns.^ 
The Sixth Army Chemical Section had a major hand in determining 
tactical policy, and it not only allocated incoming resources among 
the supporting bases, but also allocated resources among subordinate 
combat organizations. The allocation duties meant distributing to 
Sixth Army organizations such combat units as the chemical mortar 
62 (1) Ltr, CmlO Intermediate Sec USASOS to CmlO’s Bases A, B, D, E, F, x Apr 44, sub: Ltr of 
Instr. ISCW 300 in Unit Files, 93d Cml Composite Co. (2) Burke Interv, 28 Jan 46. (3) Willis-Gay 
Interv, 12 Jun 50. 
53 See Robert Ross Smith, The Approach to the Philippines, UNITED STATES ARMY IN WORLD 
WAR II (Washington, 1953), pp. 278, 45on. 
54 (1) Col Harold Riegelman, MS, Admin of CW Functions in Theaters of Opns—SWPA. (2) 
CMLHO Biographical Sketches. 
55 CMLHO Biographical Sketches. 212 
THE CHEMICAL WARFARE SERVICE 
battalions, which belatedly became available to the theater with the 
activation of one battalion and the arrival of another in mid-1944, 
and of such service units as were available. But service units were not 
readily available. When, late in 1943, Marriott asked Copthorne how 
he might obtain one of Copthorne’s service units, Copthorne wrote, 
"y°u might just as well have nonchalantly asked me how you could 
get my right arm or even my bed at Lennon’s.” 06 Copthorne was 
understandably reluctant to give up any service unit since USASOS 
units were already thinly spread in detachments in an attempt to meet 
supply and service requirements. But even had he been willing and 
able to release a unit, the organizational cleavage between service and 
combat forces was so deep that USASOS did not feel that it was 
responsible for supplying units to the combat forces. It was USASOS 
policy to retain its badly needed units.57 Eventually, USASOS policy 
was changed to permit the release of one unit in January.08 Sixth Army 
parceled out this unit, and later others, in detachments to divisions to 
service flame throwers, recondition shell, and handle supply. These 
detachments were subsequently converted into cellular units, that is, 
units composed of smaller self-supporting elements, to perform the 
same functions. 
Colonel Burns and Col. Ralph C. Benner, Chemical Officer, Eighth 
Army, continued to work on the problems of chemical tactical policy 
and of allocation of men, units, and materials for the remainder of the 
war in the Pacific. They had the job of receiving and evaluating plans 
and requirements which originated in echelons subordinate to the army 
headquarters. They, in turn, translated these plans and requirements 
into the concepts of the whole organization, co-ordinated them through 
staff in their own headquarters, and dispatched them through command 
channels to GHQ. Using both technical and command channels, the 
Army chemical officers received reports of chemical activities and 
problems and maintained continuous inspections to insure the greatest 
possible effectiveness at field levels.59 
Below army level, 1944 and 1945 saw the culmination of a great 
change which had taken place since the tragic and heroic improvisa- 
56 Personal Ltr, Copthorne to Marriott, 19 Nov 43. Sixth Army Cml Sec Memos. (Lennon’s was 
the best hotel in Brisbane and a highly prized officer’s billet.) 
57 Ibid. 
58 History, Cml Sec USASOS, 44-45. 
69 (1) Riegelman, Admin of Cml Warfare Functions in Theaters of Operations—SWPA. (2) Interv, 
Hist Off with Lt Col Leonard L. McKinney, 12 Jan 46. ADMINISTRATION: PACIFIC 
213 
tions of the 3 2d Division Chemical Section in the Papua Campaign. 
USASOS and Sixth Army managed during 1943 and early in 1944 to 
obtain a sufficient supply of essentials such as smoke pots, hand gre- 
nades, 4.2-inch chemical mortar shells, and individual protective equip- 
ment. Colonel Riegelman in I Corps and his subordinates in the 
divisions plunged into training and tactical work, and by the time 
of the Hollandia operation early in 1944, they had defensive training 
of the individual soldier well in hand.60 I Corps had also officially 
adopted a policy of using smoke shell to provide a target area marking 
system. Riegelman secured approval for the concept of attaching a 
mortar company to each assaulting division under the operational 
control of the division chemical officer. The misuse of smoke conceal- 
ment which Riegelman had found in his first tour in New Guinea had 
been corrected by troop training and by orienting commanders.61 
Flame thrower techniques had also been perfected, and the weapon 
itself had been improved through the extraordinary efforts of both 
USASOS and field chemical officers and men. The weapon still had its 
faults and maintenance and repair problems were to plague SWPA 
forces for the duration of the war. With respect to tactical employ- 
ment of the flame thrower, Sixth Army declared that the weapon 
logically belonged with the infantry rather than with the engineers, 
who had brought it into the Pacific. Both Sixth Army and I Corps 
developed an infantry team for the tactical employment of the flame 
thrower, and Sixth Army officially set up a team training program 
which was materially aided by a roving demonstration team organized 
by Colonel Gay in the USASOS advanced echelon.62 
Other corps chemical officers, Col. Francis H. Phipps, X Corps, Lt. 
Col. John L. Bartlett, XI Corps, and Lt. Col. Richard R. Danek, XIV 
Corps,63 like Riegelman who was replaced by Col. Frank M. Arthur 
in 1945, for the most part performed tactical and training functions. 
They concerned themselves with supply only with respect to critical 
,0For information on the campaigns in this period, see Smith, The Approach to the Philippines. 
61 (1) Riegelman, Caves of Biak, pp. 64-65, 70-74, 87-96. (2) Interv, Hist Off with Col Harold 
Riegelman, USAR (Ret.), 10 Oct 56. 
62 (1) Riegelman, Admin of Cml Warfare Functions in Theaters of Opns—SWPA. (2) Willis-Gay 
Interv, 12 Jun 50. (3) Burke Interv. 28 Jan 46. 
63 XIV Corps transferred from SOP AC to SWPA. Col. Hugh M. Milton II, corps chemical officer in 
SOPAC, became corps ACofS, G-4, and subsequently corps chief of staff. Col R. N. Gay, XIV Corps 
chemical officer, was succeeded by Lt. Col. William H. Shimonek who returned to the United States in 
1944 and who was replaced by Danek. 214 
THE CHEMICAL WARFARE SERVICE 
items, such as the gas mask and 4.2-inch mortar shell, or in emergency 
situations. Depending on the training and talents of each officer, corps 
chemical officers also performed a variety of staff and operating tasks 
not directly related to chemical warfare or completely unrelated, 
depending upon their capabilities. Riegelman, who had been an 
infantry officer as well as a gas officer in World War I, did a study 
on the reduction of Japanese cave defenses on the island of Biak, an 
operation which had combined infantry and chemical techniques.64 
Division chemical officers had their hands full.60 As their top priority 
function, they were directly responsible for gas warfare training of 
every man in the division. They accomplished what training they 
could through their own sections and also made use of traveling train- 
ing teams. By these means and by sending quotas (ideally, one officer 
per company and one noncommissioned officer per platoon) of unit 
gas officers and gas noncommissioned officers to theater and other 
schools, they could train UGO’s and UGNCO’s and in turn help them 
establish unit schools and training periods. The training activity was 
a constant one since malaria, battle casualties, and ordinary shifts in 
personnel frequently necessitated the establishment of an entire new 
roster of UGO’s and UGNCO’s who would likewise be required to 
give instruction down to the last private in the last squad. Corps 
chemical officers and command inspectors checked on divisional chem- 
ical training periodically. 
The division chemical officer’s duty of next priority was supply. 
He cleared requirements statements for gas masks and other protective 
supplies, smoke pots, grenades, mortar shell, and various items of chem- 
ical equipment with the division G—4, and, if necessary, with the 
Ordnance and Quartermaster officers. When supplies were received 
64 (1) Riegelman, Admin of Cml Warfare Functions in Theaters of Opns—SWPA. (2) Riegelman, 
Caves of Biak, pp. 140-55. (3) USAFFE Board, n.d., Rpt 126 (Japanese Cave Defenses). 
65 This account of the duties of the division chemical officer is based on: (1) Riegelman, Admin of 
Cml Warfare Functions in Theaters of Opns—SWPA; (2) Memo, Arthur for Flist Off, 21 Nov 45, 
sub; Review of Col Riegelman’s Paper, Admin of Cml Warfare Functions in Theaters of Opns—SWPA 
(Colonel Arthur was Chemical Officer, 41st Infantry Division and I Corps); (3) Memo, Lt Col 
Maurice A. Peerenboom for Hist Off, n.d. (Colonel Peerenboom served as Chemical Officer, 3 2d Infantry 
Division in 1943); (4) Personal Ltr, Maj David D. Hulsey to Waitt, 3 Jun 45, in CWS 314.7 Pers Ltr 
File (Misc) WESPAC, AFPAC, SPEC (Maj Hulsey was Chemical Officer, 6th Infantry Division); 
(5) Interv, Hist Off with Lt Col James P. Sutton, 18 Dec 45 (Colonel Sutton was assistant chemical 
officer and assistant to the Chief of Staff, I Corps, and subsequently the 32d Division chemical officer); 
(6) Memo, Capt John M. McDonald, OpnsO, for Col Burns, CmlO Sixth Army [1 May 45], in 
Sixth Army 333 Inspections; (7) Riegelman, Caves of Biak, passim; (8) Riegelman Interv, 10 
Oct 56. ADMINISTRATION: PACIFIC 
215 
or in transit, the chemical schedule in loading, storage, issue, and service 
plans had to be cleared again with general and special staff officers, and 
the actual operation of supply followed down to the regimental and 
special staff levels. Division chemical officers in the Pacific found that 
co-operative plans, sometimes employed in other theaters, for combin- 
ing chemical issue and service operations with those of ordnance or 
engineer sections seldom worked since these services normally used 
their own resources to the limit. Since, in such combined arrangements, 
the chemical sections relied heavily on the facilities and services which 
Ordnance and Engineers provided in the Pacific, the division chemical 
officer acquired the additional duty of securing and supervising his 
own service detachments which occasionally worked as far forward 
as regimental supply to issue chemical materials, service flame throwers, 
and handle mortar shell. The assistant division chemical officer often 
devoted full time to supply and service which included field improvisa- 
tion or adaptation of materiel. 
Planning, staff, and advisory functions also occupied the chemical 
officer—at least part of the time. Some of this work was chemical; 
some was not. The division chemical officer might find himself assigned 
to liaison, reconnaissance, or observer duties, or he might move out of 
the staff field into the supervision of combat loading or beach discharge 
of cargo. Lt. Col. Nelson McKaig, 25 th Division chemical officer, an 
agricultural chemist in civilian life, inspected and supervised divisional 
food preparation and spent a considerable period setting up a divisional 
rest camp on Luzon. There were always the additional details that 
every staff member drew, such as sitting on courts-martial, assisting 
in command inspections, acting as fire hazards inspector, savings bond 
officer, and the like. There was an initial impression that the chemical 
officer had little to do in the absence of gas warfare, so that the division 
chemical officers may have been assigned a proportionately larger 
number of staff, command, and operating details than their colleagues. 
Some division chemical officers, like their colleagues in Europe, wel- 
comed such details because of the opportunity, lacking in the course 
of ordinary chemical activities, to keep in touch with members of the 
staff and subordinate units. Some believed, as did Colonel Copthorne, 
that any service rendered by the CWS increased the prestige and ac- 
ceptability of the service. 216 
THE CHEMICAL WARFARE SERVICE 
A Second Theater GW'S 
Conference 
To return to the theater level, 
the respect for the service was in- 
creasing, and after the middle of 
1944, Copthorne again laid plans 
for co-ordinating the chemical 
warfare effort for the Pacific 
through the best means available 
to him—a service conference such 
as the one which had been so suc- 
cessful in 1943. The second the- 
ater CWS conference, held from 
10-13 October at Oro Bay under 
the official direction of Maj. Gen. 
J. L. Frink, Commanding General, 
USASOS, was considerably more 
extensive in scope than the pre- 
vious conference, but the theme 
was still the tactical employment of chemical warfare, including aerial 
and land smokes and incendiaries, the chemical mortar, and the flame 
thrower.66 
Colonel Copthorne (left) With 
General Waitt at Colonel Cop- 
thorne’s Oro Bay quarters in October 
1944. 
General Waitt and Lt. Col. Jacob K. Javits attended as representa- 
tives of OCCWS. Col. George F. Unmacht, Chief Chemical Officer, 
U.S. Army Forces, Pacific Ocean Areas, and Colonel Greeley repre- 
sented POA, while Colonel Kellogg and others represented the China- 
Burma-India theater. The Australian Army, the American corps, 
divisions, and chemical mortar battalions also sent chemical officer 
delegates as did USAFFE and USASOS. The Navy sent some of its 
officers having chemical duties. Colonel Prentiss, now Chemical Officer, 
Far East Air Forces (a headquarters supervising the Fifth and Thir- 
teenth Air Forces) attended with other representatives of the air 
forces. Also present were Dr. W. A. Noyes and several other civilian 
scientists of the National Defense Research Committee. 
The conference made a series of recommendations that were con- 
siderably more authoritative than those of the earlier conference. The 
66 This paragraph and the following account are based on: Rpt, CWS Conf, USASOS SWPA. CWS 
JI4-7- Chemical Warfare Officers During the Oro Bay Conference, October 1944 218 
THE CHEMICAL WARFARE SERVICE 
conferees sought a simple table of toxic ammunition requirements 
based on operational trials under tropical conditions. This, as already 
indicated, they were soon to get.67 They asked for new aerial toxic 
munitions, impregnated clothing with increased durability, new gas 
grenades, and tactical training material reflecting the behavior of 
chemical agents in the tropics. Other requests were for more man- 
power for mortar battalions, improved mortars, more spare parts, 
more and improved field equipment and munitions. But the signifi- 
cance of this conference, as of the previous one, was not so much in 
what was recommended and requested as it was in the indication of 
joint effort and the revelation of considerable technical knowledge, 
much of which had been accumulated through considerable effort and 
three years of theater experience. General Waitt was particularly 
impressed by the fact that the conference permitted an exchange of 
views and experiences among chemical officers of all the Pacific areas, 
and he noted that the presence of individuals from the United States 
tended to lessen the view held by some theater officers that they had 
been neglected by OCCWS.68 
The Office of the Chief Chemical Officer—Final Phase 
In September 1944 Colonel Copthorne and a part of his section 
moved to Hollandia and in October the remainder of the section 
followed from Australia. This office in Hollandia served as the base 
for setting up the Philippine operation. Copthorne visited Leyte during 
the campaign in December, and early in February moved his office to 
that island. These moves placed the USASOS Chemical Section nearer 
the nerve center of the theater and considerably eased communication 
with the forward elements. But even better things were to come. At 
the end of March the office of the chief chemical officer moved with 
the advanced echelon of USASOS to Luzon. Here command, service, 
and supply activities were being centered, and, while the chief chemical 
officer still had no official control or function outside of USASOS, his 
technical ties and his supervision of theater gas warfare planning at 
last gave him a very effective tool for controlling the theater CWS.69 
07 See above, pp. 208-10. 
68 Waitt, 25 Nov 44, Preliminary Rpt on Situation in POA and SWPA Based on Visit to SWP A and 
POA, 24 Sep-21 Nov 44. 
69 History, Cml Sec USASOS, 44-45. ADMINISTRATION: PACIFIC 
219 
General MacArthur was named, after the return to the Philippines, 
to command the U.S. Army Forces, Pacific (AFPAC), with jurisdic- 
tion over all Pacific theaters. In July 1945 Copthorne achieved what 
since April 1942 he had considered to be his rightful place—he was 
named Chief Chemical Officer, AFP AC. He finally had technical 
control of the CWS not only in the service command but also in the 
air forces and the ground forces.70 Of the theater chemical officers 
in World War II only General Shadle as Chief Chemical Officer, AFHQ, 
enjoyed a comparable official position. 
The war in the Pacific ended in September. Most of the officers who 
had served Copthorne during the long period of the war had already 
returned to the United States, but he remained as Chief Chemical 
Officer, AFP AC, until October 1945 when he was succeeded in turn 
by Col. Sterling E. Whitesides, Jr., and by General Loucks, both of 
whom served brief tours. Brig. Gen. Egbert F. Bullene served from 
July 1945 to March 1946 as Chemical Officer, Army Forces, Western 
Pacific—the administrative, supply, and service command which was 
organized to succeed USASOS in supporting the invasion of Japan but 
which was diverted instead to closing out the activities of SWPA or 
rebuilding them to suit occupation needs. Until his departure Cop- 
thorne worked, in a new context, on the same kind of problems which 
had occupied his attention since February 1942; he requested and 
assigned personnel, made plans, traced supplies, sought information, 
established intelligence procedures, and tried to put the CWS com- 
ponent of the occupation forces on a firm technical footing.71 
Organizing the Chemical Warfare Service, Hawaiian Department 
The Emergency 
Lt. Col. George F. Unmacht, Chemical Officer, Hawaiian Depart- 
ment, was having breakfast on the morning of 7 December 1941 when 
70 (1) GHQ AFP AC GO 73, 2 6 Jul 45. (2) GHQ AFPAC Staff Memo 15, 14 Jul 45. (}) Ltr, 
CCmlO AFPAC to CmlO’s, Sixth, Eighth, and Tenth Armies, FEAF, AFWESPAC, 2 Aug 43, sub: 
Corresp with the CCWS. AFPAC C¥ 312.3 in CWS 314.7 Misc Files, WESPAC, AFPAC, SPEC. 
71 (1) Personal Ltrs, Waitt to Copthorne, 4, 17, 29 Aug, 25 Sep, 4, 5 Oct 45. (2) Personal Ltrs, 
Copthorne to Waitt, 17, 19, 29 Aug 45. (3) Ltr, CCWS to CCmlO AFPAC, 23 Aug 45, sub: 
Request for Publications. (4) Ltr, CCmlO AFPAC to CCWS, 12 Aug 45, sub: Japanese Sniff Set. 
AFPAC CW 386.3. (5) Ltr, CCWS to CCmlO AFPAC, 25 Sep 45, sub: Post-Hostilities Cml Warfare 
Mission. (6) Ltr, CCmlO AFPAC to CCWS, 31 Oct 43, sub: Misc Info. AFPAC CW 330 (31 Oct 
43). (3)> (4)> (5)> and (6) *n CWS 314.7 Misc Files WESPAC, AFPAC, SPEC. 220 
THE CHEMICAL WARFARE SERVICE 
he saw Japanese planes dropping bombs.72 Within half an hour, 
Unmacht reported to the department headquarters from his office at 
Fort Shafter and directed Maj. James M. McMillin, Commanding 
Officer, Hawaiian Chemical Warfare Depot, Schofield Barracks, to 
begin issuing service gas masks to departmental troops then equipped 
with training masks. Lt. James E. Reilly and the men of the 5 th 
Chemical Service Company (Aviation) on duty at Hickam Field also 
saw the attack and sprang into action. They shot down one of the 
attacking planes.73 
Hawaiian Department authorities at the time feared that other air 
attacks would be made and that these attacks would include the use of 
gas. Unmacht’s first responsibility, therefore, was to prepare against 
aerial gas attack. Leaving M/Sgt. Ralph I. Libby in charge of the 
Fort Shafter office, Unmacht reported to the departmental advance 
command post at Aliamanu crater. By noon he had telephoned all 
CWS staff officers and units on Oahu and had made sure that all were 
preparing for gas attack. The CWS officer ranking next to Unmacht, 
Lt. Col. Maurice E. Jennings, Chemical Officer, Hawaiian Air Force, 
also reported to the advance command post, with an enlisted assistant. 
Lieutenant Reilly and Lt. Melvin F. Fincke remained at Hickam Field 
while Lt. Willard H. Blohm took up duty at Wheeler Field. The CWS 
officers with the air force had the assistance of the chemical aviation 
company. Major McMillin and 1st Lt. William J. Tanner continued 
to operate the depot at Schofield Barracks where Capt. Howard S. 
Leach, Commanding Officer, Company A, 1st Separate Chemical Bat- 
talion, was, in addition to his other duties, post chemical officer. The 
men of Company A, whose second in command was 1st Lt. Rubert D. 
Chapman, were assigned to guard the depot, haul munitions, and fur- 
nish details for the post. 
Maj. John H. Becque, Chemical Officer, 25th Infantry Division, 
was on duty at the Aliamanu crater post with the division staff. 
Unmacht secured the appointment of 1st Lt. Woodson C. Tucker as 
Acting Chemical Officer, 24th Infantry Division, which lacked a 
72Unless otherwise noted, this and the following sections are based on History of the Chemical Warfare 
Service in the Middle Pacific, a 5-volume collection of journals, historical reports, and documents com- 
piled and edited under the direction of Capt. Jerome K. Holmes, Chief, Intelligence and Technical Di- 
vision, Chemical Office, Headquarters U.S. Army Forces, Middle Pacific, 1946, OCMH. 
73 Chronological history of the chemical office, Hawaiian Department to Middle Pacific, History of 
Cml Sec, USAFMIDPAC, vol. I, sec. II. Lieutenant Reilly was awarded the Legion of Merit for his 
performance on 7 December 1941. ADMINISTRATION: PACIFIC 
221 
chemical section, on the afternoon of 7 December. Unmacht was him- 
self joined that afternoon by 1st Sgt. Roland P. Fournier and one 
other enlisted man. These 11 officers and approximately 375 enlisted 
men made up the CWS, Hawaiian Department, until 11 December 
when 2 Reserve officers reported for duty. 
During those first few days the CWS established several supply 
points in addition to the depot and, with the help of a Civilian Con- 
servation Corps company, completed the issue of service masks. 
McMillin also put into operation a reconditioned impregnating plant, 
a chloride of lime production plant, and a toxic land mine and shell- 
filling plant, all of which had been refurbished in the month before 
the attack.'4 One Reserve officer at once began converting a plant of 
the Pacific Guano and Fertilizer Company, of which he had been an 
employee, to the production of bleach. 
Civil Defense 
Since the CWS had the only available supply of sirens and horns, 
intended to be used as gas alarms, these were distributed as warnings 
for air attack pending the acquisition of an air alert system from con- 
tinental United States. The CWS reconditioned training masks turned 
in by troops and reissued them to the home guard, civil defense officials, 
police, firemen, public utilities employees, and other civilians in key 
positions. At the cabled request of the Hawaiian Department, the 
Chief CWS gathered 478,000 new and used training masks in the 
United States and shipped them to Hawaii. When these masks began 
to arrive early in 1942, Unmacht’s men set civilian crews to work 
reconditioning the masks and modifying them with sponge rubber 
padding to fit oriental faces and the faces of children. Civilian masks 
were issued through first aid stations. 
Unmacht and nearly all of his officers, including several newcomers 
in the theater, together with 2d Lt. Edouard R. L. Doty, who gave up 
the post of territorial civil defense director to be commissioned, became 
involved in extensive civil defense training. Unmacht, promoted to 
colonel on 12 December 1941 and made territorial co-ordinator for 
gas defense in January, gave almost 300 public talks and radio broad- 
casts. A total of 68,000 civilians attended schools for specialized 
chemical warfare defense. After the middle of 1942 civil defense ac- 
74 Personal Ltr, Unmacht to Porter, to Nov 41. CWS 210.3/234. 222 
THE CHEMICAL WARFARE SERVICE 
tivities began to decrease, but civil defense training continued until 
mid-1943.70 
Organization—Departmental Chemical Office 
Meanwhile, in February 1942, Unmacht reorganized his immediate 
office, which in December had consisted only of Libby’s Administrative 
Section, to include an Administrative Section under a civilian employee, 
Miss M. Allegra Clifton, a Training and Civil Defense liaison Section 
under Lieutenant Doty and a Supply Section under Lieutenant Libby, 
recently commissioned. In July a further reorganization introduced 
an executive officer, Capt. James H. Batte, changed Doty’s section to 
Plans and Training, and put 2d Lt. Roland P. Fournier, who had been 
commissioned with 2d Lt. Ralph I. Libby, in charge of supply. This 
reorganization in part reflected the addition of responsibilities and 
individuals to handle them, but it also helped prepare for the strategic 
and organizational decisions then being made in the Pacific theater. 
The Hawaiian Department organization, after the organization of the 
Pacific areas, continued to be the senior Army command for the Central 
Pacific Area. There was at the time no chemical representative on 
Admiral Nimitz’ joint and Allied POA staff nor on his Pacific fleet 
staff. The supreme command and the fleet command were based in 
the Hawaiian Islands. 
Early Training 
The July 1942 organization remained in effect during the second 
half of 1942. In this period emphasis shifted from immediate defensive 
preparations to preparation for combat in the Central Pacific Area. 
The area mission up to that time had been indirect support of operations 
in SOPAC and SWPA, and Hawaii had operated as a staging point 
for units bound south of the equator. This responsibility had entailed 
checking supply and training and providing either or both when 
required for troops outward bound. After the middle of 1942 it 
became increasingly evident that Hawaii would serve as a base for 
mounting forces for combat in the Central Pacific under CENPAC 
or POA command. The CWS, Hawaiian Department, stepped up 
troop training as its immediate share in the expected CENPAC re- 
75 Unmacht, Summary of Activities of CWS in POA, 19 Feb 45. CWS 314-7. Colonel Unmacht Watching Trainees Wash Gas from Clothing, 
Hawaii. 
289-149 0-68—16 224 
THE CHEMICAL WARFARE SERVICE 
sponsibilities. Unmacht did not establish a theater school as Copthorne 
had done in SWPA, but he inaugurated a series of gas officer and gas 
NCO courses for various elements of the department and for combat 
organizations. While the first informal instruction had been given 
to a group of air wardens only a few days after the attack on Pearl 
Harbor, the first course, for 278 UGO’s and UGNCO’s, was given 
17-18 August 1942 in the Fort Shafter gymnasium. Two more ad- 
vanced courses were given in September and October, and training for 
the year was brought to a rousing finish during three days in December 
when the departmental CWS staged a chemical warfare maneuver with 
1,295 participants. 
Volition of the Theater Chemical Officer 
At the end of 1942 the Hawaiian Department reorganized from 
an advance and rear echelon structure in which both echelons were 
responsible for all functions under the direction of the rear echelon, to 
a more conventional combat forces, service forces, and air forces pat- 
tern and added an echelon for military government since the territory 
was still under military control. Unmacht remained the department 
chemical officer with responsibilities in all four fields. His position was 
unique among chief chemical officers overseas in that he was both 
staff officer and commander of the chemical warfare troops not assigned 
to other organizations.76 
In actually commanding troops, Unmacht came closer to the manual 
definition of a chief of service than any other chief chemical officer. 
But this was not the only way in which Unmacht’s position differed 
from the positions of the other chief chemical officers. The Hawaiian 
Department and its successor commands, U.S. Army Forces, Central 
Pacific Area (USAFICPA), U.S. Army Forces, Pacific Ocean Areas 
(USAFPOA), and U.S. Army Forces, Middle Pacific (USAFMID- 
PAC), were in fact theater headquarters of the kind envisioned in 
the War Department organization manuals, and in these headquarters, 
unlike those in Europe, North Africa, and the Southwest Pacific, a 
commander, who did not double also as a supreme commander, was 
resident.77 Unmacht therefore had more opportunity to present his 
70 Hawaiian Dept GO no, 29 Jul 43. 
77 The Central Pacific Army headquarters was not technically a theater headquarters since no over-all 
Pacific theater command was organized and since the Central Pacific Army headquarters was supervised 
by POA, a superior headquarters with a larger jurisdiction. ADMINISTRATION: PACIFIC 
225 
proposals directly to his commander, Lt. Gen. Delos C. Emmons, until 
May 1943 and Lt. Gen. Robert C. Richardson, Jr., thereafter, than 
did chief chemical officers in other theaters and areas. As Unmacht 
himself phrased the relationship, "We receive a lot of encouragement 
and impetus from topside.”7S With the theater naval command, 
which stood in a position roughly comparable to supreme headquarters 
in other theaters, Unmacht had a good relationship although the Navy 
took little interest in chemical warfare until combat experience proved 
the value of the chemical mortar and flame throwers. Navy and Marine 
Corps officers assigned to chemical duties were usually junior, but 
commanders frequently consulted Unmacht on chemical supply and 
training. A reciprocal agreement was worked out whereby the CWS 
would use the Navy impregnation plant at Pearl Harbor in return for 
impregnating Navy uniforms. When in the summer of 1944 Navy 
interest in chemical warfare quickened, Admiral Nimitz, in his capacity 
as Commander in Chief, Pacific Fleet, appointed a chemical officer to 
his own staff—Capt. Tom B. Hill, USN, who worked in close co- 
operation with Unmacht.79 
The Offensive Period in the Central Pacific 
Organization of the Theater Chemical Office, 1943-45 
On the eve of combat operations in the Central Pacific, Unmacht 
twice reorganized his office to reflect the increase in activities relating 
to combat planning and training. In January 1943 Captain Doty, 
recently promoted, became executive officer and chief of a new Intelli- 
gence Division. Reilly, now a captain, became chief of Plans and 
Training Division and was assigned an officer assistant. Except for 
redesignation as divisions, administration and supply remained un- 
changed from the 1942 organization. At the end of June 1943, with 
an increased workload and greater availability of officers, Unmacht 
again reorganized his office on a pattern very similar to that prescribed 
in prewar planning for a theater chemical office. Doty, now a major, 
became operations and executive officer. Intelligence Division was 
given the added duty of supervising technical functions. Unmacht 
,s Personal Lir, Unmacht to Waitt, 29 Oct 42. CWS 314.7 Pers Files, MIDPAC. 
,B Waitt and Javits to CCWS, ij Dec 44, Rpt of Trip to POA and SWPA. CWS 314.7 Observer 
Rpts. Chart 8—Organization of Chemical Office, Headquarters, U.S. Army Forces, Pacific Ocean Areas, 1 April 1945 
Supply and 
Logistics 
Commanding Officer 
Chemical Warfare Service 
USAFPOA 
CHEMICAL OFFICE, HEADQUARTERS, 
CENTRAL PACIFIC BASE COMMAND 
Special 
Projects 
Commanding Officer 
■ Chemical Warfare Service 
CPBC 
Chemical Supply 
Officer 
Toxic Gas 
Warfare 
Asst Chemical Officer 
and 
Executive Officer 
Chemical Officer 
POA 
Plans & Training 
Officer 
Operations 
Chemical Officer 
CPBC 
Executive Officer 
Intelligence 
and Technical 
Intelligence 
Officer 
Commander in Chief 
U.S. Pacific Fleet 
Administration 
Adjutant 
Chemical Officer 
(Navy) 
Source: History, CWS USAFMIDPAC, Annexes la and Ilia. 
Legend: ______ Command Channel 
— — — — — Staff Channel 
• ••••• Liaison 
Commanding General 
USAFPOA 
Commanding General 
Central Pacific 
Base Command 
Commander in Chief 
Pacific Ocean Areas 
Chief of Staff 
USAFPOA 
Chief of Staff 
CPBC ADMINISTRATION: PACIFIC 
227 
had detailed a few men with technical experience to set up a small 
laboratory with locally obtained equipment and supplies. At the end 
of 1943 a laboratory company arrived to assume technical duties. 
The Plans and Training Division was enlarged and redesignated Oper- 
ations and Training Division. 
The June 1943 reorganization established the form from which the 
theater chemical section varied but slightly until 1945. At that time 
an organization consisting of five policy and supervisory divisions and 
one administration division was approved. (Chart 8) Lt. Col. Edouard 
R. L. Doty, again promoted, remained as executive officer with duties as 
assistant chemical officer, supervisor of the theater chemical plan, and 
liaison officer to field chemical sections and the Navy. Operational plan- 
ning, base development, personnel and unit assignments, and redevelop- 
ment planning were assigned to the Operations Division. Capt. Jerome 
K. Holmes, in civilian life a chemist, headed the Intelligence and Tech- 
nical Division which supervised intelligence and laboratory operations 
and which prepared or supervised the preparation of all technical and 
intelligence reports. Maj. R. Beverly Caldwell headed the Special 
Projects Division which was charged with training, inspections, super- 
vision of, and planning for, defense against biological warfare, and 
technical developments outside the usual laboratory sphere. The Toxic 
Gas Warfare Division was assigned supervision of gas warfare doctrine 
development, surveillance of toxic munitions, and liaison with the air 
forces, which in this theater, as in the rest of the world, had become 
virtually independent of the local Army command. 
Colonel Unmacht delegated operating supply functions and detailed 
supply planning to the Chemical Office, Central Pacific Base Command, 
which had been organized under Maj. Roland P. Fournier on 1 July 
1944. In his own office, Unmacht retained the Supply and Logistics 
Division. To this division the CWS chief assigned policy functions 
relating to operational projects and forecasts for requirements and 
transportation and analysis functions relating to supply reporting. 
Gas Warfare Preparedness 
The Chemical Section, Hawaiian Department, like the chemical 
sections all over the world, had a paramount interest in gas warfare 
preparedness. Although Unmacht had devoted most of his attention 
after the Pearl Harbor attack to immediate individual and collective 228 
THE CHEMICAL WARFARE SERVICE 
protection, he also surveyed the department’s ability to retaliate in the 
case of gas warfare. There were some toxics in the area, but the means 
of retaliation, like the possibility of being able to reach any enemy 
force, were indeed slim in 1942. Even had they been ample, however, 
the nearest target was so far away as to make the immediate possibility 
of retaliation a remote one. Unmacht set about improving the supply 
status and at the same time inaugurated both offensive and defensive 
training. He also arranged to check on both methods of training. 
In June and July 1942 the War Department ordered chemical offen- 
sive training in the theaters, and the CWS in the Central Pacific com- 
plied by providing training for CWS units and chemical sections.80 
In August the department CWS initiated a schedule for spot-check 
inspections of Army units in the Central Pacific to determine their 
readiness for gas warfare. Of the 522 units inspected by the end of 
October, 12 percent proved to be thoroughly prepared, 69 percent 
satisfactorily prepared, and 19 percent partially prepared or without 
any preparation. Renewed training, especially of UGO’s and 
UGNCO’s, and new issues of supplies soon enabled all units to come 
up to acceptable standards of preparedness. While these preparedness 
measures were being accomplished, the War Department in December 
1942 called for the submission of a gas warfare plan.81 
The first Hawaiian Department gas warfare plan, which was co- 
ordinated with the local Navy and Marine Corps commands, was 
dispatched to the War Department on 8 February 1943. The plan 
simply indicated that in the event of gas warfare maximum use of 
available weapons and equipment would be made, and no request for 
special supplies was included. The heart of the plan consisted of a 
detailed plea for the immediate provision of chemical units and man- 
power, including a chemical weapons regiment, air and ground service 
troops, and chemical staff personnel.82 The War Department at first 
indicated that no troops were available but in July requested restudy 
and resubmission of the troop request.83 Unmacht replied by reviewing 
the problems of preparedness. In his opinion these were: (1) lack of 
80 Ltr, Unmacht to CG Hawaiian Dept, 7 Jan 43, sub: Theater Plans for Cml Warfare. CWS 314.7 
Central Pacific Theater. 
81 Ibid. 
83 Ltr, CG Hawaiian Dept to TAG, 8 Feb 43, sub: Theater Plans for Cml Warfare. Hawaiian Dept 
AG 381. 
83 Ltr, Unmacht to CG Hawaiian Dept, 17 Aug 43, sub: Theater Plans for Cml Warfare. CWS 314.7 
Central Pacific Theater. ADMINISTRATION: PACIFIC 
229 
suitable aircraft and trained airmen for toxic spray missions; (2) lack 
of chemical troops for ground retaliation and for providing artificial 
smoke protection; (3) inadequate decontamination troops and lack 
of centralized control over decontamination squads in the Seventh 
Air Force; and (4) insufficient manpower for service operations. 
Unmacht asked first priority for service units and a smoke generator 
battalion since such troops were urgently needed. He assigned a lower 
priority to, but still cited an urgent need for, nine CWS staff officers 
in addition to the fifteen authorized, and a chemical mortar battalion.84 
During the period from the August 1943 reappraisal until November 
of 1944, most of the service, smoke, and mortar units that the Central 
Pacific CWS required in the absence of gas warfare were received from 
the continental United States or were acquired when the South Pacific 
Area organization was consolidated with the Central Pacific.80 Also 
during that period Unmacht was delegated the responsibility for co- 
ordinating and consolidating all gas warfare plans for Army (including 
Army Air Forces), Navy, Marine, and Coast Guard elements in the 
Pacific Ocean Areas. Since the POA administrative organization had 
long permitted Unmacht to work with all of these elements, he and 
his staff were well acquainted with the needs and capabilities of each. 
The consolidated gas warfare plan, formulated in June and July, was 
consequently extensive and specific, even including an annex listing 
and describing selected aerial objectives for possible retaliatory gas 
attacks on the enemy. The first concern now was not service units or 
weapons since the POA was well equipped or had the promise of being 
well equipped early in 1945, but, rather, the strategic plan.86 Also of 
concern was the supply of toxics which, considering the scope of the 
plan, still existed only in token quantities. 
The strategic planning question was to be answered through the 
co-ordination of the Pacific area plans by the United States Chemical 
Warfare Committee. In General Porter’s opinion the CWS would 
have been ready for gas warfare in the Pacific had it broken out in 
1944 or 194587 No new duties were indicated for the CWS POA by 
the strategic plans. Unmacht continued his emphasis on gas warfare 
"4 I hid. 
'“Memo, Unmacht for Waitt, 4 Nov 44. CWS 314.7 Central Pacific Theater. 
86 Ltr, Unmacht to CCWS, 8 Jul 44, sub: Theater Plans for Cml Warfare. USAFCPA CWS 381 in 
CWS 314.7 Central Pacific Theater. 
87 (1) Porter Interv, 24 Aug 61. (2) See Brophy and Fisher, Organizing for War, ch. IV. 230 
THE CHEMICAL WARFARE SERVICE 
and nongas warfare chemical training, on technical intelligence, and 
on the special projects assigned to his service. 
Training in the Offensive Period 
Divisional duties in the 1945 organization reflected the activities of 
the CWS in the Central Pacific in the period 1943-45. The tempo of 
training, as noted above, increased greatly during these years. During 
1943, the CWS presented chemical warfare courses including four for 
various Marine Corps elements, two for Navy commands, and eight 
for Army combat organization UGO’s and UGNCO’s. Another chem- 
ical field maneuver with 1,376 participants was held 28-31 July. 
According to the G—3 report, this maneuver included: 
. . . use of smoke, use and types of smoke-producing equipment, use 
of chemical land mines and minefields including students’ laying of 
minefields, firing of chemical munitions from all types of weapons, 
decontamination methods and problems, use of protective clothing 
and equipment, demonstration of field hospital methods of handling 
gas casualties by Medical Corps personnel, tactical use of flame throwers, 
incendiaries, filling of airplane spray tanks, and spray attack on 
column [of students on a] road.88 
The same report indicated that participants were favorably impressed 
by the maneuver. 
In September 1943, two months before the first Central Pacific 
forces assault on Makin Atoll, the CWS presented the first course of 
instruction in the operation of the portable flame thrower. Many 
similar courses followed since in the Central Pacific as in the South 
and Southwest Pacific, the flame thrower became a valued infantry 
weapon and a particular favorite of the Marine Corps. From January 
to May 1944, Unmacht’s immediate staff prepared a total of thirty-two 
courses, including, for the first time in February 1944, a course on the 
vehicle-mounted flame thrower developed and manufactured by the 
CWS, Navy, and Marines in Hawaii. 
In July 1944, after giving courses or demonstrations for nearly 
37,000 students, Unmacht’s office turned over the operating training 
responsibility to the Chemical Officer, Central Pacific Base Command. 
Between 1 July 1944 and 31 August 1945 the CPBC office conducted 
88 Memo, Capt G. L. Quigley, CAC, for Col Keliher, OACofS G-j, Hawaiian Dept, 4 Aug 43, sub: 
Rpt on Dept Cml Field Exercise. Reproduced as an. I-c, History of Cml Sec USAFMIDPAC. ADMINISTRATION: PACIFIC 
231 
gas courses, lectures, and demonstrations for 38,933 students. In view 
of the fact that all of this instruction was given at the highest area 
Army (and sometimes Navy) level and that the usual organization 
and unit schools continued to be conducted, the training record of 
the CWS in the Central Pacific was a particularly outstanding one. 
The CENPAC CWS took full advantage of the fact that the Hawaiian 
Islands were used as a staging area through which many units and 
combat organizations were being rotated and given advanced training. 
Lt. Col. James E. Reilly, Unmacht’s training officer for most of the 
active period, received the Legion of Merit for his accomplishments. 
Chemical Warfare Intelligence 
The intelligence activities of the Central Pacific chemical office 
actually began in January 1943 when Maj. Nelson McKaig, formerly 
a member of Unmacht’s staff and then Chemical Officer, 25 th Infantry 
Division, sent in from the South Pacific a Japanese gas mask. The 
staff of the improvised laboratory immediately set to work analyzing 
the mask. In February McKaig sent a shipment of Japanese chemical 
warfare materials. Since chemical intelligence combat teams did not 
begin to function in SWPA until the following November, Central 
Pacific laboratory analyses of such materials were among the earliest 
although the 4id Chemical Laboratory Company in SWPA had ob- 
tained some items.89 Thereafter, a fairly regular flow of captured 
chemical items came to the theater CWS, mostly through intelligence 
channels. Lt. Robert E. Wingard, the first Intelligence Division chief 
who was able to devote most of his attention to the task, set up the 
chemical office as a clearinghouse for intelligence information. He both 
received information from and transmitted it to the theater intelligence 
authorities, OCCWS, the laboratory, and field chemical officers. In 
November 1943, Unmacht also assigned Wingard to the supervision 
of the CWS portion of an Army-Navy project for the study of micro- 
meteorological conditions in advanced Pacific bases. The data thus 
collected became a part of theater gas warfare planning, and the study 
was continued for the duration of the war. The Intelligence Division 
trained CWS field officers to collect meteorological data, and CWS 
elements of island garrison forces contributed to this collection. 
89 (1) See above, pp. 197, 202. (2) For an account of laboratory work, see below, Chapter VII. 232 
THE CHEMICAL WARFARE SERVICE 
Holmes succeeded Wingard in July 1944. Holmes concentrated on 
widening the field of intelligence liaison and on building up an extensive 
file of intelligence information not only of theater origin but also of 
that originating in other theaters or from allied sources. The Intelli- 
gence Division also compiled catalogs of enemy materiel for ready 
field reference. The section staff interviewed CWS officers returning 
from combat in order to find out and publish lessons learned. Holmes 
combed the entire catalog compilation for the most significant gas 
warfare data which he included in an annex to the theater gas warfare 
plan. 
Special Projects and Technical Activities 
The CWS in the Central Pacific devoted a major part of its attention 
during World War II to special projects and technical developments. 
The first special project, as recounted above, was the equipping and 
training of civilians in gas defense. In connection with this first project, 
CWS officers, Medical Corps officers, and civil defense officials devel- 
oped, tested, and supervised the manufacture of gas protective hoods 
for small children. The hoods were made more attractive for children 
by the addition of "bunny” ears. Officials also supplied the "bunny” 
hood to patients in the leper colony on Molokai Island. 
As the combat period approached, Colonel Unmacht and his staff 
turned their attention from numerous projects in gas warfare defense 
and decontamination to the nontoxic chemical weapons and munitions. 
Their work on the flame thrower tank, and later on stabilized flame 
thrower fuels, was the outstanding overseas development work of the 
worldwide CWS.90 Unmacht was a strong proponent of the use of 
the 4.2-inch chemical mortar with high-explosive shell, and the devel- 
opment, testing, and combat supply of a landing craft mortar mount- 
ing for Pacific amphibious operations represented one of his achieve- 
ments in the field of combat support. The mortar gun boat 
development was also a noteworthy example of Army-Navy 
co-operation. 
As did the chief chemical officers in the European and North African 
theaters, Unmacht treated defense against biological warfare (BW) 
on a special project basis. During the period 1941-44, he co-operated 
with the theater surgeon, Brig. Gen. Edgar King, as well as other 
90 See Brophy, Miles, and Cochrane, From Laboratory to Field, ch. VII. ADMINISTRATION: PACIFIC 
233 
Honolulu High School Boys Repairing Gas Masks For Civilian Use 
service chiefs in inspecting water, ice, and food supplies. CWS units 
participated in insect and rodent control. These measures were ex- 
tended to the forward bases through garrison force medical officers. 
In August 1944, Unmacht was designated to succeed the surgeon as 
theater bacteriological warfare officer in keeping with the assignment 
of that function to the CWS on a global basis. Major Caldwell, as 
Unmacht’s representative, then arranged a co-operative plan with the 
surgeon under which the CWS accepted the primary responsibility for 
BW intelligence, the physical protection and training of troops, and 
strategic and tactical BW defense planning. The Medical Department 
reassumed the primary responsibility for inspection of food and water, 
the biological protection of troops, epidemiological control, and the 
care and treatment of casualties. Caldwell, subsequently promoted to 
lieutenant colonel, and Maj. John O. Clements of CPBC performed 
the CWS tasks and worked with the medical officers in the performance 
of their duties. A War Department observer reported in April 1945 234 
THE CHEMICAL WARFARE SERVICE 
that the theater was "quite BW conscious,” and he found that intelli- 
gence information and defensive plans met the required standard.91 
Colonel Unmacht was an unusually dynamic officer who was not 
afraid to use his energy in any way he felt might contribute to the war 
effort. Few other chemical officers would have believed possible the 
overseas development, much less the assembly, of a main armament 
flame thrower tank. Unmacht not only believed it possible—he got the 
job done. His willingness to undertake large responsibilities in no small 
measure contributed to the success of the CWS in the Central Pacific 
and to the esteem in which the service was held. The Central Pacific 
situation also contributed because the commander, not being also a 
supreme commander as in other theaters, had the time to give support 
to his services. The Central Pacific Army commander did not command 
combat operations, but his support as senior Army commander in the 
theater for most of the war made easier the operation of the CWS.92 
The CWS also enjoyed an excellent relationship with the POA and 
Navy commands in the area because it was able to provide services 
and weapons support when the Navy and the Marine Corps wanted 
them. The Central Pacific Area and the military facilities in the area 
offered a unique opportunity for accomplishment. The CWS admin- 
istration in the theater was almost ideally suited to these circumstances. 
The environment and the area command situation in SWPA, by 
contrast, were not amenable to the CWS. The chemical officers in 
SWPA strove mightily and ingeniously to provide chemical weapons 
and equipment and to insure preparedness. Their contributions were 
significant, especially in connection with portable flame throwers and 
mortars, but distances and difficulties of communication hampered 
them. Even more hampering was the disadvantageous position of the 
highest CWS echelon in the SWPA service and supply organization. 
While Copthorne maintained that the CWS SWPA was well regarded 
in the theater throughout the war, the CWS until late in the war faced 
the obstacles in performing its gas warfare preparedness duties of work- 
ing through two superior echelons. Gas warfare preparedness in the 
United States, in North Africa, and in Europe, was a joint and Allied 
81 Rpt, Lt Col W. S. Moore to CMIS, Apr 45, as cited in History, Cml Sec USAFMIDPAC. 
9" The commander of the Tenth Army, which formed in Hawaii for the Ryukyu Campaign, was sen- 
ior to General Richardson, Central Pacific commander. ADMINISTRATION: PACIFIC 
235 
concern, but in SWPA there was no joint or Allied agency through 
which Copthorne could work formally. 
Copthorne and his subordinates evolved some excellent, indirect 
methods, such as the conferences and the intelligence and training 
teams, for presenting the contributions of the CWS. Through the use 
of these methods, Copthorne accomplished co-ordination of his service. 
Unmacht accomplished a similar co-ordination through his relation- 
ships with his superior commands. Rowan achieved his co-ordination 
through a combination of personal diplomacy and supply control. 
Shadle in the MTO did not see the necessity for a close control of his 
service. He accordingly emphasized a lesser co-ordination than the 
other chief chemical officers through staff work in his own headquarters 
and supply troubleshooting on problems which strong field chemical 
sections could not handle. CHAPTER VI 
Theater Supply: Pacific 
Foundation of Chemical Supply in Australia 
Forming a Theater Stock 
Chemical warfare supplies available to the United States Army 
Forces in Australia in December 1941 consisted of 14,000 empty 100- 
pound bomb casings, a small amount of protective equipment in the 
hands of troops, and the maintenance allowances brought in by the 
3d Chemical Laboratory Company. This company was equipped with 
the training gas mask, a light, snout-type mask with canister directly 
attached to the facepiece,1 some i/4 -quart decontaminating apparatus, 
and a little antigas protective ointment. The unit possessed no non- 
corrosive decontaminating agent for use in the apparatus, no bleach 
(chloride of lime) for area decontamination, and no antigas shoe 
impregnite. Units and individuals subsequently arriving in Australia 
did have personal protective items and decontaminating materials. 
Units also arrived with small maintenance stocks.2 
USAFIA chemical officers collected the maintenance stocks from 
incoming organizations and units and these constituted the first theater 
chemical warfare supply. Even Task Force 6814, soon to be the 
Americal Division, added to this stock when it stopped over in Mel- 
bourne on the way to New Caledonia.3 The 3 id and 41st Infantry 
Divisions, on arriving in Australia in the spring of 1942, also con- 
tributed. The chemical stockpile further increased as the War Depart- 
1 For description of the various CWS gas masks, see Brophy, Miles, and Cochrane, From Laboratory to 
Field, Chapter XIV. 
2 Morgan Interv, i Oct 45. 
8 Task force 6814 and the Americal Division are identified in John Miller, jr., Guadalcanal: The 
First Offensive, UNITED STATES ARMY IN WORLD WAR II (Washington, 1949), p. 215. THEATER SUPPLY: PACIFIC 
237 
ment diverted to Australia supplies which could not be landed in the 
Philippines and as theater chemical supply officers bought what they 
could in the local market. The USAFIA CWS carefully hoarded all 
equipment for the use of forces which at any moment might move 
out to fight the enemy. Issues were kept to a minimum in the rear 
areas, and some issues of Australian gas masks were made. By 30 June 
1942 the CWS inventory stood at 2,098 short tons.4 
War Department Policy for the Southwest Pacific Area 
The CWS in SWPA was not yet aware, at the end of June, of the 
War Department supply policy; they had heard nothing at all from the 
United States in the first four months after the establishment of the 
USAFIA and were to have no word from the Office of the Chief, 
Chemical Warfare Service, until July.1’ The basic War Department 
plan was dated 22 January 1942, and the specific plan for the forces 
in Australia was dated 2 February 1942. The specific War Department 
plan called for 90 days’ supply of all classes other than ammunition, 
computed on the standard tables of basic allowances (TBA) ; 90 days’ 
supply of ground ammunition, computed on the basis of a special 
ammunition day of supply for weapons in the theater; and five months’ 
supply of aerial bombs, ammunition, and pyrotechnics, computed ac- 
cording to a special allowance per aircraft in Australia and the Nether- 
lands East Indies. The Adjutant General instructed the technical 
services in the United States to compute allowances and set up ship- 
ments to the San Francisco Port of Embarkation, which was charged 
with shipment to the theater. The chiefs of the technical services 
were also charged with allotting funds to the theater for the operation 
of their services in the theater and for the local procurement of 
materiel.6 
OCCWS immediately began to set up shipments against the War 
Department plan in accordance with strength figures furnished. It 
4 (1) Interv, Hist Off with Maj Arthur H. Williams, Jr., 23 Jan 46. (2) Office of the Chief of 
Engineers, GHQ, AFPAC, Engineers of the Southwest Pacific, vol. VII, Engineer Supply (Washington, 
1949), Table 5, p. 58. 
5 (1) Morgan Interv, 1 Oct 45. (2) Personal Ltr, Copthorne, CCmlO USAFIA, to Wilson, Chief 
Field Serv OCCWS, 13 Jul 42. CWS 319.1 1942. 
6 (1) Ltr, TAG to CG USAFIA, Chiefs Supply Arms and Servs, et al., 22 Jan 42, sub: Sup of Over- 
seas Depts, Theaters, and Separate Bases. AG 400 ( i-i/-42)MSC-D-M. (Later to be revised as WD 
Memo W—700-8-42, 10 Oct 42. See above, ch. III). (2) Ltr, AG to CG USAFIA, Chiefs Sup Arms 
and Servs, 2 Feb 42, sub: Sup of U.S. Army Forces in the Australian Area. AG 400 (1-3 i~42)MSC- 
D-M. 238 
THE CHEMICAL WARFARE SERVICE 
calculated requirements for toxics according to the allowances for 
ammunition and aerial bombs. Only mustard gas was available for 
immediate supply. CWS supply authorities questioned the shipment 
of mustard gas without the specific authority which had always been 
necessary for toxic shipments. They also questioned the quantity to be 
shipped because they lacked aircraft strength figures on which aerial 
toxic requirements computations were based. General Brett, USAFIA 
commander, who was probably unaware of these questions within the 
War Department, nevertheless answered them by cabling a request for 
1,000 tons of mustard. The Chief of Staff queried General Mac Arthur 
as to his desires and, receiving a confirmation of Brett’s request, in 
April directed the shipment. The Services of Supply reduced the 
quantity to 870 tons because of shipping space shortage. OCCWS 
effected shipment on 1 5 April 1942.7 
At the time the mustard was being shipped, the theater forces were 
compiling a materiel status report which reached the United States at 
the end of May. According to OCCWS figures, most items were in 
excess of allowances and only one item, the chemical land mine, was 
in short supply. OCCWS attributed excesses to the shipments diverted 
from the Philippines and to cabled special requirements, such as the 
one for mustard and another for incendiary bombs which the Com- 
manding General, Army Air Forces, had ordered shipped.8 In fact, 
OCCWS apologies for excesses were misleading. Theater chemical offi- 
cers still considered the supply short because, although they had no 
exact knowledge of strength in the theater or supplies in the hands of 
troops, they rightly anticipated a considerable build-up in theater 
strength.9 Later War Department plans for other theaters provided 
for substantial build-up on the basis of anticipated strength far in 
excess of current strength, but not until the end of the war in Europe 
was in sight did a build-up concept apply to the Pacific. To illustrate, 
OCCWS computed the July 1942 report of chemical materials in 
Australia according to the theater strength and estimated that the 
7 (1) Ltr, Chief Field Serv OCCWS to TAG, 15 Feb 42, sub: Shipment of Mustard Gas to Australia. 
CWS 320.2/45-79. (2) Memo, ACofS OPD for TAG, 28 Mar 42, sub: Mustard Gas in Australia. 
OPD 475.92 sec. t. (3) Memo, Actg Chief Distr Br SOS for CCWS, 19 Apr 42, Shipment of Mustard 
Gas to Australia. ASF SP 400(4-19-42). (4) Msg, CCWS to CG USAFIA, 13 Apr 42. CM-OUT 
1296, also in CWS 320.2/54-79. 
s Memo, ACCWS for CG SOS, Attn: Chief Distr Br, 14 Jun 42, sub: Status of Materiel in Australia. 
CWS 320.2/75 (6-14-42). 
0 (1) Ltr, Copthorne to Wilson, 13 Jul 42. (2) Williams Interv, 23 Jan 46. THEATER SUPPLY: PACIFIC 
239 
chemical stock had reached 98 percent of the authorized level. There 
were, at that time, 95,021 service gas masks for the United States 
forces in Australia, and this quantity was estimated to be 9,000 more 
than the allowance. Yet, also in July 1942, the Army Service Forces 
asked the chiefs of the technical services if they were prepared to 
support 1,000,000 men in the Pacific.10 On the assumption that at 
least half of this strength would be assigned to SWPA, this would mean 
approximately one mask for every five men as opposed to the European 
theater planning ratio of one mask in stock for each individual who 
would already have an initial issue mask.11 Even though masks and 
shipping space were not available at the time, some method of supply 
planning that would have anticipated SWPA needs in advance of an 
increase in strength would have caused less confusion. 
Theater Retaliatory Preparedness for Gas Warfare 
There was little that Colonel Copthorne, Chief Chemical Officer, 
USAFIA, and in July USASOS, could do to order enough supplies to 
meet an increase in SWPA strength except to ask that supplies be sent 
in quantities greater than the SWPA allowance. Under War Depart- 
ment supply procedures he could make requests to exceed allowances 
only by explaining at length that unusual circumstances would result 
in the use of extra supplies or that service operations would require 
supplies not listed in the War Department plan for SWPA. The sup- 
plies which prepared SWPA for retaliation in case gas warfare should 
start were mostly obtained, like the first shipment of mustard gas, by 
such requests to exceed the allowances. The CWS SWPA needed toxic- 
filling plants, which were not on the allowance list, to handle this 
first shipment. Copthorne accordingly cabled an order for plants. 
The plants arrived in Australia in July but drawings and assembly 
instructions, which were not available in Australia, did not accompany 
them. The mustard shipment reached Australia in August. In order 
to store the gas in newly established toxic gas yards at Darra, Queens- 
land, and Geelong, Victoria, CWS officers assembled the filling plants 
10 (1) Monthly Materiel Status Rpt 403, USAFIA, as of 15 Jul 42, ACofS G-4 WDGS to CCWS, 
20 Aug 42. CWS 320.3/54-79. (2) Memo, ACofS Opns SOS for Chiefs of Engrs, CWS, et al., 24 
Jul 42, sub: Storage Facilities for Pacific Opns. AFS SPOPN 486.1; also in CWS 320.2/23-26. 
11 The European ratio was determined by comparing 1943 mask authorization (Baldwin, Bingham, and 
Pritchard, Readiness for Gas Warfare in the Theaters of Operations) with theater projected strength 
(Ruppenthal, Logistical Support of the Annies, I, 128-29). 
289-149 0-68—17 240 
THE CHEMICAL WARFARE SERVICE 
by guesswork. The 14,000 100-pound bomb casings were available 
for filling only because USAFIA had been unable to ship them to 
their original destination, the Philippines. While most of the mustard 
was used in filling these bombs, some of it was set aside for filling toxic 
land mines which had been procured in Australia. Mio aircraft spray 
tanks, which came from War Department allowance to SWPA, arrived 
without accessories and mounting instructions. The War Department 
also shipped some toxic-filled artillery shell from allowances.12 
In March of 1943, when the first gas warfare plan was produced, 
toxics had been further dispersed to six toxic storage yards. One, near 
Charters Towers, Queensland, contained 11 5 tons of bulk agents, 5,900 
filled 100-pound bombs, about 1,000 empty spray tanks, and 600 
empty bombs. Another, at Kangaroo, north of Townsville, contained 
5,500 mustard-filled 100-pound bombs and more than 20,000 artillery 
shells. The enlarged Darra yard held nearly 435 tons of bulk agents, 
nearly 90,000 artillery rounds, a small supply of toxic smoke candles, 
and empty bombs, spray tanks, and land mines. A new Columboola 
yard 200 miles west of Brisbane held 11,000 mustard-filled 100-pound 
bombs, and a new yard at Kingswood near Sydney stored only artillery 
shell (approximately 53,000 rounds). The original yard at Geelong 
stored 400 tons of bulk mustard and 3,160 toxic smoke candles. The 
CWS SWPA estimated that in the event of gas warfare the stock at 
Charters Towers would be sufficient for an immediate retaliatory strike. 
Then, within seven hours, spray tanks could be filled and delivered for 
a 16-plane spray mission. The spray mission could thereafter be sus- 
tained from other stocks for 63 plane missions. More missions could 
be flown only if some spray tanks were returned after the flights and 
this was not expected because spray tanks were normally jettisoned. 
The artillery shell could not be used prior to movement to forward 
areas, and no time estimate was given for that movement, presumably 
because the time could not be calculated in the face of uncertainty as 
to the available forms of transport. There was at the time no assurance 
that forward artillery would be on hand to fire the shell since only one 
American artillery piece had gone forward for the recently ended 
Papua Campaign.13 
12 (1) Ltr, Copthorne to Wilson, ij Jul 42. (2) Morgan Interv, 1 Oct 45. (j) Williams Interv, 
23 Jan 46. 
18 CinC GHQ SWPA to TAG, 7 Apr 43, Rpt, Theater Plans for Cml Warfare (hereafter cited as 
Theater Plans, Mar 43). GHQ AG 381 (12-8-42)0. THEATER SUPPLY: PACIFIC 
241 
Theater Defense Preparedness for Gas Warfare 
On the defensive side, as noted above, every individual in the theater 
was allotted a gas mask, and there was a small reserve, adequate on the 
TEA basis, of service masks.14 In the opinion of the chemical officers, 
one undoubtedly shared by the troops, the 5-pound service mask was 
of very limited utility in the tropics. It could not be worn for any 
length of time in a hot climate with even an acceptable degree of dis- 
comfort, and it was too heavy and bulky to be carried by troops, who 
could function efficiently only under a minimum burden. The SWPA 
Chemical Section accordingly requisitioned 228,000 training masks or 
lightweight substitutes for the equipment of, at least, all assault eche- 
lons, and the 2,000 training masks in the theater were earmarked for 
this purpose.10 OCCWS shipped 139,000 training masks which repre- 
sented the available supply since training masks were also in demand 
elsewhere. The masks arrived, as requested, waterproofed; that is, 
both ends of the canister were sealed. The difficulty with the water- 
proofing job done in the United States was that the seals were paper 
and had to be torn off to put the mask in ready condition. The seals 
could not be restored by the individual user of the mask even if the 
materials had been provided. SWPA chemical officers thereupon set 
out to design restorable seals. Capt. Stephen Penler, commander of the 
412th (later 6id) Chemical Depot Company, suggested a "milk bottle 
cap” for the valve (outer) end of the canister.16 A Sydney paper man- 
ufacturer succeeded, after several attempts, in producing the bottle 
cap seal. These seals were packed in small cans and the can inserted 
into a pocket sewn into the mask carrier. The open (mask end) of the 
canister was sealed with a rubber plug, and Capt. John Senter designed 
a quick acting clamp for securing the canister to the facepiece. Both 
plug and clamp were also locally procured. The 10th Chemical Main- 
tenance Company set up a production line and performed the not 
inconsiderable task of modifying masks and carriers.17 More than a 
year later the CWS in the United States provided a reusable rubber 
cap which could be attached to the valve end of the canister. 
14 Theater Plans, Mar 43. 
15 Ibid. 
16 Captain Penler was killed in an air accident in December 194a. 
17 (1) Ltr, Copthorne to Hist Off, 16 Feb 51. (2) Lt Col Irving R. Mollen, Chemical Warfare 
Sup—SWPA, World War II, 16 May 52. MS in CMLHO. This article also appeared in Armed Forces 
Chemical Journal, vol. XI, No. 2 (March-April, 1957), pp. 54-36, and No. 3 (May-June, 1957), pp. 
Ji-33- 242 
THE CHEMICAL WARFARE SERVICE 
Furnishing protective clothing was an even greater problem than 
supplying the mask. In SWPA, as elsewhere in the world, protective 
clothing storage and issue was a quartermaster responsibility, but im- 
pregnating the clothing with antigas chemicals was a CWS responsi- 
bility.18 Also in SWPA, as elsewhere, the CWS and the Quartermaster 
Corps worked in close co-operation. The first supply of protective 
clothing came from the United States in July 1942. Because fighting 
would be in the tropics, it was unfortunate that much of the clothing, 
including underwear, was woolen. Just as the supply arrived instruc- 
tions were received that all garments must be modified by the insertion 
of gussets and double flies to afford increased protection at trousers 
and shirt openings.19 Quartermaster employees made the gussets and 
flies and inserted them; the CWS rented a dry-cleaning establishment 
in Melbourne for the dual purpose of impregnating the gussets and 
flies and of testing an improvised impregnating process. Copthorne 
secured the formula for the American impregnite from the Australians 
who got it from the chemical warfare experimental station in England. 
The direct channels of communication with the United States had 
again failed.20 
The experience in the rented dry-cleaning plant proved the impro- 
vised impregnating process acceptable. The CWS acquired two Eng- 
lish-made Maja trichlorethylene dry-cleaning plants and three com- 
mercial laundry dryers, and by the middle of October had this 
equipment in operation in a factory in Sydney. There the CWS im- 
pregnated such clothing as the quartermaster had in stock.21 
Copthorne, writing to Brig. Gen. Alexander Wilson in OCCWS, 
questioned the sense of providing prescribed double-layer (long under- 
wear, outer garments, gloves, sox, leggings, and hood) protection in a 
climate where that much clothing could certainly not be worn,22 
Wilson replied that the War Department was working on worldwide 
protective policy and that, for the time being, the SWPA CWS could 
18 See Alvin P. Stauffer, The Quartermaster Corps; Operations in the War Against Japan, UNITED 
STATES ARMY IN WORLD WAR II (Washington, 19y6), pp. 202-03. 
19 Ltr, TAG to CINC SWPA et ah, 14 Jul 42, sub: Cml Warfare Protective Clothing. AG 420 
(5 Jul 42) MS-SPOPS-M. 
“(1) Ltr, Copthorne to Hist Off, 16 Feb 51. (2) Personal Ltr, Copthorne to Porter, 14 Oct 42. 
21 Ltr, Copthorne to Porter, 14 Aug 42. 
22 A survey made in 194} disclosed that 38 percent of rear area troops in New Guinea wore no under- 
wear whereas the figure for combat area troops who dispensed with these items was too percent. 
Grothaus and Brady to CCWS, 29 Mar 44, Rpt on Visit to Southwest, South and Central Pacific Areas. 
CWS 314.7 Observer Rpts.) THEATER SUPPLY; PACIFIC 
243 
only furnish the prescribed level under the assumption that the area 
commander would weigh the risk of gas warfare against the efficiency 
of the soldier and instruct subordinate commanders as to his policy on 
wearing protective clothing. The question of policy was never settled 
to theater satisfaction. The March 1943 SWPA gas warfare plans 
provided only that outer garments and leggings would be stocked in 
forward areas while underwear was held in rear reserve.23 The world- 
wide policy adopted over a year later, in April 1944, provided that 
only 1 5 percent of SWPA soldiers would have double-layer protection 
available.24 Other forward area combat and service troops, or 35 per- 
cent of the area command, were given one and a half layer (outer gar- 
ments, gloves, leggings, and hood, plus cotton drawers) protection, and 
the rear area troops, estimated at 50 percent of the command, were 
not provided with any protective clothing.2'J Copthorne believed that 
mid-thigh length knit cotton shorts would afford nearly as good pro- 
tection as the cotton drawers and would be bearable in the tropics.26 
The 1944 plan permitted the use of knit shorts, when available, for 
one and a half layer protection. 
Other items of protection against gas warfare were the decontami- 
nants and the equipment to disperse them. The decontaminants in- 
cluded personal protective ointment, noncorrosive decontaminant for 
vehicles and equipment, and bleach, the area decontaminant. Since 
the Mi protective ointment was in short supply and regarded by 
SWPA officers as of doubtful effectiveness, the CWS SWPA improvised 
an individual protective kit consisting of swabs, kerosene (a solvent for 
vesicant gases), an alkaline soft soap produced locally, and a half 
measure of Mi ointment.2' General Porter advised Copthorne that the 
Mi ointment had been reappraised and redesignated M4 and that new 
techniques for its use had been evolved. OCCWS at the time considered 
the M4 ointment effective without a solvent or soap to accompany it.28 
The solvent and soap in the SWPA kit served as a substitute for oint- 
ment until a sufficient quantity of M4 ointment was received late in 
23 Theater Plans, Mar 43. 
24 Ltr, TAG to CINC SWPA et al., 24 Apr 44, sub: Cml Warfare Protective Clothing Accessories and 
Equip. AG 420 (28 Mar 44) OB-S-SPOPP-M. 
25 See Brophy and Fisher, Organizing for War, ch. IV. 
20 Ltr, CCmlO USASOS to CCWS, 29 Jan 43, sub: Use of Jockey Midway Shorts. CWS USASOS 
422. 
27 Copthorne to Porter, 14 Oct 42. 
28Pers Ltr, Porter to Copthorne, 12 Nov 42. 244 
THE CHEMICAL WARFARE SERVICE 
1942. The War Department at the same time sent enough noncorrosive 
decontaminating agent and its disperser, the 1/4 -quart apparatus. 
Bleach supplies were growing, but the theater was still short of full 
allowance. Chemical officers believed that bleach would deteriorate in 
the tropics. Although the first tests proved that American bleach was 
standing up well, SWPA officers found after a few months that both 
the bleach and its containers deteriorated. To fill shortages, the CWS 
bought bleach from the Australians. The supply men discovered a 
double benefit in this procurement. Not only was the bleach more 
readily obtained, but also it was more stable in the tropics and the 
containers could better withstand the inevitable rough handling. The 
supply was unfortunately limited by the small production of chlorine 
in Australia. As for the dispersing equipment—the 3-gallon hand 
decontaminating apparatus and the 400-gallon power-driven apparatus 
—the hand apparatus was available in considerable quantity, more than 
a thousand in excess of allowance in February 1943, and the stock of 
powered apparatus, 115 in February, was sufficient for critical needs 
even though 18 short of allowance. It is very doubtful that much area 
decontamination would have been possible in the jungle in any case. 
Gas detection devices and gas alarms were not available although the 
latter could be improvised.29 
The one protective item of which there was a definite overage was 
the gasproof curtain. The curtain was designed for World War I trench 
warfare and was still issued on a World War I basis of two curtains 
for 20 men. The SWPA CWS asked the San Francisco port to stop 
shipping curtains and suggested to area forces that those on hand 
might be used for foxhole covers in event of vesicant gas attack, since 
the individual protective cover was not yet available to serve that 
purpose. OCCWS soon changed the basis of issue to two per 200 men 
and designated the curtains for use at command posts, communications 
centers, and medical installations.30 
29 (i) Copthorne to Wilson, 13 Jul 42. (2) Copthorne to Porter, 14 Oct 42. (j) Mollen, 
Cml Warfare Sup—SWPA, World War II. (4) Monthly Materiel Status Rpt 403, USAFIA, as of ij 
Jul 42. (5) Theater Plans, Mar 43. (6) Baldwin, Bingham, and Pritchard, Readiness for Gas Warfare 
in Theaters of Opns, app. B. 
30 (1) Copthorne to Porter, 14 Oct 42. (2) Porter to Copthorne, 12 Nov 42. THEATER SUPPLY: PACIFIC 
245 
Theater Chemical Stipply Status,—End of the Preparatory Phase 
In sum, the CWS SWPA had by the end of 1942 reached the status 
of gas warfare supply, both offensive and defensive, reflected in the 
area gas warfare plans reported to the War Department on March 1943. 
That is, except for gas detection, SWPA could defend against any gas 
warfare emergency involving troops likely to be in direct contact with 
the enemy. Offensively, the air forces could make an immediate re- 
taliatory strike and although they could sustain retaliation for only a 
brief period, this might have been sufficient considering the distances 
which isolated individual enemy forces in the theater. The big problem 
was service in the event of gas warfare. The only available facility 
for clothing impregnation was the improvised Sydney plant. The CWS 
estimated that in the event of gas warfare, it would need several chem- 
ical impregnating companies, three additional air service units, and 
one chemical composite company per forward area division. The 
ability of services other than the CWS to handle gas warfare was also 
dependent upon increasing service capability. For example, Australian 
hospitals would have to bear the load of gas casualty treatment because 
the American hospitals did not then have enough manpower and 
facilities. Forward area medical service would have been sadly deficient 
for the same reasons although the chief chemical officer and the SWPA 
surgeon had co-operated in improvising a field gas treatment kit which 
would have afforded assistance to medical officers in the field.31 
While the SWPA supply of most gas warfare items could be con- 
sidered adequate, the supply of nongas warfare chemical items was 
clearly inadequate. There were few hand grenades and little smoke 
equipment. In fact, smoke munitions were so scarce that Colonel 
Copthorne ordered the improvisation and testing of a smoke apparatus 
using FS mixture procured in Australia. There were some flame 
throwers of the kind that had proved unemployable in the Papua 
Campaign, but there were no mortars and only 1,000 rounds of mortar 
shell. The general chemical inventory, which from July to December 
1942 had grown from 2,098 short tons to 5,093 short tons, was there- 
fore mostly gas warfare items. The greatest gain, from 299 to 1,641 
tons, had been in Class V, ammunition, the class into which the toxics 
31 (1) Ltr, CCmIO USASOS to CWS, 26 Jan 43, sub: Directions for Use of Cml Warfare Sups. 
CWS USASOS 461 APO 501 (Directions). (2) Williams Interv, 23 Jan 46. (3) Theater Plans, 
Mar 43. 246 
THE CHEMICAL WARFARE SERVICE 
fell. During the last six months of 1942, the CWS had received 4,983 
short tons of materiel. The bulk of this total, 4,645 short tons, came 
from imports, mostly from the United States, but 139 tons, the greater 
portion of which was laboratory equipment and production supplies, 
had come from distress cargoes (cargoes landed in Australia because 
they could not reach destinations in the combat zone), and 199 tons 
came from local procurement. Although the latter figure was small, 
its size is not the measure of its importance since most of the items so 
procured were critical.'52 
The Tyranny of Climate and Distance 
Establishment of a New Guinea base in August 1942 and the events 
of the Papua Campaign brought sharply into focus the problems dealing 
with the condition of both gas warfare and nongas warfare chemical 
materiel. SWPA chemical officers had been aware from the first that 
much of the equipment received was rushed production not of the 
highest quality, but conditions of storage and issue in New Guinea 
demonstrated that every weakness in design, manufacture, inspection, 
packaging, and shipment was magnified many times when items were 
subjected to the extremes of heat, humidity, and rough handling un- 
avoidable in the tropics and semitropics. Sometimes these problems 
could be resolved or reduced to manageable proportions in SWPA; 
sometimes they could be met by improvements in the United States; 
sometimes area forces simply had to adjust to living with the problems. 
Often a combination of these solutions applied, as in the case of the 
flame throwers, for example. 
Bleach 
The deterioration of bleach, mentioned above, was another problem 
which called forth a joint effort but which was never solved with com- 
plete satisfaction. SWPA received and stored bleach in light-gauge, 
painted and unpainted steel drums of 70-, 100-, 140-, and 300-pound 
capacity. Handling the larger drums was a problem, but it became 
apparent, late in 1942, that the handling difficulty was insignificant 
compared to the problem arising from corrosion of the containers and 
82 (1) Morgan Interv, i Oct 45. (2) Copthorne to Porter, 14 Oct 42. (3) Office of the Chief of 
Engineers, GHQ, AFPAC, Engineer Supply, pp. 57-58, Tables 4 and 5. THEATER SUPPLY: PACIFIC 
247 
deterioration of the bleach. Copthorne in December 1942 ordered a 
survey of bleach in semitropical and tropical storage to determine how 
great the loss might be. Base section chemical officers found that all 
the 100-pound nonpainted drums surveyed had corroded and that the 
bleach had deteriorated below the standard acceptable for decontami- 
nation. Corrosion of larger unpainted drums, for some unexplained 
reason, was negligible while 77.2 percent of 100-pound drums painted 
brown had corroded. Orange-painted drums in both 70- and 100- 
pound sizes had stood up well. In all, the CWS turned over 25 tons 
of deteriorated bleach to the engineers for water purification use. A 
few weeks later the New Guinea base reported corroding drums and 
deteriorating bleach. Copthorne could only advise that, since there was 
probably no solution other than the impractical one of lacquering the 
drums inside and out, deteriorated bleach should be turned over to 
other services and replacement requisitioned. A part of the replace- 
ment could come from Australian sources, but the bulk would have 
to come from the United States.33 
OCCWS was at work on the problem when Copthorne informed it 
of his experience. The War Department CWS finally succeeded in 
obtaining a more stable bleach and in improving the container,34 but 
the tropical climate continued to take its toll in every storage place 
from Australia to the Philippines. Fortunately, the deteriorated bleach 
was still adequate for the hygienic uses to which the Quartermaster 
Corps and the Corps of Engineers could put it. Because of this second- 
ary use, the demands on critically short transportation were no greater 
than they would have been had each service obtained its own supply. 
The CWS SWPA was forced to adjust to the demands of continuous 
survey of stocks and handling transfers.35 
Noncorrosive Decontaminating Agent 
Another decontaminant problem concerned the noncorrosive decon- 
taminating agent (DANC). The agent was a mixture of solvent, 
acetylene tetrachloride, and a dry chemical known as RH 195. The 
33 (i) Ltr, CCmlO USASOS to CCWS, to Dec 42, sub: Corrosion of Chloride of Lime Containers 
(CWS USASOS 470.6), and 1st Ind, CCWS to CCmlO USASOS, 24 Feb 43. CWS SPCVO 470.6 
(12-10-42). (2) Ltr, CWO Serv Comd APO 502 to CCmlO USASOS, 14 Jan 43, no sub, and 1st 
Ind, CCmlO USASOS to CWO Serv Comd APO 502, 2 Feb 43. 
34 Brophy, Miles, and Cochrane, From Laboratory to Field, ch XVI. 
35 Mollen, Cml Warfare Sup—SWPA, World War II. 248 
THE CHEMICAL WARFARE SERVICE 
two components were shipped and stored unmixed in a 2-compartment 
6-gallon drum with the RH 195 packed in the compartment above 
the acetylene tetrachloride. The dry chemical apparently corroded the 
seal between the two compartments allowing the contents to mix; the 
resulting mixure had a life of about three months. Drums dented in 
shipment almost inevitably corroded because the lacquer on interior 
surfaces scaled off around the dent. After the first discovery of this 
packaging deficiency in October 1942, base section chemical depot 
troops opened dented drums and transferred serviceable RH 195 to 
bottles. If the chemical had combined with the solvent, the mixture 
was stored for its serviceable life, and when manpower and equipment 
were available the solvent was reclaimed at the end of that life. The 
area CWS obtained a crimping machine to reseal drums containing new 
and reclaimed solvent. The War Department CWS strengthened the 
RH 195 compartment, made it of a metal more receptive to preserva- 
tive lacquer, provided a corrosion-proof plastic gasket between com- 
partments, and, eventually, designed a new dual container. But still 
the CWS in the Pacific had trouble—the old container continued to 
come through the supply system. One base section received 14,000 
old containers in the four months ending in September 1943. The 
noncorrosive decontaminating agent problem was one that the CWS 
SWPA learned to live with.36 
The one and a half quart decontaminating apparatus for dispersing 
the noncorrosive decontaminant and the 3-gallon apparatus were poorly 
crated. The crate consisted of a wooden frame with a cardboard liner; 
both cardboard and wood frequently failed with almost disastrous 
results when the crates were used as a base in warehouse stocks.37 
Another minor but annoying packaging defect was in the pack for 
shoe impregnite. The War Department CWS shipped the preparation 
in small cans packed in cardboard boxes. The boxes were too heavy 
for one man to handle, and the cardboard simply disintegrated after 
brief exposure to the weather. The CWS solved this problem by 
switching to small wooden boxes.38 
36 (i) Ltr, CCmlO USASOS to CCWS, 16 Nov 42, sub: Deterioration of RH 195 Containers. 
CWS USASOS GSCW 400.2. (2) Ltr, CCWS to CCmlO USASOS, 18 Dec 42, sub: Deterioration of 
RH 195 Containers. CWS SPCVO 470.6 (12-18-42). (j) Ltr, CCmlO USASOS to CCWS, 29 Sep 
43, sub: Defective DANC Containers (CWS USASOS GSCW), with 1st Ind, ACCWS Field Opns to 
CCmlO USASOS, 25 Oct 43. CWS SPCVO 457 APO 501 (29 Sep 43). (4) Grothaus-Brady Rpt. 
3‘ Grothaus-Brady Rpt. 
38 Morgan Interv, 1 Oct 45. THEATER SUPPLY: PACIFIC 
249 
The Gas Mask 
A considerably more serious problem arose from the effect of the 
jungle climate on gas masks and carriers. Fungi attacked the glass 
lens of the Australian gas masks which American troops were using. 
Molds and mildew covered and rotted gas mask carriers and the harness 
of the mask itself. Rust and corrosion ate away canisters, buckles, and 
rivets. In the 41st Infantry Division the chemical officer, Colonel 
Arthur, prescribed a daily brushing of the carrier, but this only retarded 
the growth of mold and mildew. Furthermore, brushing was possible 
only for masks kept by individuals, who usually had them only for 
short periods. Assault troops carried masks in landing and dropped 
them as soon as the risk of initiation of gas warfare was determined to 
be slight. These masks were uncared for until chemical officers could 
assemble details or obtain service troops to collect, inspect, and store 
them. In early operations losses were large, as much as 45 percent in 
one assault, and the number of recovered masks rendered unserviceable 
was also large. Better recovery techniques, especially those evolved 
when service detachments landed with assault troops, reduced losses 
to 5 percent and greatly increased the number of serviceable masks 
recovered.39 
OCCWS believed that the SWPA mask problems might be solved 
by the introduction of the lightweight service mask in 1943. The 
lightweight mask and its carrier were more rugged than the training 
mask then in use in SWPA, and the carrier was water resistant and 
therefore was more resistant to mold and mildew. Also, the CWS 
provided an adhesive tape waterproofing for the canister. Colonel 
Arthur set up a wearing test of the mask in the 41st Division. The 
facepiece was plainly superior to that of the training mask, but the 
canister rusted as badly, and the adhesive tape waterproofing tended 
to remove the paint, thus accelerating rusting. With waterproofing 
clamp in place the rubber hose from canister to facepiece softened and 
distorted in twelve days, and the adhesive tape waterproofing proved 
of doubtful value under tropical conditions. Also, the carrier, although 
apparently more resistant to deterioration, proved somewhat bulky to 
38 (1) Ltr, CmlO 41st Inf Div to CmlO USAFFE, 7 Jun 43, sub: Mold on Gas Mask Carriers. 
Sixth Army 475—Weapons for Jungle Warfare. (2) Mollen, Cml Warfare Sup—SWPA, World War 
II. (j) Ltr, CO 426 Cml Lab Co SWPA to Chief Tech Div OCCWS, 1 Sep 43, sub: Transmittal of 
Mold Cultures. 250 
THE CHEMICAL WARFARE SERVICE 
wear and, as in Normandy, offered a target for sharpshooters. Arthur 
recommended that the SWPA-devised training mask and waterproofing 
be retained but that the lightweight facepiece be substituted for the 
training facepiece. The War Department approved Arthur’s suggested 
modification of the training mask, and supplies were furnished to make 
theater modifications. The CWS tried again with an assault mask with 
cheek-mounted canister, but no significant number of these masks 
became available in the theater before the end of the war. In sum, 
this was again a problem that the SWPA CWS tried to overcome 
with various expedients but without a real solution, for it was unable 
to find a means of preventing mold, mildew, and corrosion.40 
Protective Clothing 
As noted above, storage and issue of antigas protective clothing was 
a quartermaster responsibility, but the CWS was vitally involved in 
providing impregnation services and in prescribing the use and care of 
protective clothing. The SWPA chief quartermaster issued instruc- 
tions, in the name of the Commanding General, USASOS, on protective 
clothing in December 1942, in January 1943, and in March 1943. The 
last of these instructions repeated the then current War Department 
policy of providing as yet undesignated "double layer” protection 
based on the cotton herringbone twill "fatigue” uniform as "minimum” 
and with an additional impregnated woolen or cotton khaki uniform 
as "complete” protection.41 
Patently, complete protection was beyond the SWPA capacity, and 
the instructions provided that only one set of outer garments plus 
accessories per individual should be issued or should be held in forward 
depots for issue to combat troops. Forward depots were also authorized 
to hold normal replacement quantities to be called forward when 
needed by operational organizations. The instructions also prescribed 
storage and maintenance procedures including provision for CWS 
inspection of clothing in storage.42 
40 (i) Ltr, CmlO 41st Inf Div to CmlO I Corps, 16 Jun 43, sub: Rpt on Field Test of M4-10—6 
Gas Mask (41st Div 470.6), with 2d Ind, forwarded by Ltr, CCmIO USAFFE to CCWS, 9 Jul 43, 
sub: Lightweight Service Masks. USAFFE FECW 470.72. (2) Ltr, CCmIO USASOS to CG Sixth 
Army, 22 Oct 43, sub: Wearing Tests on New Type Masks. Sixth Army AG 470.72—Protective 
Apparatus. 
41 Ltr, AG USASOS to CG’s Sixth Army et ah, 26 Mar 43, sub: Cml Warfare Protective Clothing. 
USASOS GSQMS 421 in Sixth Army 422.3 Protective Clothing. 
43 I hid. THEATER SUPPLY: PACIFIC 
251 
USASOS elaborated the storage, requisition, and issue procedures 
for protective clothing in May 1943. At the end of the month, the 
commanding officer of the subbase at Oro Bay, which had officially 
opened late in April, informed the Commanding General, 41st Infantry 
Division, that 70 percent of the base protective clothing stock, most 
of which was held for the division, was unserviceable.43 The unserv- 
iceable clothing had rotted or the fabric had lost its tensile strength. 
Much of the unserviceable clothing was that dyed jungle green on 
which chemical service units in Australia had expended so much effort. 
Since CWS officers had made the serviceability tests, the CWS SWPA 
was aware of the problem. In a little more than a week after the first 
notification, Copthorne asked Sixth Army to determine the extent of 
damage. Sixth Army replied that almost all clothing in loose storage 
or in the hands of individuals had deteriorated. Clothing received from 
the United States and stored in its original waterproof bales and pack- 
ages off the ground and under cover had not deteriorated. Similarly, 
those sets of clothing in the hands of individual soldiers which had been 
stored, as prescribed, in the bottoms of barracks bags hung so that air 
would circulate under the bag had not deteriorated. Since all troops 
did not have the opportunity to hang barracks bags in positions where 
air would circulate, Sixth Army ordered protective clothing withdrawn 
from individuals for storage in unit supply, but storage conditions in 
unit supply were far from ideal. The best that unit storage could 
accomplish was slightly to prolong garment life and, perhaps more 
importantly, to make garments available for regular serviceability 
• • 44 
inspection. 
CWS officers soon learned that the effective life of protective clothing 
was likely to be six months and that the best which could be expected 
was a year.4'1 Colonel Smith, then chief of the USASOS Chemical 
Section and later Copthorne’s deputy, undertook the direct supervision 
of protective clothing distribution plans and liaison with quartermaster 
43Ltr, CO Advance Subbase B to CG 41st Div, 30 May 43, sub: Impregnated Clothing. USAFFE 
Advance Subbase B 422 in Sixth Army 422.3 Protective Clothing. 
44 (1) Ltr, CCmlO USAFFE to CG Sixth Army, 9 Jun 43, sub: Impregnated Clothing. USAFFE 
FECW 420, cited in Ltr, CG Sixth Army to CG USAFFE, 29 Jun 43, sub: Impregnated Clothing. 
Sixth Army AG 420W in Sixth Army 422.3 Protective Clothing. (2) Ltr, CmlO 41st Div to CG 41st 
Div, 22 Jun 43, sub; Inspection of Impregnated Clothing. 41st Inf Div 4/0.6 in Sixth Army 422.3 
Protective Clothing. (3) Memo, CmlO Sixth Army CO Hq Co Sixth Army, 23 Jun 43, no sub. In 
Sixth Army 422.3 Protective Clothing. 
45 Also see Stauffer, Operations in the War Against Japan, p. 202. 252 
THE CHEMICAL WARFARE SERVICE 
on the subject. In the circumstance, Smith had no choice but to 
provide protective clothing for forward area troops and to plan re- 
placing it every six months. Replacement was provided either from 
the United States or from stocks impregnated in SWPA. In order to 
carry on impregnation in the area, processing units were required. The 
105th Chemical Processing Company arrived in SWPA in June 1943 
just as the extent of the clothing problem was becoming known. Since 
the unit did not receive its own plants for another six months, it 
worked at processing in the improvised theater plant to rebuild the 
theater reserve. Copthorne and Smith sought to move the 105th and 
the eighteen companies received in 1944 into forward areas so that 
impregnating facilities, both for building up clothing reserves and for 
reimpregnation in the event of gas warfare, could be close to the 
organizations with the greatest need, but obtaining USAFFE or GHQ 
authority and transportation for these forward moves was extremely 
difficult.46 
The SWPA protective clothing reserve problem diminished during 
late 1944 and early 1945 as stocks were continuously reconstituted by 
shipments from the United States. Anticipated reserve demands were 
also reduced by the War Department directive of April 1944 which 
assigned protective clothing only to 50 percent of the area force. 
Clothing still deteriorated although better packaging and the use of 
the Mi water emulsion impregnating process somewhat lengthened 
the serviceability period. The CWS still sought to move processing 
units forward as reimpregnation insurance against a gas warfare emer- 
gency, and the units, even in forward areas, were diverted to secondary 
missions which would permit readiness to operate in such emergency.47 
In the last year of the war, most of the area protective clothing re- 
serve was stored in the Hollandia, New Guinea, base while organizational 
allowances were carried in unit supply when commanders would permit, 
or in forward bases when they would not. The forward bases also 
stored organizational maintenance stocks. As the fighting progressed 
farther and farther from Hollandia transportation for resupply became 
more difficult to obtain, and, in event of gas warfare, the transportation 
situation might have been desperate. Chemical officers were confident, 
however, that had gas warfare been initiated there would have been 
sufficient air transportation available in the interim before the process- 
46 Interv, Hist Off with Lt Col Irving R. Mollen, 28 Apr 53. 
47 Ibid. THEATER SUPPLY: PACIFIC 
253 
ing companies could move forward and commence operation. Certainly 
SWPA was adequately supplied with processing units. Because of the 
SWPA storage problems and the estimated threat of gas warfare in 
forward areas, SWPA had more units than any other theater.48 
Defective Equipment and Spare Parts 
Some SWPA chemical supply problems were common to all theaters. 
For example, the power-driven decontaminating apparatus was widely 
used for water carrying and giving showers, but the parts supply, as 
elsewhere, was critical. No spare parts of any description arrived in 
the theater before Colonel Morgan returned to the United States after 
the middle of 1943. Even when parts did begin to arrive, there were 
few for the large apparatus. Some vehicles were cannibalized to keep 
others in operation, but even this expedient failed because many parts 
were not interchangeable among the four different makes of apparatus 
and because the same type of parts wore out on all apparatus. CWS 
officers arranged with their Ordnance colleagues, late in the war, to 
replace worn-out decontamination motors with jeep motors, and this 
local adaptation permitted some apparatus to be returned to service.49 
Other munitions also failed because of faulty manufacturing, faulty 
inspection, or poor packaging in the United States. Examples are the 
early shipments of the M3 3 smoke tank, which air chemical units 
rebuilt, and of Mi4 and M8 chemical hand grenades of which such a 
large percentage malfunctioned that Colonel Grothaus, the OCCWS 
observer, recommended the destruction of entire lots.50 Another major 
problem which was at least aggravated by SWPA storage conditions 
was that concerning the 100-pound toxic bomb. 
Toxic Munitions 
As noted above, bombs were early stored in three toxic gas yards 
in Australia. Leakers were soon discovered among the thin-cased 
bombs, and sizable detachments from two service units were required 
to segregate the leakers, decontaminate the storage areas, and vent and 
paint nonleaking bombs. After a time it became evident that the 
48 (i) Mollen Interv, 28 Apr 53. (2) For information on processing company assignments, see 
Brophy and Fisher, Organizing for War, app. H-i 1. 
49 (1) Morgan Interv, 1 Oct 45. (2) Grothaus-Brady Rpt. (3) Mollen, Cml Warfare Sup— 
SWPA, World War II. 
60 Grothaus-Brady Rpt. 254 
THE CHEMICAL WARFARE SERVICE 
mustard filling of some bombs was itself deteriorating. Copthorne 
asked for replacement by distilled mustard, which was not so much 
subject to deterioration, but OCCWS replied that the production au- 
thorities in the United States could not afford the time and effort to 
distill mustard when the undistilled product proved satisfactory else- 
where. Concentrated SWPA CWS effort kept most of the bombs in 
serviceable condition. Copthorne was anxious, as the war progressed, 
to move the bombs closer to the scene of fighting. Finally, in 1944, 
transportation was secured to establish a considerable stock in New 
Guinea. When Copthorne’s own section moved to Leyte, he again 
attempted to move the bombs forward, but transportation could not 
be obtained. Toward the end of hostilities, after a toxic gas yard had 
been established in the Philippines, another effort was made to move 
the stock forward, but a detailed inspection revealed that few bombs 
were then serviceable, and the Chemical Section, Western Pacific, ar- 
ranged for the disposal of bombs remaining in Australia and New 
Guinea.51 
The deterioration of stocks did not mean that SWPA was without 
supplies for gas warfare retaliation. General MacArthur requested that 
stockage be maintained on the west coast pending the availability of 
shipping. Shipping would have been allotted at once in case of emer- 
gency. Also, bombs and other toxic munitions declared unserviceable 
were replaced so that minimum area reserves were maintained until 
near the end of the war. The area reserves, equal to four or five days’ 
retaliation, were in any case inadequate since the plans made late in 
the war were based on the west coast stock.1’2 
Chemical Warfare Tactical Supply, Southwest Pacific Area 
Tactical Supply Policy 
Just as many problems in chemical supply in SWPA arose from the 
difficulties imposed by climate, terrain, and distances, so was the 
o1 (i) Morgan Interv, i Oct 45. (2) Grothaus-Brady Rpt. (3) Personal Ltr, Waitt to Copthorne, 
13 Jan 43. (4) Ltr, CCmlO AFWESPAC to CWS, 2 Sep 45, sub: Destruction of M47A2 H-Filled 
Bombs, with 4th Ind. AFWESPAC CSCW 470.6 (2 Sep 45) in CWS 314.7 Misc files, WESPAC, 
AFPAC, SPEC. (5) Baldwin, Bingham, and Pritchard, Readiness for Gas Warfare in Theaters of 
Opns, pp. 474-75. (6) Mollen, History of Cml Warfare Sup—SWPA, World War II. 
°" (1) Ltr, CINC GHQ SWPA to TAG, 19 Dec 43, sub: Revised Theater Plans for Gas Warfare. 
GHQ AG 381 (19 Dec 43) APO 500 in OPD 385 CWP sec. II—B. (2) Baldwin, Bingham, and 
Pritchard, Readiness for Gas Warfare in Theaters of Opns, pp. 437-75. (3) Mollen, History of Cml 
Warfare Sup—SWPA, World War II. THEATER SUPPLY: PACIFIC 
255 
organization for supply dictated by these conditions. Other factors, 
such as War Department priority, perpetual shortage of manpower, 
and the nature of the SWPA organization also played a part. In theory 
SWPA supply operated just as it did in other theaters. SWPA was first 
concerned with insuring TBA and tables of organization and equip- 
ment allowances for all its organizations and units. It was secondly 
interested in establishing regular maintenance quotas, usually 30 days’ 
supply, which moved forward with combat units, or were held in rear 
area depots or unit supply for rear area units. A third task was estab- 
lishing theater reserves set at 60, 90, 150, or 180 days’ supply by the 
War Department (OPD), as calculated against the War Department 
approved troop basis. All this was the normal business of supply which 
was handled and computed in just about the same way by SWPA 
personnel, by the office of the chief of the War Department technical 
service, and by the responsible port of embarkation. 
In the CWS SWPA, as mentioned above, once the initial problems 
of determining area strength and authorizations and initial supply 
status of units and organizations had been solved, "normal” supply 
became a matter of forwarding requisitions for shortages in initial 
equipment, maintenance, and area reserves. The complication here 
became one of knowing what to ask for since poor communication 
frequently left SWPA chemical officers in the dark as to what was 
available, or what changes had been made in equipment and allowances, 
or what new items had been added to the system. Part of this burden 
was removed by the port of embarkation which automatically filled 
shortages disclosed by the theater’s materiel status reports, but this 
and other automatic supply created problems in unwanted equipment 
such as gasproof curtains, and 20,000 horse gas masks in a virtually 
horseless area.08 Materiel status report supply also frequently arrived 
in the theater so many months after the report went forward that the 
conditions cited and basis for stockage no longer existed.’4 But these 
"normal” supply problems existed in every theater and were only 
more difficult in degree in SWPA because of serious shortages and 
failures of communications. Much more difficult were the special 
requisitions problems. 
Again in the special requisitions area, the theaters operated on the 
same basis. All theater chemical officers submitted special requisitions 
53 Grothaus-Brady Rpt. 
51 Ibid. 
289-149 0-68—18 THE CHEMICAL WARFARE SERVICE 
to build up gas warfare preparedness, and in all theaters special requi- 
sitions or special projects originating with combat organizations were 
the very basis of tactical supply. In the North African-Mediterranean 
theater special requisitions sometimes brought wanted tactical require- 
ments, but when special requisitions failed, organization chemical offi- 
cers like Colonel Barker, with the help of service chemical officers like 
Colonel Coblentz, improvised their own requirements and handled 
them through their own channels. In the European theater special 
requisitions seldom brought the items the theater wanted from the 
United States, but General Rowan and his staff controlled chemical 
supply through an individual system that had matured for two years 
before it was put to the test of combat. Rowan and his staff could call 
upon the comparatively abundant resources of the European build-up 
and of the British allies. The chemical special operational projects in 
Europe were evolved in close co-ordination between combat and service 
elements, and the bulk of supply came from theater stocks managed 
in the theater by the service elements. For example, base section chem- 
ical officers could come in for weekly conferences with their theater 
chief, and, on the Continent, service elements, such as Colonel Stubbs’s 
ADSEC Chemical Section, were in daily contact with the combat 
organizations. Transportation and communication in Europe were 
overburdened, but the distances were shorter and the road and other 
facilities vastly superior to those of the Pacific. The differences in 
degree in SWPA were so great as to be almost differences in kind. 
When Sixth Army became the major SWPA American ground ele- 
ment, on a level co-ordinate with USASOS, in February 1943, it 
assumed responsibility for tactical supply. Colonel C. L. Marriott, 
Sixth Army chemical officer, arrived in Australia with the second 
echelon of the army in April but remained only a short time before 
moving forward to Milne Bay with Alamo Force, a task force 
created in June 1943 from Sixth Army troops, and in fact a forward 
echelon of the army. Marriott’s office was thus separated by 1,200 
air miles from Copthorne’s. Marriott’s assistant, Major McKinney, 
remained in the Sixth Army headquarters. The only expeditious means 
of communication was by radio, but with such heavy demands on the 
radio net, normal communication was by letter or informal memo.00 
v’ (1) Mary H. Williams, Chronology 1941-/945, UNITED STATES ARMY IN WORLD WAR II 
(Washington, i960), pp. 93, 114. (2) General Walter Krueger, From Down Under to Nippon 
(Washington: Combat Forces Press, 1953), pp. 6-10, and app. 1, THEATER SUPPLY: PACIFIC 
257 
Responsibility for CWS operational supply projects rested with Mar- 
riott. Since he had very little assistance and since, after the move to 
Alamo Force at Milne Bay, even his own section was divided, most of 
the supply policy load fell directly upon his own shoulders. But even this 
was not difficulty enough in the difficult Pacific area. He lacked the 
logistic information and means of transportation, and his ability to 
improvise locally was practically nil, since there was no available civilian 
source of transportation and no substitute line of communication to 
Allied forces such as many field chemical officers had. New Guinea 
had no motor roads, no industry, and only a little unskilled manpower. 
Air transportation carried very high priority and water transportation 
was at a premium. Until 13 November 1943, he could deal with the 
Chemical Officer, Advance Section, USASOS, at Port Moresby. From 
13 November until 31 March 1944 he dealt with chemical officers of 
Advance Section at Lae and Intermediate Section at Port Moresby. 
But miles of water or air lay between the USASOS sections and his 
office in Alamo Force headquarters, which was at Milne Bay until 
October, at Goodenough Island until December, and near Finschhafen 
until May 1944.06 
Requirements, and Transportation 
Marriott spent much of his time in 1943 simply in determining how 
SWPA interpreted chemical supply, what channels existed, how much 
subordinate elements wanted, and where to store the immediate supply 
demands of organizations. In June 1943 USASOS provided that requi- 
sitions for TBA equipment should be submitted to base section chemical 
officers who could fill them without further reference. Requisitions 
for supplies in excess of TBA had to be approved by Marriott and for- 
warded to USASOS. The availability of non-TBA items in USASOS 
depended upon the ability of the USASOS Chemical Section supply 
officers to predict unusual issues and to persuade the United States 
authorities to ship them. Transportation could be obtained either by 
theater allotment of space, which was controlled in GHQ, or by San 
Francisco Port of Embarkation allotment. USASOS sometimes issued 
credits for controlled (non-TBA or scarce) items to Sixth Army for 
Marriott’s suballotment, but each issue against credit had to be approved 
■’l> (1) Krueger, From Down Under to Nippon, pp. 12-15. (2) Mollen, History of Cml Warfare 
Sup—SWPA, World War II. 258 
THE CHEMICAL WARFARE SERVICE 
by USASOS through the issuing base.57 Unusual issues of TBA, such 
as for the ist Marine Division which arrived from South Pacific area 
fighting minus much of its equipment, were approved through 
USAFFE, Sixth Army’s administrative (not operational) command 
channel, to USASOS.58 
Sixth Army forwarded operational projects to GHQ SWPA and 
in the course of preparing such a project in June, Marriott, bypassing 
technical channels, pointed out to the supreme command that confusion 
existed as to the meaning of the term CWS supplies.™ He indicated 
that the prohibition against the use of toxics led some staff officers to 
believe that smoke and incendiary shells and grenades, chemical ammu- 
nition then issued by Ordnance, were also prohibited. The belief also 
existed that protective equipment and chemical ammunition were 
restricted to a 30 days’ supply, and problems arose because some pro- 
tective equipment (such as protective clothing and covers) were issued 
by Quartermaster on a 90 days’ supply basis while other equipment 
(gas mask, protective ointment, and shoe impregnite) were issued by 
CWS, apparently on a 30 days’ basis. USAFFE, where Copthorne’s 
office was then located, replied without reference to GHQ that the 
Ordnance-issued items were to be used since they were not toxics. 
The theater administrative headquarters also indicated that tactical 
planning should encompass TBA plus 30 days’ maintenance and 30 
days’ reserve for Classes II and IV. For ammunition supply USAFFE 
prescribed basic units of fire for initial issue and provided that mainte- 
nance and reserves be calculated in days of supply.60 Reserves were 
parceled out among intermediate bases by the combat organizations. 
The headquarters regretted confusion resulting from the issue of pro- 
tective equipment by two services and indicated that action had been 
initiated to make all protective equipment the responsibility of one 
service.61 
With the possible exception of information on specific day of 
CT Ltr, CmlO USASOS to Base Sec and Subbase CmlO’s, 6 Jun 43, sub: Requisition Channels for CWS 
Sups. USASOS GSCW 400.312 in Sixth Army 400 Sups (General). 
68 Ltr, CG Sixth Army to CG USASOS through CG USAFFE, 18 Jun 43, sub: Cml Warfare Equip 
for 1st Marine Div (Sixth Army AG 400W), with 1st Ind, CG USAFFE to CG USASOS, 27 Jun 43 
(USAFFE FECW 470.6), and 2d Ind CG USASOS through CG USAFFE to CG Sixth Army, n.d. 
(USASOS GSCW 457/29). All in Sixth Army 400 Sups (General). 
59 Ltr, CG Sixth Army to CG SWPA through CG USAFFE. 
60 For definitions of days of supply, units of fire, and classes of supply, see above, Chapter III. 
flt 1 st Ind, CG USAFFE to CG Sixth Army, 27 Jun 43, on basic Ltr above. USAFFE FECW 475 in 
Sixth Army 400 Sups (General). THEATER SUPPLY: PACIFIC 
259 
supply and unit of fire allowances, Marriott certainly learned nothing 
he did not already know. His letter was undoubtedly prompted by a 
desire to "get something on paper” which would establish an operational 
planning base and at the same time set headquarters thinking about the 
assignment of responsibilities. The responsibility for protective items, 
despite the USAFFE assurance, remained divided between CWS and 
Quartermaster, but the SWPA responsibility for storage and issue of 
chemical grenades was transferred from Ordnance to CWS in Sep- 
tember. Chemical and incendiary bombs remained an Ordnance re- 
sponsibility, but the CWS was newly charged with inspection and 
servicing of the munitions.62 If Marriott had indeed sought a transfer 
of responsibility for all chemical items to CWS supply authority, he 
learned, as the following events demonstrated, to regret it, because he 
found that the CWS had acquired so much responsibility as to make 
handling the forward supply job a huge burden. 
Supply Procedures and Their Application 
Just two days before the transfer of responsibility from Ordnance 
to CWS, Alamo Force prescribed supply procedures for combat troops. 
Each special staff section was assigned to prepare requirements and to 
oversee and record distribution of the items in its province. The 
USASOS requisition procedure was followed in that units would 
requisition directly on base commanders while approval channels were 
through the army staff section.63 Marriott was launched into a hectic 
period of dealing with loading and unloading, storage, maintenance, 
and combat replacement of the small quantities of the comparatively 
few chemical items which were so easily misplaced, misappropriated, 
and misspent among the vast quantities of material moving over the 
vast distances of the Pacific. 
Probably as much at Marriott’s behest as for his own use, Copthorne 
attempted, also in September 1943, to obtain the latest logistics tables, 
TBA’s, and TOE’s from the CCWS.64 This information was not imme- 
83 Ltr, CG USAFFE to CG’s Sixth Army, Fifth Air Force, and USASOS, 8 Sep 43, sub: Allocation of 
Ordnance and Cml Warfare Functions (USAFFE ECW 321.011), with 1st Ind, CG Sixth Army to 
Distr, 22 Sep 43 (Sixth Army AG 322-W), in Sixth Army 400 Sups (General). 
63 CG Alamo Force to Distr, 6 Sep 43, sub: SOP for the Sup and Resup of Outlying Forces. Sixth 
Army 400.3 11—Req-Proc and Sup. 
84Ltr, CCmlO USAFFE to CCWS, 25 Sep 43, sub: Logistic Planning Tables, CWS. USAFFE FECW 
400.301. 260 
THE CHEMICAL WARFARE SERVICE 
diately forthcoming, but McKinney did get USAFFE unit of fire data 
which he sent to Marriott and subordinate chemical officers on 4 Oc- 
tober, and Marriott promptly issued an Alamo Force version.65 But 
he still lacked information on grenades. A month later he wrote to 
McKinney that it was embarrassing not to know the particulars on 
these items for which he was responsible. Declaring that someone must 
have the information, he briefly ordered, "Shell out.” 66 
Preparations for the forthcoming Arawe-Cape Gloucester-Saidor 
offensive were more important than obtaining a set of logistical data. 
Organizations were about to move out from Australia. McKinney, at 
a conference in Copthorne’s office (Copthorne had now returned from 
USAFFE to USASOS) apparently charged that not enough was being 
done for the combat forces. Fie particularly urged that division chem- 
ical officers be given advance information on their supply status.67 
Copthorne’s men, who were older hands at fighting the battle of Pacific 
transportation, must have appeared un-co-operative since there was 
little they could do that had not already been done. USASOS ele- 
ments had only limited ability to provide transportation and no official 
power to assess tactical supply preparations. Movement and allotment 
priorities must come from Sixth Army, and, since supply was strictly 
interpreted as a command function in SWPA, only Sixth Army could 
furnish supply status data to combat organizations. Furthermore, 
USASOS chemical officers never knew when materiel would move. It 
was their legitimate practice to ship maintenance with outgoing units 
so that it might be withdrawn to stock forward bases. There it would 
be available to supply the same units or others in critical need. The 
point was that conditions of movement and storage in SWPA were so 
poor that the area command could not afford to permit combat organi- 
zations to attempt to carry along all their supplies into an assault. 
The only result would be wastage, and wastage as high as 90 percent 
of protective items had already been experienced in assaults.68 
Sixth Army was not long in seeing the point. On 12 October 1943, 
Marriott notified the Chemical Officer, Advanced Echelon, USASOS, 
86 (1) Ltr, ACmlO Sixth Army to CmlO Alamo Force et al., 4 Oct 43, sub: Cml Warfare Unit of 
Fire Table. Sixth Army 400.314 Estimated Rqmts. (2) Memo, CmlO Alamo Force, 13 Oct 43, sub: 
Approved Unit of Fire Table for Cml Warfare Ammunition. OCmlO Sixth Army—Memos from 
Forward Echelon. 
68 Memo, Marriott for McKinney, 14 Nov 43. Sixth Army AG 300.6 Misc Memos. 
67 Memo, McKinney for Marriott, 3 Oct 43. Sixth Army AG 300.6 Misc Memos. 
88 (1) Mollen, Cml Warfare Sup—SWPA, World War II. (2) Grothaus-Brady Rpt. THEATER SUPPLY: PACIFIC 
261 
of his intended distribution of Sixth Army ammunition supplies among 
the New Guinea subbases, and he indicated the initial issues that would 
be required from each base.'11 McKinney’s principal task then became 
getting the transportation that USASOS could not get. Base section 
chemical officers had become adept at locating and using any nook or 
cranny not spoken for in any kind of shipping headed for New Guinea, 
but supply of the scope required by Sixth Army called for more space 
than they could find. McKinney appealed to the Regulating Officer, 
GHQ, who was in charge of all SWPA transportation allotments, and 
also appealed to Sixth Army general staff members to assist in obtaining 
priorities for chemical items.70 
Procedures Questioned 
Marriott was naturally concerned about having McKinney do a trans- 
portation job which he felt should be done automatically in connection 
with operational planning. He further objected to being separated 
from his own section by 1,200 miles and to doing business with the 
USASOS main echelon from the same distance. Copthorne made a 
tour of New Guinea bases at this time and talked these points over 
with Marriott. Copthorne agreed that Marriott should deal with the 
chemical element of Intermediate Section at once and with that of 
Advanced Section as soon as that section was set up to handle his 
requests. Copthorne emphasized, both while in New Guinea and in a 
letter upon his return, that under the circumstances planning must 
come from Marriott and that only Marriott was in a position to clear 
information to the combat elements on the one hand and to the 
USASOS base elements on the other. He forcefully pointed out that 
the base elements could be prepared to meet demands upon them only 
if they knew the complete supply plan—how much material had been 
issued, how much was to be issued and maintained, and who was au- 
thorized to receive supplies. During his trip Copthorne discovered 
that one base chemical officer had reissued ammunition TBA to a 
division since he did not know that the division had already received it. 
Another division refused to relinquish an overage of flame thrower fuel 
69 Ltr, CmlO Alamo Force to CmlO Adv Echelon USASOS, 12 Oct 43, sub: Stockage of CWS Class 
V Items. Sixth Army 475 Weapons for Jungle Warfare. 
‘° (1) Mollen, Cml Warfare Sup—SWPA, World War II. (2) Memo, Cml Sec for ACofS G-4 
through ACofS G-3 Sixth Army, 12 Nov 43, no sub. Sixth Army 400 Sups (General). (3) Memo, 
McKinney for Marriott, 14 Nov 43. Sixth Army AG 300.6 Misc Memos. 262 
THE CHEMICAL WARFARE SERVICE 
because it feared future unavailability. At least part of this fear was 
justified, but if every organization was not supplied on the same basis, 
the supply system would soon fail. Copthorne had neither the authority 
nor the channels to correct these situations. Marriott chided Copthorne 
for ordering base chemical officers to suspend issue in some cases, but 
Copthorne could do no less in trying to prevent misapportionment of 
resources.71 
Except for the instances of maladjustment in issue and lack of 
knowledge by the base chemical officers of specific resupply require- 
ments for ammunition, the base supply status met minimum require- 
ments (30 days’ for Sixth Army’s 180,000 strength) at the time of 
Copthorne’s visit. The only items deficient were the 1 x/z -quart decon- 
taminating apparatus (19.9 days) and the Mi 5 white phosphorus gre- 
nade, of which there were none.72 The WP grenade deficiency was 
not a local failure; there were no stocks in any theater. When WP 
grenades did become available SWPA got them first, and a supply of 
these was in the forward bases by 1 5 December.'8 The Oro Bay base 
was below 30 days’ Class II supply in October and just above 30 days 
in November, but, presumably at Marriott’s direction, the Port 
Moresby base compensated with 67 days in October and 76 days in 
November.74 The only supply complaint noted in the period was one 
from the 24th Infantry Division pointing out a shortage of SWPA- 
modified training masks, but again this was not a local failure. The 
10th Chemical Maintenance Company was awaiting the arrival of new 
canisters from the United States in order to begin waterproofing.7'’ 
During the combat operations a shortage of hydrogen cylinders for 
flame throwers developed, but this too was a problem which was not 
solved locally for some time since there was no regular channel of 
supply for commercial gases.76 
71 (i) Memo, Marriott for McKinney, 27 Oct 43, no sub. OCmlO Sixth Army Memos from For- 
ward Echelon. (2) Memo, Marriott for McKinney, 1 Nov 43, no sub. (3) Personal Ltr, Copthorne 
to Marriott, 13 Nov 43. (4) Memo, Marriott for McKinney, 21 Nov 43, no sub. All in Sixth Army 
AG 300.6 Misc Memos. 
'2 Memo, CmlO Intermediate Sec USASOS, for G-4 Intermediate Sec, 24 Nov 43. USASOS Inter- 
mediate Sec 400.314 in Sixth Army 400.314 Estimated Rqmts. 
73 Memo, ACmlO Intermediate Sec USASOS for G-4 Intermediate Sec USASOS, 17 Dec 43, no sub. 
Intermediate Sec 400.314 in Sixth Army 400.314 Estimated Rqmts. 
74 Ibid. 
75 Ltr, CmlO Sixth Army to CmlO 24th Div, 23 Nov 43, sub: Training Masks, Waterproofed for 
24th Infantry Div. Sixth Army Cml Warfare 470.72 in Sixth Army 470.72, Gas Masks No. 4. 
76 Memo, ACmlO Intermediate Sec USASOS for G-4 Intermediate Sec USASOS, 17 Dec 43, no sub. 
Intermediate Sec 400.314 in Sixth Army 400.314 Estimated Rqmts. THEATER SUPPLY: PACIFIC 
263 
Tactical Procedures Set 
By the end of the first week in December there was little more that 
Marriott and McKinney could do. Fighting in the Pacific was savage 
and intense but usually brief, so that once forces were committed in a 
campaign there was practically no hope of getting even resupply from 
distant bases or from the United States unless it was already on the way. 
Sixth Army Chemical Section planning turned to supplying training 
munitions for the next break in combat, and support of the combat 
forces consisted of juggling supplies at the forward bases to permit 
maximum availability,7' 
Marriott took the occasion to write to chemical officers at subordinate 
echelons asking that statements of requirements for future operations 
come early and in full detail. The only way to avoid the last-minute 
hustle which had just been experienced was to plan far enough ahead 
so that CWS claims on shipping and storage could be entered months 
in advance. Marriott realized that the supply element of Copthorne’s 
office should not be placed in the position of having to outguess the 
combat elements in order to place requisitions on the United States 
in time to receive any material.78 
As new campaigns began in early 1944, it became obvious that it 
was no longer possible to start from scratch. In order to keep supplies 
moving, the Sixth Army Chemical Section had to know what had been 
expended and what was on hand. Marriott and McKinney experienced 
considerable difficulty in obtaining expenditure and status reports from 
task forces in widely scattered locations. This failure was particularly 
frustrating since, at the expense of much effort, they had secured 
service detachments or at least junior officers to accompany those task 
forces without chemical sections. The primary duty of these detach- 
ments was flame thrower service, but the officers were also charged 
77 (1) Memo, Cml Sec Alamo Force for CmlO Advance Base A, 7 Dec 43, no sub. Sixth Army 
300.6 Memos (Alamo Supply Point No. 1). (2) Ltr, CmlO Alamo Force to CmlO Advance Base B, 
1 Dec 43, sub: Routing of Requisitions. Sixth Army 400.3 11 Requisitions. (3) Ltr, CmlO Alamo 
Force to CWSO Backhander Task Force, 2 Dec 43, sub: Routing of Requisitions. Sixth Army 
400.311 Requisitions. (4) Memo, Marriott for Riegelman, CmlO I Corps, 13 Dec 43, no sub. Sixth 
Army AG 300.6 Memos—I Corps. (5) Ltr, CCmlO USASOS to CmlO ADSOS, 30 Dec 43, sub: Ship- 
ment of Sups by Alamo Force. Sixth Army AG 300.6 Memos—ADSOS. 
78 (1) Memo, Marriott for Lt Col K, W. Haas, CmlO 1st Cavalry DIv, 30 Nov 43. (2) Memo, 
Marriott for Riegelman, 30 Nov 43. Both in Sixth Army AG 300.6 Memos. 264 
THE CHEMICAL WARFARE SERVICE 
with handling supply. It was finally necessary to secure a command 
letter to get some of the reports.79 
By the end of February 1944 Marriott was thoroughly disgusted 
with the detailed supply operation which had been the lot of the Sixth 
Army Chemical Section. He wrote to Copthorne that he had come to 
the conclusion that "we were sweeping water up hill.” 80 Considering 
the small quantity of chemical supply, he believed that Ordnance would 
feel no additional strain on handling chemical ammunition, and he 
felt that Ordnance would not need a separate system as did the CWS. 
He wanted more time to devote to tactical policy and gas warfare 
protection and he felt he could get the time only by disposing of a 
part of his supply burden.81 
There was some justice in Marriott’s comments. The quantity of 
chemical supply was very small, but perhaps precisely for that reason, 
chemical materials tended to be lost when handled by another service. 
But Marriott was not to be relieved of his supply burden; if anything, 
it increased. USASOS did offer some help. The Distribution Division, 
USASOS, had been created in January specifically to handle Sixth 
Army’s most vexing problems—transportation and distribution policy. 
The veteran CWS supply manager, Maj. Arthur H. Williams, Jr., 
moved into the position of Chemical Officer, Distribution Division. 
The Distribution Division operated as a field element of USASOS and 
it moved forward ahead of the main echelons.82 The USASOS com- 
mander, Maj. Gen. John L. Frink, also redefined the duties of USASOS 
Advance and Intermediate Sections. Effective 1 March 1944, Advance 
Section became a transportation and handling agency and Intermediate 
Section took over the command of all forward bases and the supervision 
of supply policy.83 Since the Distribution Division soon moved into 
Intermediate Section, the Sixth Army Chemical Section at last had 
79 (i) Ltr, ACmlO Alamo Force to CmlO US Forces APO 321, 21 Jan 44, sub: CWS Resup 
Michaelmas. Sixth Army 471.6 Grenades. (2) Memo, McKinney for CmlO Alamo Base 2, 21 Jan 
44, no sub. Sixth Army 400 Sup. (j) Ltr, ACmlO Alamo Force to CCmlO USASOS, 25 Jan 44, 
sub: Ammunition Status Rpts. Sixth Army 471 Ammunition. (4) Memo, Col Marriott for Col R. N. 
Gay, CmlO ADSOS, 31 Jan 44, sub: CWS Units. Sixth Army AG 300.6 Memos, (j) Ltr, CG 
Alamo Force to CG Dir Task Force, 2 Feb 44, sub: Cml Ammunition Rpts. Sixth AG 471W in Sixth 
Army 470.71 Ammunition. 
80 Personal Ltr, Marriott to Copthorne, 26 Feb 44. Sixth Army 472.4—4.2 inch Cml Mortar. 
81 Ibid. 
82 History of Distr Div USASOS. OCMH MS. 
83 Ltr, CG USASOS to CG’s ADSOS and Intermediate Sec, 25 Feb 44, sub: Functions and Responsi- 
bilities of ADSOS and Intermediate Sec. Sixth Army 323.31 Development of Bases. THEATER SUPPLY: PACIFIC 
265 
USASOS officers with considerable resources close at hand. Still, the 
Sixth Army Chemical Section devoted much of its time to supply and 
service. 
Marriott issued a new unit of fire table on i March because he was 
still responsible for tactical requirements and planning.84 Also, now 
that some support problems were handled by USASOS, the forward 
area problems increased. The inexperienced, young junior officers with 
the task forces lacked the knowledge to handle supply, and Marriott’s 
office was frequently called upon to give detailed instructions at the 
regimental combat team level. In many cases Marriott sent out the 
officers of his own section to inspect or to clear up a field supply 
problem.85 
The introduction of chemical mortar battalions to the Pacific and 
the increased use of the flame thrower also added to supply duties. 
Every task force chemical section whether of divisional size or smaller 
was now more than ever engaged in combat loading and unloading, in 
collecting supplies on beachheads, and in furnishing support, such as 
flame thrower fuel mixing, in forward areas. These elements all re- 
ported expenditures and special requirements and problems. In each 
case the Sixth Army Chemical Section had a function of planning, 
reviewing, or directing operations.86 
By the middle of 1944 replacement factors had been increased, supply 
was more plentiful, and items received were in better shape. The first 
block-loaded ships were then being prepared in San Francisco, and the 
Sixth Army Chemical Section took advantage of this means to resupply 
ammunition. Block-loaded ships were those vessels with loads specially 
designed to support a task force with a balanced variety of supplies. 
The materiel was loaded so that discharge could be effected easily and 
expeditiously, and loads were so marked that accounting and reporting 
problems were greatly reduced. Each block-loaded ship came into a 
USASOS base and waited there to be called forward for the support 
84 Ltr, CG Sixth Army to Distr, i Mar 44, sub: Unit of Fire Table for Cml Warfare Ammunition. 
Sixth Army AG 47 iW. 
85 (1) Memo, SupO Sixth Army Cml Sec for CmlO Alamo Force, 24 Mar 44, no sub. (2) Memo, 
CmlO Alamo Sup Point No. 1 for CmlO Alamo Force. (3) Memo, Marriott for Riegelman, 11 Apr 
44. (4) Memo, CmlO Alamo Sup Point No. 1 for CmlO Alamo Force, } May 44. All in Sixth 
Army AG 300.6 Memos. (5) Ltr, CmlO Alamo Force to CO Det 93d Cml Composite Co, 8 Mar 44, 
sub: Maintenance Factors. Sixth Army 470.72 Protective Equip. 
**(1) CmlO 41st Inf Div, n.d., Rpt, Cml Phase and Sec Hist Red of Horlicks [Biak] Opn. 
Sixth Army 350.05 Biak. 266 
THE CHEMICAL WARFARE SERVICE 
of an appropriate task force. The block-loaded procedure facilitated 
supply on Leyte.87 
Colonel Marriott was invalided home in July 1944, so that he did 
not see the effect of the block-loaded ships upon his supply operation. 
By the time of his departure the pattern of supply was well set, and 
although there were problems, such as the inability of USASOS to 
move bases forward fast enough when combat reached the southern 
Philippines and a critical supply shortage late in 1944, there was no 
essential change in the chemical tactical supply operation until the end 
of the war.88 
Chemical officers in the Southwest Pacific faced the most difficult 
supply task experienced by the CWS during World War II. The hard- 
ships faced by chemical officers in other theaters—lack of supply infor- 
mation, immensely complicated requirements, requisitioning, and re- 
view systems, shortage of critical items, and the early poor condition 
of equipment—were all compounded by distance, tropical conditions, 
and lack of channels and facilities in SWPA. As a result SWPA chem- 
ical officers developed a series of expedients which were at times unusual 
and often ingenious. By employing these expedients they did build up 
area reserves and they did provide the combat forces with both materiel 
and service. It does seem possible in retrospect that their task, which 
was never an easy one because of the unpredictable and almost over- 
whelming difficulties of tropical warfare, might have been somewhat 
more simply and more expeditiously handled had logistical planning 
received more emphasis both in the theater and in the War Department. 
The Theater Supply System, Central Pacific 
Supply in the Emergency Period 
The CWS Hawaiian Department in December 1941 stocked more 
chemical items than any other overseas element of the Army.89 Major 
87 (i) Memo, Cml Sec Sixth Army for Mollen, 30 Jun 44, no sub. In Sixth Army 400 Supplies. 
(2) Mollen, Cml Warfare Sup—SWPA, World War II. 
88 (1) Mollen, Cml Warfare Sup—SWPA, World War II. (2) Ltr, CmlO Base K to Distr, 4 Dec 
44, sub: Critical Items CWS Class II and IV. Base K KCWS 400.301 in Sixth Army 401.1 Critical 
Items. (3) Ltr, CmlO Base K to CmlO Subbase K and Cml SupO Base K, 5 Dec 44, sub: Issue of Cml 
Warfare Equip and Sups. Sixth Army 400 Supplies. 
89Unless otherwise noted, this and the following sections are based on the History of the CWS in the 
Middle Pacific. THEATER SUPPLY: PACIFIC 
267 
McMillin, Chemical Officer, Hawaiian Chemical Depot, was prepared 
to issue 60,000 service gas masks when, less than an hour after the 
Japanese attack on Pearl Harbor began, Colonel Unmacht, department 
chemical officer, ordered distribution. The departmental CWS also 
stocked about 90 tons of bleach, no tons of chemicals for impregnating 
permeable protective clothing, and nearly 25,000 gallons of noncorro- 
sive decontaminating agent. Several thousand hand decontaminating 
apparatus and a completely inadequate supply of personal protective 
ointment completed the defensive stock.90 
The CWS stored some ammunition, smoke agents, and toxic agents, 
about eleven tons of FS smoke, 3,000 HC smoke pots, and nearly 500 
tons of bulk toxics almost evenly divided between persistent and non- 
persistent gases. The departmental ordnance officers stored some toxic 
and smoke-filled ammunition. The departmental CWS carefully 
hoarded 32 4.2-inch chemical mortars, aware that the whole Army 
had only 44.91 
Since Unmacht’s first responsibility was to insure gas warfare pro- 
tection and a defensive potential for troops, as noted above, he at 
once directed that impregnating and bleach production operations start, 
and he also set out to procure cans to be filled as chemical land mines. 
On 10 December 1941 he cabled the Chief, CWS, for funds to procure 
materials and to operate and to convert plants. The theater CWS 
assumed that the War Department would immediately ship TBA 
equipment for the known troop strength in the Hawaiian Department, 
but in case such material should not be en route, Unmacht on 17 De- 
cember cabled for 60,000 suits of protective clothing, 25 tons of im- 
pregnite, nearly 200,000 tubes each of shoe impregnite and protective 
ointment, and training masks, dust respirators, gasproof curtains, and 
chemical mortar shell. The request was amended on the following day 
to include more mortar shell, bleach, children’s masks, and respirators 
for babies. 
By the end of December most of the protective equipment on hand, 
including all but about 5,000 service masks and 5,000 training masks, 
had been issued to troops, and issues to civilians began. The War 
Department emergency shipments including training masks for civil- 
ians began to arrive in January. Within ten days 1 5,673 masks had been 
90 Weekly Rpt for the CofS, CWS Munitions on Hand as of 12 Dec 41, OC CWS, dated 20 Dec 41. 
CWS } 19.1/2249. 
91 Ibid. 268 
THE CHEMICAL WARFARE SERVICE 
issued to civilians, and by i March 1942 393,680 of the eventual 
425,699 had been distributed. Local workers added nearly 38,000 
"bunny” hoods, substitutes for nonavailable children’s masks, to the 
total. 
Chemical Supply Reserve 
The first department report on supply status to the War Depart- 
ment G~4 in October 1942 revealed no serious supply problem except 
the lack of service personnel. The depot was severely handicapped in 
the operation of 3 subdepots on Oahu, 3 in outlying islands, and 5 
production plants. In Unmacht’s opinion the one chemical depot com- 
pany activated in the theater in March and the one decontamination 
company which arrived in June were already overburdened. Theater 
stock was not up to the prescribed 7 5-day reserve level, but the San 
Francisco port was keeping the theater informed on the progress of 
requisitioned shipments, and automatic supply on less important items 
was steadily building toward the stockage goal. There is little sense of 
urgency in the report, probably because the department was enjoying 
a lull between the emergency period and the combat period. 
The March 1943 report does reflect a sense of urgency. Requisition- 
ing responsibility had been transferred from the depot to the depart- 
mental chemical office because supply planning for CENPAC combat 
forces was now in prospect. The failure to maintain authorized stock 
levels had become serious because large-scale issues of TBA equipment 
contemplated would deplete area reserves. The departmental CWS 
had run into the problem of requisitions edited in the United States, 
a problem which plagued all theater chemical officers. The port had 
supplied in the requested quantity only two items of a 19-item requisi- 
tion placed in November 1942; fourteen items were disapproved with- 
out statement of cause. Even more serious in the view of departmental 
chemical officers was the fact that training ammunition supplies were 
running out in a period of intensive training. 
The CWS in Hawaii could report no improvement in June, but in 
September 1943 the theater reported that relief had been received. 
The War Department authorized for the Central Pacific Area a 60-day 
operating level in addition to the 7 5-day reserve level, and the port 
authorized an additional "pipeline” factor. The "pipeline” factor al- 
lowed the Hawaiian Department to requisition additional supplies to THEATER SUPPLY: PACIFIC 
269 
maintain levels during order and shipping time. TBA issues for combat 
forces, of which the first was then mounting, could then be handled 
without difficulty. 
On i July 1944 the Chemical Office, Central Pacific Base Command 
(CPBC), assumed the logistics functions except for broad policy and 
long-range planning which remained the province of Unmacht’s chem- 
ical office. This transfer placed stock level and TBA issue problems in 
CPBC hands. It also gave the Chemical Office, CPBC, supervision of 
the combat supply and resupply system which had been inaugurated 
for the earliest theater operation against the enemy in the Gilbert 
Islands in November 1943. 
Toxic Sitpply 
Another reserve problem was that of toxic supply. As the first gas 
warfare plan indicated, the 500 tons of toxic on hand at the time of 
the Pearl Harbor attack would have been sufficient, taking into account 
the retaliation then possible. As strength grew and weapons and air- 
craft became available, the CWS in CENPAC realized that 500 tons 
represented hardly a token amount for retaliation even under the 
assumption that retaliation would take place on one of the small 
Pacific islands. The CWS consequently persuaded Army and Army 
Air Forces commands to requisition toxics. Some were received and 
stored by Ordnance with CWS maintaining the responsibility for in- 
specting munitions in storage. Between July and November of 1944 
the peak stock of 498.5 short tons of bulk lewisite was on hand as well 
as the peak stockage of 1,126.5 tons °f toxics that went into bombs. 
Other peak stockages for bulk mustard, artillery shell, and chemical 
mortar shell were attained in the first half of 1945. 
CWS officers judged the 100-pound mustard-filled bomb as the 
most important munition for retaliation. The peak stock on this item, 
attained in July 1944, was 15,244 bombs with 541.2 tons of toxic filling. 
This supply was token only. If, for example, this entire supply had 
been used on Iwo Jima, which had an area of seven and one-half square 
miles, it would only have contaminated a little more than half, or four 
and one-half square miles.92 Considering the vapor effect of mustard 
and the fact that the entire island would not have been regarded as a 
target, the stock would have been sufficient for one contamination. In 
92 These computations were made using the standard World War II manuals. 270 
THE CHEMICAL WARFARE SERVICE 
the opinion of most chemical officers one contamination would have 
been enough to end all enemy resistance on the island. The question 
of resupply for other objectives would then arise. According to 
Generals Porter and Waitt an actual initiation of gas warfare would 
have given the CWS sufficient priorities to effect resupply, by air if 
necessary, from the west coast.93 
From the point of view of supply on hand the CWS in CENPAC 
was only prepared to make an initial gas warfare strike. But, since 
CENPAC had better lines of communication to the United States than 
most overseas areas, gas warfare could have been sustained. 
Chemical Warfare Tactical Stipply, Central Pacific 
Tactical Supply Policy 
The essence of the combat supply and resupply lay in the nature of 
Central Pacific combat. The Joint Chiefs of Staff scheduled area forces 
to take a number of small and fiercely defended islands and atolls lying 
across the expanse of the Pacific. Early supply base development in 
most of these objectives was out of the question—they were too small 
and too far away from main bases, or even if they were large enough 
for base development the distance between them was so great that it 
was impossible to establish a string of forward bases in the SWPA 
pattern. Each ground and sea combat operation had to be complete 
in itself. The assigned combat force took the objective as rapidly as 
possible and withdrew leaving a small or, in the case of Marshalls and 
Marianas, a large garrison to clean up and prepare the objective for 
such use as could be made of it. Any resupply was destined for the 
garrison only. These island garrisons sometimes built large bases but 
they usually served the air forces rather than ground combat forces. 
The U.S. Army Forces in the Central Pacific formed seven provisional 
garrison battalions before a single objective was taken. Each supply 
plan was made on the assumption, which proved correct, that the 
ordinary requisition or allotment procedures used in other theaters 
would not work. All supply for the combat forces must be at sea 
before the forces arrived at their objective, and garrison force supply 
had to be in the area as soon as garrison forces could receive it. In this 
93 (i) Porter Interv, 24 Aug 61. (2) Waitt Interv, ij May 61. THEATER SUPPLY: PACIFIC 
271 
circumstance, supply could hardly be a function of the combat com- 
mand. Logistic plans for each operation were a joint product of 
combat, garrison force, and theater planners. Tight logistical control 
was essential. Consequently, supply plans were originated by the 
combat staffs working with the technical service staffs. These pre- 
liminary plans were approved and co-ordinated at general staff echelons 
and forwarded to the Commander in Chief, POA, for the strategic, 
tactical, and logistical last word. The tight control came from the 
management of transportation by the Commander in Chief, POA. 
Every inch of transport space had to be allocated by strict priorities 
since shipping was short, since all essentials had to be carried, and since 
an amphibious force operating at such distances from a base had to be 
of an easily manageable size. 
The First Test—The Gilberts Operation 
In the Gilberts operation assaulting troops carried full initial allow- 
ances plus 30 days’ essential maintenance and five units of fire computed 
according to War Department replacement factors.94 An additional 
30 days’ maintenance accompanied garrison force troops. Then addi- 
tional shipments were set up to give the garrison forces a 30-day oper- 
ating level and a 60-day reserve by D-day plus 60 days. The CWS 
computations were involved because each of these levels had to be 
computed on the basis of troop strength expected to be at the objective 
when supplies arrived. Since strength would decline rapidly with the 
withdrawal of combat forces once the objective was taken, a descending 
schedule of strength was drawn up. 
All CWS supplies for the Gilberts operation were loaded in Hawaii. 
Shipments totaled 93 measurement tons (40 cubic feet per ton), most 
of it for the Marine Corps assault forces. There were no serious CWS 
supply problems, but there were a number of lessons for the future. 
Assaulting forces wanted more flame throwers and more smoke in 
forthcoming operations although the CWS made a special allowance 
of smoke pots for the Gilberts. 
Assault troops on the Gilberts used the power driven and 3-gallon 
decontaminating apparatus to spray sodium arsenite on the dead since 
it was impossible to provide mortuary services in the assault. The 
91 For an account of the Gilberts operation, see: Philip A. Growl and Edmund G. Love, Seizure of the 
Gilberts and Marshalls, UNITED STATES ARMY IN WORLD WAR II (Washington, 1955)- 
289-149 0-68—19 272 
THE CHEMICAL WARFARE SERVICE 
chemical aided in control of disease-bearing insects and the arresting 
of nauseous odors.9'* An extra allowance of the apparatus was indicated. 
The Gilberts operation also pointed up some handling problems. 
Combat troops found flame thrower fuel mixing and repair difficult, 
partly because 5 5-gallon drums of fuel were too heavy to handle, and 
partly because repair parts could not be adequately distributed and 
used during tactical operations. The Navy and the marines requested 
the installation of racks on landing craft so that smoke pots could be 
carried in a ready position for immediate firing. The Army’s 27th 
Division chemical officers indicated that chemical supplies were in- 
sufficiently waterproofed. 
Supply System Refinement 
The USAFICPA CWS took these problems from the Gilberts into 
account in planning the Marshall Islands invasion for January, Feb- 
ruary, and March of 1944. Flame fuel was provided in 5 -gallon cans. 
Waterproofing was improved and allowances for smoke and flame 
munitions and for the decontaminating apparatus were raised. Even 
the basic supply system underwent refinement. USAFICPA set up 
block loads to be shipped directly from the United States to the 
Marshalls. The CWS shared in the theater system revision by com- 
puting a block-load on the basis of 20 days’ supply for 1,000 men. 
Since War Department factors were usually stated on a 30-day basis 
and were often not computed in a per-man requirement, CWS 
USAFICPA was forced to convert War Department figures into per- 
man-per-day requirements according to theater experience in order 
to determine the more convenient 20-day block. Chemical officers 
worked up shipment blocks which would provide 90 days’ supply for 
the garrison forces on D-day plus 90 days in the Marshalls. 
In the actual Marshalls operation, the tactical commander held 
resupply offshore until he could determine that it could be landed 
without clogging the beaches. The only CWS supply problem arising 
in the Marshalls was that so many portable flame throwers were pro- 
vided that not all could be used. The allowance per division for subse- 
quent operations was cut from 192 to 141 weapons. The physical con- 
dition and handling of supplies otherwise met demands, demonstrating 
that the CWS had learned to operate its share of the theater supply 
05 Stauffer, Operations in the War Against Japan, pp. 2J2-55. THEATER SUPPLY: PACIFIC 
273 
system. For example, the CWS supplied only end-item replacements 
to the combat echelons since it was apparent that spare parts could 
not be handled and used until the garrison forces were set up. Water- 
proofed packaging and palletized loads assembled by the Hawaiian 
Chemical Depot and the combat troops themselves before the operation 
proved to answer other equipment and handling needs. Although space 
could not be provided for chemical service troops to handle supply, the 
sanitation problem was so great that the excess decontaminating appa- 
ratus were provided and manned by troops of the 29th Chemical 
Decontamination Company under the supervision of a medical officer. 
The theater and CWS supply system was substantially complete at 
the end of the Marshalls operation. In subsequent operations, the only 
major refinement was a differentiation between assault and garrison 
resupply. The practice previous to the Marianas operation in June was 
to provide resupply on a per-man basis without regard to whether the 
men supplied were in combat or garrison echelons. POA experience 
made it clear, however, that combat troops would not be in any area 
long enough to need resupply on some items, such as gas mask repair 
kits and gasproof curtains, even in the event of gas warfare. The 
garrison forces who collected and reconditioned equipment would be 
in greater need of reconditioning supplies and base development sup- 
plies. The CWS USAFICPA accordingly determined assault and gar- 
rison resupply blocks on the basis of probable need and scheduled 
shipment of these blocks so that assault forces would handle only 
essential resupply. 
The Final Test—Okinawa 
The great test of the Central Pacific supply system came with 
invasion of Okinawa in April 1945. Tenth Army was organized in 
Hawaii in preparation for the Ryukyus Campaign of which the Oki- 
nawa invasion was a part, and the Tenth Army Chemical Section, then 
under Col. Thomas A. Doxey and later under Col. John H. Harper, 
set to work with the theater (now U.S. Army Forces, Pacific Ocean 
Areas—USAFPOA) and CPBC Chemical Sections. CWS supply 
troubles both in providing basic equipment and in resupply were in- 
tensified because units and organizations scheduled for the operation 
were mounting in places varying from the west coast of the United 
States to the recently captured Palaus and some were still committed 274 
THE CHEMICAL WARFARE SERVICE 
in other operations. The CWS planners prepared supply plans which 
could be rapidly adjusted to new situations. They provided this flexi- 
bility by planning for "type” units and organizations rather than 
for specific named units and organizations, according to earlier 
practice. The theater command arranged that requisitions for "type” 
unit supplies could be placed on the San Francisco port. The port then 
forwarded supplies to holding and reconsignment points to await 
theater designation of receiving organizations. The theater further 
directed the assemblage of an emergency reserve stock in the Marianas 
to be used in event the "type” supplies fell short of filling basic require- 
ments for the designated specific unit. The CWS logisticians, on the 
basis of their own experience, estimated shortages for organizations 
which were known but which could not be consulted because they 
were still committed to combat. The logisticians computed resupply 
blocks according to the theater system as usual. 
The chemical service manpower requirement was greater than the 
theater had ever experienced. There were not enough service units 
available in the theater, and repeated pleas to the United States resulted 
in the scheduling of two chemical service units on redeployment from 
the European theater and one unit from the United States. But these 
units could not arrive before the operation was well under way, so 
Unmacht activated two service companies and a provisional chemical 
detachment in Hawaii. He also secured the assignment of a quarter- 
master service company to chemical work pending the arrival of other 
units in the target area.96 
Assault on Okinawa’s Hagushi beaches began on Easter Sunday 
morning, i April 1945. Contrary to expectations, no significant re- 
sistance was encountered, and a much larger area was taken than had 
been originally planned in the first three days. As far as the CWS was 
concerned, the easy advance immediately posed the problem of collect- 
ing chemical equipment dropped on the beachhead by incoming troops. 
Initially, division personnel established beach dumps. On L-day plus 
three, XXIV Corps took over the operation of the dumps, and the 
434id Quartermaster Service Company which had been assigned to 
the CWS arrived with the 1st Provisional POA Chemical Detachment 
(later the 411th). Elements of the service company and the detach- 
80 (1) Cml unit files, 147th and 148th Cml General Serv Cos and 231st Cml Depot Co. (2) Ltr, 
CG Tenth Army to CG Island Comd, 20 Jan 45, sub: Plan for CWS Sup. Tenth Army AG 475 Cml. THEATER SUPPLY: PACIFIC 
275 
ment were attached to division chemical sections to assist in dump 
operation. On 10 April 1945 Island Command, the garrison force for 
Okinawa, whose chemical officer was Lt. Col. Emory A. Lewis, took 
over the supervision of the dumps and service personnel.9' Island Com- 
mand Chemical Section and its service units had the mission of receiv- 
ing, storing, and issuing CWS materiel to service echelons and to Tenth 
Army ASP’s and dumps. 
The most serious problem of the CWS which developed during the 
Okinawa operation was the shortage of 4.2-inch mortar ammunition. 
The 4.2-inch chemical mortar was increasingly acknowledged by com- 
manders and troops alike as a valuable weapon. Because of extensive 
use, especially in such operations as the Battle of the Bulge, 4.2 ammuni- 
tion was in short supply in the zone of interior and in all theaters of 
operations when the Okinawa operation was being formulated. The 
USAFPOA CWS had planned on having ammunition resupply for 
Okinawa arrive in the block-loaded ships from the west coast, but 
because of the shortage, ammunition had to be collected in the Hawaiian 
Islands and the Marianas and then forwarded to Okinawa. In all, ap- 
proximately 50,000 rounds of heavy M4 shell were forwarded and 
another 20,000 rounds of M3 shell were acquired from the Navy at 
the target. The M4 shell weighed 35 pounds as opposed to 25 pounds 
for the M3 HE and WP shell. The heavier shell decreased mortar range 
by 1,000 yards and caused greater strain and wear upon the guns. 
Breakdowns occurred and a greater replacement of parts than had 
been anticipated was required. It was a case, however, of using the 
M4 shell or having none. Fortunately, the end-item and spare parts 
replacement allowances were sufficient to cover necessary repairs, but 
this was not the end of the shell problem.98 
The mortar units in combat soon discovered that fuzes had corroded 
in many of the shells, causing premature bursts. Tenth Army called 
for replacement fuzes. The USAFPOA responded to eleven emergency 
requests by air, shipping 46,502 pounds of fuzes from the United States 
and from Hawaii. 
87 (i) Roy E. Appleman, James M. Burns, Russell A. Gugeler, and John Stevens, Okinawa: The Last 
Battle, UNITED STATES ARMY IN WORLD WAR II (Washington, 1948). PP- 68-76. (2) Action 
Rpt, XXIV Corps, Ryukyus Campaign, 1 Apr 45, dated 30 Jun 45, Incl to Barker to CCWS, 28 Sep 45, 
Rpt, Visit to Okinawa, Ryukyu Islands. CWS 314.7 Observer Rpts. 
08 1 st Lt John A. Landt, CO B 88 th Cml Mortar Bn to CG 1st Marine Div, Opnl Rpt of Action 
With the 1st Marine Div on Okinawa, 30 June 45. 276 
THE CHEMICAL WARFARE SERVICE 
Neither ammunition nor fuze problems could be attributed to the 
USAFPOA chemical supply system, for shells and fuzes were not avail- 
able in the United States according to plan. It is possible that the 
requirements stated for ammunition resupply were low, but since there 
was a shell shortage this point could not be proved. On the whole, the 
system worked well for the Okinawa operation. 
The administration of all CWS activities in the Central Pacific 
proved to be more effectively and economically handled than in other 
theaters because circumstances in the area permitted greater centraliza- 
tion of procedures and more command support of the CWS. The 
CWS supply system in the area also reflected this administrative effi- 
ciency. In supply the CWS did not have the independence in the 
Central Pacific that it had in other theaters—the service had to work 
through the well-oiled Army-Navy machine. But under Central 
Pacific conditions this lack of independence was not a significant 
drawback, for it brought the benefits of working as a part of, rather 
than in spite of, the theater organization. Independence in other 
theaters, on the other hand, brought the frustrating problems of trying 
to operate a very small supply service in a company of giants. In final 
analysis the CWS supply job was accomplished both through the 
independent CWS supply systems evolved in other theaters and through 
the centralized system of the Central Pacific and neither type of 
system proved to be perfect. But the Central Pacific system which 
provided logistical control from the top, although it was less responsive 
to the desires of field commanders, offered the CWS the best and most 
consistent employment of theater resources and talents. CHAPTER VII 
Chemical Warfare Service Units 
The Chemical Warfare Service provided service units for all theaters 
of operations during World War II. In so doing, it had in mind pri- 
marily its responsibility for providing the United States Armed Forces 
with the capability of defending themselves against gas attack and 
retaliating effectively in kind. The task of maintaining readiness for 
gas warfare in the field embraced a number of contributory missions. 
Chemical warfare materiel, whether defensive, like gas masks and pro- 
tective clothing, or offensive, like toxic agents and the munitions to 
deliver them, had to be provided through depots and dumps; this 
required units trained to handle, repair, and issue such items. Teams 
trained and equipped for the systematic decontamination of service 
area installations after gas attack were essential in a gas warfare 
situation. Defensive measures also included the availability of freshly 
processed permeable protective clothing for troops called on to execute 
missions in a contaminated area; hence the need for processing teams 
and equipment to insure an adequate supply of impregnated uniforms. 
Gas warfare intelligence was dependent on the presence in theaters of 
technicians and laboratories capable of determining the nature of gas 
attacks and assessing the significance of captured materiel. Finally, 
the prosecution of a gas offensive demanded close maintenance and 
supply support for the combat elements responsible, whether they were 
mortar battalions or Air Forces bombers. 
The needs of gas warfare readiness, therefore, set the pattern for 
prewar CWS planning for service units. The prescribed standard for 
a wartime situation, in which the existence or at least the imminence 
of gas warfare was taken for granted, called for the assignment of a 
chemical depot company, decontamination company, laboratory com- 
pany, impregnating company (as the processing company was then 
called), and maintenance company to each field army, with additional 278 
THE CHEMICAL WARFARE SERVICE 
base depot chemical facilities under the control of the army communi- 
cations zone.1 By the time the United States entered the war, the 
CWS had come, perforce, to adjust its standards to meet the needs of 
gas warfare preparedness in situations which, for the time being, at 
least, did not include gas. The normal basis of assigning maintenance 
companies remained the field army, but the other units were hence- 
forth to be assigned to theaters of operation, either for retention under 
direct theater control or for further assignment to agencies within the 
theater. CWS air service units were provided for assignment to theater 
air forces. In addition to these specialized companies, the CWS began 
at the outset of the war to provide composite companies capable of 
undertaking all of these service missions for field armies through a 
system of specialized teams of platoon size or less. 
Somewhat more than a year after Pearl Harbor, with large-scale land 
action against the enemy taking place as yet only in the Southwest 
Pacific and North Africa, a CWS report showed a total of 19 service 
units of all types sent to all overseas destinations, including some in 
the Western Hemisphere. Of these 19, the Southwest Pacific had 
received a composite company, 2 decontamination companies, a lab- 
oratory, a maintenance, and a depot company. A depot company, a 
maintenance company, and a decontamination platoon had gone to 
North Africa. Only 2 processing companies had left the zone of 
interior; both were in the United Kingdom.2 By the middle of 1944, 
with major Allied offensive campaigns in process all over the world, 
the current troop basis included an authorization for 128 CWS ground 
service units, about 2 5 more than the total number included in theater 
CWS plans, so far as these had been formulated. There were 102 
service units actually in the theaters as of 3 1 July 1944, compared with 
the 101 deemed necessary by the Chief, CWS, for a nongas situation. 
A total of 64 additional CWS units were on duty overseas with the 
Army Air Forces. In general, the supply of CWS service units was 
adequate for "insurance” purposes, considering the fact that gas had 
not been used by the enemy and that there was no particular indication 
of a sudden change in that situation. Had there been a sudden shift to 
gas warfare conditions, service unit requirements would have been 
seriously above existing theater capabilities in some instances, most 
1 FM 3-15, Sup and Field Serv, 17 Feb 41. 
" USCWC, Rpt on Gas Warfare Preparedness, U.S. Army, 2 Feb 43. CHEMICAL WARFARE SERVICE UNITS 
279 
notably in the need for processing companies. The European and 
Mediterranean theaters alone would have required a total of two dozen 
additional processing companies to meet an all-out resort to gas warfare 
by Germany.3 
But with gas warfare no more than a grim possibility, it was not 
surprising that theaters were willing to spread their chemical service 
units somewhat thin. It was inevitable, also, that those service missions 
which were not directly dependent on the presence or threat of gas 
should come to the fore. Two of these, both unanticipated in prewar 
planning, came to be of particular importance: the provision of close 
maintenance and supply support for 4.2-inch mortars firing HE and 
the storing, mixing, filling, and loading of airborne incendiary muni- 
tions. The hard-won acceptance of the flame thrower as an effective 
weapon in the Pacific theaters brought with it the need for flame 
thrower maintenance and fuel supply. The demonstrated value of 
CWS screening smokes led to the requirement for stockage of smoke 
mixtures and maintenance of smoke generators. The immediate rele- 
vance of all these services to the needs of combat gave them prominence, 
but the basic gas warfare readiness mission was not forgotten. Depot 
companies continued to see to it that a gas mask in good working 
order was available for every soldier, processing companies maintained 
theater reserve stocks of impregnated clothing, and laboratory com- 
panies worked steadily at the tasks of evaluating enemy chemical war- 
fare materiel and providing technical surveillance for American stocks. 
As one of the consequences of serving as insurance against the out- 
break of gas warfare CWS service units acquired an assortment of 
responsibilities of immediate urgency, but often unrelated to their basic 
missions. The decontamination companies, which never functioned as 
such overseas, were particularly prone to this sort of development. 
Their equipment, which lent itself to the carrying and dispensing of 
water, became the basis for their utilization as shower units, among 
other things. Similarly, the impregnating plants of the processing 
companies bore enough of a functional relationship to laundry ma- 
chinery to enable companies to supplement quartermaster laundry 
service when their own processing mission was in abeyance. Sometimes 
it was CWS training rather than organic equipment that seemed to 
point the way to new missions for service units. More than one chemical 
3 USCWC, Rpt of Readiness for Cml Warfare as of i Jul 44. 280 
THE CHEMICAL WARFARE SERVICE 
service company found itself, after a brief training period, operating 
smoke lines, and in two cases CWS service troops joined mortar units. 
Laboratory companies turned to developing or testing field expedients 
ranging from camouflage dye to flame thrower tanks and found time 
to perform an impressive variety of miscellaneous technical chores for 
other services. 
The development of new missions, even more than the ordinary 
exigencies of active theaters, frequently demanded a high degree of 
flexibility in CWS service units. More often than not, flexibility in 
response was obtained at the expense of the proper organization of the 
unit and consequently with a good deal of difficulty. For the most part, 
each type of company was set up to operate as a unit under the control 
of the company commander. Each subordinate element was organized, 
manned, and equipped for a specific range of specialized tasks con- 
tributory to the main task. Ad hoc rearrangement of manpower and 
equipment to meet new demands resulted in administrative problems 
which often interfered with the unit’s effectiveness. The requirement 
for flexibility was met to some degree by the formation of the compos- 
ite companies, with their cellular structure designed to permit each 
cell to operate independently of the others. The experience of the 
Pacific theaters was to lead to greater reliance on these all-purpose 
organizations and to demands for still more flexibility of structure and 
employment. In this respect this experience pointed the way toward 
postwar doctrine. 
The Chemical Laboratory Company 
Seven Chemical Warfare Service laboratory companies saw service 
overseas between 1941 and 1945. The essential mission of the laboratory 
company in the field was to analyze and evaluate enemy chemical 
materiel and to maintain technical surveillance over CWS supplies. 
These functions made it a major source of technical intelligence, both 
as to enemy capabilities for chemical warfare and the storage life of 
CWS ammunition and protective items. At first conceived of as a more 
or less mobile entity capable of following an army in the field, it was 
in practice treated as a semifixed installation of a theater communica- 
tions zone, a status better suited to its more than ten tons of laboratory 
equipment. CHEMICAL WARFARE SERVICE UNITS 
281 
However bulky its equipment, a laboratory company was not a 
large unit. Its prescribed strength at the time the United States entered 
World War II was only 86—14 officers and 72 enlisted men—and the 
tendency of subsequent years was toward a still more restricted per- 
sonnel roster. Indeed, the first laboratory company to go overseas, 
en route at the time of the Pearl Harbor attack, was authorized no 
more than 78 officers and men in its movement orders.4 By the end 
of !943> m accordance with a TOE of the preceding July, laboratory 
companies were reorganized to consist of 8 officers and 51 enlisted men. 
The enlisted strength was set at 50 the following year.5 The original 
laboratory company was organized rather loosely into headquarters, 
chemical, and physical sections, the headquarters organization includ- 
ing, in addition to the major commanding, an officer in charge of 
chemical intelligence. The 1943 reorganization, while cutting the 
strength of the company, doubled the number of its subdivisions. 
There were, henceforth, in addition to the headquarters unit, sections 
designated organic, analytical, chemical engineering, toxicology, and 
intelligence. This setup was designed for a more effective division of 
labor in handling the work facing a company in the field. 
Once established and operating, usually in or near a major urban 
center, the chemical laboratory company acted as a research center 
and technical clearinghouse for the entire theater. In performance of 
its principal mission, it examined captured enemy chemical munitions 
and protective items, studied the behavior of American chemical 
materiel under theater conditions, surveyed items in storage for possible 
deterioration, collected chemical intelligence from captured enemy 
personnel and documents, and made regular reports of its various find- 
ings and activities to OCCWS. It was from the reports of the 45th 
Chemical Laboratory Company in the spring of 1945 that the Chemical 
Warfare Service first learned of the existence and structure of the 
new German nerve gases, the so-called G agents. When not engaged 
in its principal chemical mission, the laboratory served the theater as 
a general-purpose research establishment, carrying out whatever proj- 
ects its equipment and technical personnel were capable of handling. 
4 History of the 42c! Cml Lab Co. 
5 TOE 3-97, 6 Jul 4} and 3 Jun 44. THE CHEMICAL WARFARE SERVICE 
282 
These tasks ranged from tests of Army Air Forces engine coolants to 
manufacture of a camouflage skin dye for jungle troops.0 
The oldest of the laboratory companies was typical in its overseas 
experience. The 41st Chemical Laboratory had begun its existence as 
the 1 st Chemical Company (Laboratory) in 1940 in the days before 
the laboratories were assigned the forties for numerical designation. 
From its ranks while in training at Edgewood Arsenal had come cadres 
for the second and third laboratories to be activated. In the spring 
of 1943 the company took ship for North Africa, arriving at Mers el 
Kebir near Oran early in May, as the Tunisia Campaign was approach- 
ing its end. Assigned at first to Fifth Army, the company spent several 
months at Marina, Algeria, just over the border from Fifth Army’s 
Moroccan headquarters, working under the supervision of the Fifth’s 
Chemical Officer, Colonel Barker. When Fifth Army embarked for 
Italy in September 1943, the 41st was retained in Africa at the disposal 
of theater headquarters in Algiers. After several weeks in a staging 
area near Oran, under assignment to Mediterranean Base Section, the 
company moved to more permanent quarters at Sidi Ferruch, near 
Algiers, and took up its role as a theater laboratory assigned to AFFIQ. 
It remained there until after the fall of Rome.7 
The principal business of the 41st in North Africa turned out to 
be surveillance of CWS materiel held in storage. When stored items 
developed unexpected reactions to aging in depots the laboratory was 
called upon for an explanation. An instance of this occurred in the 
spring of 1944 when the chemical officer of Seventh Army asked for 
an investigation of certain phosgene detector tubes, which had turned 
black. The 41st determined that the tubes, taken from the detector 
kit, M9, contained a highly unstable indicator chemical which had 
decomposed, and recommended replacement with tubes of a newer 
type.8 For the most part, though, surveillance consisted of sending 
inspection teams to the depots. A typical team might consist of an 
officer and two enlisted men.9 A surveillance program drawn up by 
the 41st in the spring of 1944 and scheduled for accomplishment before 
6 (i) Ltr, ACCWS Field Opns to Theater CmlO’s, to Jun 44, sub; Rpts of Lab Units. (2) 4id 
Cml Lab Co, 29 Oct 43, Rpt, Problems Submitted to the 42d Cml Lab Co. Both in CWS 314.7 Unit 
Files. 
7 FUstory of the 41st Cml Lab Co. 
sTech Rpt 30, 41st Cml Lab Co, 8 Jun 44 . 
9 Memo, CmlO Fifth Army for CmlO AFHQ, 14 Jun 43, no sub. CWS MTOUSA 400.112 Analyses, 
Tests, Trials, Equivalents, Experiments. CHEMICAL WARFARE SERVICE UNITS 
283 
the end of the year included thirty-four item examinations, ranging 
from bulk mustard to antidim sticks (for preventing mist on gas mask 
eyepieces) .10 
In July 1944 a few weeks after the fall of Rome, the 41st moved 
from its Algerian home to new quarters in the Italian capital. There 
it shared with a British Expeditionary Forces outfit, the South African 
23d Antigas Laboratory, the facilities of the Italian Military Chemical 
Institute. The surveillance responsibilities continued, including now 
a program for the test firing of mustard-filled mortar shells, instituted 
for the purpose of checking the ballistic properties of chemical ammu- 
nition kept in storage over long periods.11 Intelligence reports increased 
as more chemical equipment from enemy depots in Italy fell into 
American hands. Captured items included not only German materiel 
but also defensive chemical warfare items from countries occupied or 
controlled by the Germans. The 41st had the opportunity of studying 
and reporting on individual gas mask canisters, decontamination kits, 
and the like from Czechoslovakia, Hungary, Rumania, and Yugo- 
slavia in addition to German and Italian materiel. Nevertheless, as 
might have been expected in a less extensive theater, the intelligence 
functions of the 41st did not match in magnitude those of some of 
the laboratory companies in western Europe and the Pacific.12 
In contrast to the comparatively routine transfer overseas of the 
41st Laboratory, the process of getting the 3d Chemical Field Lab- 
oratory Company (later redesignated the 4id Chemical Laboratory 
Company) to a theater of operations was far from typical. The com- 
pany came into being at Edgewood, Md., on 15 May 1941 with a 
complement of Reserve officers and a cadre drawn largely from the 
1st Laboratory. After filling out its ranks with newly inducted selec- 
tees, the unit spent the summer and early fall in basic and specialized 
training. Rather suddenly, at the end of October 1941, it was ordered 
to the west coast to prepare for shipment overseas. On 21 November, 
the company embarked and sailed westward, the first CWS unit of 
the war to be dispatched overseas. The destination was given simply 
as Plum, but it was not reached on schedule. Plum was the Philippines, 
10Ltr, CO 41st Cml Lab Co to CCmlO NATOUSA, 24 May 44, sub: Surveillance Program for U.S. 
Cml Warfare Materiel. CWS MTOUSA 400.112 Analyses, Tests, Trials, Equivalents, Experiments. 
11 Interv, Hist Off with Maj James B. Goodson, CO 41st Cml Lab Co, 14 Aug 59. 
12 CWS Technical Notes for Laboratories (a series of monthly compilations of major laboratory field 
reports and other items of interest, published monthly from July 1944 until the end of the war by 
CWS Technical Command). 284 
THE CHEMICAL WARFARE SERVICE 
and the troops were still at sea when the Japanese turned the Philip- 
pines into a theater of war. The convoy received orders diverting it 
to Australia and, as indicated above, docked at Brisbane on 22 
December. The company was not to reach the Philippines for three 
and a half years. 
In Brisbane the company settled down to work as a unit of Base 
Section 3, U.S. Army Forces in Australia. By the end of February 
the laboratory equipment had been set up in permanent quarters and 
organized technical work was under way. At first a substantial number 
of laboratory personnel were detailed for general duty with base section 
headquarters, but these demands slackened after the first few months 
and by midyear the company was able to pursue its mission at approxi- 
mately full strength. It had become in the interim the qad Chemical 
Laboratory Company by redesignation effective April 12, 1942, and 
had moved to new quarters in buildings formerly occupied by a 
Brisbane hospital.13 
According to one of its commanding officers, the 42d possessed 
neither a clearly defined mission nor an effective training for field 
operations when it arrived in Australia.14 This did not prevent the 
company from serving as an all-purpose technical unit from the very 
outset. Before it had finished unpacking its equipment, it had received 
and responded to Air Corps queries on oxygen and rust inhibiters, 
Australian Army problems with Kieselguhr water filters, and base 
section demands for an ant exterminator. Not long thereafter it was 
at work on practical studies of petroleum bomb fillings. In September 
1942, the 42d took on a major assignment for the Quartermaster 
Corps—turning 100,000 pounds of fatigue uniforms into jungle green 
camouflage suits. A formula and procedure for dyeing the uniforms 
were developed in the course of a day by a 5-man team, and the dyeing 
itself was carried out under the supervision of company personnel. 
By midsummer the 42d, in addition to its routine analytical work, 
was engaged in several CWS research problems of a more generalized 
nature, including studies of nitrogen mustard, low temperature studies 
of mustard for high altitude spraying, and tests of the action of mustard 
and impregnite on fabric. Colonel Copthorne, chief chemical officer 
of USASOS, regarded this type of work as a necessary supplement to 
13 History of the 42c! Cml Lab Co. 
14 Interv, Hist Off with Maj Hugh W. Hillis, CO 42c! Cml Lab Co (1942-44), 25 Sep 45. CHEMICAL WARFARE SERVICE UNITS 
285 
the technical information he was receiving from the United States, so 
much so that he recommended to General Porter that field laboratory 
companies be declared branches of the Technical Division of Edgewood 
Arsenal. This attempt to formalize a research and development mission 
for the laboratory companies was met with a prompt and firm reminder 
that the mission of field laboratories was properly confined to testing 
friendly and captured chemical warfare equipment and identifying 
enemy toxic agents, should any be used. While this reminder may 
have served to set the record straight, it had little direct application 
to the multitude of miscellaneous technical problems which the 426 
by now regarded as its responsibilities. In a subsequent letter General 
Porter admitted as much; pure research aside, he said, the work of the 
4id could not be precisely circumscribed so as to deprive SWPA of 
the services it was performing.15 
Fortified with official approval, the 4id Chemical Laboratory Com- 
pany increasingly continued to handle the theater’s laboratory needs. 
A report prepared in October 1943, summarizing the problems outside 
the normal mission area which the 4id had undertaken since its arrival, 
listed over fifty tasks performed for the other technical services and 
the Air Corps. Some of these were of considerable magnitude. A skin 
dye for camouflage purposes was developed to meet a Quartermaster 
Corps requirement, and enough of it was manufactured to fill 150,000 
2-ounce bottles. For Ordnance a considerable amount of analysis of 
defective items was done: propellant cartridges, mortar charges, and 
AN-M103 bomb fuzes. In addition, captured enemy explosives were 
analyzed, both for Ordnance and for the Navy. Counter Intelligence 
Corps received help from the laboratory in checking on several instances 
of suspected sabotage. Industrial analyses of many types were made— 
steels for the Air Corps, sand for the Engineers, soldering flux for 
Ordnance, soaps for Quartermaster. Even the Chemical Warfare 
Service benefited from the 4id’s nonmission labors, if the manufacture 
of some 3,500 detonation tubes of assorted toxic agents for troop 
training be so considered.16 
The miscellaneous field work of the 4id, varied as it was, did not 
“ (1) Ltr, CCmlO Hq USASOS SWPA to CCWS, no sub, 17 Aug 42. (2) Ltr, CCWS to CCmlO 
Hq USASOS SWPA, no sub, 17 Sep 42. (3) Ltr, CCmlO HQ USASOS SWPA to CCWS, no sub, 
24 Nov 42. (4) Ltr, CCWS to CCmlO Hq USASOS SWPA, no sub, 14 Jan 43. All in CWS 314.7 
Pets Files. 
18 52d Cml Lab Co, 29 Oct 43, Rpt, Problems Submitted to the 42d Cml Lab Co. CWS 314.7 Unit 
Files. 286 
THE CHEMICAL WARFARE SERVICE 
prevent the company from carrying out the primary responsibilities 
of its mission. Its regular technical intelligence reports on captured 
Japanese chemical equipment began to appear as soon as its laboratory 
was set up, and continued thereafter, to the number of nearly fifty, 
during the two and a half years that elapsed before it prepared to leave 
Australia. Surveillance of theater stocks of CWS equipment was a 
continuing responsibility.17 
Toward the end of September 1944 the 426. was instructed to prepare 
itself and its equipment for transfer forward. Much of the regular 
laboratory work was accordingly discontinued, and the company spent 
the following months largely on garrison duty while waiting for move- 
ment orders. For a time it conducted advanced chemistry courses for 
its own personnel. Finally, in June 1945, with the reconquest of the 
Philippines nearly complete, the 426. embarked for Luzon. It arrived 
in Manila on 21 June. By the time the laboratory was set up once 
again, the war had come to an end.18 
Just as the experience of the qid demonstrated a tendency for the 
work of the laboratory in an isolated theater to broaden, the 43d Chem- 
ical Laboratory, in a somewhat comparable situation, exemplified to 
a striking degree the ability of such a unit to extend its usefulness. 
In this case the functions of the unit were construed by the theater, 
at least in practice, to include a measure of research and development. 
Despite the official CWS policy which regarded development as the 
prerogative of the Technical Division at Edgewood, the 43d, in the 
course of its work on "field expedients,” tended to make itself a 
development unit in the field. 
The 43d Chemical Laboratory Company, activated at Edgewood 
Arsenal on 26 August 1942,19 was ordered to Hawaii in December of 
1943. Upon its arrival it was assigned to theater headquarters (Central 
Pacific Area) and stationed at Schofield Barracks, where the theater 
chemical officer, Colonel Unmacht, had laboratory facilities (manned 
by 8th Chemical Depot Company personnel) already in operation. 
The 43d took over the existing laboratory functions, added its own 
equipment, and set to work.20 The immediate tasks were predominantly 
within the intelligence portion of the mission—the study and descrip- 
17 History of the 42c! Cml Lab Co. 
18 Ibid. 
19 Hq CWS Edgewood Arsenal GO 17, 26 Aug 42. 
20 History of Cml Sec AFMIDPAC, I, an. I-b, 8-1 x. CHEMICAL WARFARE SERVICE UNITS 
287 
tion of captured Japanese chemical equipment. Nearly one hundred 
technical reports on captured materiel were to be made by the 43d in 
the succeeding twenty months. Surveillance of theater chemical stocks 
led the company into a detailed study of deterioration in impregnated 
clothing. But before long larger problems began to absorb its attention. 
At the time the 43d arrived in the Pacific theater, Army, Navy, 
and Marine Corps personnel were becoming increasingly anxious to 
acquire armored vehicles equipped with flame throwers for use against 
Japanese island emplacements. Rather than wait for Edgewood Arsenal, 
entangled in conflicting priorities and requirements, to provide the 
weapons, the theater went ahead on its own.21 The work was in its 
early stages when the 43d appeared on the scene. In February 1944, 
after tests of the Anglo-Canadian Ronson flame thrower mounted on 
a Bren gun carrier had proved inconclusive, the project was placed in 
the hands of Colonel Unmacht, who assigned it to the 43d. A task 
force from the company succeeded in redesigning the Ronson to make 
it a practical main armament weapon for the M3 tank. Mounted in a 
shroud simulating a howitzer, the Ronson flame thrower turned the 
quondam M3 into the Satan. By mid-May 1944, the task force had 
supervised the completion, test firing, and combat readying of twenty- 
four Satans for use by the marines in the Marianas.22 
From flame throwers the 43d moved on to an extensive consideration 
of flame thrower fuels. The development of thickened fuel—gasoline 
thickened to jelly by the addition of certain aluminum soaps—had 
proved to be essential to the effectiveness of flame throwers in the field. 
Napalm had been adopted as a standard thickener during the war, but 
in practice it appeared that field-thickened fuels tended to vary in 
characteristics and performance. Flame thrower fuels mixed in Ffawaii 
and sent to the front lines, for example, were sometimes found to have 
had their viscosity more or less reduced by absorbed water, and any sub- 
stantial change in viscosity involved an unacceptable lack of certainty 
of flame thrower range and performance. Assigned this problem, the 
43d determined that drying gasoline before mixing, and adding finely 
divided activated silica gel to the mix, would produce a fuel stabilized 
enough to be packaged, stored, and shipped successfully. This work, 
accompanied by a series of papers on the theory and manufacture of 
stabilized fuel, was completed in the summer of 1945, whereupon the 
"’See Brophy, Miles, and Cochrane, From Laboratory to Field, ch. VII. See also, below, ch. XIV. 
22 History of Cml Sec AFMIDPAC, II, an. II-c, z-6. 
289-149 0-68—20 288 
THE CHEMICAL WARFARE SERVICE 
company proceeded to supervise the building of an activating plant 
at the chemical warfare depot and the mixing of 150,000 gallons of 
fuel, using silica gel salvaged from packaged motors, in which it had 
been enclosed as a desiccant.23 
The research and development activity which these accomplishments 
characterized went beyond the specific mission of the laboratory, but 
was typical of the manner in which Colonel Unmacht as head of the 
theater CWS encouraged independent action to meet theater needs. 
It played a major role in winning for the 43d a Meritorious Service 
Unit Award at the conclusion of hostilities.24 
The Chemical Maintenance Company 
Twenty maintenance companies were supplied to the ground forces 
overseas by the CWS before the end of the war. Though designed to 
serve field armies, they could also be, and frequently were, assigned 
to the Communications Zone. Their mission was third and fourth 
echelon maintenance of all CWS equipment and materiel, which could 
and did include everything from salvaging discarded gas masks to 
manufacturing parts for the 4.2-inch mortar. While maintenance 
companies were intended to function as salvage and repair centers near 
CWS Class II and IV depots, in practice some maintenance units as- 
signed to field armies found it necessary to send their men forward 
beyond the army service area for close support of the front, in order 
to keep mortars and smoke generators in combat condition. 
T/O 3-47, 1 April 1942, set the authorized strength of a maintenance 
company at 4 officers and 119 enlisted men, organized into a head- 
quarters outfit, a 3-unit repair platoon, and a salvage platoon. The 
repair platoon was supposed to include all of the company’s skilled 
mechanics not assigned directly to headquarters, leaving the salvage 
platoon to operate principally with laborers. A revised organization 
table published in November 1944 showed a maintenance company 
pared down to 93 officers and men. The two platoons were redesignated 
gas mask repair and equipment repair, respectively, and nearly all the 
enlisted personnel authorized were classified according to specific skills. 
23 (i) Ibid., pp. 3j~3/. (2) 43d Cml Lab Co Tech Rpts 81, 10 Jul 45, and 90, 22 Aug 43. CWS 
314.7, Unit Files. 
24 Ltr, CO 14th Cml Sv Bn to CG CPBC, 22 Aug 45, sub: Recommendation for the Meritorious 
Service Unit Award. CWS 3 14.7 Unit Files. CHEMICAL WARFARE SERVICE UNITS 
289 
The platoons were organized into functional sections.20 Nevertheless, 
experience in the field throughout the war showed that under the 
pressure of combat requirements the work of maintenance companies 
often left prescribed organizational patterns behind. 
One of the more noteworthy service records of the war was that 
of the 12th Chemical Maintenance Company, which acquired eight 
battle credits in the course of assignments ranging from Tunisia 
through Sicily and Italy to central Europe. Activated i May 1942 at 
Fort Custer, Mich., the 12th went overseas in March 1943, landing 
at Casablanca on the 18 th. It was assigned to Atlantic Base Section 
and its first job was running CWS supply dumps. In the last month 
of the Tunisia Campaign it operated in conjunction with advanced 
supply depots at Bone and Ouled Rahmoun in eastern Algeria and at 
Tabarka in Tunisia. It began to undertake more orthodox mainte- 
nance work—salvage and repair—in the days after the Tunisia Cam- 
paign ended.26 
An advance detachment of the 12th, assigned to 3d Division, landed 
in Sicily on 10 July 1943 at the outset of the invasion, in order to get 
a CWS supply dump functioning as soon as possible near the combat 
area. The rest of the company was in Sicily by the middle of July. 
During the month or so of fighting that followed before Sicily was 
won, the company provided the first example of close maintenance 
support of combat units by the CWS. The lath’s maintenance and 
repair officer, Lieutenant Notorangelo, took a 10-man detachment 
into the combat zone near Sant’Agata in the second week of August 
to carry out on-the-spot maintenance for the 4.2-inch mortars of the 
2d Chemical Battalion. The battalion was supporting the infantry 
advance along the north coast of Sicily on the left wing of Seventh 
Army. The maintenance detachment later proceeded south to Ran- 
dazzo, on the right wing, to perform the same service for the 3d 
Chemical Battalion, after getting needed parts from a rear depot. At 
the same time, Lieutenant Notorangelo utilized this experience to 
provide the Chemical Officer, Seventh Army, with the first detailed 
figures available on attrition rates of mortar parts in combat.27 
After a period of salvage and repair work in Palermo, marked by a 
concerted effort to get the required number of serviceable gas masks 
“TOE 3-47, 22 Nov 44. 
“Hist of the 12th Cml Maint Co. 
87 Draft Ltr, CO 12th Cml Maint Co to CG NATOUSA, 17 Nov 43, sub: Recommendation for 
Award. CWS 3 14.7 Unit Files. 290 
THE CHEMICAL WARFARE SERVICE 
ready for the coming campaign, the 12th followed the Allied forces 
into Italy early in November 1943. Setting up shop at the Fontanello 
Caves near Naples, the company reverted to its role of depot operator, 
storing incoming CWS supplies for Peninsular Base Section. It found 
time to re-establish its gas mask repair line, though, with the aid of 
some Italian civilian labor. In December the 12th responded to an 
emergency report from Fifth Army that mortar propellant charges 
were too damp to give accurate ranging. Discontinuing its gas mask 
line, the company set to work improvising a powder ring dryer and a 
shell reconditioning line and repacking the propellant rings in water- 
proofed cases. Two weeks after the operation began an explosion and 
fire wrecked the shops, though fortunately there were no major casual- 
ties. The 12th put its equipment together again at another depot near 
Casandrino, devised a more reliable powder ring dryer, and had its 
lines operating again within a week.28 
Meanwhile, a mortar repair detachment had settled at Capua to 
service the mortar battalions attached to Fifth Army. In April 1944, 
the remainder of the company also moved to Capua. There they found 
the weapons repair section, commanded by Lieutenant Notorangelo, 
established at the erstwhile Royal Italian Arsenal, which the retreating 
Germans had wrecked before moving out. The section had joined other 
Fifth Army service troops in getting the installation in working order 
by salvaging usable machinery and acquiring additional equipment, 
Italian, American, or German, wherever possible. In effect, the 12th 
now had an arsenal of its own. It was fortunate that this was so, for 
the demands for smoke generator and mortar spare parts rose sharply 
under the pressure of the bitter Italian campaign of 1943-44. When 
the depots could not supply enough parts, the i2th’s Capua arsenal 
manufactured them. The Weapons Repair Section, making full use 
of the skills of a large working force of Italian civilian machinists, 
inaugurated this new mission with the fabrication of mortar cup forks. 
A number of other items were soon added to the list as the rugged 
terrain, long usage, and high ranges took their toll of the overworked 
4.2-inch mortars. Shock absorber slides proved especially vulnerable. 
To keep the mortars in working condition, the 12th cast and machined 
new slides of bronze—after liberating the bronze from Italian naval 
28 (1) History of the 12th Cml Maint Co. (2) 12th Cml Maint Co, Activities During the Italian 
Campaign, 1943-44. CWS 314.7 Unit Files. CHEMICAL WARFARE SERVICE UNITS 
291 
Capua Arsenal, as the Germans Left It. Within thirty days it was producing 
mortar parts for the Fifth Army. 
vessels in Naples harbor—which subsequently proved to be more dur- 
able than the brass slides they replaced. Tube caps and steel recoil 
springs were also prominent in the mortar parts output of the Capua 
arsenal. For the mechanical smoke generators and the power-driven 
decontaminating apparatus the weapons repairmen fabricated sprocket 
gears of several types, along with nuts, couplings, and the like. 
The usual repair functions of a maintenance company were carried 
on side by side with the manufacture of spare parts. The Capua arsenal, 
as reconstructed by the 12th, contained a cradle rack for repairing 
400-gallon tanks from power-driven decontaminating apparatus, a 
welding shop, a repair shop for vehicular components and chemical 
handling trucks, and sections for work on Esso and Besler mechanical 
smoke generators. The rath’s gas mask repair sections occupied a 
shop of its own, with two production lines for the disassembly, repair, 
and reassembly of damaged or salvaged masks. A group of Italian 292 
THE CHEMICAL WARFARE SERVICE 
soldiers assisted in the operation of this facility, which turned out 
over 150,000 reconditioned masks in less than five months. 
In September 1944, the 12 th was assigned to Seventh Army, then 
engaged in pushing up the Rhone Valley from the coast of southern 
France to join the armies in the European Theater of Operations. By the 
end of the month, the company was in Dijon, serving as a unit of 
Continental Advance Section. A weapons repair group, designated as 
Detachment A, moved on to Epinal to resume close support of the 
mortar battalions. More work was done to improve the Capua shock 
absorber slide, including the addition of small amounts of phosphoric 
tin to the original bronze alloy. Mortar cup forks continued to be 
made. Portable flame throwers were reconditioned. By December the 
rest of the company reached Epinal, whereupon a reorganized and 
somewhat smaller Detachment A moved out to the front. It took up 
quarters near the command post of the 99th Chemical Mortar Battalion, 
then supporting Third Division on the Colmar front. Here, within 
range of German artillery, the detachment kept the battalion’s mortars 
in operating condition. The detachment remained with the battalion 
throughout the winter, and in March 1945, moving forward across 
the Saar with the front, became the first portion of the 12th to enter 
Germany. Before the end of the month it was across the Rhine. By 
the time the Germans surrendered, it had accompanied combat troops 
deep into southern Bavaria.29 
A second close support group, Detachment B, left the main body 
of the 12th in mid-March to join the 87th Chemical Mortar Battalion 
in Germany. The 87th had begun to take part in the advance across 
the Rhineland, and the detachment had to carry out its mission between 
rapid movements forward. Once across the Rhine, and before moving 
ahead to the 96th Chemical Mortar Battalion, Detachment B performed 
a final individual maintenance mission for the 87th on the eve of the 
battalion’s transfer to First Army. Together with the other forward 
elements of Seventh Army it had penetrated Austria before hostilities 
ended.30 
Chemical maintenance companies were not as extensively utilized 
in the Pacific war as they were in Europe. Only two maintenance com- 
panies got west of Hawaii, and one of these, the 10th, ended the war 
29 Hist of 12 tli Cml Maint Co. 
" Ibid. CHEMICAL WARFARE SERVICE UNITS 
293 
as a CWS general service company, a type of all-purpose support 
organization much favored in the Southwest Pacific Area. Before its 
conversion, however, the company had made important contributions 
in its original role. The 10th Chemical Maintenance Company, acti- 
vated i July 1940 at Edgewood Arsenal, was sent overseas three months 
after Pearl Harbor as part of the forces assigned to rebuild Allied power 
in the Southwest Pacific. It reached Australia early in April 1942, and 
like the 42d Chemical Laboratory Company joined Base Section 3 in 
Brisbane. 
As an early arrival in the theater, one of the loth’s original tasks 
was to assist the 62d Chemical Depot Company in the operation of 
CWS depots in Australia. It was not long before special maintenance 
problems resulting from waging war in a tropical environment began 
to dominate the scene. A major example was the discouraging failure 
in combat of the M1A1 portable flame thrower in the course of the 
Papua Campaign. The 10th spent the greater part of 1943 putting 
the discredited weapon through an extensive series of tests, in the 
course of which all flame throwers in the SWPA were thoroughly over- 
hauled.31 It became clear that tropical heat and humidity were the 
flame thrower’s chief enemies. Pinhole corrosion of the nitrogen, hydro- 
gen, and fuel cylinders, occurring in 75 percent of the weapons ex- 
amined, led to leakage, low pressure, and consequent failure in the 
field. Corrosion resulting from moisture attacked other components 
as well, and batteries deteriorated readily when exposed to jungle 
climate.32 
The 10th set to work to clear up as many of these defects as possible. 
There was no quick solution for the problem of pinholes in the cylin- 
ders. All that could be done was to repair those cylinders which were 
not excessively corroded and replace the rest, insofar as supplies per- 
mitted. In order to make it possible for troops to spot flame throwers 
with defective cylinders before attempting to use them in combat, 
pressure gages and adapters to fit all types of commercial pressure 
31 (i) Ltr, CmlO USASOS SWPA to CmlO’s Base Secs 2, 3, 4, and 7 and CO 10th Cml Maint Co, 
16 May 43, sub: Flame Throwers. Sixth Army Reds, 470.71 Flame Thrower. (2) Ltr, CG USASOS 
SWPA to CO 10th Cml Maint Co, 6 Feb 44, sub; Commendation. Ffistory of the 10th Cml Maint Co. 
82 (1) Ltr, CCmlO USAFFE to CmlO USASOS SWPA, 12 Apr 43, sub: Auxiliary Equip for Flame 
Throwers. FECW 470.71/6 in CWS SPCVO 470.71 APO 501. (2) 3d Ind, CO 10th Cml Maint Co 
to CCmlO USASOS SWPA, 29 Dec 43. Sixth Army Reds, 470.71 Flame Thrower. 294 
THE CHEMICAL WARFARE SERVICE 
cylinders were added to the flame thrower service kits.33 The problems 
resulting from wet electrical systems were met by waterproofing the 
weapon effectively enough to enable it to stand total immersion and 
still retain its usefulness. The company’s own tests of the results of 
its waterproofing project included the firing during rainfall of random 
samples of waterproofed weapons after keeping them under water for 
about seventeen hours. It was able to report by October of 1943 that, 
given adequate pressure in the cylinders, the flame throwers which it 
had waterproofed and checked would function as intended regardless 
of moisture.34 
While the work on flame throwers was of major importance, it was 
far from constituting the only large-scale project of the 10th in Aus- 
tralia. Reconditioning of depot stocks was a continuing task. Providing 
waterproof seals for gas mask canisters kept the company busy on 
more than one occasion. Some 180,000 canisters of one type were 
waterproofed in late 1943 and early 1944; the company historian per- 
mitted himself the remark that the job had become somewhat monot- 
onous after the first hundred thousand. By April 1944, however, the 
10th found itself somewhat short of CWS assignments and tending 
more and more toward ordinary garrison details as the focus of war 
moved northward toward the Philippines. At last the company itself 
moved northward, to New Guinea, in August 1944, and shortly there- 
after was reorganized. Pressure toward the streamlining of rear area 
service units in the theater had been reflected in proposals to replace 
the CWS depot, maintenance, and decontamination units with general 
service companies capable of meeting all of these requirements as they 
arose. Though the European theater commanders had been unimpressed 
with the idea, it seemed sufficiently attractive in the special circum- 
stances of the Southwest Pacific to cause it to be adopted in the case 
of a few selected units, as soon as an appropriate table of organization 
was published. This event occurred in the summer of 1944, and the 
10th, just arrived in New Guinea and past the critical period in its 
83 Ltr, CCmlO USAFFE to CmlO USASOS SWPA, to Jun 43, sub: Flame Thrower Testing Equip. 
Sixth Army Cml Sec Reds, 470.71 Flame Thrower. 
84 (1) 10th Cml Maint Co, Instrs for Changing the Battery in the Flame Thrower and Rewater- 
proofing, 28 May 4}. Sixth Army Reds, 470.71 Flame Thrower. (2) Rpt, CO 10th Cml Maint Co 
to CCmlO USASOS SWPA, 25 Oct 43, sub: Rpt of Serviceability of Flame Thrower, Portable, M1A1, 
Waterproofed. CWS 314.7 Unit Files. (3) Ltr, Maj John J. Shaffer, USAR, to Hist Off, 19 Sep 56. 
Major Shaffer, then a captain, commanded the 10th Chemical Maintenance Company for the greater 
part of its service in Australia. CHEMICAL WARFARE SERVICE UNITS 
295 
maintenance mission, was one of the units to experience the change. 
As of i November 1944 it was reorganized as the 10th Chemical War- 
fare General Service Company. The remainder of its war service, 
including an additional eight months in New Guinea and the last month 
of the war in Luzon, was spent under that name.30 
The Chemical Depot Company 
Chemical depot companies played a key role in the movement of 
CWS materiel in the overseas theaters. The basic mission of these 
units, some twenty of which saw overseas service, was to act as CWS 
supply centers, either for field armies or for communications zone 
commands. This included receiving, storing, and issuing chemical sup- 
plies, certain salvage operations, and operating filling lines for certain 
chemical munitions. A depot company was a good-sized outfit, with 
a total strength of almost 200 men. When in the field, it was not 
unusual for a company to resolve itself into a group of detachments 
handling a series of assignments simultaneously. A company assigned 
to a theater headquarters, on the other hand, was also capable of serving 
many needs, ranging from technical training to theater supply. 
As organized under TOE 3-67, 28 May 1942, the 184 officers and 
men of a depot company constituted a small headquarters unit, an 
administration platoon controlling three record, storage, and mainte- 
nance sections, and three service platoons for guard and labor functions. 
This plan was substantially altered by the next edition of the TOE, 
6 October 1943, which shifted administrative functions to an enlarged 
headquarters unit, turned the former administrative platoon into a 
32-man maintenance organization, and assigned all remaining storage, 
surveillance, and handling responsibilities to the service platoons, now 
reduced to two. By the end of the following year emphasis was being 
placed on the supply and munitions filling missions, with a consequent 
conversion to a uniform 3-platoon organization totaling 155 officers 
and men.36 Operating under a headquarters unit charged with basic 
administration, the three service platoons, each divided into ammuni- 
tion, toxic gas, and general supply sections, were nonetheless capable 
35 (i) History of the 10th Cml Maint Co. (a) Draft Memo, CCWS to CofS, attn: ACofS G—j, 
7 Jan 44, sub: Proposed Cml Warfare General Serv Co. CWS 314.7 Unit Files. (3) TOE 3-1378; 
Cml Warfare General Serv Co, 9 Aug 44. 
38 (1) FM 3-65, Cml Depot Co, 1 Dec 44. (2) TOE 3-67, 6 Jan 45. 296 
THE CHEMICAL WARFARE SERVICE 
of acting independently if the need arose, providing the company com- 
mander with three ready-made units for detached service. 
The 8th Chemical Depot Company had a notable record as one such 
theater supply agency. It was activated at Fort Shafter in March of 
1942 for the specific purpose of operating the supply functions of the 
Hawaiian Chemical Warfare Depot for the department chemical officer. 
These were of considerable magnitude. Under Colonel Unmacht’s vig- 
orous leadership, the depot had already completed the substantial task 
of obtaining and distributing enough service gas masks to provide 
adequate protection to troops in the event of a new Pearl Harbor in 
chemical warfare.3' By the time the 8th was activated the depot was 
in full swing as the only central distribution agency in the department 
for CWS supplies. It maintained subdepots for local troops on the 
islands of Hawaii, Kauai, and Maui. In addition to discharging its 
supply mission, the depot served as a third and fourth echelon mainte- 
nance center, a function performed in 1944-45 by the 20th Chemical 
Maintenance Company.38 
Along with its other responsibilities, the 8 th found itself on activation 
with an impregnating plant already in full operation. Colonel Un- 
macht had had an experimental impregnating plant—one shipped to 
Hawaii at some earlier date—put in operating condition shortly before 
Pearl Harbor. One of his first acts after the attack was to order the 
plant into active operation, in order to provide protective clothing 
for the troops then in Hawaii. The plant, designated No. 5, was 
manned by men of Company A, 1st Separate Chemical Battalion, the 
only force then available for the purpose. When Colonel Unmacht 
got his depot company activated, it was given the additional duty of 
running No. 5 until an impregnating company should arrive. As 
Plant No. 5 demonstrated a high degree of mechanical unreliability, 
the depot company was generally engaged in emergency repairs. For a 
time it took over and operated two small Navy impregnating plants 
at Pearl Harbor. By January 1943 a new plant, No. 8, had been 
shipped to the Islands, and a new building had been constructed to 
house it. The new facilities tended to ease the task of the depot com- 
pany somewhat, but not until January 1944 was the 8th finally able 
to turn this unscheduled responsibility over to a newly arrived unit, 
s'See above, pp. 220, 267. 
38History of Cml Sec AFMIDPAC, II, an. I-d, 2-23. CHEMICAL WARFARE SERVICE UNITS 
297 
the 110th Chemical Processing Company, and concentrate on its supply 
• • QQ 
mission. 
As a supply unit, the 8 th was responsible for seeing to it that all 
troops sent forward from Hawaii were properly equipped with CWS 
materiel. It kept subdepots and forward areas supplied. The unit some- 
times found it necessary to handle bulk toxics in operations involving 
transfer from damaged containers, or from ton containers to drums. 
In the course of these handling operations, three enlisted men of the 
8 th designed and built a handling cart for more expeditiously moving 
150-pound cylinders.40 
The 8th assisted the 43d Laboratory Company in manufacturing 
the first batches of the stabilized flame thrower fuel (napalm plus 
activated silica gel) developed by the latter unit in 1945. In the 
summer of that year the Hawaiian Chemical Warfare Depot built its 
own unit for the activation of the silica gel. The 8th had this unit 
operating at a rate of one ton per day during the last weeks of the war. 
Between May and August of 1945 the depot manufactured a total of 
226,343 gallons of fuel.44 
Of great importance to the theater CWS was the 8th’s secondary 
mission of training cadres for new units. Among these were supply 
detachments activated to help shoulder the burden of CWS depot 
management in Hawaii and general service companies destined for 
combat support in the Western Pacific. In the last year of the war 
the 8 th trained and supplied to other units enough officers and enlisted 
men to have doubled its own authorized strength. 
In contrast to the role of the 8 th as a theater headquarters supply 
element was that of the 6th Chemical Depot Company, a unit which 
operated many installations without ever permanently establishing itself 
at any of them. It was a depot company on the move, following 
American combat forces from England to Germany by way of North 
Africa, Italy, and France. 
The 6th was activated at Fort Sam Houston on 25 March 1942. 
After a brief training period, the company embarked for an overseas 
assignment on the 1st of July and arrived in Scotland on the 12th. 
Within a few days the company, the first of its kind to reach the 
European theater, was in quarters at two points in southwestern Eng- 
39 Ibid., V, an. II-k, 1 -6. 
40 Ibid., V, an. Ill-a, jo-51. 
41 Ibid., pp. 104, 107. 298 
THE CHEMICAL WARFARE SERVICE 
land, under assignment to the newly created Southern Base Section of 
the theater Services of Supply. It set to work almost at once, sending 
out detachments to establish chemical sections at general depots for 
handling Class II and IV CWS supplies, as well as for constructing two 
depots for chemical munitions. This procedure of operating several 
installations at once through self-sufficient detachments was to be a 
consistent pattern in the operation of the 6th throughout its service 
overseas.42 
The 6th was the CWS unit depot assigned to II Corps in the fall of 
1942 for operations in North Africa. It arrived in Oran from England 
early in December 1942, and immediately took over a depot previously 
established by corps headquarters. As the North African campaign 
developed, the 6th began setting up new installations, after the manner 
of its English experience. The Oran depot, for Class II and IV sup- 
plies, remained company headquarters for the time being, while de- 
tachments set up and operated depots eastward along the North African 
seaboard as far as the Tunisian border, turning them over in due 
course to relieving units. The company used anything available for 
storage—garages, factories, sheds—and resorted to open storage when 
necessary. For chemical munitions, however, open storage was the 
rule, rather than the exception.43 
The 6th remained in North Africa during the month-long Sicilian 
campaign, but was reassigned to Fifth Army immediately afterwards 
in anticipation of the invasion of Italy. Nine of the company’s enlisted 
men, temporarily attached to the 531st Engineer Shore Regiment, 
went ashore at Salerno on D-day, 9 September 1943, with the assault 
troops. Operating in two groups, they took charge of identifying, 
storing, and issuing CWS materiel brought over the beaches on the 
first three days of the invasion. By the 8th of October the 6th was in 
Naples. 
The 6th spent almost a year in Italy, in the course of which it was 
at one time or another responsible for over thirty supply points. It had 
general responsibility for all chemical depot needs of Fifth Army. 
Company headquarters, originally in the Naples area, was shifted 
northward repeatedly, reaching Piombino in northern Tuscany by 
midsummer of 1944. In the interval the company supplied two de- 
43 (i) History of the 6th Cml Depot Co. (2) Ltr, Maj Levin W. Lane to CmlC Hist Off, 28 Mar 
50. Major Lane was commanding officer of the 6th, 1943-45. 
43 History of the 6th Cml Depot Co. CHEMICAL WARFARE SERVICE UNITS 
2 99 
tachments for service with the Anzio-Nettuno assault force. The first 
of these landed at Nettuno on D-day, 22 January 1944, the second 
joined it on 23 January. During the months of bitter fighting that 
followed, the beachhead detachment of the 6th, augmented from time 
to time, handled 12,000 tons of CWS munitions. In the same period, 
Headquarters Detachment was enlarging the scope of its usual duties 
by manufacturing some 10,000 Molotov cocktails out of napalm and 
glass bottles.44 
In July 1944, 6th was assigned to Seventh Army, in order to 
participate for a third time in an invasion—in this case the assault on 
the Mediterranean coast of France. Three detachments, attached re- 
spectively to the 3rd, 36th, and 45th Divisions, VI Corps, landed with 
the initial assault forces on 15 August and carried out the unusual 
mission of organizing chemical supply on the beaches. Company head- 
quarters followed two weeks later and moved northward almost at 
once to Grenoble, where it set up a depot for Class II and IV CWS 
supplies before moving forward again. Meanwhile a detachment had 
gotten a base depot at Marseille under way for Continental Base 
Command, the supply and service agency of the invasion period. Other 
detachments handled CWS supply at successive ammunition supply 
points as Seventh Army advanced toward Alsace.40 
The 6th remained with Seventh Army through the winter of 1944- 
45 (during which the partial withdrawal of American forces in Alsace 
to meet the threat of the German counteroffensive in the Ardennes 
temporarily forced the 6th, like some other forward units, to move 
its headquarters back), and advanced with it into Germany in the 
spring. In the meantime, it found time to organize and conduct a 
training program to convert a French smoke generator company to a 
chemical depot unit.46 The end of the war found the company oper- 
ating several depots in the Seventh Army area of the southern Rhine- 
land. Immediately after the end of hostilities, the 6th set up Rheinau 
CWS Depot before preparing to go home.47 
" (i) Ibid, (i) Lane Ltr, 28 Mar 50. 
4d History of 6th Cm! Depot Co. 
40 Ltr, CO 6th Cml Depot Co to CG Seventh Army (Through CmlO Seventh Army), 9 Nov 44, 
sub: Rpt on Cml Warfare Depot School . . . CWS 3 14.7 Unit Files. 
47 Hist of the 6th Cml Depot Co. 300 
THE CHEMICAL WARFARE SERVICE 
The Chemical Decontamination Company 
The chemical decontamination company was a specialized organiza- 
tion designed to counter the threat of crippling gas attacks on rear 
area service facilities. While the services of a company were expected 
to be available to combat troops under gas attack if the situation per- 
mitted, the primary mission was confined to installations in the service 
area, on the assumption that combat units should have the capability 
to meet a tactical gas situation with their own resources. Deconamina- 
tion companies were not assigned by any precise formula (the recom- 
mended ratio was one company per 100,000 strength) and were in- 
tended, while maintaining a headquarters in a service area, to send out 
detachments to either service or combat zones at their own discretion. 
As organized under TOE 3-217 (1 April 1942), a company included 
4 officers and 200 enlisted men, functioning as three 60-man platoons 
of three sections apiece, plus company headquarters. The table was 
changed on 12 October 1943 to provide for four 3 3-man platoons, 
reducing the total company strength to 170, and making the 10-man 
section the smallest operating unit, instead of having a further sub- 
division into squads, as formerly provided. The basic function of the 
section was to operate a 400-gallon power-driven decontaminating 
apparatus, a truck-mounted sprayer designed to heat and distribute a 
slurry of bleaching powder and water. 
The abstention of the belligerents from gas warfare left the decon- 
tamination companies without a primary mission to perform. In 
consequence, while keeping themselves in readiness for possible future 
gas emergencies, the companies sent overseas found themselves assigned 
to a variety of tasks. Theater and army chemical officers welcomed 
their presence when CWS-trained units were needed for munitions 
handling, smoke screening, or depot labor. Other elements of the 
armed forces discovered that the power-driven decontaminating appa- 
ratus had more than one use; thereafter, decontamination units were 
sometimes engaged in giving showers, handling water, and wetting 
down dusty roads. Occasionally, decontamination companies were 
pressed into service totally unrelated to their training or equipment. 
One such unit eventually became part of a G—2 task force in ETO. 
The 21 st Chemical Decontamination Company was one of the most 
active of those whose overseas service lay principally in the CWS 
mission area. The 21st, activated at Camp Bowie, Tex., in March 1942, CHEMICAL WARFARE SERVICE UNITS 
301 
began its overseas experience when its ist Platoon, detached for the 
purpose, joined Western Task Force in Casablanca on 18 November 
of the same year, ten days after the first assault forces had landed 
in North Africa. The task force chemical officer, Colonel Barker, used 
the platoon to set up his CWS depot. The platoon had had no specific 
training for this mission, but with the administrative aid of a detail 
from the task force chemical section it set up a depot nonetheless. By 
January 1943 it was able to find the additional time to assist in the 
program of CW schooling begun by Colonel Barker.48 
In May 1943 the rest of the 21st reached Casablanca. By that time 
the company’s ist Platoon had gone forward to Algeria, and the com- 
pany itself followed within a month. The company and platoon alike 
were destined for the Sicily Campaign and accordingly were earmarked 
for assignment to Seventh Army.49 They arrived in Sicily during July, 
the ist Platoon going direct to Palermo (which had been occupied on 
the 2id), the remainder of the company landing on the south shore. 
By August the company had been reunited at Palermo, but only to 
split up into detachments stationed along the Sicilian north coast where 
they handled CWS supplies. Together with elements of the 63d Chem- 
ical Depot Company and the 12th Chemical Maintenance Company, 
the several platoons of the 21st implemented the CWS supply plan by 
setting up and operating a series of ammunition supply points extending 
as far east as Campofelice, some thirty miles beyond Palermo.50 The 
21st also supervised the operation of the CWS Class II depot in Palermo 
until relieved by the 63d Depot Company in October. 
The 21st remained in Sicily for about ten months after the conclu- 
sion of the Sicily Campaign, under assignment to Island Base Section. 
During the period it was kept busy on various CWS tasks under the 
supervision of the IBS chemical officer, including such work as gas 
mask reconditioning and the maintenance of a smoke line as part of 
the defense plan for Palermo harbor. ’1 By June of 1944 CWS stocks 
in Sicily had been closed out, and the 21st went to Italy to prepare for 
reassignment to Seventh Army and the campaign in southern France. 
The role of the 21st in the Seventh Army’s campaign from the 
beaches of the Riviera to the heart of Germany was to be that of a 
4S Hist of the 2 i$t Decontamination Co. Seventh Army 322. 
49 Seventh Army Rpt of Opns in Sicilian Campaign, an. H. 
80 Ibid. 
51 History of IBS. 302 
THE CHEMICAL WARFARE SERVICE 
smoke unit. There was time for only a brief training period before the 
company joined the assault forces. In the initial assault, a platoon of 
the 2 ist accompanied each of the three assault divisions, company 
headquarters and the remaining platoon being held in reserve.52 The 
mission in this instance was to provide smoke cover for supply dumps 
on and near the beaches, as needed. On D-day, August 15, groups of 
men from the 21st went ashore with the first assault wave carrying 
(or towing) smoke pots with them. Smoke lines were set up several 
hundred yards inland as soon as possible. Two weeks later the 21st 
was moved, in two installments, to Marseille to provide smoke cover 
for the port. For its work on the beaches, the company received a 
commendation.53 
As the campaign advanced northward toward Alsace and Germany, 
the 21 st continued to function as a smoke generator outfit. Equipped 
with smoke pots and M2 mechanical smoke generators, it provided 
detachments for smoke coverage throughout the autumn of 1944 for 
the Army supply routes. Toward the close of the winter campaign in 
Alsace, the company once again found itself in a battle zone when it 
provided screening for the troops, American and French, of the XXI 
Corps front during the final cleaning up of the Colmar Pocket.54 
Though the 21st had become accustomed to its smoke mission by 
the spring of 1945, it had reverted to its original role by the end of 
the war. As American troops drove across Germany in April and May 
of 1945, they seized intact a number of chemical warfare depots. The 
task of safeguarding and managing these important and potentially 
hazardous acquisitions was an appropriate one for a decontamination 
company. Accordingly, a detachment of the 21st took over initial gas 
security and munition inventory responsibility at the Wildflecken site 
in April. By the time the war ended, the company was in charge of 
gas security for the principal German chemical depot at St. Georgen, 
deep in Bavaria.55 
The overseas experience of the 31st Chemical Decontamination 
Company was in decided contrast to that of the 21st. Both gained 
S2 Seventh CWS Staff Sec Rpt, i Jan-13 Oct 44. 
63 GO 64, Hq Seventh Army, 24 Feb 45. 
54 CO 21 st Cml Decontamination Co to CmlO Seventh Army, 25 Feb 45, Rpts. (1) Opns with XXI 
Corps and 75th Infantry Div, (2) Opns with the 3d Inf Div. CWS 314.7 Unit Files. 
65 (1) Memo, CmlO Seventh Army to CO 21st Cml Decontamination Co, 20 Apr 45, no sub. (2) 
Memo, Div CmlO 42d Inf Div to CmlO Seventh Army, 14 May 45, sub: Opn of 21st Cml Co (Decon- 
tamination). Both in CWS 314.7 Unit Files. CHEMICAL WARFARE SERVICE UNITS 
303 
honors for front-line combat. But while the 21st served in direct 
support of CWS missions as supply and smoke troops when not ful- 
filling their original purpose, the secondary missions ultimately acquired 
by the 31st turned out to be somewhat farther afield. 
The 3 1st was activated at Camp Bowie, Tex., in July 1942. After 
a training period which included some instruction in amphibious oper- 
ations, it embarked for Great Britain, arriving early in January 1944. 
Its assignment was to First Army’s 6th Engineer Special Brigade, a 
collection of units destined for the assault wave of the Normandy 
invasion. With them it underwent further training in invasion tactics 
throughout most of the two months immediately preceding the start 
of the campaign. 
Shortly after noon on D-day a is-man detachment from the 31st 
landed in Normandy with the 149th Engineer Combat Battalion and 
joined the battle which had been in progress on Omaha Beach since 
dawn, its primary mission being reconnaissance against the possible 
gassing of the landing site by the Germans. By the time the remainder 
of the company landed on the following day, seven of the detachment’s 
personnel, including its commander, 1st Lt. Stanley Boggs, had been 
wounded. When the absence of gas warfare had been confirmed, the 
company joined other service troops in policing the beach and unloading 
ammunition. It was able to move to a bivouac area on 12 June (D plus 
6), by which time it was busy with a variety of emergency tasks— 
assembling supply dumps, guarding prisoners, and finding new uses 
for its big power-driven decontaminating tanks. It employed them to 
wet down dust, to haul water, to fight fires, and to provide showers.56 
In the last week of July the battle moved out of Normandy, and by 
mid-August the Germans were rapidly retreating across France. As 
the German policy of abstention from gas warfare continued to be 
confirmed by events, the necessity for the retention of decontamination 
units by the engineer special brigades declined. On August 20th, the 
31st was reassigned, this time to an unexpected destination. It was 
detailed to Fleadquarters, Special Troops, 12th Army Group, to serve 
as headquarters troops for a special intelligence force being organized 
by the 12th Army Group G-2. This so-called T-Force was designed 
to operate as a front-line agency directly behind the advancing combat 
troops, where they were to seize enemy documents and round up agents 
08 History of the 31st Cml Decontamination Co. 
289-149 0-68—21 304 
THE CHEMICAL WARFARE SERVICE 
and collaborators before they escaped.’7 The 3 ist turned in all its CWS 
unit equipment, including its decontamination tanks, drew in exchange 
an additional supply of cargo trucks and jeeps, and departed, for prac- 
tical purposes no longer a CWS unit, for the first T-Force objective— 
Paris. On August 23, it reached the front line at Rambouillet. The 
objective was entered on August 25 th, in the vanguard of the Allied 
troops. The 3 ist, one of the first American service units in the liberated 
capital, had T-Force headquarters set up in the Petit Palais before mid- 
night of that day. That action marked the beginning of more than 
eight months of constant movement. T-Force headquarters left Paris 
for the east on 7 September. Between that date and the German 
surrender the following May, the 31st occupied fourteen successive 
stations in France, Luxembourg, Belgium, and Germany. It had all 
the usual headquarters administrative duties to keep it occupied— 
operating messes, providing mail and payroll services, supplying the 
force with clerks, maintaining a motor pool, and assuring internal 
security. 
The 3 ist continued in its new role until T-Force ceased to function 
on 6 May 1943, the day before the instrument of surrender was signed 
at Reims. The company was en route for Wiesbaden at the time. On 
its arrival it joined 12th Army Group’s Special Troops and performed 
such missions as operating trucks and guarding prisoners of war for 
three weeks until it was returned to the United States for redeployment 
to the Pacific. It was training for that purpose when the war ended.08 
The Chemical Processing Company 
The chemical processing company was a basic element in defense 
against gas warfare. Its primary mission was to keep available to 
theater chemical officers a supply of permeable protective clothing 
adequately and recently impregnated with chlorinating compounds so 
as to protect the wearer from the effects of vesicant vapor or droplets. 
Companies were designed for assignment to theaters for location in the 
communications zone, generally near a chemical depot. 
A company consisted of a total of 146 men, organized on a 2-platoon 
basis. Each platoon was the organizational equivalent of a processing 
plant and contained three functional sections for continuous 3-shift 
67 nth Army Group Rpt of Opns, IV, 3-6. 
oSHist of the 31st Cml Decontamination Co. CHEMICAL WARFARE SERVICE UNITS 
305 
operation. Accordingly, the company possessed two impregnating 
plants (either the Mi type employing acetylene tetrachloride as a sol- 
vent or the M2 water suspension type) .°9 The impregnating plants 
were semifixed industrial installations of impressive size, not unlike 
commercial laundries. An Mi plant, for example, included two 400- 
gallon solution tanks, a predryer, two final dryers, and an impregnator, 
recognizably related to laundry-type drying and washing machines 
respectively, solvent recovery apparatus, a steam generator unit, com- 
plete with boiler and oil burner, an electric generator unit, a fuel tank, 
a water pump, and such auxiliary items as work tables, tool kits, and 
spare parts—the total equipment load approximating fifty tons. It 
could be installed only in a building with a floor heavy enough to 
support it and large enough to provide adequate work space. In 
practice, this meant a building with the equivalent of a 4-inch rein- 
forced concrete floor and about 3,600 square feet of floor space. 
Installation required the skills and labor needed to handle heavy 
machinery, four or five separate piping systems, and electrical wiring.60 
The equipment and techniques involved in the impregnation of clothing 
were enough like those of quartermaster laundries to provide the proc- 
essing companies with ready-made secondary missions—laundering, 
dry-cleaning, waterproofing, dyeing, and comparable service functions 
—which were to keep many companies profitably occupied during 
periods when their primary mission was not in requisition. But less 
obvious duties were not wanting. Like other service troops, processing 
companies were drawn upon for whatever labors were required at the 
time. Depot assignments were not uncommon. Two units, the 113th 
and the 120th Chemical Processing Companies, had nearly all their 
men detailed for a time to the 87th and 81st Chemical Mortar Battalions 
respectively to provide additional support for the mortar teams. They 
served with the battalions throughout the Normandy and Northern 
France Campaigns. Another, the 109 th, did construction work with 
the engineers. But a due regard for the possible outbreak of gas 
warfare and the corresponding requirement in every theater for reserve 
supplies of impregnated clothing kept processing companies occupied 
with their primary mission fairly often. 
The experience of the 105th Chemical Processing Company may be 
cited to demonstrate the work of a typical unit. The 105th was ac- 
69 TOE j-77, 1 Mar 44. 
90TM 3-270, Clothing Impregnating Plant Mi (Theater of Opns), 4 Feb 44. 306 
THE CHEMICAL WARFARE SERVICE 
Plant of 105th Chemical Processing Company, Brisbane, Australia 
tivated in August 1942 at Edgewood Arsenal and trained there and at 
Camp Sibert. In mid-May 1943, the company embarked from New 
York for Brisbane, Australia, via the Panama Canal. It arrived a 
month later, marched out to Camp Doomben, and went to work for 
the chemical warfare depot and base section headquarters pending 
arrival of its impregnation plants/’1 
Personnel of the 105th got their first taste of processing in the field 
when the bulk of the company’s first platoon went to Sydney to help 
the theater provide a reserve of some 70,000 protective uniforms for 
its troops. The 62d Chemical Depot Company was in charge of the 
effort, which consisted of getting a nonoperating improvised impreg- 
nating plant in working condition. The detachment spent a week on 
the task before the setup, manufactured from standard laundry equip- 
ment, was ready for its first load. Thenceforth, the unit kept the 
plant running at full prescribed rates, some 8,000 pounds of clothing 
per 24-hour run. It remained on the job until mid-February 1944, 
61 History of the iojth Cml Processing Co. CHEMICAL WARFARE SERVICE UNITS 
307 
when, with the mission virtually complete, it rejoined the rest of the 
company.62 
The rest of the 105th had been kept busy, meanwhile, on details for 
the theater chemical officer. One detachment, for example, went to 
Columboola, two hundred miles west of Brisbane, to provide storage 
and perform surveillance for 29,000 mustard-filled bombs, a task in- 
volving a good deal of decontamination work when leakers were found. 
The company’s first organic impregnating plant, an Mi, arrived in 
January 1944, and the men went to work to provide a building for it 
at the CWS center near Brisbane. Before the end of March, after 
essential piping was finally acquired, the plant was ready for operation, 
and the 105th proceeded with its primary mission. 
Not long thereafter the 1st Platoon was again detached, this time 
for duty at Base A, Milne Bay, New Guinea. At this more forward 
base it set up an impregnating plant to help protect the combat forces 
clearing the way to the Philippines against possible gas attack. The id 
Platoon continued operating the company’s Mi plant in Brisbane, for 
the most part on a 24-hour basis. Its output of protective clothing 
continued until the beginning of October 1944, when it was ordered 
to cease operations and prepare for movement. For the next few 
months, while awaiting movement orders, the 105th kept itself busy 
with miscellaneous jobs for the 6 2d Chemical Service Company and 
the local Ordnance service center. At Milne Bay, meanwhile, the com- 
pany’s 1 st Detachment, now well behind the new front in Leyte, had 
been diverted to laundry and dry-cleaning operations, together with 
depot work.63 
In mid-June 1945, the 105th finally received its long delayed orders 
and moved forward to Luzon. At the same time the 1st Detachment 
left Milne Bay and rejoined the company at the CWS training center 
near Manila. The training center needed them, but not for processing; 
it was in the midst of a hurried construction program to house a CWS 
school and garrison. The 105th, well accustomed to construction jobs, 
pitched in and was hard at work building facilities when hostilities 
ended. 
Another processing company in the Southwest Pacific Area, the 
103d, though its overseas experience was much like that of the 105th, 
83 (i) Ibid. (2) History of Cml Sec Hq USASOS SWPA. Orgn Files, AFWESPAC, Folder 
USASOS History of Cml Warfare School, APO 923, Jul 42-May 44. 
68 History of tojth Cml Processing Co. 308 
THE CHEMICAL WARFARE SERVICE 
found itself for a time with a new mission. The 103d, which had also 
been activated at Edgewood in August 1942, was sent to Hollandia, 
New Guinea, in July 1944. There, at a base captured from the 
Japanese only three months before, it was to be comparatively close 
to combat organizations. 
An immediate need of the combat troops was protection against 
mite-born scrub typhus. The answer appeared to be impregnation of 
uniforms with an insecticide. Accordingly, the 103d, once it had its 
two impregnating plants set up, was put to work mite-proofing all 
available uniforms with dimethyl phthalate. Not until this task was 
complete, in mid-October, did the company turn to its normal process- 
ing missions. But by that time theater requirements for protective 
clothing were taking second place to more routine needs. The base 
quartermaster required assistance in meeting his laundering mission, 
so that the 103d began devoting the bulk of its time to laundry. By 
December 1944, the company’s plants were working full time as laun- 
dries for base units and hospitals. These duties, continued for the next 
six months at rates in excess of 150,000 pounds of laundry per month, 
earned the 103d a Meritorious Service Unit Plaque before it went to 
Luzon for miscellaneous service assignments just before the Japanese 
surrender.64 
The Chemical Service Company 
For the greater part of the war the type of unit ultimately designated 
as a chemical service company was known as a chemical composite 
company.65 The purpose of the composite company was to provide 
field organizations of divisional size with a CWS service organization 
capable of simultaneously operating supply points, doing third and 
fourth echelon maintenance, running a field laboratory and a field 
impregnating program, and providing at least a nucleus of trained 
men for decontamination. Furthermore, the composite company was 
expected to be able to put its entire manpower of over 200 into any 
one of these tasks should the situation require. The goal was flexibility: 
a versatile unit, not too tightly organized, which could meet CWS 
service needs for smaller combat forces or isolated fronts. The war in 
the Pacific was emphatically of such a nature, and it was in the Pacific 
that most composite companies saw service. 
64 History of the lojd Cml Processing Co. 
60 Composite companies were redesignated service companies in March 1945. CHEMICAL WARFARE SERVICE UNITS 
309 
The first organizational scheme for composite companies provided 
for specialized sections of considerable bulk, averaging almost forty 
men apiece, fairly closely tied in to company headquarters, and pre- 
sumably meant to remain intact during operations.66 Within a short 
time reports from the Southwest Pacific declared that more flexibility 
was needed and that in actual practice existing units were usually split 
up into smaller groups. Such detachments usually suffered from the 
lack of an appropriate administrative organization and organic equip- 
ment. The problem was that the concept of cellular structure had 
been modified by too great a dependence on the administrative and 
internal support capabilities of the unit as a whole. The cells were 
not self-sufficient, and clearly they needed to be. In July 1943 a 
new organization plan was devised, making more explicit use of the 
principle of cellular structure—that is, of flexible organization based 
on small specialized teams capable of extended independent operations 
—than had previously been the case. The new pattern, applicable alike 
for separate platoons, companies, or battalions, was promulgated by 
TOE 3-500, 19 July 1943, and provided a choice of several types of 
such teams, varying in size from one to sixty-six men, for the CWS 
functions of maintenance, depot operations, decontamination, proc- 
essing, and laboratory work. The War Department also authorized 
teams which could operate as headquarters for units composed of 
operational teams and support teams to operate messes and to provide 
automotive maintenance. Separate equipment allowances were listed 
for each type of team. This arrangement was intended to make possible 
the formation of composite units of a size directly related to the type 
of mission required and the size of the force to be supported. A 
further refinement of cellular organization was made when the TOE 
was reissued in December 1944 in order to provide still greater flexi- 
bility, principally in the area of administrative and maintenance 
teams.67 
Hence, the service units that the CWS placed overseas, for the most 
part in the Pacific, were far from uniform in size, makeup, or func- 
tions. In some cases, rather than maintain company organizations for 
scattered service detachments, companies were inactivated and their 
66 TOE 3-277, Cml Composite Co, 1 Apr 42. 
67 (1) Ltrs, CCmlO USASOS to CCWS, 27 Jan 43 and 6 Mar 43, sub: Cml Composite Cos. CWS 
320.2 CWS Units. (2) TOE 3-500, Cml Warfare Serv Orgns, 19 Jul 43, 15 Dec 44. 310 
THE CHEMICAL WARFARE SERVICE 
93d Chemical Composite Company Testing Flame Thrower Fuels, 
Milne Bay, New Guinea. 
elements reconstituted as separate service platoons, as TOE 3-500 had 
provided for.68 Sixth Army, in the course of its campaign on Luzon in 
1945, attached chemical service platoons to its divisions; the missions 
of such a divisional platoon included reconditioning 4.2-inch mortar 
ammunition (the checking and cleaning of shells being of particular 
importance in the corrosive environment of the tropics), service and 
maintenance of portable flame throwers (together with training their 
operators), manning a smoke pot line, repairing gas masks, preparing 
napalm, performing second and third echelon maintenance of mortars, 
providing chemical warfare intelligence, and using the power-driven 
decontaminating apparatus as a water carrier and portable shower. 
Such an attached platoon was regarded by Sixth Army as an essential 
part of the combat division.69 
68 The 94th Chemical Composite Company, for example, assigned to SWPA in the fall of 1943, oper- 
ated as four separate units from January 1944 onward and was at length disbanded in November 1944 
to form the 272d, 273d, 274th, and 275th Composite Platoons. 
69 Ltr, CG Sixth Army to CG USAFFE, 26 Dec 44, sub: Shortage of Cml Serv Troops. Sixth Army 
322 CWS Orgns. CHEMICAL WARFARE SERVICE UNITS 
311 
One of the few exceptions to the rule that CWS composite companies 
went to the Pacific was the 92c! Chemical Composite Company. 
Activated at the end of 1942 at Camp Sibert, the 92d was organized 
on the basis of TOE 3-277 when it went overseas the following spring. 
It was destined for the North African theater. Its debarkation point, 
reached on 10 May 1943, was Casablanca, but it soon moved forward 
to Mateur in newly won Tunisia. There its depot section took over 
the CWS section of General Depot 6, Eastern Base Section, and its 
impregnation section set up an open storage depot. The laboratory 
section assembled its equipment in a garage and went to work on 
captured chemical materiel. The maintenance section set up a repair 
shop and began work on gas masks, flame throwers, and decontami- 
nators, both portable and power driven. During the summer the units 
followed EBS headquarters from Mateur to Bizerte but otherwise they 
maintained their activities through 1943 uninterrupted, save for an 
occasional air raid. The company formed a principal CWS rear 
echelon support for both the Sicilian and the Italian invasions. 
In February 1944 the 92d was reorganized under the new TOE 
3-500, utilizing an organizational scheme under which the laboratory 
section was discontinued entirely, leaving the company with a repair 
team, a maintenance and salvage section, a decontamination team, and 
three supply (depot) teams, as well as a headquarters and mess.70 The 
following month, despite the new organization, a detachment amount- 
ing to about half of one of the supply teams (and taking about half 
of the team’s equipment) left for depot duties with Northern Base 
Section in Corsica, not to rejoin the company until January 1945. 
Another depot team, together with the decontamination team, was 
sent, as Detachment A, to Island Base Section in Palermo. The bulk 
of the company spent a few weeks closing out its depot and mainte- 
nance installations before being itself transferred in May to Mediter- 
ranean Base Section at Oran.71 
The 92d’s mission at Oran was primarily the creation of a consoli- 
dated CWS depot near MBS headquarters. Four outlying depots were 
closed out and their stocks moved to the new central installation, a 
former engineer storage center with ample facilities. It took more 
than a month to get the 4,000 tons of CWS materiel crated, consoli- 
T0 Ltr, AGO to CG NATO, 17 Feb 44, sub: Reorgn of 92c! Cml Composite Co. AG 322 (14 Feb 44) 
OB-I-SPMOU-M. 
71 Flistory, 92d Cml Composite Co. 312 
THE CHEMICAL WARFARE SERVICE 
A Chemical Service Company Laboratory, New Guinea 
dated, stored, and properly maintained. When the job was complete 
and the depot, plus an attached CWS maintenance shop, was in good 
running order, the 9 2d turned the facilities over to another unit and 
prepared to leave for its next assignment, Peninsular Base Section in 
Italy.72 
In Italy the 92d served again primarily as a depot unit. Upon its 
arrival in mid-August 1944, it was sent to the CWS depot near 
Bagnoli; Detachment A had already arrived from Sicily to take over 
the depot at Santa Maria and move its stocks to Bagnoli for consolida- 
tion. The maintenance mission was resumed in September, when a 
detachment went north to set up and run a CWS maintenance shop 
at PBS Forward Echelon, Leghorn. This left the rest of the company 
with the Bagnoli depot as its sole responsibility, except for the gas 
mask repair section, which operated in conjunction with the storage 
facility. The decontamination team had become, in effect, another 
depot team. Depot administration, however, came to include training 
72 ibid. CHEMICAL WARFARE SERVICE UNITS 
313 
as well. An Italian service battalion was stationed at the depot under 
control of the 926 for training in depot operation, as well as for the 
sake of the additional labor supply. Depot work included both Class II 
and IV storage at the main installations and open storage of Class V 
materiel at a site near Naples. The provision of trained security details 
for shipment and storage of toxic munitions gave men of the decon- 
tamination team recurring practice in their primary mission. A less 
common opportunity for the use of their skills came in spring, when 
the team decontaminated the area used by the 41st Chemical Laboratory 
Company for testing mustard-filled mortar shells.73 
The 92d remained on the job as a depot-maintenance outfit at Bagnoli 
and Leghorn for the remainder of the war. The cessation of hostilities 
in Europe did not reduce the company’s workload for some time. The 
Leghorn detachment, much depleted by personnel transfers, acquired 
control of a German prisoner of war battalion to help it rehabilitate, 
box, and ship materiel to the Far East, a task accomplished ahead of 
schedule. The Bagnoli portion of the company celebrated the end of 
the war by disposing of its supply of toxics through the winter of 
1945-46, sinking the materiel in deep water off the island of Ischia. 
It was not until the spring of 1946 that the 9id, by then possessed of 
a Meritorious Service Unit Plaque, was ready for inactivation. 
More typical of the experience of composite companies was the 
overseas record of the 240th. Activated in August 1943, at Camp 
Sibert, the 240th Chemical Composite Company was reorganized under 
TOE 3-500 the following February. Under this setup, the company 
had a total of no less than twenty-two cellular teams, including at 
least one for each of the following CWS service missions: maintenance, 
supply, decontamination, and processing. The last of these was repre- 
sented by only a single unit, and the laboratory function was omitted 
altogether, leaving the company organized primarily for depot and 
maintenance work, with decontamination capabilities when needed. 
The 240th, after reorganization, had a total strength of just over 200 
men. Toward the end of May 1944, it embarked from Portland, Ore., 
for the Southwest Pacific Area, and arrived in Finschhafen, New 
Guinea, a month later for assignment to Sixth Army. 
On arrival, the 240th went into bivouac at Cape Cretin and began 
functioning for the time being as a depot unit, helping out with the 
73 ibid. 314 
THE CHEMICAL WARFARE SERVICE 
operation of the CWS depot at Finschhafen’s Base F. Meanwhile, the 
Chemical Officer, Sixth Army, decided that the 240th, like other com- 
posite companies so assigned, could be best utilized as four separate 
service units, of a size and composition suitable to the support of a 
reinforced division. Accordingly, in mid-August, the company became 
the parent of Units 1 through 4. Unit 1 was weighted toward the 
maintenance and depot functions, as was Unit 4, though the latter also 
had impregnation specialists. Unit 2 was largely drawn from the 
impregnation team, with smaller numbers representing the other 
service missions. Unit 3 was almost entirely a maintenance outfit, 
except for one small depot team. Company headquarters personnel 
were divided between units 1, 2, and 4-‘4 All four units were destined 
to participate as divisional support elements in amphibious assaults. 
Unit 1, suitably enough, was the first to be committed. Toward the 
end of August it was earmarked for the mid-September invasion of 
Morotai, midway between New Guinea and the Philippines. Its mission 
was to set up CWS supply dumps on the beaches to collect, store, and 
salvage CWS materiel and to provide second and third echelon main- 
tenance for chemical equipment.70 The Morotai task force, named 
Tradewind, assembled for staging at Maffin Bay in Wakde-Sarmi 
sector of northwestern New Guinea before the end of August. On 11 
September the unit’s depot team, including five maintenance men 
attached to infantry regiments to support flame thrower operations, 
embarked with the assault forces and landed with them on Morotai 
on the morning of 1 5 September. There was little organized Japanese 
resistance on the island as the combat troops moved rapidly forward 
and the service units, after some initial trouble with the approaches 
to the beaches, began organizing support areas.'6 The depot team of 
Unit 1 of the 240th, working like the rest of the task force under 
sporadic enemy air attack, brought up ammunition to a CWS mortar 
platoon, set up its bivouac area, and arranged for its dump to be sit- 
uated near the ordnance supply site. It was busy for the next few days 
locating and storing materiel, principally signal and incendiary 
grenades.77 
70 An. 5, Admin Order 1, Hq Tradewind Task Force, 23 Aug 44, cited in History of the 240th Cml 
Composite Co. 
74 History of the 240th Cml Composite Co. 
'8 See Smith, Approach to the Philippines, pp. 480-93. 
77 History of the 240th Cml Composite Co. CHEMICAL WARFARE SERVICE UNITS 
315 
The remainder of Unit i joined the depot team on Morotai on 11 
October, by which time the operation had been declared over and the 
work of building an air base was well under way. The unit continued 
operation of the CWS dump, put up warehouses with space for main- 
tenance operations, and did a brisk business in picking up and recon- 
ditioning gas masks. The unit remained in place on Morotai, attached to 
the 31st Division, until the last week in January 1945, when it joined 
the 33d Division and embarked for Luzon.'8 
Unit 2’ s first mission was not long behind that of Unit 1. This unit 
left New Guinea for Los Negros in the Admiralties at the beginning 
of October 1944, to join the 1st Cavalry Division as part of Sixth 
Army’s invasion force for the reconquest of the Philippines. It 
promptly reembarked to join the Leyte invasion convoy. A-day for 
Leyte was 20 October, and that morning the 1st Cavalry Division 
landed as the northernmost element of the assault, securing White 
Beach just south of Tacloban, the island’s capital. Unit 2 reached 
Leyte and landed at White Beach on A plus 2, 22 October, by which 
time the division was driving the enemy out of the Tacloban area. 
The unit’s first task was getting 4.2-inch mortar ammunition to the 
85th Chemical Mortar Battalion, in the course of which operation it 
ran a beach ammunition dump. By mid-November it was in Tacloban, 
setting up a divisional CWS depot. The operation of this supply point 
constituted Unit 2’s mission for the remainder of the Leyte Campaign. 
At the end of January 1945 the unit was attached to XI Corps, which 
joined Sixth Army’s Luzon Campaign by landing near San Narciso 
on 29 January to cut off Bataan. Unit 2 landed with the corps and 
set up a corps chemical warfare depot. 
Unit 3, after being first assigned to and then withdrawn from the 
Morotai invasion force, remained at the Maffin Bay staging area for 
the time being, providing depot support and flame thrower maintenance 
for the 123d Regimental Combat Team, then engaged in local opera- 
tions against the Japanese. In mid-November the unit went to 
Sansapor, at the northwest tip of New Guinea, to join the 6th Division, 
part of the force being staged for the invasion of Luzon. It spent the 
next weeks loading mortar shells and other CWS supplies on ships; 
inspecting, reconditioning, and test firing flame throwers; and training. 
The task force of which it was a part embarked on 30 December 1944. 
w Ibid. 316 
THE CHEMICAL WARFARE SERVICE 
On the morning of 9 January 1945 the combat troops landed on the 
shores of Lingayen Gulf, north of Manila, 6th Division holding the 
center of the beachhead. There was no immediate enemy opposition. 
The men of Unit 3 began reaching the beaches some three hours after 
the first assault and immediately set to work organizing a CWS beach 
dump. A consolidated chemical dump for the 6th Division’s beach- 
head was in operation by the next morning, supporting the division’s 
4.2-inch mortar companies. Five days later a detachment set up an 
advance depot fifteen miles inland, and the task of moving mortar 
shells, grenades, and flame thrower fuel off the beaches was begun. 
A second inland depot was set up the following week, replacing the 
first. Regular forward movements of supply points followed at inter- 
vals of a few days. The unit’s repairmen were kept busy maintaining 
the division’s flame throwers. Supply and maintenance operations in 
close support of 6th Division continued without a break until the 
division was relieved on 30 April after three and a half months in 
action. 
Unit 4 remained at Cape Cretin, New Guinea, until mid-November 
1944. At that time, having been attached to the 40th Division, it 
proceeded to the division’s stage area at Cape Gloucester, New 
Britain. The 40th, like the 6th, was scheduled to participate in the 
Luzon landings, and Unit 4, like Unit 3, spent the last weeks of 
November 1944 checking and loading mortar ammunition. The unit 
also placed 15-man teams on detached duty with each of two mortar 
companies attached to the division. The 40th Division landed on the 
southwestern flank of Sixth Army’s assault on the shore of Lingayen 
Gulf on the morning of 9 January. Two hours after the first assault 
wave hit the beach, personnel of Unit 4 began arriving ashore. The 
unit soon had a depot for Class II and Class IV CWS supplies in the 
town of Lingayen and an ammunition dump operating in conjunction 
with the divisional ordnance supply point. Both depot and ammunition 
dump were moved forward after two weeks, by which time the detach- 
ments had rejoined the main group, bringing Unit 4 up to its full 
strength. It continued in support of the 40th Division throughout 
February 1945.80 
By that time the 240th Chemical Composite Company had long 
ceased to be a unit in any operational sense. Its four segments were 
79 History of the 237th Cml Serv Platoon. 
s0 History of the 238th Cml Serv Platoon. CHEMICAL WARFARE SERVICE UNITS 
317 
all on Luzon, but each was in support of a different outfit. Sixth Army 
had already come to the conclusion that it required nothing of compos- 
ite companies save the provision of platoon-size detachments for close 
divisional support. Under the circumstances there was little reason to 
retain company organization, especially in view of the fact that the 
basic TOE 3-500 could apply as well to an independent platoon as to 
a company. As had already happened in other cases, the decision was 
made to disband the 240th as a company and activate its units as 
separate composite platoons. Accordingly, as of 12 February 1945 the 
240th Chemical Composite Company ceased to exist. In its place there 
appeared, organized under the current TOE 3-500 (15 December 
1944), 240th Chemical Service Platoon, formerly Unit 1, and the 
236th, 237th, and 238th Chemical Service Platoons, the erstwhile 
Units 2, 3, and 4, respectively. From then on the four platoons were 
for all practical purposes divisional chemical warfare elements and 
served through the remainder of the Philippines campaign in that 
• 01 
capacity. 
Chemical Air Service Companies 
As in other respects, so in the field of chemical service operations the 
Army Air Forces functioned as a separate entity. The Air Forces had 
major CWS functions, as a potential principal user of toxic agents in 
the event of gas warfare, as a participant in smoke missions, and as the 
utilizer of the new CWS strategic weapon, the incendiary bomb. To 
assist in the execution of these chemical missions, the CWS organized 
and sent into the field several types of service units especially designed 
for Air Forces needs. Included among those seeing overseas service were 
chemical depot companies, chemical maintenance companies (both 
types bearing the additional designation "Aviation”), and the many 
chemical companies designated simply "Air Operations,” one hundred 
of which were activated between 1942 and 1945. Half of these saw 
service in overseas theaters. Four of the fourteen maintenance com- 
panies, aviation, and all of the twenty depot companies, aviation, also 
went overseas. 
The air depot companies, like their ground counterparts, had as their 
principal mission the storage, surveillance, and preparation for issue 
81 The 236th (formerly Unit 2) was attached to the }8th Division, an element of XI Corps, on 23 
March 45. 318 
THE CHEMICAL WARFARE SERVICE 
Loading Liquid Smoke Into an M10 Smoke Tank for Aircraft, New 
Guinea. 
of CWS materiel, in this case primarily bulk toxics, smoke mixtures, 
and incendiaries. Normal assignment was on the basis of one per AAF 
general depot when, as was usually the case, the depot in consideration 
was intended for storage and issue of chemical supply in appreciable 
quantities. A typical air depot company, the 754th, assigned to the 
VIII Air Force Service Command in England, had four sections: ad- 
ministrative, chemical, incendiary, and security maintenance.82 The 
last three of these were respectively in charge of storage, surveillance, 
and filling of chemicals and chemical ammunition, storage and sur- 
veillance of incendiaries, and repair, maintenance, defense, and security 
details for the depot. The proper execution of these tasks called for a 
good deal of technical proficiency, especially in the handling and sur- 
veillance of toxics. Another air depot company in that command, the 
MT/0 3-418, 28 Feb 42. CHEMICAL WARFARE SERVICE UNITS 
319 
763d, found that a depot company might be responsible not only for 
filling mustard bombs but for making up such items as M47A1 incen- 
diary bombs as well, using bomb casings, gasoline, and thickener.83 
Chemical companies, air operations, in their organization and mission 
presented certain parallels to the composite companies of the ground 
forces. Like the latter, they were meant for close support of combat 
units and were organized on a cellular basis, with platoons (four to 
the company) capable of performing like missions on a self-sustaining 
basis when attached separately to units of appropriate size. The major 
missions of air operations companies were to maintain CWS ammuni- 
tion storage dumps, to prepare and arm chemical munitions for combat 
use and (in practice) to load such munitions on the using aircraft. The 
recommended normal basis of assignment was one air operations com- 
pany per group or one platoon per squadron. A platoon consisted of 
a headquarters team and four identical operations teams, which were 
essentially toxic-filling outfits. In addition to its headquarters and 
its four platoons, the air operations company included a distributing 
point section to operate its dump; this group included at least two 
men trained in decontamination techniques and equipped with a 
power-driven decontaminating apparatus.84 The processes involved in 
handling, arming, and loading CWS bombs, bomb clusters, and spray 
tanks required a good deal of technical training and special equipment.80 
Air operations companies were not infrequently faced with unan- 
ticipated tasks. For example, companies in the SWPA used a newly 
developed spray tank (the E2B25, produced by the Far East Air 
Force Service Command) not only for smoke operations but for the 
spraying of DDT over areas rendered hazardous by the presence of 
insect-borne malaria or typhus.86 
In the last months of the Pacific war aerial incendiaries played an 
increasingly important role in both the strategical and tactical spheres. 
The assault on Iwo Jima, for example, was preceded by a 10-week 
bombardment by planes based in the Marianas; incendiary bomb 
clusters formed a significant part of their load. Air operations com- 
83 Conf Rpt, The Opn, Duties, and Function of a Cml Depot Co, Avn, 22-23 Feb 43. Eighth AF 
520.805-Nov 43. 
84 TOE 3-457, 29 Sep 44. An earlier version, 1 July 1942, differed in providing for platoons with 
two large operations teams apiece. 
85 Capt Louis E. Schueler, 876th Cml Co AO, The Cml Co, Air Opns. Eighth AF 520.805-Nov 43. 
86 Col Augustin M. Prentiss, Jr., Cml Warfare Ffistory of Fifth Air Force-Far East Air Forces. 
CWS 314-7 Fifth AF. 
289-149 0-68—22 320 
THE CHEMICAL WARFARE SERVICE 
panics supporting the bomber formations increased the supply of 
incendiaries by improvising fire bombs from 5 5-gallon drums filled 
with napalm and armed with an Mi 5 WP grenade and an all-ways 
fuze. The fuzing of this unfamiliar weapon was the source of so much 
concern to the air crews that at first they insisted that CWS personnel 
accompany the flights to keep an eye on the incendiaries. The air 
operations companies always loaded incendiaries into planes and, when 
necessary, were called upon to modify bomb bays to accommodate 
particular types of incendiary bomb clusters.8' In the early months of 
1945 incendiary raids on a vast scale carried the war direct to the 
industrial centers of Japan. In their support of these crippling blows, 
the air operations companies contributed significantly to the final 
victory. 
87 Interv, Hist Off with Lt Col Alfred J. Green, USAR, 15 Sep 59. CHAPTER VIII 
Large Area Smoke Screens in the 
MTO 
It was the fate of the Chemical Warfare Service to enter World 
War II with rather ill-defined responsibilities, a circumstance accented 
by the absence of its most clearly defined mission—gas warfare. As a 
consequence, responsibilities were delineated and missions took shape 
as the necessity for meeting new conditions actually arose in the theaters 
of operations. A case in point was large area screening. The tremendous 
development in air power between the world wars produced a situation 
which made the concealment of ground targets a prime necessity. 
Clues pointing to this development were apparent in the 1930’s but 
for various reasons little had been done to prepare for large area 
screening. The first adequate American smoke generator did not 
appear until 1942. Once the generators were in the theaters, a chain 
of circumstances created smoke missions which were unknown even 
in the tentative doctrine of the prewar period. 
Background of Large Area Screening 
Experiment and Trial 
Although the employment of small quantities of smoke in combat 
was an ancient military technique, its use to conceal extended areas 
was a twentieth century innovation. The term large area screen is 
quite imprecise. The size of a large area screen depends upon the 
nature and size of the target to be obscured. The screen had to be 
large enough to baffle enemy bombardiers; if it were too small it would 
merely pinpoint vital areas. The technical aspects of large-scale smoke 
screening had been a CWS concern from the time that service received 
the smoke mission in 1920. The most immediate interest was in the 
development of agents and munitions to support tactical operations. 
Because initial CWS experiments in area screening along the Panama 322 
THE CHEMICAL WARFARE SERVICE 
Canal were unsuccessful, the search for agents and means of dissemi- 
nating area screens continued sporadically until 1936 when the War 
Department decided that with the means available large area screening 
was not practicable.1 
The high importance placed on hemisphere defense by the Rainbow 
plans of 1939 ' revived War Department interest in providing passive 
defense for the vulnerable areas of the Panama Canal. On 1 July 1940 
the War Department directed Maj. Gen. Walter C. Baker, Chief, 
Chemical Warfare Service, to submit an estimate of the costs of devel- 
opment, installation, and maintenance of smoke screening apparatus 
required for concealing the three locks. By the end of the month the 
War Department sent this estimate to the commanding general, Panama 
Canal Department, for comments. The Air Corps commander in the 
Canal Zone favored the project in principle but had some reservations. 
The commanding general of the Panama antiaircraft defenses opposed 
any extensive use of smoke which might nullify the effectiveness of 
antiaircraft fire. The department chemical officer advised his com- 
mander that in view of the lack of information about the effectiveness 
of large area screens it would be unwise to plan a costly screening 
installation for the three locks. The matter was held in abeyance.3 
Nevertheless, two points had emerged from the Panama studies. First, 
technical means for generating artificial clouds were inadequate. 
Second, there was serious opposition by commanders to the employ- 
ment of smoke during air raids. Until a better means of smoke produc- 
tion was devised, a mutually satisfactory decision about smoke employ- 
ment was impossible. 
At that time, the war in Europe provided actual combat tests of the 
use of smoke. Before mid-1940 British interest in large area screening 
had been rather theoretical—an interesting proposition but hardly 
practicable.4 When the German invasion of the Low Countries and 
1 (i) Phosphorus, chlorosulfonic acid, and hexachlorethane (HC) had been the agents tested. (2) 
For a review of large area smoke tests at Panama from 1921 to 1939, see OCCWS Tech Study 23, Use 
of Smoke to Screen Panama Canal Locks, 18 Jul 40 (rewritten 9 Jul 41). (3) Special Folder on 
Smoke Screen Experiments in Panama [1921-31]. CWS Ret 470.6/2491. 
2 Matloff and Snell, Strategic Planning for Coalition Warfare, 1941-42, pp. 7-8. 
3 (1) Ltr, CmlO Panama Canal Dept to CCWS, 1 Oct 40, sub: Use of Smoke to Screen Panama 
Canal Locks. (2) Memo, CmlO PCD for ExecO OCCWS, 8 Oct 40, no sub. Both in CWS Ret 
470.6/57-231- 
4 (1) Statement, Dir of Weapons and Vehicles (Br) for Asst Chief Imperial General Staff, ca. 1 May 
43. CWS 314.7 Smoke Opns. (2) The various smoke devices developed by the British are discussed 
in TDMR 396, Jun 42. Tech Lib ACmlC, Md. LARGE AREA SMOKE SCREENS IN THE MTO 
323 
France in the spring of 1940 provided the Luftwaffe with airfields 
within easy reach of the United Kingdom, the British gave serious 
attention to the possibility of using smoke to conceal vital installations. 
At first, the British Ministry of Home Security, responsible for screen- 
ing vulnerable targets, provided oil-burning orchard smudge pots for 
targets in Birmingham and Coventry. It waived smoke abatement 
orders so as to increase the industrial haze, no longer the public nuisance 
it had been in time of peace. The Admiralty Fuel Experimental Station 
at Haslar, England, later developed the first large-capacity oil-burner 
generator, cumbersome and inefficient but the best smoke producer 
available at the time. 
The typical British large area smoke installation in 1941 consisted of 
several thousand stationary smudge-type oil pots and a few Hasler 
generators which gave body to the screen from upwind positions. 
Although requirements for oil, all of which had to be imported, and 
manpower were heavy, area screening proved well worthwhile. In 
addition to military advantage, smoke became an important factor in 
maintaining the morale of factory workers, especially in munitions 
plants. Employees sometimes demanded smoke, despite its incon- 
venience, as the price of continuing to work at night.5 
Beginnings of Large Area Screening in the United States 
The gradual transition of area screening from theory to practice was 
observed with interest in the United States. The Chemical Warfare 
Service carefully surveyed the development of European equipment 
and screening techniques and, with the Army Air Corps and other 
Army elements, investigated the problems which would accompany 
the development of large area screening. 
In mid-1940 the only smoke-producing munitions available to the 
U.S. Army were smoke shells, pots, grenades, and airplane smoke tanks. 
These munitions were satisfactory for establishing transitory curtains 
and could be used to a limited extent for blanketing enemy positions, 
but they were unsuitable for maintaining smoke screens over wide areas 
of friendly terrain because of the limited amount of smoke they pro- 
duced and because artillery and mortar shells could not be impacted 
6 (1) Thomas K. Sherwood, NDRC, Div B, Rpt 197 (OSRD 435), Rpt on Screening Smokes, CWS- 
17, 3 Mar 42, passim. Tech Lib ACmlC, Md. (2) British Historical Monograph, Special Weapons 
and Types of Warfare, Part II A, gives a complete picture of the development of smoke missions and 
munitions in Great Britain. 324 
THE CHEMICAL WARFARE SERVICE 
near friendly troops. Moreover, smoke from the HC-filled pots was 
harassing at best and in concentrated amounts could be quite toxic. 
Following the British lead, the CWS adapted the commercial smudge 
pot which was standardized as the Mi stationary oil generator. CWS 
scientists and later those of the National Defense Research Committee 
(NDRC) became interested in more efficient smoke production tech- 
niques. In 1942 there appeared an entirely new type of smoke gen- 
erator, one which emitted a "smoke” composed of small particles of 
oil created when a superheated oil-vapor mixture condensed upon 
ejection into the air. Production began on this generator in September 
1942, and it was standardized as the Mi mechanical smoke generator 
(often called the Esso, after the company which produced it) in the 
following December.6 
In December 1941 the Chemical Warfare Board undertook a study 
of large area smoke concealment with particular application to Edge- 
wood Arsenal. Within a few days after the Pearl Harbor attack 
General Porter instructed the board to expand its objectives to include 
the general principles and techniques of screening, a project which was 
given highest priority.7 The investigations of the Chemical Warfare 
Board soon had proceeded far enough to establish several tentative 
principles of rear area screening. Observation from the air revealed 
that smoke at night changed the appearance of both natural and arti- 
ficial terrain features. Smoke was of less value during daylight and 
might even accentuate vital targets. Blackouts would still have to be 
maintained at night because bright lights were visible through the 
smoke; in other words, rear area screening was supplementary to the 
blackout, not a substitute for it. And, finally, screening, while appre- 
ciably reducing visibility, would not eliminate observation from the 
air.8 
After the completion of the Edgewood tests, the CWS felt better 
prepared to provide technical supervision of smoke installations in the 
zone of interior, which the Operations Division, War Department 
General Staff, was finding difficult to establish because of shortages of 
6 (i) See Brophy, Miles, and Cochrane, From Laboratory to Field, for a detailed account of research 
and development activities and technical details of these generators. (2) James P. Baxter 3d, Scientists 
Against Time (Boston: Little, Brown and Co., 1947), pp. 282-89. (3) Barker Ltr, 13 Dec 58. 
7Ltr, Chief Field Serv OCCWS to President Cml Warfare Bd, through CG Edgewood Arsenal, 19 
Dec 41, sub: Study of Large Area Smoke Screen Technique. CWS 470.6/1554 CWB Proj 251. 
8 Ltr, President Cml Warfare Bd to Chief Phila Ord Dist, 2 Jan 42, sub: Smoke as Protective Con- 
cealment. CWS 470.6/1554 CWB Proj 251. Further tests early in 1942 substantiated these findings. LARGE AREA SMOKE SCREENS IN THE MTO 
325 
men and materiel. The commanding generals of the several defense 
commands forwarded screening requests, arranged in order of impor- 
tance, to the War Department, which compiled all requests, giving 
each a priority rating. The CWS aided OPD in this task by performing 
feasibility surveys for each proposed installation.9 
Meanwhile, the CWS recommended the activation of thirty-four 
chemical smoke generator companies. On 8 April the first three units 
(the 75th, 76th, and 77th Companies) were formed and, before their 
training was completed, received the mission of concealing aircraft 
plants in California. By the end of May the War Department had 
authorized the activation of 11 companies to be stationed as follows; 
6 with the Western Defense Command; 3 in Panama; one at the 
Sault Ste. Marie Locks; and one, an experimental unit, at Edgewood 
Arsenal.10 By 20 July a total of 14 companies had been activated, 9 
located on the west coast of the United States. 
Each of these early smoke units, organized under a table of organiza- 
tion calling for 4 officers and 196 enlisted men and 3,600 Mi stationary 
smoke generators (the smudge pot type)11 was capable of blanketing 
an area of about four square miles. Generators were employed in two 
or more concentric smoke lines which completely surrounded the vital 
area, allowing for wind from any direction. By the proper placement 
of additional generators and by use of an electrical ignition system, a 
substantial amount of smoke could be formed in about ten minutes. 
When the United States entered the war the long-standing Panama 
Canal screening project was immediately revived. At the time, the 
smoke pot was the only screening munition available and it required 
too many men to make a Panama smoke installation feasible.12 The sta- 
tionary generator proved more satisfactory, and, as a consequence, Lt. 
Gen. Frank M. Andrews, Caribbean Defense Command, recommended 
that plans for screening in the Department be implemented as soon as 
possible.13 By 1 January 1943 two smoke generator companies had 
9 Memo, Maj D. R. King, OCCWS, for Col James W. Rice, Cml Warfare Bd, 5 May 42, sub: WD 
Policy With Reference to Rear Area Smoke Screens. CWS 470.6/ 1554 CWB Proj 251. 
10 Ltr, TAG to CCWS, 25 May 42, sub: Request for Authority for Activation of Cml Smoke Gen- 
erator Cos, and 1st Ind. CWS Ret 320.2/207. 
uT/0 3-267, 1 Apr 42. 
12 Interv, Hist Off with Lt Col Harold Walmsley, 23 Feb 48. 
13 Ltr, CG AGF to CG SOS, 19 Jun 42, sub: Stationary Smoke Generators for Large Area Screen, and 
2d Ind, CCWS to CG SOS. CWS Ret 470.6/2711-2754. An electrical ignition system further re- 
duced the necessary manpower. 326 
THE CHEMICAL WARFARE SERVICE 
arrived in Panama equipped with the Mi mechanical generator. Used 
in conjunction with the stationary generator, this new equipment 
greatly eased the situation on the smoke lines. 
In July 1942, with a practical means of screening assured, General 
Porter made several recommendations on plans for rear area screening 
which were approved by the General Staff. The War Department 
ordered that additional smoke generator companies be activated to 
bring the total to 42. These new units were to train at the CWS 
Replacement Training Center at Camp Sibert, where large area screen- 
ing exercises could be freely conducted.14 By August 1942 troop basis 
planning provided for the employment of 12 companies in theaters of 
operations, 3 in Panama, and 14 by the defense commands in the zone 
of interior. Activation of chemical smoke generator companies con- 
tinued at the rate of about 3 a month until February 1943, when a 
total of 40 had been organized. 
Defensive screening operations during 1942 consisted of the estab- 
lishment of zone of interior smoke installations and the development 
of screening readiness in Panama. Operations at the Sault Ste. Marie 
locks 4i> and at Camp Edwards, Mass., were primarily for experimental 
purposes, both tactical and technical. The requirement for smoke 
installations in the Western Defense Command began to decline after 
the defeat of the Japanese fleet in the Battle of Midway in June 1942 
and ended with the increase in American air power during the early 
months of 1943. Smoke was never made in anger in the United States. 
But the anxious period after 7 December 1941 provided the impetus 
for rapid progress in the development of materiel and the organization 
of units. This was a necessary prelude to overseas screening operations. 
Initial Operations: The Northwest African Ports 
Early on the morning of 8 November 1942 British and American 
forces attacked Northwest Africa. The assault operations consisted 
of three distinct parts. The Western Task Force, entirely American 
and combat loaded in the United States, struck the coast of French 
Morocco in the vicinity of Casablanca. The Center and Eastern Task 
14 (i) Memo, CCWS for ACofS OPD WDGS, 20 Jul 42, sub: 1942 Over-all Plan for Rear Area 
Smoke Screen Protection. (2) 1st Ind, ACofS for Opns SOS to CCWS, 11 Aug 42. Both in CWS Ret 
3 20.2/207. 
15 Originally the purpose of smoke operations at Sault Ste. Marie was protection, not testing. Memo, 
Capt Howard P. McCormick, CWS, for Gen Wilson, 3 1 Mar 42. LARGE AREA SMOKE SCREENS IN THE MTO 
327 
Forces, mounted in Great Britain, had as their respective targets the 
Mediterranean ports of Oran and Algiers.16 The initial French resist- 
ance soon ceased, and the British-American forces turned east toward 
Tunisia. 
By then the United States Army had attained a capability in large 
area screening which a year earlier would have seemed impossible. A 
new generator, the Mi, had been devised, units were being activated 
to operate it, and the doctrine for its employment—the concealment 
of vital rear area installations—had become an accepted feature in the 
defense against air attack. The Northwest African campaign was to 
provide the crucial test of combat for this generator, these units, and 
this mission. 
Although the Luftwaffe failed to react to the landings in Northwest 
Africa, enemy planes in the succeeding months raided Algiers and other 
ports to the east in an effort to disrupt Allied supply lines. Both the 
United States and Great Britain supplied troops and munitions for the 
large area screening mission. Shortly before, the British No. 24 smoke 
pot had been dubbed "the savior of Malta” for its part in shielding the 
island’s harbor from concentrated enemy air attacks.17 The Americans 
provided the Mi smoke pot and the Mi mechanical smoke generator, 
smaller and more efficient and maneuverable than the large British 
Haslar.18 These two generators, the primary equipment of the units 
performing the smoke mission, were to form the nucleus of the smoke 
installations at the Northwest African ports. 
Because smoke was not required, no American smoke units partici- 
pated in the initial landings, a fortunate circumstance in view of the 
limited number of available units. Elements of the 78th Smoke Gen- 
erator Company did arrive at Casablanca on 13 November, five days 
after the shooting began.19 The company set up a smoke installation 
on 23 November which served principally for demonstration purposes.20 
16 Howe, Northwest Africa, provides the complete story of the Northwest African campaign. 
17London Mil Attache Rpt 56781, 12 May 43, sub: Area Smoke Screening, app. B. 
18 The Mi mechanical generator weighed 3,000 pounds empty and 5,400 pounds when filled, that is, 
complete with fog oil, fuel oil, and water. Troops could operate in its smoke with no adverse effects. 
The Mi smoke pot contained 10 pounds of HC smoke mixture and burned from 5 to 10 minutes. An 
improved model, the M1A1, appeared in 1944. The longer burning M5 pot was developed later in the 
war. 
“78th Cml Smoke Generator Co History, 1942, p. 1. This detachment of the 78th embarked in six 
different vessels and had smoke generators ready for emergency use. 
30 Ltr, CO 78 th Smoke Generator Co to CmlO Western Task Force, 30 Nov 42, sub: Report of Test 
Run. . .. CWS 3 14.7. 328 
THE CHEMICAL WARFARE SERVICE 
The first smoke company to see action in Northwest Africa was the 
69 th Smoke Generator Company. It landed at Oran on 25 December, 
and on the following day it relieved a detachment of engineer troops 
which, using British No. 24 smoke pots, had maintained a smoke line 
in the harbor since 9 November.21 By February 1943 both the 78th 
and the 69th Companies were at Algiers where they successfully 
operated their Mi mechanical generators in conjunction with a British 
company equipped with Haslars.22 
All told, ten major North African ports had the benefit of smoke 
installations manned by troops from the United States, Great Britain, 
and France.21 These operations were not simultaneous but represented 
a steady movement eastward as the Allied troops, in conjunction with 
those under Generals Sir Harold R. L. G. Alexander and Montgomery, 
converged on the Axis concentrations in Tunisia. Bizerte, although 
captured just before complete victory in Northwest Africa, served as 
one of the chief marshaling ports for the invasion of Sicily and later 
Italy, thus becoming one of the Mediterranean’s most heavily screened 
ports. A British smoke unit was waiting on the outskirts of Bizerte 
on 7 May as the II U.S. Corps was capturing the city, and within 
twelve hours the port was screened. By the end of June all four of the 
American smoke generator companies in the theater were providing 
the smoke defenses for Bizerte. In addition to the 69th and 78th these 
were the 168th and i72d, just arrived from the United States and still 
without generators.24 
Smoke installations usually consisted of two rings, the size of -which 
depended upon the area to be screened. An inner ring of smoke pots 
provided for the quick concealment of vital targets while an outer 
ring of mechanical generators built the main element of the smoke 
blanket. Pots were also used to fill in gaps in a blanket caused by 
shifting winds or by other unforeseen conditions. Smoke was made 
at night only; during the day fighter aircraft provided protection for 
the dock areas of the harbors. 
21 69th Cml Smoke Generator Co History, Jun 42-Apr 44, p. 2. 
22 CWS TofO Ltr No. 12,31 Mar 44, Incl. 4. 
22 A detailed account of the screening operations in Northwest Africa as well as of those in Italy, 
described later in this chapter, can be found in Paul W. Pritchard, CmlC Hist Study No. 1, Smoke Gen- 
erator Opns in the Mediterranean and European Theaters of Opn, 1949, pp. 36-83. 
24 Also arriving in June were the 24th and 25 th Chemical Decontamination Companies, in the theater 
as insurance against the introduction of gas by the enemy but well trained in the smoke mission. LARGE AREA SMOKE SCREENS IN THE MTO 
329 
Early on the morning of 6 July 1943, with Bizerte’s port, channel, 
outer harbor, and bay crowded with ships for the impending invasion 
of Sicily, the Luftwaffe attacked with a force of more than sixty 
aircraft. The smoke units had nine minutes warning. At 0409 the 
German bombers began their run on the smoke-obscured targets. 
Despite intense antiaircraft fire the enemy kept up an almost uninter- 
rupted attack for thirty-six minutes. At 0445 the bombers withdrew, 
and the order to "cease smoke” came shortly after. During the 
6 5-minute smoking period the units expended 4,135 gallons of fog 
oil and 535 British smoke pots. Although the enemy bombed several 
dumps and inflicted about a score of casualties outside the screen, no 
bombs fell within the vital area. The ships and docks were untouched 
and the channel remained open.25 
In August two of the four American smoke units were alerted for 
the Sicilian operation. In September the remaining American com- 
panies sailed for Italy, and British troops manned the Bizerte screen 
until their relief by French units in January 1944. 
By concealing the harbors and port facilities from Algiers to Sfax 
from enemy air bombardment, American and British smoke companies 
played a limited yet important part in the Northwest African cam- 
paign. The extent of the smoke operations depended upon the clearness 
of the night, the military traffic at a port facility, and the degree of 
enemy air activity. The Luftwaffe succeeded in sinking a few ships 
in these harbors and caused some damage to port installations, but its 
attacks on the ports in Northwest Africa were largely without effect.26 
This first combat experience entirely justified the hopes of the 
designers of the mechanical generator. It produced substantial clouds 
of persistent white "smoke” with comparative speed. Although the 
weight of the generator required vehicular transportation and its fuel 
requirements were substantial, these were but modest logistical con- 
siderations compared with the results obtained. 
Perfecting the Technique: The Italian Ports 
The port of Naples was the initial Allied objective after Anglo- 
American forces had secured a foothold in southern Italy. The logistical 
25 (i) 69th Cml Smoke Generator Co History, Jun 42-Apr 44. (2) 78th Cml Smoke Generator Co 
History, 1943. 
“Logistical History of NATOUSA-MTOUSA, jo Nov 45, pp. 106-07. THE CHEMICAL WARFARE SERVICE 
SMOKE AT NAPLES 
December 1943 
Smoke generators 
Smoke pots 
MAP 3 
D. Holmes, Jr 
considerations that demanded taking the port city naturally required 
the uninterrupted flow of supplies into its spacious harbor. The smoke 
installation that aided in this task was the most comprehensive of its 
kind in the war. And it had the benefit of the experience gained in 
screening the ports of Northwest Africa. 
The vital shipping area at Naples included the port and harbor of 
the city itself, the port area at suburban Bagnoli, and the fine harbor 
at Pozzuoli in the Bay of Baiae. (Map 3) The smoke installation 
began operations in October 1943, reached a climax late in the year, 
and tapered off by the following summer as Allied successes farther 
to the north helped reduce the possibility of heavy enemy air attacks. LARGE AREA SMOKE SCREENS IN THE MTO 
331 
At its height the smoke lines were manned by the 163d, 164th, 168th, 
172d, and 179th Smoke Generator Companies, the 24th Decontamina- 
tion Company, and the British 807th (SM) Company—in all, about 
1,000 officers and enlisted men. 
At first, no common headquarters existed to direct the activities of 
these units, a fact which soon led to the establishment of a provisional 
smoke generator battalion headquarters.27 Although an improvement, 
this "provisional” headquarters was not the answer. The lack of status 
and the inadequate capability of this provisional unit, led by the senior 
smoke generator company commander, finally impelled the theater 
in March 1944 to request the assignment of a headquarters and head- 
quarters detachment, chemical smoke generator battalion. This unit 
was urgently needed, the theater said, to provide centralized control 
over the several smoke companies in such matters as technical operations 
and administrative and logistical support. As a result, Headquarters 
and Headquarters Detachment, 2id Chemical Smoke Generator Bat- 
talion, was activated on 5 May 1944.28 
The smoke installation in the Naples complex included three sectors, 
each with inner and outer rings. The inner ring at Naples proper 
consisted of 370 British smoke pot positions and 14 Besler gen- 
erators, a Navy generator, small, efficient, and much like the Army’s 
Mi which would appear later. The outer ring, about six miles long, 
included 86 mechanical generators. The Bagnoli sector had 100 smoke 
pot and 3 8 mechanical generator positions, the Pozzouli, 48 mechanical 
generators. The smoke from these installations blended into one massive 
screen extending at times for a distance of twenty miles. As in the 
case of the North African ports, smoke was used during the night and 
during the periods of twilight. The prevalent winds at these times 
were offshore, an ideal condition for the land-based generators, although 
ten craft loaded with floating M4 smoke pots were ready to cover any 
gaps caused by occasional breezes from the sea. Air turbulence from 
two nearby land masses created constant difficulty in the development 
of an adequate screen. One of these was the volcano Vesuvius whose 
mass and glow, according to captured German pilots, provided the 
27 Technical and administrative problems of the American companies initially were handled by 
Colonel Barker, Fifth Army chemical officer, and later by Colonel Coblentz of the Peninsular Base 
Section. 
28 (1) CM-IN 13125, 18 Mar 44. (2) Ltr, TAG to CG NATO, 30 Mar 44, sub: Constitution and 
Activation of Hq and Hq Detachment, 22d Cml Smoke Generator Bn. AG 322 (28 Mar 44) OB—L- 
SPMOU-M. (3) GO 80, Peninsular Base Sec, 4 May 44. 332 
THE CHEMICAL WARFARE SERVICE 
additional disservice of furnishing guides to attacking enemy bombers.29 
Smoke orders came from the British 45 th A A Brigade charged with 
the port defense.30 
Enemy air raids were frequent and heavy at Naples, but its defenses 
■fighters, flak, and smoke—combined to blunt the effectiveness of 
the attacks. On the night of 2 6 November, for example, the screen 
confused and delayed the enemy flare laying aircraft to such an extent 
that the bomber formation released its load without benefit of flares. 
As a result, none of the bombs did damage, most of them falling into 
the bay.31 
Although there was a letup in the number of air raids on Naples 
during the last half of March and April 1944, the tempo increased in 
May with the Allied drive on Rome, and the port was screened fourteen 
times. During one of the spring raids about 113 merchant ships and 
60 naval craft were shielded by smoke in the ports and anchorages at 
Naples, all of which escaped damage.32 According to the AFHQ 
intelligence bulletins this was not exceptional; the screening activities 
at Naples were generally effective.33 
As the Germans fell back before the Allied offensive their air attacks 
against Naples practically ceased. The smoke installation was gradually 
reduced to a single ring of pots around the harbor, manned by Italian 
personnel. Some of the American smoke units began to prepare for 
operation against southern France; others moved north to new ports, 
now that Naples was no longer able to supply efficiently the troops 
above Rome. During the advance northward the Fifth Army captured 
Civitavecchia, Piombino, and Leghorn, ports which upon repair were 
pressed into service to relieve the supply situation. Civitavecchia 
required but a small screen and that for a short time. The 179th Smoke 
Generator Company saw brief service there before moving to Piombino, 
where in June it joined with the 17 2d Company in manning the smoke 
installation.34 
29 Colonel Barker toyed with the idea of concealing Vesuvius with 4.2-inch mortar shell, a plan soon 
discarded as impracticable. 
80 Fifth Army Cml Sec Daily Jnl, 18 Dec 43. 
31 CWS TofO Ltr No. 12, 31 Mar 44, p. 48. 
32 AFHQ, History of A A and Tactical Smoke Screening in North Africa and Italian Theaters Between 
1 Jan and 31 Dec 44, pp. 7-8. 
33 An evaluation based upon about fifty AA intelligence bulletins issued between October 1943 and 
May 1944 by the 12th Antiaircraft Artillery Brigade. 
34 AFHQ, History of A A and Tactical Smoke Screening in North Africa and Italian Theaters Between 
1 Jan and 31 Dec 44, p. 8. LARGE AREA SMOKE SCREENS IN THE MTO 
333 
Smoke Screen Shields Unloading Operations During Air Raid Alert 
Salerno. 
Activity at both of these ports subsided when the facilities at 
Leghorn, captured on 19 July, were repaired and gradually put into 
operation. Within a week the 179th Smoke Generator Company, to 
be joined shortly by three British companies, erected a screen at 
Leghorn. Initially, Leghorn represented a unique example of rear area 
screening in that it remained for some time within range of enemy 
artillery on the north bank of the Arno River. On 28 July the lyid 
Company moved up from Piombino and deployed in a 7-mile arc at 
a distance approximately five miles north and northeast of the city. 
The haze from the generators, just as in the Anzio operation,35 denied 
to the enemy observation of port and road traffic. The company main- 
tained the line, sometimes despite the objections of the Royal Navy 
in the port, for thirty-eight days, by which time the enemy had with- 
35 See below, pp. 336-40. 334 
THE CHEMICAL WARFARE SERVICE 
drawn from his Arno River positions. The smoke installation at the 
port itself was continued until April 1945.36 
Leghorn marked the end of American participation in port screening 
in the Mediterranean Theater of Operations. Rear area missions grad- 
ually petered out with the diminished effectiveness of the Luftwaffe. 
The i/id and 179th Smoke Generator Companies, by now the only 
U.S. smoke units in Italy, turned to a type of employment that had 
evolved earlier in the theater—the use of smoke in forward areas. But 
before the development of that mission smoke units had been used in 
assault landings. 
The Changing Mission: Smoke in Amphibious and 
Beachhead Operations 
Salerno 
The fighting in Italy proper saw an immediate extension of what 
had been the normal mission of smoke units. Thus far, in doctrine and 
experience, large area screens had concealed rear area installations 
exclusively. At Salerno smoke troops landed on D-day in support of 
the combat elements.37 
The Fifth Army landings in the Gulf of Salerno, just around the 
Sorrento Peninsula from Naples, represented the first foothold of 
American troops on the mainland of Europe. Two corps participated 
in the attack—the British 10 on the left and the U.S. VI on the right. 
The 36th Infantry Division, forming the assault element of the 
American corps, drew as its objective the beaches near the town of 
Paestum.38 
Each of the assault battalions, storming ashore early on 9 September 
1943, carried about 200 M4 smoke pots.39 Dropped in the water by 
88 (1) Ltr, CO 172d Cml Smoke Generator Co to CG Adv Hq Allied Armies in Italy, 13 Sep 44, 
sub: Report on Smoke Haze North of Leghorn. (2) Fifth Army Cml Sec Daily Jnl 28 Jul 44. (3) 
AFHQ, History of AA and Tactical Smoke Screening in North African and Italian Theaters Between 
1 Jan and 31 Dec 44, pp. 8-9, 11-12. 
37The Salerno action is based on: (i) Fifth Army Cml Sec Daily Jnl, 9, 10, 25 Sep 43, CMLHO; 
(2) Memo, Barker for CMLHO, 4 Feb 47, sub: Answers to Questions; (3) Lt Harrie A. James, 
USNR, Observations During Opn Avalanche, Center Task Force Southern Task Force, 24 Oct 43, 
CWS 314.7 Smoke Opns. 
38 Details of this operation may be found in Martin Blumenson, Salerno to Cassino, a volume in 
preparation for the series UNITED STATES ARMY IN WORLD WAR II. 
89 The M4 floating smoke pot (and improved models M4A1 and M4A2) consisted of a j-gallon pail 
containing twenty-six pounds of HC. This amount filled but one-third of the container, thus creating 
the necessary buoyancy. LARGE AREA SMOKE SCREENS IN THE MTO 
335 
infantrymen, the floating munitions helped conceal succeeding landing 
craft; placed on the beaches they screened exposed flanks. Navy per- 
sonnel also employed smoke. Some support craft dropped pots; others 
were equipped with the Navy Besler smoke generator. This artificial 
smoke, combined with the morning mist and the haze of battle, created 
limited visibility. As a consequence, the enemy, with limited observa- 
tion, resorted to a curtain of unobserved fire placed just off the beaches. 
This was in decided contrast to the initial situation wherein individual 
landing craft were reported to have been sniped at by enemy 8-inch 
guns.40 
One CWS unit landed on D plus 2 as part of the beach force of VI 
Corps. The 24th Decontamination Company, under the direction of 
the naval task force, used Mi and M4 smoke pots to screen the 
beaches and anchorages. Later, the Navy gave the unit eight Besler 
generators, a number gradually increased to thirty-six. Standard prac- 
tice during the first week, when the issue was often in doubt, was to 
create smoke during the hours of evening and morning twilight and 
during moonlight, favorite times for German bombers to attack. 
During air raid alerts the smoke of the 24th Company usually was 
abetted by generators on naval craft. So effective was the smoke screen 
that beach and harbor were often concealed within three minutes of 
the alert. During the nights smoke came to assume the primary position 
among antiaircraft defenses. 
Average daily expenditures during the first week on the Salerno 
beaches were 250 Mi and 100 M4 smoke pots and 5,000 gallons of fog 
oil. One of the principal difficulties encountered was the burning glow 
of the smoke pots which often served as aiming points for enemy 
bombers.41 
Despite this handicap the smoke mission received new respect in the 
strongly contested battle for the Salerno beachhead. Troops and land- 
ing craft welcomed anything that would make them less vulnerable, 
and the pots and generators manned by infantrymen, sailors, and CWS 
40 (1) James, Observations During Operation Avalanche. (2) Professor Morison does not mention 
smoke in his account of the battle although he includes a photograph (opposite page 282) of a PT 
(patrol boat, motor torpedo boat) boat laying smoke. (Samuel Eliot Morison, "History of United 
States Naval Operations in World War II,” vol. IX, Sicily—Salerno-Anzio, January 1943— June 1944 
(Boston: Little, Brown and Co., 1954). 
41 This objection was voiced by several Navy observers as cited in CWS Theater of Operations Letter 
No. ij, 21 June 1944, pages 26-27. 
289-149 0-68—23 336 
THE CHEMICAL WARFARE SERVICE 
troops provided effective concealment from enemy fire.42 It was the 
opinion of naval officers with the shore control party at Salerno that 
the smoke screen saved many lives and landing craft.43 
Anzio 
The bold end run of Fifth Army’s VI Corps at Anzio has provoked 
much debate among postwar strategists, both armchair and professional. 
At the time, its planners felt that this maneuver would be the best way 
to break the stalemate encountered in front of the formidable German 
defenses which formed the Gustav Line. Unfortunately, Operation 
Shingle fell far short of expectations. The enemy responded quickly 
to the "abscess” in its flank and contained the beachhead in beleagured 
impotency from its establishment on 22 January 1944 until the Allied 
breakout in the following May.44 
As at Salerno, provision was made for a large area screen for the 
Anzio beachhead. Again as at Salerno, the 24th Decontamination 
Company was assigned this mission. The company, equipped with Mi 
and M4 pots and with eight Navy Besler generators, landed on D-day. 
On its first night ashore the unit smoked the beaches and anchorage, 
and within two days it had set up a smoke line almost two miles long. 
As the beachhead forces were augmented, other smoke troops, including 
a British unit and the U.S. 179th Smoke Generator Company, moved 
to Anzio to increase the size of the screen.45 
Initially, smoke at Anzio was intended to be part of the antiaircraft 
screen. Experience had shown that a favorite enemy tactic was low 
level bomber attacks at dawn and at dusk. Consequently, it soon 
became standard practice to screen the port each day during the 
periods of dawn and dusk. The smoke troops also operated during red 
alerts at night, for smoke again proved to be the best antiaircraft 
defense during the hours of darkness. Throughout the first three weeks 
the Luftwaffe made at least one raid each night. Flares dropped by 
42 (i) AGF Board Rpt, pt. V, NATO, 10 Nov 4}, cited in CWS TofO Ltr No. 9, 31 Dec 43, p. 10. 
(2) CWS TofO Ltr No. 12, 31 Mar 44, p. 32. 
43 James, Observations During Opn Avai.anche. 
44 Nevertheless, the Anzio landing had a concrete effect on the over-all German war strategy, for the 
enemy interpreted it as the first of a series of peripheral attacks aimed at dispersing German reserve 
forces in Europe. The enemy also reacted with special vigor in order to gain the prestige of destroying 
an Allied beachhead. Harrison, Cross-Channel Attack, pp. 232-33, 234. 
45 (1) Fifth Army History of Activities, 22 Jan 43. (2) AFHQ, History of AA and Tactical 
Smoke Screening in North African and Italian Theaters Between 1 Jan and 31 Dec 44, p. 11. LARGE AREA SMOKE SCREENS IN THE MTO 
337 
lead planes seemed to be extinguished as they dropped into the screen. 
During daylight raids antiaircraft artillery and fighter planes consti- 
tuted the sole defense.46 
The decrease in the number of enemy air raids after mid-February, 
caused by effective antiaircraft defenses, brought little relief to the 
port and beachhead at Anzio, for the reduction of air attacks was 
accompanied by an increase in long-range artillery fire. Along the 
periphery of the beachhead and in the bordering mountains were 
innumerable enemy observation posts. Farm houses suspected of har- 
boring German observers were demolished with 8-inch howitzers, and 
towers and nearby ridges were blanketed by chemical mortar and 
artillery smoke shell. But the mountains in the background continued 
to afford the enemy unrestricted view of beach installations and ships 
in the harbor. Although the entire Allied beachhead lay within range 
of enemy guns, the air defense, artillery, and naval commanders at 
first objected to smoking the beach and harbor during daytime because 
of possible interference with observation for friendly gunfire and with 
the unloading of the ships in the anchorage. This valid complaint was 
something to be reckoned with. Yet the losses incurred from enemy 
bombers and artillery were also worth taking into account. From 22 
January through 10 February, for example, a daily average of almost 
twenty-eight tons of Allied ammunition was blown up by these means.47 
To resolve this problem chemical officers, with the approval of Maj. 
Gen. Lucian K, Truscott, Jr., the corps commander, came up with a 
new technique for the mechanical smoke generator—the production 
of a light haze in the area between the harbor and the front lines, thin 
enough to permit normal operations within it, thick enough to prevent 
German observation from the encircling hills.48 
To apply this technique the 179th Smoke Generator Company on 
18 March moved from the harbor area toward the forward positions. 
The smoke line, now forming a 15-mile arc around the port, included 
nineteen generator positions on land and two generators mounted on 
Navy patrol craft in the harbor. (Map 4) The latter prevented enemy 
observation from the flanks of the concave contour of the coast line. 
46 Col Walter A. Guild, "That Damned Smoke Again,” vol. LIV, No. to, Infantry Journal (October, 
1944) pp. 25-28. (Colonel Guild served as VI Corps chemical officer during the Anzio operation.) 
47 Anzio Beachhead, AMERICAN FORCES IN ACTION SERIES (Washington, 1947), P- no. 
48 (1) Ltr, CmlO AFHQ to OCCWS, 11 Mar 44, sub: Smoke at Anzio Bridgehead. (2) Guild, 
"That Damned Smoke Again,” Infantry Journal (October, 1944). 338 
THE CHEMICAL WARFARE SERVICE 
SMOKE AT ANZIO 
18 March 1944 
Allied front 
Smoke generators 
Smoke pot line 
Observation post 
High ground above ioo meters 
MAP 4 
H.C. Brewer, Jr. 
After a period of trial, error, and compromise the smoke line was 
established just beyond the antiaircraft positions of the port and just 
short of the field artillery observation posts. The line was divided into 
four sections with generators spaced at 1,000-yard intervals. Smoke 
positions were connected by telephones, and each section had radio 
communication with the command post. The amount of smoke needed 
was determined by an observation tower in Nettuno, abetted at times 
by liaison planes borrowed from the artillery. Each hour an Air Forces LARGE AREA SMOKE SCREENS IN THE MTO 
339 
meteorology section provided weather data. Operations began one-half 
hour before dawn and ended one-half hour after sunset.49 
The result was a light haze which, regardless of wind direction, 
denied observation to the enemy without restricting movement within 
the beachhead. Under concealment of this haze trucks were driven 
off LST’s (landing ships, tank) onto the beach, unloaded, and returned 
to the ships unmolested. This was a particularly important operation 
as the Allied troops at Anzio received an average of 3,500 tons of 
supplies a day for the 6 months after the January landings.!1° 
Radio interception disclosed that German artillery was on the alert 
during daylight hours to take advantage of sudden wind changes which 
afforded brief views through the screen. Objections to the daylight 
screen which commanders had raised during the planning stage dis- 
appeared after the smoke operation began. Allied artillery units even 
requested and obtained additional daylight screening to hide the flash 
of guns, thus inaugurating a new mission for smoke generators.51 
Another unusual mission of the 179th was in the interest of health. 
Generators, run at a reduced temperature for fifteen minutes during 
the morning and evening, spread a thin film of oil over the area. This 
oil film settled on the water and killed the larvae of the malarial mos- 
quito, long a menace in the area.'2 
Soldiers going ashore at Anzio sometimes did not realize that smoke 
was being used. Lt. Raymond C. Stillger, who landed with the 34th 
Infantry Division three days after the daylight screening began, thought 
that the haze was a result of either a natural morning mist or smoke 
and dust from the battlefield. He noted that the mountain ranges were 
not visible from the harbor and that the artillery fire which dropped 
offshore was ineffective. When his unit moved forward, Stillger saw 
that the haze rarely drifted to within a mile of his position, usually 
remaining well to the rear. This was good; the infantry did not want 
the smoke to its front lest the Germans counterattack under cover of 
the screen. During the two months which Stillger spent in the line, it 
49 (1) Guild, "That Damned Smoke Again,” Infantry Journal (October, 1944). (2) 1 Smoke 
Generator Co, Opnl Memo No. 1, 1 Aug 44, sub: Method and Lessons Learned on the Anzio Beachhead. 
(3) Interv, Hist Off with Capt Morris W. Lofton, 13 Mar 46. (Captain Lofton, the author of the 
operational memo, served as operations officer of the 179th at Anzio.) 
“Logistical History of NATOUSA-MTOUSA, 30 Nov 45, p. 106. Beach gradients at Anzio per- 
mitted this ship-to-shore unloading. 
51 Ltr, CmlO Fifth Army to CCWS, 14 Apr 44, sub: Status of Cml Units in the Fifth Army. 
Opnl Memo No. 1, 179th Smoke Generator Co. 340 
THE CHEMICAL WARFARE SERVICE 
was necessary to request a reduction of smoke in his sector on only 
two occasions. At the rear it was a different story. After fighting in 
the mountains of southern Italy, the average infantryman felt un- 
covered on the Anzio plain and welcomed the concealment of smoke 
haze.53 
While the large area screen at Anzio was not as decisive as some com- 
mentators would have one believe—"It [the mechanical smoke gen- 
erator] probably saved the Anzio beachhead. . . .”—54 its value was 
nonetheless considerable. General Truscott commented on the effec- 
tiveness of the smoke, which was used extensively "to limit German 
observation and reduce the effectiveness of their artillery fires.”55 
German sources after the war testified to the effectiveness of the "well 
prepared and conducted” screening operations at Anzio which ob- 
structed observation and interfered with defensive and direct fire.56 
Perhaps the situation was best summed up in the observations of Bill 
Mauldin’s incomparable Willie and Joe. 
The Invasion of Southern France 
With the successful completion of the Sicilian operation in the sum- 
mer of 1943 the Seventh U.S. Army became nonoperational, its head- 
quarters reduced to caretaker status.07 Then in January 1944 Allied 
Force Headquarters directed it to form a planning group for an oper- 
ation against southern France to be mounted sometime in the following 
May. After considerable debate at the highest echelons Dragoon 
(it was first called Anvil) was given a definite time, place, and 
implementing force. These were 15 August 1944, a series of beaches 
east of Toulon, and Seventh Army’s VI Corps.58 The corps got three 
experienced infantry divisions for the operation, the 3d, 45th, and 36th. 
Because of the mountains bordering the narrow beaches of the as- 
sault areas, the enemy could have excellent observation of the landing 
53 Interv, Hist Off with Capt Raymond C. Stillger, 29 Nov 50. 
54 Baxter, Scientists Against Time, p. 287. 
55 Lt. Gen. Lucian K. Truscott, Jr., Command Missions: A Personal Story (New York; E. P. Dutton, 
1954), p. 457. 
50 Herman Ochsner (formerly a major general in the German Army), CmlC Hist Study No. 2, 
History of German Cml Warfare in World War II, pt. I, The Military Aspect, p. 30. 
57 For a complete account of the invasion of southern France, see Robert Ross Smith, The Riviera to 
the Rhine, a volume in preparation for the series UNITED STATES ARMY IN WORLD WAR II. 
5X Report of Operations—The Seventh United States Army in France and Germany, 1944-1945 (here- 
after cited as Seventh Army Opns in ETO) (Heidelberg, Germany: Heidelberg Gutenberg Printing Co., 
May 1946), I, chs. I-V, 1-115. “My God! There we wuz an’ here they wuz.” 342 
THE CHEMICAL WARFARE SERVICE 
force. Cognizant of the terrain and with the experience of Salerno and 
Anzio behind it, the Navy was eager to screen the assault force and 
anchorage from artillery fire and bomber aircraft. Its smoke plan, 
drawn up to provide concealment for beach and bay, was quite com- 
plete. Each Navy and merchant vessel had several means of producing 
smoke—with smoke pots, liquid smoke, and fog oil for the Besler 
generators furnished by Seventh Army’s Chemical Section.59 CWS 
troops attached to the assault divisions were prepared to land at IT- 
hour, screen the flanks of the several beachheads, and be ready to 
conceal the assault boats in case of offshore winds. Once the landings 
were secure these CWS parties, under control of the engineer shore 
groups, would be ready to shield supply dumps and anchorage from 
air attack.60 
The smoke troops again were to come from a chemical decontamina- 
tion company, this time the 21st. On 25 March 1944 the unit’s 2d 
Platoon moved from Palermo to a beach near Oran, where it was at- 
tached to the 40th Engineer Combat Regiment to prepare for the 
invasion. Practice in assault landings and in the erection of beachhead 
smoke lines constituted the bulk of this unit’s training. In turn, the 
Engineers gained the experience of working in a haze limiting visibility 
to fifty yards. By June the platoon rejoined the 21st in Italy where it 
passed on its recently acquired amphibious experience to its three 
sister platoons.61 
During the last weeks of July and the first week of August the three 
divisions which were to make the assault and their supporting troops 
underwent brief but effective practice for the appointed task.62 The 
culminating point was a full dress exercise in which the conditions 
expected on the beaches of southern France were realistically duplicated. 
Live ammunition, beach obstacles, and smoke screens helped to achieve 
authenticity.63 
69 Seventh Army Cml Sec, Hist Rpt, i Jan 44 to 31 Oct 44. A unique employment of the liquid 
smoke saw LCM’s (landing craft, mechanized) equipped with a contraption which forced the FS smoke 
through an ejection pipe where it was dispersed in a cloud by the blast of an airplane propeller. 
60 (1) Ibid. (2) Cml Annex to Field Order, 40th Engineer Combat Regt, 23 Jul 44 (included as 
an. 4 to the Seventh Army report.) 
81 Seventh Army Cml Sec Hist Rpt, 1 Jan—31 Oct 44, an. 199, in R. G. 207.3. 
82 Assignment of the platoons of the 21st Chemical Decontamination Company was as follows: the 
1st Platoon to the 36th Engineer Shore Group, 3d Division; the 2d to the 40th Engineer Shore Group, 
45th Division; and the 3d to the 540th Engineer Shore Group, 36th Division. The 4th Platoon was 
held in corps reserve, (i) Ibid. (2) Seventh Army Opns in ETO, III, 909—10. 
83 Seventh Army Opns in ETO, I, 71-89. LARGE AREA SMOKE SCREENS IN THE MTO 
343 
The i st Platoon, 21st Decontamination Company, received an extra 
amount of training because the 3d Division had detailed plans for the 
use of ground smoke during the initial phases. The additional work 
for the platoon, and for a detail of two officers and thirty enlisted men 
from the 3d Chemical Mortar Battalion which augmented the division’s 
smoke troops, was aimed at producing physical hardness, self-reliance, 
and proficiency in tactics of the infantryman. 
The 3d Division’s target area was the St. Tropez Peninsula. Eleva- 
tions here reached 1,000 to 1,500 feet, providing the defenders with 
excellent observation of the sea, the beaches, and the narrow strip of 
wooded dunes. The 3d Division’s assault areas on the peninsula, desig- 
nated Red Beach and Yellow Beach, were both flanked by capes, a 
situation which enhanced the possibilities of German observation and 
provided the motive for the flanking screens of the attacking force. 
But if the terrain was unpropitious, its defense was another matter. 
Intelligence sources indicated that the enemy would not defend the 
area too strongly because of commitments in northwest France. More- 
over, the rather skimpy fixed defenses of the area were manned by non- 
German and limited service troops.64 
Preceded by heavy naval and air bombardment the VI Corps landed 
on 15 August against light resistance. During the actual assault the 
Navy used smoke only in the 3d Division sector. Here smoke pots and 
generators in landing craft screened the flanks of the boat lanes and 
concealed incoming craft from enemy fire. Each of the four smoke 
details, two per beach, was to land at H-hour in an LCT. Training 
trials had demonstrated that under favorable conditions the detach- 
ments with their allotments of 1,200 Mi smoke pots could unload in 
about five minutes. It was hoped that the final stage of the trip to 
the beach would take place in specially buoyed medium tanks which 
were on the LCT’s. If this were not possible the pots were to be 
floated ashore in rubber boats, or, in an extreme case, the packing boxes 
M The account of smoke operations in the 3d Division sector is based on: (1) Ltr, CmlO 3d Div to 
CmlO Seventh Army, 20 Sep 44, sub: Ground Use of Smoke Pots, M1A1, During Opn Dragoon; (2) 
Ltr, ACmlO 3d Div to CmlO 3d Div, 18 Sep 44, sub: Use of Smoke on Red Beach for the Dragoon 
Opn; (3) Ltr, Platoon Leader, 2d Platoon, 21st Cml Decontamination Co to CO 21st Cml Decon- 
tamination Co, 16 Sep 44, sub: Platoon Opn; (4) Ltr, Platoon Leader, 1st Platoon, 21st Cml Decon- 
tamination Co to CO 21 st Cml Decontamination Co, 16 Sep 44, sub: Opns of 1st Platoon, 21st Cml 
Decontamination Co, 15-30 Aug 44; (5) 3d Cml Mortar Bn, Histories, Italy, 1-14 Aug 44, and 
Campaign of Southern France, 15-31 Aug 44. 344 
THE CHEMICAL WARFARE SERVICE 
with the pots enclosed could be tied in tandem and towed ashore by 
hand. 
The smoke detail on the left flank of Red Beach was led by Lt. 
Frank J. Thomas, commanding the ist Platoon, 21st Company. 
According to plan, four amphibious tanks carried the men across the 
beach to the railroad about 150 yards beyond. Fanning out to four 
positions at 100-yard intervals, the detail began operations within ten 
minutes of landing. The smoke line was gradually pushed inland to 
a road 250 yards from the beach. Until this time the smoke troops 
had not received enemy fire, but now mortar and small arms fire caused 
one casualty. No casualties were suffered in the heavily mined 
woods through which the smoke troops passed to reach the road. 
The detachment from the ist Platoon, which landed on the right 
flank of Red Beach, was led by Capt. Sam Kesner, assistant chemical 
officer of the 3d Division. For some reason the landing craft dropped 
its amphibious tanks some 1,000 yards from shore. Consequently, 
Kesner’s party, which remained in the LCT, had to unload its pots 
the hard way. Some were thrown into two 6-man rubber boats and 
towed to the beach. The rest of the smoke munitions were tossed over- 
board and floated ashore in their crates, an expedient made necessary 
by the pressure of enemy small arms fire. The situation was made more 
difficult because the LCT had landed 400 yards to the right of its 
assigned area in order to avoid mines. The smoke plan called for four 
positions on the beach, a number soon increased to twelve because of 
the adverse winds. The smoke detail soon pushed inland about 100 
yards, suffering four casualties in the early hours. 
The two smoke details in 3d Division’s Yellow Beach came from the 
3d Chemical Mortar Battalion. Each of the one officer-fifteen enlisted 
men details landed at H-hour, meeting conditions not unlike those 
found on Red Beach. Because of the offshore mines, the LCT carrying 
the right flank party beached south of the assigned area. The group 
worked northward into position using smoke grenades for concealment 
from small arms fire. Opposition was heavier near the center of the 
beach but the smoke screen helped to eliminate observation, with the 
result that enemy fire became erratic, ceasing about H plus 30 minutes. 
The total length of the two screens on Yellow Beach was 2,000 yards. 
Although the smoke mission for Dragoon was extremely well 
planned and executed there was still room for improvement. Captain LARGE AREA SMOKE SCREENS IN THE MTO 
345 
Kesner felt that the eggs should not have been placed in so few baskets— 
that a larger number of craft should have carried the members of the 
smoke details during the assault. In this way the sinking of any LCT 
would not have been an irreparable disaster. Maj. Albert L. Safine, 
Chemical Officer, 3d Division, suggested that in landings where enemy 
opposition would be substantial (resistance at Dragoon was weak) 
the smoke detail should land at H plus 30 and that the equipment 
include amphibious mounted generators. 
Smoke in Normal Forward Area Operations 
In the struggle for Italy it seemed that the dice were always loaded 
in favor of the defense. As a rule the German defenders controlled 
the high ground which typified the Italian terrain and thereby kept 
the Allies under excellent observation. Such a situation called for a 
considerable amount of smoke. 
There were several methods for laying smoke under such circum- 
stances. The firing of artillery smoke shells upon enemy observation 
points was an old technique, abetted by the introduction of the efficient 
4.2-inch mortar. The trouble in Italy was the abundance of observa- 
tion points, making the blanketing of all of them impracticable. 
Another method of preventing enemy observation was the somewhat 
difficult job of placing a curtain of smoke between the opposing forces. 
More feasible was the covering of friendly positions and movements 
by smoke, a technique obviously requiring emplaced rather than pro- 
jected smoke. Smoke pots were immediately available for this type 
of mission, although the harassing, if not toxic, nature of the HC 
filling hardly commended them for extensive or extended use. More 
often a combination of pots and shells was used. To illustrate, early 
on the morning of 13 October 1943, as VI Corps’ 3d and 34th Divisions 
attacked across the swift moving Volturno River, the 2d and 84th 
Chemical Mortar Battalions routinely fired smoke shells on enemy 
observation towers in the distant hills. More unusual was the detail 
from the 84th Battalion which manned smoke pots for the conceal- 
ment of bridging sites and exposed approaches. The mission was not 
uniformly successful. On the evening of 13 October, for example, 
smoke pots set off to conceal bridge building activities drew enemy 
artillery fire to the area, a circumstance which made construction im- 
possible. Even though smoke in some cases, particularly in inadequate 346 
THE CHEMICAL WARFARE SERVICE 
amounts, could thus be a mixed blessing, Company D, 84th Chemical 
Mortar Battalion, kept alerted a 100-man detail equipped with 1,000 
smoke pots to cover bridge sites.65 
Another example of a screen formed by pots and shells occurred in 
mid-January 1944. II Corps captured the high ground east of the 
Rapido River and began to move up troops and supplies in preparation 
for an assault crossing. Because the main supply route, Highway No. 6, 
passed through relatively level terrain, it was exposed for a considerable 
distance to observed artillery fire from enemy positions on the moun- 
tain heights beyond the Rapido.66 On 18 January troops from the 
headquarters of the 2d Chemical Mortar Battalion, under the super- 
vision of Colonel Burn, II Corps chemical officer, screened a section of 
the highway with M1 smoke pots. At noon this force was supplemented 
by three smoke pot stations manned by troops from one of the firing 
companies of the battalion. During that day more than 1,000 enemy 
shells fell into the screened area with practically no damage and little 
interruption of traffic. Although the smoke interfered with the ob- 
servation of American artillery, the corps commander considered the 
screen essential, and an entire company of the 3d Battalion went for- 
ward with 185 tons of smoke pots.67 
These two examples demonstrated the need that existed for conceal- 
ment in the forward areas in Italy and the immediate steps taken to 
adapt the smoke pot to the large area mission. These initial attempts, 
while generally successful, called attention to the possibilities of the 
use of the mechanical generator in similar situations—possibilities which 
were soon to be realized. 
Smoke on the Garigliano 
On 9 March the 88th Infantry Division relieved a British unit on 
Fifth Army’s extreme left. The sector included the area southeast of 
the town of Minturno where Highway No. 7 crossed the Garigliano 
not far from where the river emptied into the Tyrrhenian Sea. About 
6B (1) From the Volturno to the Winter Line, AMERICAN FORCES IN ACTION SERIES (Wash- 
ington, 1944), p. 48. (2) Co D 84th Cml Mortar Bn, Field Jnl, 10-17 Oct 43- (?) Memo, Barker 
for Hist Off, 4 Feb 47. (4) Interv, Hist Off with Capt Ernest H. Davis, former CO Co C 84th Cml 
Mortar Bn, 27 Jun 45. 
68 See Fifth Army at the Winter Line, AMERICAN FORCES IN ACTION SERIES (Washington, 
1945), illustration, p. 66. 
87 (1) 2d Cml Bn S-3, Jnl, Jan 44. (2) CWS TofO Ltr No. 11, 9 Mar 44, p. 15. (3) Fifth Army 
Cml Sec Daily Jnl, 19 Jan 44. (4) Co C 2d Cml Bn Jnl, 19 Jan 44. Effect of Smoke Curtain, Italy. Bridge site before screening (above). Same 
bridge after screening, with background obliterated (below). 348 
THE CHEMICAL WARFARE SERVICE 
Carrying Smoke Pots Into Position in the Rapido River Area 
live miles up the coast stood Mount Scouri which, with the hill masses 
above Minturno, provided the Germans with excellent observation of 
the road network in the valley. Particularly vulnerable was Highway 
7 along which passed all troops and supplies for the II Corps front. 
The British had used smoke pots around the river’s main bridge, a prac- 
tice continued by American troops. On 28 March the i/id Smoke 
Generator Company, recently freed from duty at Naples, undertook 
the large area smoke mission in this area.68 The new smoke installation 
also centered on the bridge. (Map 5) This vital point was encircled 
by a ring of 10 smoke pot positions having a 200-yard radius. The 
nucleus of the screen was a circle of mechanical generators 600 yards 
from the bridge. Just offshore, generators in small craft lent substance 
r,sThe account of the Garigliano screen is based on: (i) Fifth Army Cml Sec Rpt, n.d. (ca. April 
44), sub: Defensive Smoke in Current Fifth Army Opns; (2) Col. Maurice E. Barker, "Smoke for 
River Crossings,” Infantry Journal, LVIII, No. 1 (January, 1946), 37-41; (3) Interv, Hist Off with 
Maj Richard C. Burn, formerly CO i/ad Smoke Generator Co, 30 Jan 47. LARGE AREA SMOKE SCREENS IN THE MTO 
349 
SMOKE ALONG 
THE GARIGLIANO 
April 1944 
Contour Interval 50 meters 
Smoke area (approx) 
D. Holmes, Jr. 
MAP 5 
to the left flank of the screen, an expedient made necessary by the 
prevailing onshore winds. 
In an effort to nullify the effectiveness of enemy artillery each gen- 
erator had three prepared positions. Under cover of darkness the crews 
moved their generators from position to position always eschewing 
regularity and pattern in a generally successful attempt at hiding exact 
locations. The area between the river and the enemy lines was dotted 
with other pot and generator positions picked primarily to deny ob- 
servation between the bridge and Minturno. The most advanced of 350 
THE CHEMICAL WARFARE SERVICE 
these were within 500 yards of the enemy and about 200 yards beyond 
friendly infantry strongholds. Lesser installations concealed other 
bridges over the Garigliano and road junctions and portions of the high- 
way farther to the rear. From his post at Minturno a smoke control 
officer supervised the installation, regulating the emission of smoke so 
that a uniform haze was maintained during all daylight hours as well 
as during moonlight nights and nocturnal air raids. 
In this its first forward area mission the 172d Company quite nat- 
urally met with problems not found in rear area screening. For one 
thing, the unit worked in two shifts because of the necessity of a 
constant daytime screen as well as the possibility of operations at night. 
(Installations at the rear, it will be remembered, did not include smoke 
among their daytime antiaircraft defenses.) The problem of security 
was greater because of the danger of enemy patrols. Communications 
maintenance increased appreciably and the need for continuous fog oil 
resupply in an area both difficult and dangerous to reach involved 
problems unknown at the port screen at Naples. 
Large Area Screening in Northern Italy 
Stymied by swift German reaction to Operation Shingle (Anzio) 
on one hand, and by the strong Gustav Line on the other, the Fifth 
Army did not capture Rome until early June 1944. Later that summer, 
the much debated invasion of southern France became a reality and 
drew off in the process a large part of Fifth Army strength, in fact, 
the entire VI Corps. Six of the nine CWS companies capable of 
smoke operations were included in the departing force; remaining 
were the 17id and 179th Smoke Generator Companies and the 24th 
Chemical Decontamination Company, the latter experienced in smoke 
operations but soon diverted to chemical depot operations. As a result, 
the means to pursue a successful forward area smoke mission were 
seriously impaired, especially when the recently won ports of Civita- 
vecchia, Piombino, and Leghorn were requiring what were to be the 
last vestiges of port screening in the Italian campaign. By September 
the 17id and 179th were released from the Leghorn operation and 
placed in support of II and IV Corps, respectively, attachments which 
were to last until the end of the war. 
That same month saw the beginning of a concerted effort by the 
15 th Army Group to penetrate the Gothic Line to which the Axis LARGE AREA SMOKE SCREENS IN THE MTO 
351 
had withdrawn after the fall of Rome. The natural strength of this 
position, which crossed Italy between Florence and Bologna, combined 
with the weakened state of the Allied forces, resulted, after an initial 
Fifth Army penetration, in eventual stalemate. 
During the first month of the offensive the ijzd Company concealed 
bridge sites on the Sieve and Santerno Rivers. In each case, accurate 
German artillery fire became ineffective once smoke was employed.69 
The divisions in the II Corps sector at first made spectacular gains, 
reaching a point on Highway No. 65 above Livergnano within twelve 
miles of Bologna. Here the advance stopped, and there was to be 
little change in the front line until the following April. On the left 
shoulder of this penetration, strong German resistance denied Fifth 
Army Mount Adone and the hill mass at Monterumici, with the result- 
ant variation on a familiar theme—from these vantage points the en- 
emy retained direct observation of Highway No. 65, the main supply 
route for the section.70 
In partial answer to this threat on the supply route, the i/ad Smoke 
Generator Company maintained a smoke line from 16 October 1944 
until 14 April 1945. For 181 days, except when the weather made 
screening unnecessary or when II Corps for one reason or another 
needed perfect visibility in the area, the smoke haze concealed friendly 
movements along a 2-mile stretch of the highway. Periods of bright 
moonlight sometimes forced the xyid to operate on a 24-hour basis. 
Although the enemy was only about two miles away vehicles drove 
along the road without difficulty. The smoke was also of value to 
patrols and other troops moving across exposed areas. By reducing 
the danger and dread of observed fire the operation on Highway No. 
65—the longest continuous forward area smoke screen in World War 
II —was both a material and psychological aid. 
The 17 2d, with some outside help, performed another important 
mission while at Livergnano. From 25 January to 27 March 1945 a 
detachment from the company screened the road network in the 
Sillaro Valley which supplied both the U.S. II Corps and British 
Eighth Army sectors. The most vital part of this network was the 
69 See photographs on page 347, above. 
70 This section on operations in northern Italy is based on: (1) i/id and 179th Smoke Generator Co 
Journals; (2) Fifth Army Cml Sec Jnl, 25 Feb-j Mar 45; (3) Lt. Col. Houston Joyner, CWS, "They 
Couldn’t See Down Into the Valley,” Armed Forces Chemical Journal, III, No. 2 (October, 1948). 
289-149 0-68—24 352 
THE CHEMICAL WARFARE SERVICE 
Smoke Screen Conceals Movements Along Highway 
crossroads at San Clemente, the site of a smoke pot screen manned 
first by the 88 th Division and then by British troops, since the capture 
of the town in October. The undesirable characteristics of the HC 
pots led to a successful January trial of a smoke installation featuring 
the recently developed M2 mechanical generator. Captured enemy 
patrols admitted the effectiveness of this installation which concealed 
vehicular traffic, troop concentrations, supply dumps, and artillery 
positions of American and British forces. 
On the IV Corps front the 179th Company supported operations 
ranging from the Ligurian coast to the Serchio Valley and Highway 
No. 64. Because of the distance between these missions—in the IV 
Corps sector Highway 64 was over forty miles from the sea—the unit’s 
two platoons operated separately. The 1st Platoon, between Highway 
No. 1 and the sea, screened the coastal plain north of Viareggio. 
Detachments from the platoon were split off to fulfill other missions: 
screens for bridge sites and tank attacks and hazes for daylight patrols. LARGE AREA SMOKE SCREENS IN THE MTO 
353 
On 5 November, the 2d Platoon began a 102-day haze to cover an 
exposed stretch of Highway 64, as well as several supply installations, 
in the right sector of IV Corps. Just as in the case of Highway 6 5 
south of Bologna, before the haze daytime traffic on the road always 
drew fire. Afterward, the amount of enemy fire noticeably decreased, 
bridges were built and strengthened without interruption, and traffic 
passed with little interference. 
As World War II began, the large area screen was designed to 
conceal rear area installations. American and British smoke units and 
equipment in North Africa successfully demonstrated the validity of 
this mission and the adequacy of the smoke munitions. Once the scene 
of fighting shifted to the mainland of Italy doctrine for large area 
screens saw a drastic expansion. True, the old mission remained—as 
witness the smoke installation at the Naples complex, the largest of its 
kind of the war. But added to this was the use of smoke in assault 
landings and during the more conventional type of front-line oper- 
ations. The evolution of the front-line mission was dependent upon 
several factors. First was the peculiar nature of the terrain in Italy, 
where circumstances and geography conspired to have the Allied forces 
continually advance under the superior observation of the enemy and 
against his deadly fire. The second factor was the limitations of con- 
ventional front-line smoke munitions—artillery and mortar shells and 
the smoke pots. And last, the gradual diminution of the power of the 
Luftwaffe and the consequent lessening of the need for port screening 
released smoke units, never in abundance in Italy, for the fulfillment 
of the new mission. 
Forward area screening encountered the stiff and legitimate objec- 
tions of such diverse sources as the field artillery and the supporting 
naval units. The problem, of course, was observation. Smoke did 
contend with these effective and established elements, and CWS officers 
took great care to see that the nature of these smoke screens was com- 
plementing, not competing. CHAPTER IX 
Large Area Smoke Screens 
in the ETO 
The Invasion of Normandy 
Almost from the very beginning of their labors Allied planners for 
the cross-Channel attack contemplated the use of smoke for the beaches 
in France and the ports that were to be developed there. In 1942 the 
combined British-American planning organization included an anti- 
aircraft committee which, in turn, had a smoke subcommittee. The 
logistical computations for the British Haslar generator, the best model 
then available to the Allies, indicated such large requirements for oil 
as seriously to limit extensive use of the technique of large area screen- 
ing. Fortunately, at this time the National Defense Research Com- 
mittee brought out the Mi mechanical generator, news of which sent 
a mission hurrying from England to the United States. Colonel Mont- 
gomery, the American representative, reported that the new generator 
was five times as efficient as any existing smoke device. Substitution of 
the Mi for the Haslar enabled smoke planners to draw up oil require- 
ments which were far more reasonable.1 
The development of the new generator prompted attempts by CWS 
staff officers in England to get a smoke generator company for the 
theater. War Department inquiries about the requirements for such 
units got little response from the Eighth Air Force, which came to 
the conclusion that the advantages of airdrome concealment were 
equaled or outweighed by the interference of smoke with operations. 
But SOS authorities in the theater showed interest in smoke as a means 
of concealing supply installations and later included the ports in 
1 (1) Interv, Hist Off with Col MacArthur, 23 Nov 45. Mac Arthur participated in the smoke 
planning for the invasion, later becoming Chemical Officer, 12th Army Group. (2) Col Montgomery 
to CG ETO, 14 Oct 42, Rpt of American Representatives, British-American Large Area Smoke Mission 
to the U.S. CWS Ret 470.7-2815. LARGE AREA SMOKE SCREENS IN THE ETO 
355 
Great Britain through which flowed the build-up of troops and supplies 
from the United States. Diminishing German air raids reduced theater 
interest in this type of activity, although during mid-1943 planners 
envisioned the use of some twenty or twenty-four smoke companies 
to conceal continental ports once the invasion was under way.2 
With the return of General Eisenhower to London from the Medi- 
terranean area in January 1944, planning for the cross-Channel attack 
began to take final shape. The troop basis for U.S. smoke generator 
troops now totaled twelve companies, organized into three battalions. 
Although these were originally listed as SOS units with a primary 
mission of rear area screening, Colonel Mac Arthur, CWS representa- 
tive in the planning group, insisted that one smoke battalion be ear- 
marked for tactical employment with the combat forces.3 And it was 
to be in this role, rather than through their part in the concealment 
of rear areas, that smoke units were to make their most effective 
contribution. 
Brigadier G. H. Pennycock, director of chemical warfare for the 
British 21 Army Group, co-ordinated Allied smoke screening plans for 
the initial phase of the invasion. Colonel Goughian, FUSA chemical 
officer, was in turn responsible for the operational plans for American 
forces. One problem which had been troubling First Army, the diffi- 
culty of landing the heavy Mi generators on the Normandy beaches, 
was eliminated almost on the eve of the assault with the arrival of the 
Mi generator which had a dry weight of only 172 pounds. Smoke 
troops received the first Mi on 13 May, 7 more on 24 May, 50 on the 
28th, and 27 between that date and 3 June.4 
Final plans for the use of large area smoke screens during the cross- 
Channel attack provided for smoke over the ports of England from 
which the invasion would be mounted and smoke over Omaha and 
Utah beaches in Normandy. In both cases the screens would be used 
as a means of concealing activity from German aircraft. The companies 
of the 24th and 25 th Smoke Generator Battalions received the English 
port assignment; the 23d Battalion, commanded by Ft. Col. William 
M. Fiske and including the 79th, 80th, 84th, and 161st Smoke Gen- 
erator Companies, was earmarked for duty at Omaha Beach, but not 
2 Pritchard, Smoke Generator Opns in MTO and ETO, pp. 85—87. This monograph contains a 
detailed account of smoke planning and operations in the European theater. 
3 MacArthur Interv, 23 Nov 43. 
* 23d Cml Smoke Generator Bn Unit Diary, 18 Apr-3 Jun 43- 356 
THE CHEMICAL WARFARE SERVICE 
for the first three days of the operation. Chemical decontamination 
troops, scheduled to go ashore with the initial landings, were at first 
to use smoke pots and M2 generators to provide any necessary smoke. 
The 23d Battalion, with two companies on land and two on offshore 
trawlers, would assume responsibility for the antiaircraft smoke at 
Omaha Beach on D plus 3.5 
Once these general plans for smoke operations were completed, the 
units which were to take part could begin realistic training for their 
projected tasks. The 30th, 31st, and 33d Decontamination Companies 
received such training and were attached to engineer special brigades 
for the operation. The 79th and 80th Smoke Generator Companies, 
designated as the sea group of the 23d Battalion, had to become accus- 
tomed to working and living on trawlers. Their offshore employment 
also presented communications problems which had to be worked out 
by the battalion. In order to insure the necessary timing and co-ordi- 
nation the 23d was attached to the 49th Antiaircraft Artillery Brigade 
which had control of smoke although subject to the approval of the 
naval command and the veto of the tactical air command. 
The two smoke generator battalions assigned to the English ports 
naturally began operations before the actual day of the invasion. The 
25th, comprising the 85th, 86th, 165th, and 171st Smoke Generator 
Companies, furnished smoke in the Weymouth-Portland area. During 
the last part of May the Luftwaffe attacked the area three different 
times inflicting damage only during raids when the battalion was not 
ordered to make smoke. The 24th Battalion (81st, 8ad, 87th, and 
167th Smoke Generator Companies), part of which saw action in the 
vicinity of Brixham, made smoke on fewer occasions than did the 
25th.6 
The 33d Chemical Decontamination Company landed on Utah 
Beach on D-day with the multiple mission of decontamination recon- 
naissance, smoke, and CWS supply.' Although by that afternoon the 
unit was prepared to provide smoke on call from VII Corps, the 
German Air Force failed to appear in strength and the need for smoke 
never materialized. As a consequence, the 3 3d’s main mission became 
that of supply; the CWS dump maintained by the unit handled over 
5 Final area smoke plans for the invation appear on FUSA Rpt of Opns, 20 Oct 4}-i Aug 44, an. 17, 
Cml Warfare Sec. 
8 Pritchard, Smoke Generator Opns in MTO and ETO, pp. 93-94. 
7 For details of the invasion, see Harrison, Cross-Channel Attack. LARGE AREA SMOKE SCREENS IN THE ETO 
357 
5,000 tons of CWS Class II and IV supplies during the first three weeks 
on the beachhead,8 
Both the 30th and 31st Decontamination Companies saw action on 
Omaha Beach. The former’s 1st Platoon landed at H plus 16 minutes 
in the midst of the most rugged fighting of the invasion with the 
missions of decontamination, smoke, and supply. At first, the platoon 
fought along side the infantry using small arms and grenades and later, 
when the beachhead was secured, it aided in evacuating wounded and 
in clearing mine fields. During the afternoon the portable generators 
that had been lost in the surf at the time of the landings were retrieved 
and put into operating condition. As at Utah, there were no calls 
for smoke. The 1st Platoon suffered 25 percent casualties on D-day 
and was cited for outstanding performance of duty.9 At 1300 the 
3d Platoon landed on Omaha to be joined by the remainder of the 
30th Company on D plus 1. A 2 5-man detachment of the 31st 
Decontamination Company came ashore at H plus 7 hours on 6 June 
and was reunited with the rest of the company on the next day. In 
activities which followed the pattern set by the other decontamination 
companies, the men of the 31st performed a series of secondary duties 
in the absence of gas warfare and the need for smoke.10 
According to plan, the companies of the 23d Smoke Generator Bat- 
talion were to have assumed the smoke mission at Omaha on D plus 3. 
The land contingent of the battalion, the 84th and 161st Companies, 
arrived off the beach on the afternoon of D plus 2 and came ashore 
that evening. Both companies experienced a great deal of difficulty. 
Men and equipment became separated; some roads indicated on the 
map were nonexistent and others were heavily mined or subject to 
enemy fire. Fortunately, few German planes appeared over the area 
and smoke was not required.11 
The 79th and 80th Smoke Generator Companies, with their men and 
Mi smoke generators aboard thirty of His Majesty’s trawlers, on 9 
June arrived off Omaha Beach, where they served as the offshore 
element of the 23d Battalion smoke installation. But they received no 
requests for smoke. The great storm of 18-21 June wrecked some of 
8(i) 33d Cml Decontamination Co Hist Resume. CMLHO. (2) Pritchard, Smoke Generator 
Opns in MTO and ETO, p. 94. 
9 (1) WD GO 21, 30 Mar 43. (2) The 1st Platoon also received the French Croix de Guerre with 
Silver-Gilt Star. DA GO 24, 10 Dec 47. 
10 3 1 st Cml Decontamination Co, Hist Resume. 
11 23d Cml Smoke Generator Bn Unit Diary, June 44. 358 
THE CHEMICAL WARFARE SERVICE 
M2 Smoke Generator 
the trawlers and others returned to England for repair and refueling, 
never to return to Omaha. Some offshore smoke troops did provide 
screens at Port en Bessin where both British and Americans were bring- 
ing ashore fuel oil and lubricants. Here, in co-ordination with the 
British, the smoke trawlers stood ready to provide screens at twilight 
and during nocturnal red alerts as long as this important facility seemed 
threatened.12 
During the critical period while the Allies were fighting to secure a 
firm foothold in Normandy, the landing beaches were virtually free 
from bombing from the air, and the need for beachhead and port 
screening did not materialize. Equipped with Mi generators, the com- 
panies of one smoke battalion did take positions around Cherbourg and 
remained on the alert until mid-August, although the need for smoke 
never arose. Under circumstances such as these, smoke units received 
1J (i) 23d Cml Smoke Generator Bn Unit Diary, Jun-Jul 44. (2) 79th and 80th Smoke Generator 
Cos Unit Diaries, Jun 44. LARGE AREA SMOKE SCREENS IN THE ETO 
359 
unrelated secondary missions, mostly involving trucking duties. Con- 
sequently, when an opportune time did arise for using smoke in close 
support of tactical operations the companies were busy performing 
other tasks. 
The Generators, Units, and Missions 
The most influential factor in the development of the mission of 
forward area screening in the European theater was the appearance of 
the M2 mechanical smoke generator. This compact, efficient generator 
enabled chemical troops to establish effective smoke installations in those 
areas of the battlefield subject to enemy small arms fire. For example, 
the Mi could be emplaced on the near bank in an assault river crossing 
and ferried to the far side as soon as that area was cleared of enemy 
opposition. The Mi mechanical generator, as already mentioned, 
weighed only 172 pounds as compared to the ton and a half figure of 
the Mi. Employing the same principle as its predecessor, the Mi drew 
its fog oil from an external source, usually a 5 5-gallon drum, and was 
capable of producing smoke one minute after it started operation, 
whereas it took the Mi five minutes. The new model consumed about 
fifty gallons of fog oil in an hour compared to twice that amount for 
its predecessor.13 
A total of five smoke generator battalions saw action in the European 
Theater of Operations. The need for some organization for the admin- 
istration and control of several smoke generator companies became 
evident in Italy in connection with the complex Naples installation 
with its several smoke companies. Consequently, three battalion head- 
quarters and headquarters detachments, the 23d, 24th, and 25th, were 
organized just before the cross-Channel attack. Later the 2id Smoke 
Generator Battalion entered the theater as a supporting unit of Seventh 
Army, and the 27th Battalion, activated in the zone of interior in July 
1944, was placed in support of Ninth Army. 
The basic smoke unit was the smoke generator company, 15 of which 
saw action in the European theater. A smoke company consisted of a 
company headquarters, headquarters platoon, and operations platoon. 
The operations platoon comprised 4 sections, each section having 6 
squads. A company equipped with Mi’s had a total of 50 generators, 
13 For more on the development and characteristics of the several CWS mechanical smoke generators, 
see Brophy, Miles, and Cochrane, From Laboratory to Field. 360 
THE CHEMICAL WARFARE SERVICE 
2 per operations squad and 2 with company headquarters. Personnel 
of this smoke company numbered 4 officers and 131 enlisted men.14 
The same company with the identical number of troops would have 
been equipped with only 24 Mi generators, or one per operations squad. 
The mission which smoke units had originally considered their most 
important, the concealment of ports, never materialized in the Euro- 
pean Theater of Operations. Experience at the time of the cross- 
Channel attack indicated that the Luftwaffe was not strong enough 
to jeopardize these basic supply installations, and this situation did not 
change throughout the rest of the war. Seventh Army did maintain 
a rather extensive smoke installation at Marseille during the period 
September to November 1944, but at no time did the Luftwaffe seri- 
ously threaten the port.15 
The large area screening mission in the European theater did not 
undergo the slow transition from rear to forward areas that had 
marked the fighting in North Africa and Italy. The absence of any 
great threat by the enemy air force and the development of a mobile 
generator meant almost from the first that the smoke companies in the 
ETO would play their most significant role in the forward areas, 
that is, if they were to play a smoke role at all. Initially, when the 
German air threat failed to materialize, the smoke units found them- 
selves assigned to a series of secondary missions— transportation, guard, 
and security details. Early in the fall of 1944 only four of the twelve 
companies assigned to the theater were available for forward area 
smoke operations.16 While at times the assignment of smoke companies 
to other missions was understandable in the absence of tactical situations 
which called for concealment, in other cases the transfer was not 
justified. The First Army, for example, could often have used smoke 
units in forward operations but refused to do so until the time of the 
Rhine crossings. 
But gradually smoke companies began fulfilling forward area mis- 
sions as the situation warranted. These could be of several kinds. 
Screens were used to conceal main supply routes. Seventh Army em- 
ployed smoke units in this manner as much as any other army in the 
14 TOE j-267, 4 May 44. 
16 (1) See Pritchard, Smoke Generator Opns in MTO and ETO, pp. 215-19. (2) Two U.S. smoke 
companies operated with the British at Antwerp for more than two months and smoked the Scheldt 
River and the approaches to the city. 
18 Ltr, CCmlO ETO COM2 to CCWS, 20 Sep 44, sub: Tactical Use of Smoke Generator Cos. CWS 
3 i4-7- LARGE AREA SMOKE SCREENS IN THE ETO 
361 
theater, perhaps because of its previous experience in Italy. Com- 
manders occasionally used smoke haze to cover the advance or with- 
drawal of troops or to cover a unit attacking a fortified position.17 
But there can be no doubt whatever that mechanical smoke generators 
played their most important role in the theater by concealing American 
troops as they crossed many of the rivers which had temporarily 
blocked the way to eventual victory. The first such operation took 
place early in September at the Moselle River. 
The Use of Smoke at River Crossings 
General Patton’s Third U.S. Army became operational on i August 
1944 and shortly thereafter began its rapid advance across France. By 
the end of August its forward units, outrunning their supplies of oil 
and gasoline, ground to a halt east of the Meuse. When the advance 
resumed early in September, Third Army faced an enemy with a 
second wind and rather good defensive positions behind the Moselle 
River. 
As long as the Third Army had been rolling forward it doubtless 
had been more concerned with fuel oil than fog oil. Its rapid advance 
of August left little room for the tactics of concealment, smoke or 
otherwise. Consequently, those smoke troops which had been assigned 
to Third Army had left their generators and turned to transportation 
duties on the supply line, whose tail extended clear back to the Nor- 
mandy beaches. 
On 6 September Patton’s XX Corps renewed the advance with the 
7th Armored Division in the van, its mission the seizure of crossing 
sites over the Moselle. The 5 th Infantry Division, following hard on 
the heels of the 7th, prepared to force a crossing if the armored attack 
failed. On 7 September the corps commander, Maj. Gen. Walton 
Walker, ordered the 5 th Division to pass through the 7th Armored 
and establish a bridgehead on the east bank of the Moselle at Dornot, 
six miles southeast of the fortress city of Metz. This initial attack 
across the Moselle proved abortive and two days later, 10 September, 
the 5th Division abandoned the precarious bridgehead. On the same 
1 For details of these operations, see Pritchard, Smoke Generator Opns in MTO and ETO. 362 
THE CHEMICAL WARFARE SERVICE 
day the 10th Infantry, 5 th Division, crossed the Moselle at Arnaville, 
three miles south of the site of the unsuccessful crossing.18 
The Arnaville Crossing 
The 84th Smoke Generator Company was hastily recalled from its 
transportation duties to support the Arnaville crossing. The excellence 
of German artillery and observation was such as to recommend the 
possibilities of smoke as a means of concealing the exposed crossing site. 
At this time the possibilities of the Mi generator were not widely 
known in Third Army; in fact large area smoke screens in tactical 
situations had evolved rather recently. This screen at the Arnaville 
assault and bridging sites was thus to provide new experiences for the 
various people involved—the infantry, the engineers, and the men of 
the smoke company.19 
At the site of the crossing in the narrow valley of the Moselle, a 
railroad, a canal, and the river roughly parallel each other in a 500-yard 
belt. A small stream, the Rupt de Mad, flows through the Arnaville 
gap, passes under the railroad and canal, and empties into the river. 
East of the river lay a strip of open land beyond which rose the hills 
which were occupied by the enemy. North-south roads on each side 
of the river mark the division between river flats and the beginning 
of the hills. On clear days the Germans had observation of the Arna- 
ville area from 5 or 6 miles down (north) the river and from 3 or 4 
miles up the valley. 
18 Two other volumes in the series U.S. ARMY IN WORLD WAR II provide additional material on 
this battle and on the campaign of which it was a part. Hugh M. Cole’s excellent The Lorraine Cam- 
paign (Washington, 1959) deals with Third Army Operations in Lorraine during the period September- 
Dccember 1944. In the volume Three Battles: Arnaville, Altuzzo, and Schmidt, by Charles B. Mac- 
Donald and Sidney T. Mathews (Washington, 1952), MacDonald gives a detailed and graphic account 
of the Arnaville crossings. Both can be profitable to a reader desiring further information on operations 
of Third Army in the Lorraine Campaign. For additional details on the use of smoke at Arnaville, see 
again Pritchard, Smoke Generator Operations in the MTO and ETO, pages 107—25, a work on which this 
present account relied heavily. 
10 Chief sources for this account are: (1) CO 84th Cml Smoke Generator Co, Opn Rpt, Vicinity 
Arnaville, France, 17 Sep 44; (2) CO 84th Cml Smoke Generator Co, Final Opns Rpt, Arnaville, 
France, 10-21 Sep 44; (3) Lt Col Levin B. Cottingham, Employ of a Smoke Generator Co in an 
Assault Crossing of the Moselle River, n.d. (ca. 21 Sep 44); (4) 12th Army Group Immediate Rpt 
No. 68, I, Use of Smoke in Crossing of the Moselle River, 28 Sep 44; (5) Intervs, Cottingham (for- 
merly CmlO 5th Inf Div), 1 Oct 45, 9 Oct 45, 19 Mar 46, 25 Sep 46; (6) Rpt of Lt Col William H. 
Greene (formerly CmlO XX Corps) on the smoking operations at Arnaville, France, 10 Sep 44, dated 
ii Nov 47, all in CMLHO; (7) TUSA AAR, I, 68-81; (8) 5th Inf Div G-3 AAR, Sep 44, 
Orgn Files, ETO; (9) 5th Division Historical Section, The Fifth Division in the ETO (Atlanta: Albert 
Love Enterprises, 1945). LARGE AREA SMOKE SCREENS IN THE ETO 
363 
Early on 9 September Col. Robert P. Bell, commanding the 10th 
Infantry, and a party went forward to examine the crossing site. 
Despite the presence of enemy mines they were able to select suitable 
approaches and found two footbridges over the canal. They also deter- 
mined that the river banks were suitable for the launching of assault 
boats and the erection of adequate bridges once the area was secured. 
In quest of surprise, the artillery plan stipulated that there would 
be no preparatory fire preceding the crossing. But smoke from the 
generators of the 84th Company was expected to conceal the crossing 
sites as dawn broke on the 10th. Lt. Col. Levin B. Cottingham, chemical 
officer of the 5 th Division, arranged for a meteorological study of the 
area as an aid to the smoke operations. He scanned the daily weather 
reports of the Air Forces and the local weather supplements of the 
division artillery. Arnaville residents verified that the prevailing winds 
were westerly and of low velocity. After a reconnaissance Cottingham 
and the commander of the 84th Smoke Generator Company decided 
on a line of generators behind Hill 303, some 2,300 yards west of the 
crossing site. (Map 6). They expected that the prevailing winds 
would carry the smoke from these positions over the crossing sites 
and over the flat areas on the far side of the river. Concealed from 
enemy air and ground operations, engineers could erect and maintain 
the necessary bridges in support of the operation. Generators were not 
placed at the crossing site at first because of the unlikelihood of wind 
change and because of the Sqth’s lack of experience under fire. Hill 
303 protected the generators from direct enemy artillery and small 
arms fire, an important consideration for smoke troops who, far from 
battle hardened, had been driving trucks across a quiet countryside 
only a few days before. One smoke observation post was established 
at the OP of the 10th Infantry’s Cannon Company on the crest of 
Hill 331, south of Arnaville. Another was located on Hill 303. Cot- 
tingham, the smoke control officer at the crossing site, used radio to 
keep in touch with the observation posts. The 1103d Engineer Combat 
Group, commanded by Lt. Col. George E. Walker, charged with the 
bridge building operation, had tactical control of the screen. 
Fog oil for the Mz generators was available at the Third Army depot 
at Troyes, 180 miles to the rear. Because the organic transportation of 
a smoke company was inadequate to cope with such lengthy supply 
lines, the division quartermaster lent the trucks for fetching the fog 364 
THE CHEMICAL WARFARE SERVICE 
SMOKE GENERATOR OPERATIONS 
10-15 September 1944 
Smoke generator position 
Observation post 
V 6 rooks 
MAP 6 
oil to a company supply area four miles to the rear of the forward 
dump behind Hill 303. Company vehicles hauled the oil drums the 
rest of the way. In addition to generator smoke, the 84th had a supply 
of Mi and M4 smoke pots to be used for patching gaps in generator 
smoke and for supplemental screening. 
The 84th moved into its positions during the night of 9—10 Sep- 
tember and was ready to produce smoke at dawn. Initially the company 
set up only twelve generators at Position 1, a number which could be 
increased or decreased as the situation demanded since the full comple- 
ment of fifty generators was available. 
At 0115 on 10 September troops of the 1st Battalion, 10th Infantry, 
began loading into the boats on the near bank of the Moselle. They LARGE AREA SMOKE SCREENS IN THE ETO 
365 
Smoke Screen Begins To Form on the Moselle River 
encountered scattered small arms fire immediately and machine gun 
and mortar fire as they advanced over the flat open terrain across the 
river, but the first German artillery fire did not fall until daybreak. 
By this time the 2d Battalion had also begun its crossing, assisted by 
the smoke of the Mi generators which opened up at 0600. Under this 
concealment the id Battalion completed its crossing, the wounded 
were evacuated from the far shore, and supplies and ammunition were 
sent across to the embattled troops. By 0800, after close fighting and 
heavy casualties, the two battalions had taken two hills. Suddenly at 
1000 the wind shifted, causing the screen to dissipate. Enemy artillery 
concentrated on the crossing site, now laid bare. 
Within an hour Colonel Cottingham and Lt. Frank W. Young, of 
the 84th Company, moved four generators down to the side of an 
abandoned railroad embankment (Position 1 on the map). Smoke 
pots helped conceal the generators as they began to build up a screen, 366 
THE CHEMICAL WARFARE SERVICE 
and by 1200 the crossing site was again covered by smoke. Shortly 
before noon Brig. Gen. Alan D. Warnock, assistant division com- 
mander, and Cottingham looked for the commanding officer of the 
84th Smoke Generator Company to tell him to keep the generators 
running continuously. 1st Lt. George R. Lamb, the company executive 
officer, was across the river reconnoitering for new emplacements, and 
Lieutenant Young continued to direct operations along the near bank. 
The company commander could not be found. At this point, Col. 
William H. Greene, XX Corps chemical officer, present to inspect the 
screening operation, joined Cottingham in a search for company per- 
sonnel. There were many barrels for fog oil at the dump west of 
Arnaville, but no sign of smoke generator troops. The two CWS 
officers eventually located a group under control of the 1st sergeant 
who, not without difficulty, organized details to move generators and 
fog oil to the crossing site. Without preparation for this type of oper- 
ation and without company leadership, a number of the smoke troops 
had to be urged to take up positions down by the river bank. Upon 
making his appearance in the late afternoon, the company commander 
was relieved and replaced by Lieutenant Lamb. 
The number of generator positions was soon increased in order that 
an effective screen might be maintained, regardless of the direction of 
the wind. Position 3 paralleled a short stretch of the Arnaville-Noveant 
road and was later augmented by a jeep-mounted generator which pa- 
trolled the road on the lookout for any gaps in the screen. That night 
eight generator crews crossed the Moselle with their equipment, dug 
in their generators, and were ready to start operations at Position 4 
at dawn of 11 September. The new smoke plan also included emergency 
Positions 5 and 6, located south of Arnaville, but these were never 
needed in the operation.20 
At daybreak on 11 September the 84th began smoking operations 
at Position 3 on the far bank of the river. For several hours activity 
at the bridgehead was essentially unmolested; enemy shelling had prac- 
tically ceased. The engineers had hauled several pieces of heavy equip- 
ment to the near bank and were about to begin bridge construction. 
Around 0900 an unidentified engineer, doubtlessly influenced by the 
absence of opposition and the interference of smoke with bridging 
20 It was also during the night of io-ii September that the smoke company tested the feasibility of a 
screen against artillery observation and air bombardment on moonlight nights, although the bridgehead 
was neither bombed or strafed during any night of the operation. LARGE AREA SMOKE SCREENS IN THE ETO 
367 
activities, ordered the smoke generators to shut down.21 As soon as 
the screen dissipated, hell broke loose on the bridge site. German artil- 
lery made direct hits on two pieces of heavy engineer equipment and 
killed or wounded several engineers. Cottingham ordered the screen 
re-established at once, and the engineers shifted their efforts 300 yards 
downstream inasmuch as the enemy had pinpointed the original bridge 
site. To avoid any future interference with smoking activity, the 
division commander assumed control at the bridge site, to be exercised 
by his chemical officer. 
The engineers rated the value of smoke at Arnaville less highly than 
did the participating chemical officers. After the war, Colonel Walker 
expressed the view that enemy fire on the crossing site was limited 
more by a shortage of ammunition than by American smoke.22 Un- 
doubtedly the enemy did suffer from a limited supply of ammunition 
and could not make lavish use of shells for missions of harassment and 
interdiction. But his interest in lucrative targets of opportunity, as 
evidenced by this experience on 1 o and 11 September, was enough to 
convince the 5 th Division that a smoke screen should be maintained. 
A 15-hour screen on 12 September was featured by the use of a jeep- 
mounted generator on the valley road east of the river. About noon 
engineers completed a treadway bridge at the north site but had to 
withdraw temporarily because of heavy shelling. The screen continued 
on 13 September although from time to time enemy fire made the 
location almost untenable. That day German guns inflicted four casu- 
alties and destroyed two generators of the 84th Company and two of 
its trucks. 
Again on the 14th enemy fire forced the engineers to evacuate the 
bridge site from time to time. Fluctuating winds frequently exposed 
generator emplacements to direct enemy observation, and the crews 
hurriedly moved their generators after such an exposure. Smoke pots 
hid upwind generators, filled gaps in the line, and maintained the screen 
while crews replaced or repaired generators. Enemy fire killed one 
man of the smoke company and wounded another. Late on the 14th, 
engineers completed the bridge at the south site making possible one- 
21 (i) Colonel Walker of the 1103d Engineer Combat Group was not the officer who gave the order. 
Three Battles, p. 740. (2) Some engineer accounts place the time of heavy shelling several hours 
earlier, but MacDonald in his Arnaville account, after a careful study of the after action reports, agrees 
that 0900, the time set by Cottingham, must have been the approximate hour. Ibid., p. 74. 
22 MacDonald in Three Battles, page 67, cites this opinion by Colonel Walker. 
289-149 0-68—25 368 
THE CHEMICAL WARFARE SERVICE 
way traffic across the Moselle. That day there was some decrease in 
enemy fire. On the 15 th the 5 th Division captured the dominating 
hill in the area, and German artillery fire further diminished with the 
advance of the infantry and armor. Thus the bridgehead was secured 
at a cost of 725 casualties in the 10th Infantry, 13 killed and 100 
wounded in the 1103d Engineer Combat Group, and 2 killed and 7 
wounded in the 84th Smoke Generator Company. 
Securing the bridgehead did not eliminate the need for smoke, for 
the Arnaville bridges, which became integral parts of the main supply 
route for succeeding operations of XX Corps, remained under German 
observation from Fort Driant and neighboring points in the vicinity 
of Metz. The 161st Smoke Generator Company, under the command 
of Capt. Charles D. Underwood, relieved the 84th on 21 September 
and maintained a screen at Arnaville until the 25 th, when XX Corps 
decided that smoke was no longer necessary. Enemy artillery promptly 
destroyed the treadway bridge and damaged the ponton structure, 
stopping all traffic. In response to an engineer request for the resump- 
tion of the screen a section of the 84th returned on the 29th and 
established "a very comforting smoke screen.” 23 Enemy guns at Fort 
Driant, with much of the Moselle Valley in range, continued to fire 
indiscriminately but failed to damage seriously the heavy ponton 
bridge.24 
The Lessons Learned at Arnaville 
The operation at Arnaville demonstrated for the first time in the 
European theater that smoke generators could give effective support 
to an opposed river crossing. The experience also served notice that 
certain improvements were desirable. 
Even before the operation began it was evident that a smoke company 
had enough organic vehicles for transporting fog oil and supplies from 
company dumps to forward positions, but too few 2/4-ton trucks 
to haul oil from the army supply point. The 5 th Division solved the 
problem of fetching oil from the army supply by augmenting the five 
company trucks with additional vehicles. This matter of limited or- 
ganic transportation and its effect on resupply remained a constant 
23 Col. William C. Hall, CE, "Harassing Fire,” The Field Artillery Journal, vol. 35, No. 2 (February, 
1945), PP- 68-69. 
24 TUSA AAR, vol. II, pt. Ill, p. LARGE AREA SMOKE SCREENS IN THE ETO 
369 
problem for smoke generator companies in the fighting in France and 
Germany.''’ The Arnaville experience also pointed out that definite 
plans had to be made to get generators and fog oil across the river at 
an early hour. This meant making an initial assignment of boats and 
rafts to the smoke company for that specific purpose, an assignment 
which quite possibly would have been made if a section of the 84th 
Chemical Smoke Generator Company had been a component part of 
the river crossing assault team. 
The operation focused attention on the need for definite control of 
area screening. Tactical control of the screen by the engineer unit 
responsible for the bridge appeared logical at first. But the action of 
the engineers in shutting down the screen in the course of the operation 
caused all elements to suffer and demonstrated that in certain tactical 
situations it was highly desirable to clear smoke interference complaints 
through division headquarters where a decision could best be made. 
In fact, in subsequent river crossing operations the 5 th Division kept 
control of the screen in the hands of the commanding general until 
his rear boundary had advanced beyond the bridge. If screening was 
still necessary, as it was at Arnaville, control reverted to the corps 
engineer unit charged with maintaining the bridge. 
One of the most important lessons learned at the Moselle was the 
fallacy of depending upon prevailing winds and the necessity of plan- 
ning for winds from any quarter. On 10 September the prevailing 
wind remained constant for the first four hours and then turned 
variable and remained so for several days. Five valleys converged near 
the vital point, and at times the smoke from generators only several 
hundred yards apart drifted in opposite directions. Matters were made 
worse by difficulties in the observation and adjustment of the Arnaville 
screen. Colonel Cottingham decided to experiment with aerial obser- 
vation because the hills which rose beyond the far bank were too 
insecurely held for the establishment of observation posts. Beginning 
on 14 September he made at least three flights daily: one at 0800, 
another at 1300 when convection currents began raising havoc with 
the screen, and the last at 1700 when the air temperature began 
dropping. Aerial observation revealed defects which could not be 
noticed from the ground, enabling the observer to anticipate the 
(1) Pritchard, Smoke Generator Opns in MTO and ETO, p. 119; (2) USFET Study 69, Smoke 
Generator Opns and Orgns, pp. 10-11. 370 
THE CHEMICAL WARFARE SERVICE 
effects of wind change. He could note smoke drift from fires in 
villages and streamers from artillery smoke shell and thus direct gen- 
erator shifts before the development of any serious gaps. Usually such 
a trip in a liaison plane, borrowed from the artillery, took about fifteen 
minutes, but on one trip conditions were so miserable that the necessary 
adjustments required almost two hours. 
Maintenance proved a problem despite the fact that a continuous 
screen required only a few generators operating simultaneously and 
that the average generator hours of operation in a day was only forty- 
four. Experience indicated that extra generators, strategically placed, 
obviated the need of shifting others when variations and veerings ap- 
peared in the wind or when a generator failed to operate. And as a 
rule three generators a day were replaced because of mechanical failures, 
burned-out coils for the most part. Consequently, before the end of 
the operation all forty-eight generators had to be employed. In 
subsequent operations, assignment to the division of mechanics from 
a chemical maintenance company brought about improvement in 
maintenance. 
The experience at Arnaville indicated the need for additional smoke 
generator operators. One man per generator sufficed for rear area 
screening but the conditions encountered in the front lines made two 
operators mandatory. The additional man enabled proper reliefs and 
insured that someone was available for relaying messages to the next 
position along the smoke line. In case of a casualty, one operator could 
administer first aid and keep the generator operating. And two men 
at a position were better for morale. 
Troops coming directly from the communications zone into a sector 
under enemy artillery and small arms fire had to make a rapid mental 
and emotional adjustment. A few men cracked under the strain, but 
the majority held up well. Nonetheless, this initial experience demon- 
strated that a smoke company should have combat training and a 
period of indoctrination before commitment to an assault crossing 
operation.26 
The 84th Chemical Smoke Generator Company began its Arnaville 
operations under the additional handicap of inefficient direction before 
its attachment to the 5 th Division. Both personal and organizational 
28 The 90th Division chemical officer reached the same conclusion about another smoke generator unit. 
See Ltr, CmlO 90th Div to CCmlO ETO, 20 Jan 45, sub: Opns of Smoke Generator Company in 
Support of River Crossing. CWS 3 14.7. LARGE AREA SMOKE SCREENS IN THE ETO 
371 
equipment were below standard, with a number of men lacking articles 
of clothing, rifle belts, helmets, and canteens. Some trailers had been 
left at the last bivouac before reaching the division. Training in the 
important areas of communications and map reading was below 
standard. All these factors, combined with the examples of poor lead- 
ership on the part of the company commander once the 84th was 
committed to action, contributed to make more difficult the company’s 
introduction to combat. A few shifts in leadership and the example 
set by officers and men who did respond to demands of the situation 
helped mold the unit into an efficient team. That the performance of 
the 84th improved is indicated by the fact that General Walker 
awarded Bronze Star medals to an officer and four enlisted men and 
by the statement of the 5 th Division Assistant Chief of Staff, G-3, 
after the operation, that "a Smoke Generator Company must be in- 
cluded in making a river crossing.27 
The Third Army Crossing of the Saar River 
After the successful campaign against Metz, which fell in late 
November 1944, XX Corps was ready to begin its advance into Ger- 
many.28 By 1 December the corps had reached the west bank of the 
Saar River and was preparing to establish bridgeheads on the east bank, 
in the face of the West Wall defenses of the enemy. Before reaching 
the West Wall, one of the most strongly fortified areas in Europe, 
Third Army would have to cross the open river flats, a tactical situation 
which could well call for a considerable use of smoke.29 
The XX Corps plan for the Saar operation called for assault cross- 
ings in the Dillingen-Saarlautern sector by the 90th and 95th Divisions 
while the 10th Armored Division feinted a crossing near Hilbringen. 
The 161st Smoke Generator Company, attached to the 10th Armored 
Division, was ordered to screen the vicinity of the partially destroyed 
Merzig bridge, which, for all the enemy could know, might already 
have been repaired for a crossing operation.30 Beginning on 4 December 
the 84th Smoke Generator Company screened both flanks of the 95 th 
"T 5 th Inf Div G-j AAR, Sep 44. Orgn Files, ETO. 
2S The Metz campaign involved assault crossings of the Moselle, Seilie, and Nied Rivers, all of which 
were effectively supported by the 84th and 161st Smoke Generator Companies. For a discussion of the 
use of smoke in these operations, see Pritchard, Smoke Generator Opns in the MTO and ETO. 
29 Elements of XII Corps crossed the Saar on the right of XX Corps. 
30 (1) TUSA AAR, II, pt. II, 9. (2) 10th Armored Div CWS Sec AAR, 1-3 1 Dec 44. 372 
THE CHEMICAL WARFARE SERVICE 
Division as it crossed the river in the vicinity of Saarlautern. The 
division also called for generator smoke on the captured bridge at 
Saarlautern and over the construction activities at Lisdorf.31 
The most extended screening missions of the Saar crossing were 
those in the Dillingen-Pachten area, several miles north of Saarlautern, 
in support of the 90th Division. These operations involved the 84th 
and 161st Smoke Generator Companies, and elements of the 81st 
Chemical Mortar Battalion. The infantry began crossing before dawn 
on 6 December, and smoke operations began at daybreak. Entrenched 
behind the West Wall on the far side of the Saar River, the Germans 
could observe all feasible crossing sites and the road nets leading to 
them. Artillery and mortar fire hit throughout the river area during 
the whole period of the operation, and in the early phase enemy small 
arms fire covered the crossing sites. The smoke troops at the ferry 
site were still within range of small arms fire as late as 10 December.32 
So heavy was hostile fire that for the sixteen days of the assault, engi- 
neers of the 90th Division were unable to erect a vehicular bridge and 
operated ferry traffic only with great difficulty. The variable winds 
which prevailed for the first six days tore gaps in the screen, so that 
mortar and artillery smoke shells had to be used as supplements.33 
On 19 December the 90th Division began to withdraw from the 
east bank as part of Third Army regroupment to oppose the German 
breakthrough in the Ardennes. This maneuver involved the movement 
of nine battalions of infantry and more than 100 vehicles through a 
restricted crossing site which was still within range of enemy artillery 
and which was serviced by only a single ferry, one foot-bridge, and a 
few assault boats. The 84th and 161st Smoke Generator Companies 
screened the withdrawal successfully and were among the last troops to 
return to the near bank. 
Screens for the crossing and withdrawal at the Saar resulted in 
expenditures of 151,000 gallons of fog oil and 8,500 HC smoke pots. 
The smoke line near Dillingen had extended for more than 2,000 yards 
81 (i) 84th Cml Smoke Generator Co, Summary of Smoke Opns in the ETO, 12 May 45. (2) For 
an account of the spectacular capture of this bridge by the 1st Battalion, 379th Infantry, see Cole, The 
Lorraine Campaign, pages 517—19. 
33 During these operations seven enlisted men of the 161st and one officer and three men of the 84th 
received a total of two Silver Star and nine Bronze Star medals for valor under fire. 
83 (1) 90th Inf Div, Rpt of Opns, Dec 44, pp. 7-26. Orgn Files, ETO. This report furnishes a 
detailed account of the difficulties of screening and bridging the Saar River at Dillingen during both the 
assault and the withdrawal phases. (2) Ltr, Div CmlO 90th Inf Div to CCmlO ETO, 20 Jan 45. (3) 
81st Cml Mortar Bn AAR, Dec 44. LARGE AREA SMOKE SCREENS IN THE ETO 
373 
and covered troops and vehicles moving up to, as well as across, the 
Saar River and had effectively concealed traffic along roads to Saar- 
lautern and other points. Enemy sources reported that U.S. "artificial 
fog” along the Saar interfered with German observation and diminished 
the effectiveness of his artillery fire.34 
Smoke Operations at the Roer 
As early as December 1944 Ninth Army was aware of the desirability 
of smoke support for its contemplated Roer River crossing, and it 
was at this time that it had secured the services of the 74th and 83d 
Smoke Generator Companies.30 These units, commanded respectively 
by Capt. George B. Warren, Jr. ,and Capt. Augustus H. Shaw, Jr., 
were attached to XIII and XIX Corps. Both companies underwent 
training for front-line operations since preparations in the zone of 
interior had been directed toward the rear area mission. The German 
counteroffensive in the Ardennes delayed the scheduled Roer crossing. 
During this interval Ninth Army held smoke demonstrations in the 
rear area of the 29th Division to acquaint infantry and engineer com- 
manders with the capabilities and limitations of the mechanical 
generator.36 
With the defeat of the Germans in the Ardennes, the Allies again 
focused their attention on the Rhine. But the immediate objective 
was to cross the Roer, and Ninth Army, flanked on the right by the 
First Army, was to launch an assault crossing of that river and advance 
northeast to join forces with the First Canadian Army, which was to 
drive southward along the Rhine and clear its west bank. The Ninth 
Army sector was a broad, flat region cut by the Roer and other streams 
which flow generally in a northward direction. Entrenched on the far 
bank the enemy had excellent observation of the western approaches 
to the river. He also was able to flood the Ninth Army sector by the 
controlled release of water from the dams up the valley. As a conse- 
quence, the 10 February target date for the crossing was postponed 
until 23 February when Ninth Army assaulted on a 2-corps front—the 
34 Interv, Hist Div ETOUSA with Maj Gen Kurt von Muehlen (former commander of Kampfgruppe 
Muehlen), Apr 46. MS $ A-972 in OCMH. 
33 These were the first smoke units assigned to the Ninth Army which became operational on 5 
September 1944. 
a! (1) 83d Cml Smoke Generator Co Opns Rpt, 19-30 Dec 44. (2) 29th Div AAR, Dec 44. 374 
THE CHEMICAL WARFARE SERVICE 
XIII on the left near Linnich and the XIX on the right in the vicinity 
of Jiilich. 
The 74th Smoke Generator Company supported the crossing of the 
84th Division in the XIII Corps sector. On the night of 22—23 Feb- 
ruary the 74th used smoke pots from 2000 to 0315 while engineer and 
infantry troops concentrated on the near bank; the assault began at 
the latter hour under concealment of smoke which drifted toward 
the far side. At first, the smoke company used only pots for fear that 
the noise and placement of the mechanical generators would disclose 
the position and intention of the infantry, separated from the enemy 
only by the Roer River. But after the crossing the 74th used both 
mechanical generators and pots in smoking the bridge sites. Each day 
it stood by prepared to smoke on call. Each night from 1700 to 0700 
hours it screened several bridges in the vicinity of Linnich from enemy 
aircraft. The 74th continued these missions until 3 March, first in 
support of the load Division and then while attached to the 19th 
Antiaircraft Artillery Group. The screening at Linnich was generally 
successful despite understandable complaints about the irritating effect 
of HC smoke and some interference with traffic and friendly artillery 
observation. The smoke materially aided bridging operations and, ac- 
cording to infantrymen of the 1st Battalion, 333d Infantry, effectively 
concealed the flash from their 60-mm. mortars.37 
While the Linnich assault was in progress, XIX Corps crossed the Roer 
upstream on a 2-division front, the 29th Division on the left at Jiilich 
and the 30th Division on the right in the Pier-Schophoven area. Corps 
assigned the 83d Smoke Generator Company (less one section) to the 
29th Division which in turn attached it to the 121st Engineer Combat 
Battalion. The smoke plan for the operation stipulated that Company 
A, 9 2d Chemical Mortar Battalion, use white phosphorus shells to 
supplement the generator smoke in the event of unfavorable winds. 
Screening began at 03 50, twenty minutes after the initial assault, along 
a 2-mile smoke line opposite Jiilich. Under cover of this smoke engi- 
neers worked with little hindrance by the enemy. A request by the divi- 
sion engineer that smoke be continued after daybreak to keep observed 
enemy fire away from the bridge sites was overruled by corps because 
37 (1) 74th Cml Smoke Generator Co Rpt of Smoke Generator Opns (5 Feb-3 Mar 45), 9 Mar 45. 
(2) Ltr, CO 27th Smoke Generator Bn to CmlO Ninth Army, 25 Feb 45, sub: Smoke Opns of the 74th 
Smoke Generator Co. (j) 84th Inf Div AAR, Feb 45, pp. 13-25. Orgn Files, ETO. LARGE AREA SMOKE SCREENS IN THE ETO 
375 
of interference with the observation of corps artillery.38 Shortly after 
the screen lifted hostile artillery fire destroyed one of the bridges under 
construction. It was the opinion of the division engineer that smoke 
might well have saved the bridge, and the XIX Corps staff was con- 
vinced that better smoke co-ordination was needed in future 
• QQ 
operations. 
Several miles upstream the 30th Division planned to cross the Roer 
River in the vicinity of Schophoven and Pier and drive north to the 
Cologne-Julich highway along which the enemy might launch a coun- 
terattack against the Jiilich bridgehead of the 29th Division. It ex- 
pected that the crossing would be difficult because of the swollen 
channels, the many pools of water from the recent floods, the spongy 
soil, and the lack of cover. In fact, during November Ninth Army 
had considered a crossing in that vicinity impracticable.40 
The infantry began the crossing by boat at 0330 23 February after 
a 4 5-minute artillery preparation reported to have been one of the 
heaviest concentrations of fire experienced in the European theater.41 
Along the 8,000-yard division front 246 artillery pieces, 35 mortars of 
the 92d Chemical Mortar Battalion, and 36 guns of the 823d Tank 
Destroyer Battalion participated in the preparation. The initial assault 
force encountered only light opposition. The 119th Infantry crossed 
at the north site, opposite Schophoven, while one battalion of the 
120th Infantry crossed to the south, opposite Pier. A mile of low, 
boggy ground and water separated the two sites. 
The smoke plan called for screens over both these sites, as well as 
over the area between them, during the twelve daylight hours of 23 
February. If conditions should prevent the effective screening of both 
bridge sites, the northern bridge was to have priority. The division 
commander maintained control of the use of smoke, while the division 
chemical officer supervised its operation. The critical observation posts 
of the enemy were in the towns on the far bank and along the low 
ridge of hills to the northeast. At first, only one section (twelve gen- 
88 (i) Ltr, Col John B. Cobb to Hist Off, 18 Jan 50. (2) Ltr, Col Charles H. Gerhardt to Hist 
Off, 9 Feb 51. Gerhardt, as a major general in command of the 29th Division during this operation, 
wanted the screen continued during daylight hours but was overruled by corps. 
39 (1) Cobb Ltr, 18 Jan 50. (2) Ltr, CmlO 29th Div to CmlO XIX Corps, 7 Mar 43, sub: Smoke 
Generator Opn in Roer River Crossing. CMLHO. (}) 83d Cml Smoke Generator Co, Notes on Roer 
River Screening, Koslar, Germany, 23 Feb 43, n.d. 
"'Robert L. Hewitt, Work Horse of the Western Front: The Story of the )o/h Infantry Division 
(Washington; Infantry Journal Press, 1946), pp. 212-13. 
41 Ibid., pp. 213-16. 3 76 
THE CHEMICAL WARFARE SERVICE 
erators and crews) of the 83d Smoke Generator Company was avail- 
able, supplemented by a detachment of seventeen infantrymen, several 
mechanics from the 57th Chemical Maintenance Company, and two 
men from the division chemical section. For several nights preceding 
the jump-off, smoke troops went forward and dug foxholes, established 
supply dumps, and prepared generator emplacements.42 
The smoke troops moved into position at 0245 on 23 February. The 
din of the heavy artillery preparation drowned the noise of movement 
and darkness hid the exact location of the bridging area. Smoking 
began at 0630. The generators provided good concealment at the 
northern site but unexpected winds at the south site tore gaps in the 
screen. The smoke line was extended to the southeast. In mid-morning 
engineers ceased construction on the south bridge because of accurate 
artillery fire, which was probably adjusted when gaps appeared in the 
screen. After one battalion crossed on boats and Alligators, the 120th 
Infantry transferred its effort to the northern site where the 119th, 
under effective smoke concealment, was crossing without much 
difficulty. 
Smoke concealed the northern crossing throughout the day. While 
engineers worked on a treadway bridge, infantrymen crossed a foot 
bridge and overran enemy positions on the east bank of the river. 
Maj. Gen. Leland S. Hobbs, commanding the 30th Division, ordered 
the screen continued during the coming night and the next day. The 
request for the night screen was prompted by the Luftwaffe which had 
been rather active during the previous two nights and which was using 
a number of jet-propelled planes. Another section of the smoke com- 
pany came from the 29th Division at Jiilich to help maintain the screen. 
During the night of 23—24 February the 30th Division extended the 
bridgehead to the northeast, capturing the towns of Hambach and 
Niederzier and eliminating enemy observation of bridge sites from the 
east. The northern bridge was opened to passage of armor at midnight. 
By dawn the wind was from the north and smoke troops established 
pot positions on the far bank along the western edge of the 
Krauthausen-Selgersdorf road. Troops and armor advancing over this 
route were exposed to observed fire from the woods beyond Hambach, 
so the smoke line was moved eastward across the road, 100 yards into the 
43 CmlO 30th Div Rpt on Roer River Smoke Screen, Schophoven, Germany, 23—24 Feb 45, n.d. This 
report covers in detail the planning and operational phases of screening for the 30th Division at the 
Roer crossing, and is the chief source for the discussion of that crossing. LARGE AREA SMOKE SCREENS IN THE ETO 
377 
fields. For the same reason, other smoke positions were established 
north of the Selgersdorf-Daubenrath road. Chemical troops captured 
four prisoners while setting up these final positions in an area infested 
with enemy mines. 
Division headquarters ordered smoke over both the northern and the 
southern bridges for the night of 24-25 February. But the supply of 
smoke pots was exhausted by about 1530 hours and the M2 generators 
were in need of repair after a long period of continuous operation. 
Moreover, the crews were fatigued from thirty-three hours of con- 
tinuous duty. Consequently, the decision to use smoke that night was 
canceled. By morning the 30th Division had driven the enemy beyond 
range of observation, and smoke was no longer necessary. 
Large area screening activities along the Roer contributed to the 
success of 30th Division operations in several ways. Smoke over the 
northern area enabled the engineers to start construction of a vehicular 
bridge five hours earlier than had been anticipated. The enemy never 
had an opportunity to deliver observed fire, a circumstance that enabled 
the 295 th Engineer Combat Battalion to maintain uninterrupted bridg- 
ing operations. In fact, there was not a single engineer casualty from 
enemy fire at the northern bridge. As a result of this building feat, the 
first armor moved across the Roer River at H plus 21, fifteen hours 
ahead of schedule.43 Another benefit of the screen was the concealment 
of infantry and armor units moving up to, across, and beyond the 
river, particularly those units in the vicinity of Sclgersdorf. In two 
instances the infantry called for extension of the smoke coverage near 
the front line. Captured prisoners stated that, while they believed the 
Roer offensive was imminent, the darkness at the time of the initial 
attack and the subsequent screening confused the Germans as to the 
exact location of the American effort. The plan for the Roer crossing 
had called for only twelve hours of smoke, but during operations 
screening continued without cessation for thirty-three hours. This 
extension was indicative of the effectiveness of the screen and the value 
which General Hobbs placed upon smoke.44 
First Army crossed the Roer on the right of Ninth Army. The VII 
Corps, on the left, crossed near Diiren and advanced northeastward 
43 Combat Observer XIX Corps to CG ETOUSA, 28 Feb 45, Observers Rpt No. 155 (Roer River 
Crossing). 
"(1) CmlO 30th Div Rpt on Roer River Smoke Screen, Schopboven, Germany, 23-24 Feb 45, n.d. 
(2) Hewitt, Work Horse of the Western Front, p. 221. 378 
THE CHEMICAL WARFARE SERVICE 
to protect the right flank of Ninth Army. The 104th and 8th Divisions 
spearheaded the corps attack. The other two corps of First Army, the 
III in the center and the V on the right, initially remained on the 
defensive but were prepared to advance on or after D plus 2.45 
Forward area screening developed slowly in the First Army. There 
was none during 1944, with the exception of an August operation at 
Mayenne, France, which shielded a bridge against enemy air bombard- 
ment. But the smoke tests that Col. Kenneth A. Cunin, army chemical 
officer, ran at Liege in late 1944 impressed at least one high ranking 
commander, Maj. Gen. J. Lawton Collins, commanding VII Corps. 
Collins and his engineer officer, Col. Mason Young, both saw great 
possibilities in using the mechanical smoke generator in assault river 
crossings and the general attempted to get some to support his corps’ 
assault of the Roer. Circumstances prevented the use of smoke gen- 
erators in the Roer crossing. Col. Jack A. Barnes, VII Corps chemical 
officer, had too little time to collect the equipment or to assemble 
suitable trained troops. In fact, the only trained smoke units were the 
79th and 80th Smoke Generator Companies and these, the First Army 
commander decided, could not be released from the secondary duties 
to which they had been assigned. Any screening operation would 
therefore have to depend upon the smoke pot and the white phosphorus 
shells of the chemical mortar. The plan for using smoke in the sector 
of the 104th Division was abandoned when its artillery commander 
objected to possible interference with observation.46 
The 8 th Division planned to cross south of Diiren with the 28 th 
Infantry on the right at Lendersdorf and the 13 th Infantry on the left. 
After the crossing, the 28th Infantry was to protect the corps right 
flank until III Corps entered the fight. The 13th Infantry did not 
plan to employ smoke at the crossing, but the 28 th Infantry made 
provisions for using HC pots to conceal the initial assault and the 
subsequent bridge construction. S/Sgt. Robert J. Cesari of the 80th 
Smoke Generator Company gave training in smoke tactics to the 
infantrymen of the reserve battalion who were to man the pots. On 
the eve of the attack Capt. Kirk J. Ruger, commanding the 80th, was 
attached to the division as smoke observer and adviser. Fie was espe- 
cially concerned with screens planned for the two bridges which were 
45 FUSA Rpt of Opns, i Aug 44-22 Feb 45, p. 160. 
48 Interv, Hist Off with Barnes, 27 Jun 50. Barnes believed that division objection to smoke would 
have been overruled had mechanical generators been available. LARGE AREA SMOKE SCREENS IN THE ETO 
379 
to be built by the 294th Engineer Combat Battalion in the vicinity 
of Lendersdorf.47 
The 28 th Infantry jumped off near Lendersdorf early on 23 Feb- 
ruary. The smoke from HC pots, the haze from shell fire, and the 
morning mist concealed the crossing site until shortly after 1000. 
During this phase the two bridge sites (Nos. 9 and 10) received sporadic 
and unobserved small arms and mortar fire. But at 1000 the west wind 
ceased, the screen lifted, and accurate enemy artillery fire began to 
come in on bridge site 10. Captain Ruger’s suggestion to have Company 
D, 87th Chemical Mortar Battalion, fire WP shells against enemy 
positions on the right flank across the river was ruled out for fear that 
friendly troops might be in the impact area. In the absence of wind 
the use of smoke pots would have been ineffective. 
There was also trouble at the bridge site No. 9, visited by Ruger in 
midafternoon. Engineers had suspended all activity on this treadway 
bridge because of the direct fire from an enemy self-propelled gun 
on the opposite bank, accompanied by small arms fire. The division’s 
assistant commander, Brig. Gen. Charles D. W. Canham, insisted that 
the bridge be started promptly, regardless of cost, and asked Ruger 
to recommend the use of smoke so as to conceal renewed attempts at 
construction. A light northwesterly wind had set in by this time and 
Ruger suggested a smoke installation through Lendersdorf augmented 
by floating pots which, because of the curve in the stream, would 
establish a semicircular smoke line around the crossing site. But in 
the meantime enemy fire had increased so much that all work was 
postponed at this site and concentrated on bridge No. 10. Company 
D, 87th Chemical Mortar Battalion, was then ordered to establish a 
smoke screen on the far bank where the Roer River intersected the 
III-VII Corps boundary. Sergeant Cesari had already set up a smoke 
line around bridge No. 10 and his smoke detail of ten men from the 
28th Infantry had placed the pots. The heavy fire, however, had 
scattered the detail and Cesari had to light the pots himself. The 
smoke drew additional fire, but the engineers were able to resume work 
on the footbridge. Chemical troops maintained HC and WP screens 
47 (1) id Ind, CmlO First Army to CmlO nth Army Group, 5 Apr 45, on Ltr, CO 80th Smoke 
Generator Co to CO 13d Smoke Generator Bn, 28 Feb 45, sub: Rpt on Smoke Opns 23d, 24th, 25th 
Feb, Roer River Assault and Crossing. CWS Unit Files, 23d SG Bn. CMLHO. (2) 23d Cml Smoke 
Generator Bn Unit Diary, 18-24 Feb 45- (3) 294th Engr Combat Bn AAR, 1-28 Feb. 43. Orgn 
Files, ETO. 380 
THE CHEMICAL WARFARE SERVICE 
from 1630 until darkness. That night the Luftwaffe bombed and 
strafed the bridge site while enemy artillery continued to fire into the 
area.48 Next morning the commanding officer, 28 th Infantry, on the 
advice of Captain Ruger, ordered Company D, 87th Chemical Mortar 
Battalion, to continue the screen on the high ground to the southeast. 
German artillery fire on the bridge sites lessened but did not cease. 
Obviously the enemy knew the location of the engineers. Later in the 
day jet fighters strafed the bridge sites, by now without smoke prob- 
ably because the pot supply was exhausted. That night enemy planes 
dropped flares and continued to bomb and strafe the area, damaging 
the bridge at site No. 9 and some engineer equipment. The air effort 
which continued until noon of the 25 th had as many as twenty planes 
over the area at one time.49 
Smoke was not effectively used to support the Roer crossing of the 
28 th Infantry. VII Corps correctly estimated during the planning 
stage that the enemy could seriously oppose any crossing in the 28 th 
Infantry sector for at least three days. The two bridge sites remained 
within mortar range of an enemy-held area on the right flank which 
was not engaged by American forces until 2 6 February, or three 
days after the 28th Infantry attack. Projected smoke could have been 
employed here profitably, as Captain Ruger suggested, if suitable co- 
ordination had existed. Under the prevailing northwest wind mechan- 
ical generators could have concealed the bridges effectively without 
seriously interfering with infantry or artillery operations. For the 
most part, the smoke would have drifted into enemy-held territory 
opposite III Corps. The area to be covered was too large to be effec- 
tively hidden by smoke pots. The 4.2-inch chemical mortars placed 
smoke on observation points to the southeast, but only after the enemy 
had ranged in on the bridges. And none of these screens could conceal 
the bridge sites from an attack. German artillery fire and bombing 
delayed the construction of the two bridges, so that they were not 
finished until more than forty-eight hours after the fighting began, and 
then at a cost of 23 wounded engineers.50 Smoke, if properly employed, 
undoubtedly would have reduced enemy observation and probably 
48 Interv, id Info and Hist Serv, First Army, with Ruger and Cesari, I Mar 45. 
49 (1) Ibid. (2) Ltr, CO 80th Cml Smoke Generator Co to CO 23d Cml Smoke Generator Bn, 
28 Feb 45, sub: Rpt on Smoke Opns, 23d, 24th, 25th Feb 45, Roer River Assault and Crossing. 
60 Part of the delay was due to the rapid current and high water. At other crossings of VII Corps, 
however, bridges were completed much sooner. Just a few miles down the Roer the 30th Division 
(Ninth Army) completed a vehicular bridge in twenty-one hours under the cover of smoke. LARGE AREA SMOKE SCREENS IN THE ETO 
381 
would have lessened the time required for construction and the number 
of engineer casualties suffered in the process.51 
The Use of Smoke at the Rhine River Crossings 
When the Allies terminated the Rhineland Campaign on 21 March 
1945 they found themselves, with one exception, poised along the west 
bank of the Rhine, ready for the final assault. The exception was the 
Remagen bridgehead in the First U.S. Army sector, where a combina- 
tion of fortuitous circumstances and aggressive action by the leaders 
and men of Combat Command B, 9th Armored Division, secured on 
7 March the only Rhine River bridge taken intact by the Allies. During 
the fourth week in March the Ninth, Third, and Seventh U.S. Armies 
successfully assaulted the Rhine. In each case, units of the four armies 
used smoke generator companies to conceal either their actual assault 
crossing or the crossing sites during the period of build-up. 
The unexpected capture of the Ludendorf railroad bridge on 7 
March and the rapid expansion of the bridgehead radically changed 
the First Army plans for the Rhine crossings. Under the new plan 
VII Corps would expand the Remagen bridgehead northward to the 
Sieg River. As army forces cleared the far bank of the Rhine, its 
engineers, under the concealment of smoke, would build bridges first 
at Rolandseck, then Konigswinter, then Bonn. Because of success at 
Remagen, conventional assault crossings in the VII Corps sector were 
unnecessary. Bridge sites might be subject to artillery and mortar 
fire but not to any serious amount of small arms fire.52 
The day after the capture of the Ludendorf bridge the engineers at 
the bridge site requested a smoke generator unit. When First Army 
replied that none was immediately available the engineers at Remagen 
had to depend upon whatever pots they could hurriedly gather. Finally, 
on 10 March, First Army relieved its smoke units from other duties 
and gave them five days to be ready for screening missions, whereupon 
the 79th and 80th Smoke Generator Companies retrieved their smoke 
B1 (i) Interv, Hist Off with Maj Martin F. Massoglia, formerly ExecO 238th Engr Bn, 2 Dec 49. 
(2) History of VII Corps During Opns in Belgium and Germany, 1-28 Feb 43. Orgn Files, ETO. 
(3) 294th Engr Combat Bn AAR 1-28 Feb 45. Orgn Files, ETO. (4) Ltr, CO 80th Cml Smoke 
Generator Co to CO 23d Cml Smoke Generator Bn, 28 Feb 45, sub: Rpt on Smoke Opns, 23d, 24th, 
25th Feb 45, Roer River Assault and Crossing. 
52 (1) 3d Ind, Deputy CCmlO ETO, 26 Apr 43 on Ltr, CmlO VII Corps to CmlO FUSA 7 Apr 43, 
sub: VII Corps Smoke Opns for Bridging the Rhine River. CMLHO. (2) History of VII Corps, 
1-3 1 Mar 43. Orgn Files, ETO. 382 
THE CHEMICAL WARFARE SERVICE 
equipment from its six months’ storage. On i 5 March the two units 
received march orders and, early next morning, the 79th departed for 
Remagen and the 80th Company headed for VII Corps in the vicinity 
of Rolandseck.56 
During the early phase of the Remagen operation the Germans held 
the high ground on the east bank with observation over the bridges 
and the approaches thereto. Artillery fire continually impeded, and 
at times halted, the movement of First Army troops through the area.54 
To provide for the increased traffic, III Corps engineers built two 
bridges which the enemy attempted to destroy by artillery and mortar 
fire, by bombing, and even by demolitions. Mechanical smoke gen- 
erators would have expedited the erection of the bridges, according 
to an engineer officer, but by 16 March, when the 79th Smoke Gen- 
erator Company (Capt. Morris W. Kane) arrived, the urgent need 
for smoke had ended. ’5 
The first VII Corps units passed through the Remagen bridgehead 
on 1 5 March and within two days they had cleared the area opposite 
Rolandseck. Engineers started bridging the Rhine at Rolandseck on 
the night of 16-17 March and at dawn the 80th Smoke Generator 
Company began concealing the bridge site. The next afternoon most 
of the company departed for another bridge site at Konigswinter 
although several squads remained at Rolandseck until 23 March. 
Meanwhile, the 79th Company had moved from Remagen to Konigs- 
winter and set up generators on the east bank of the Rhine. Smoke 
operations at this site, featured by the use of boat-mounted generators, 
also ended on 23 March.56 
An extensive First Army screening operation took place along the 
Rhine at the southern outskirts of Bonn. Under technical control of 
the 23d Smoke Generator Battalion, smoke was started at 0501, 21 
March, and continued without interruption for sixty-one hours. After 
63 (i) Armor School Research and Evaluation Div, Study: The Remagen Bridgehead, 7—17 Mar 43. 
CmlC School. (2) 23d Cml Smoke Generator Bn Unit Diary, 11-24 Mar 45. (3) Ltr, Cunin to 
Hist Off, 1 Feb 50. 
M Capt. John F. Hyde, CMP, "Armored Bridgehead Operation,” Armored Cavalry Journal, LVIII, 
No. 4 (July-August 1949). 37~38- 
65 (1) Massoglia Interv, 2 Dec 49. (2) 23d Cml Smoke Generator Bn Unit Diary, 10-24 Mar 45. 
56 (1) Ftr, CmlO VII Corps to CmlO FUSA, 7 Apr 45, sub: VII Corps Smoke Opn for Bridging the 
Rhine River. (2) 79th Cml Smoke Generator Co S—3 Rpt 51, Mehlem, Germany, 18—24 Mar 45, dated 
23 Mar 45. (3) 80th Cml Smoke Generator Co S-3 Rpt 30, Bonn, Germany, 18-24 Mar 45 > dated 
25 Mar 45. LARGE AREA SMOKE SCREENS IN THE ETO 
383 
23 March the smoke troops remained alerted for five days, ready to 
operate against bombers, but the threat never was to materialize. 
By 21 March the Third Army had reduced the Saar-Palatinate tri- 
angle, except for the mopping-up phase, and three of its corps had 
reached the Rhine. General Patton insisted that the enemy be given 
no chance to recover from the defeat in the Palatinate. Third Army 
planned to secure crossings over the Rhine River promptly and then 
advance to the northeast. The VIII Corps, on the left, would attack 
between Koblenz and Bingen and XII Corps was to cross the Rhine 
between Bingen and Worms. XX Corps, on the right flank, would 
continue mopping-up activities and then cross through the bridge- 
head of either VIII or XII Corps.57 
The XII Corps attached the 84th and 161st Smoke Generator Com- 
panies to the 5th and 90th Divisions, respectively, for the assault 
crossings. The i6zd Smoke Generator Company was to support the 
87th and 89th Divisions of VIII Corps operating north of Bingen. The 
81 st Company was trucking for XX Corps but would be available for 
smoke operations on short notice. With four smoke generator units on 
hand, the Third Army could not only use smoke at the crossings but 
could also lay deceptive screens. There was some thought of placing 
a large dummy screen at Mainz because the enemy apparently believed 
that an initial crossing attempt would be made at that point.58 
Previous Third Army smoke generator operations had emphasized 
concealment from artillery observation, as enemy aircraft had been 
relatively inactive. During February, for example, only thirty-two 
enemy planes were reported over the entire Third Army zone, and 
of these only two made attacks, both of them strafing.i,!) But as the 
Army approached the Rhine, enemy air activity increased. On 20 
March large numbers of German aircraft, including the new jet- 
propelled Mez6z, attempted to bomb bridges and strafe troops. On 
that date the Luftwaffe made a total of 314 sorties in the XII Corps 
zone alone.60 This increased enemy air activity, even though temporary, 
was a distinct threat to the Rhine bridging operations and suggested 
that the crossing sites be screened against air as well as against artillery 
observation. 
57TUSA AAR, I, 311-12. 
58 George S. Patton, Jr., War As I Knew It (Boston: Houghton, Mifflin Co, 1947), p. 266. 
69 TUSA AAR, I, 279. 
80 Ibid., I, 310. 
289-149 0-68—26 384 
THE CHEMICAL WARFARE SERVICE 
The 5 th Division made the first crossing of the Rhine for the Third 
Army on the night of 22-23 March in the Oppenheim-Nierstein area. 
Two regiments had already crossed when, at dawn, the 84th Smoke 
Generator Company provided smoke from both sides of the river. 
Each day thereafter the 84th established a heavy screen at dawn and 
dusk, the periods when the engineer bridges were most vulnerable from 
the air. During the night the 84th maintained a haze which could 
be readily thickened in case of attack. In daylight, fighter planes and 
AA guns fought off enemy aircraft. A number of the generator posi- 
tions along the near bank were atop a hill and the smoke, although 
blanketing the bridges from the air, was not dense enough on the 
ground to hinder traffic.01 Additional generators were mounted on 
Dukws, but were not needed. 
The importance of screening the Oppenheim-Nierstein area can be 
judged by the traffic which crossed the Rhine at that point. Five divi- 
sions, with supplies and supporting troops, passed over its three bridges 
between 23 and 27 March. And between 24 and 31 March, 60,000 
vehicles crossed in support of the XII Corps assault. The smoke screen 
which initially concealed this area was approximately two and a half 
miles long and three-quarters of a mile wide. None of the bridges 
sustained damage during the area’s four major air attacks.62 
For several days after the crossing at Oppenheim-Nierstein the in- 
creased activity of enemy aircraft necessitated the continuance of 
smoke generator operations. On 24 March, 138 enemy planes attacked 
bridges, installations, and troop concentrations in the XII Corps sector. 
During the next day the sorties increased to 231. Heavy enemy aircraft 
losses and the overrunning of many fighter fields by the Third Army’s 
advance soon reduced the threat posed by the Luftwaffe, and on 26 
March only three German planes appeared over the XII Corps.63 As a 
matter of precaution, smoke generator operations continued at Oppen- 
heim-Nierstein until 31 March. 
While the 5 th Division was crossing at Oppenheim, the 90th Division 
was cleaning up Mainz and threatening to cross the Rhine either there 
or to the north. In support of this feint the 161st Smoke Generator 
61 84th Cml Smoke Generator Co, Summary of Smoke Opns in the ETO, 12 May 45. 
“Brig Gen P. H. Timothy, The Rhine Crossing—Twelfth Army Group Engineer Operations (Here- 
after cited as The Rhine Crossing), (Ft Belvoir, Va., Jul 46), p. 38. 
63 TUSA AAR, I, j 15-17. Another factor in the sudden reduction of Luftwaffe activity may have 
been the shifting of enemy planes to the crossing sites of other Allied armies. LARGE AREA SMOKE SCREENS IN THE ETO 
385 
Company, on 23 March, made smoke at several points between Bingen 
and Mainz. On the same day the 90th Division swung south, crossed 
the Rhine at Nierstein, and assumed control of the southern portion of 
the 5th Division bridgehead, an action which obviated the need for 
smoking the Rhine between Mainz and Bingen. Two days later a de- 
tachment of the 161 st moved into Nierstein and extended the smoke 
line which the 84th Smoke Generator Company had already established 
there.64 By 26 March all major units of XII Corps were well beyond 
the Rhine and were attacking points along the Main River in the 
vicinity of Frankfurt. The 161st Smoke Generator Company then 
moved forward and screened the bridges. 
The divisions of VIII Corps crossed the Rhine between Bingen and 
Koblenz. The precise sites were Rhens and Boppard in the 87th 
Division sector, and Oberwesel, St. Goar, and Wellmich in the sector 
of the 89th Division. The i6zd Smoke Generator Company divided 
its generators and crews between the two divisions. The smoke plan 
at Boppard called for screens for the assault crossing of the 345th 
Infantry and for the ponton bridge building activities of the nozd 
Engineer Combat Group. The i6zd made the first smoke at Boppard 
on 25 March from 0620 to 0635, just before the 345th Infantry attack. 
The generators smoked again at 0650 and remained in operation until 
late that night. With a favorable wind, the cloud traveled across the 
river and filled the valley. That night the wind shifted from south- 
southeast to northeast and the 16zd, in order to conceal the bridge oper- 
ations, moved its generators across the river. The smoke crews con- 
tinued the screen throughout the next day, 26 March, under a steady 
rain of enemy artillery, mortar, and machine gun fire. The operation 
ended 26 March.60 
Meanwhile, on the night of 24 March one section of the i6zd set 
up a smoke screen in support of a deceptive move made by the 353d 
Infantry, 89th Division. The ruse was successful in that the enemy 
directed a large amount of artillery and small arms fire into the 
screened, but unoccupied area. The actual assault came early on 26 
March; smoke operations ceased after half an hour because of inter- 
"*TUSA AAR, I, 314-22; II, pt. 11, 15. 
Bo (1) i6id Cml Smoke Generator Co, Final Opn Rpt, Boppard, 24—27 March 45. (2) Smoke was 
not employed in the crossing of the 347th Infantry, 87th Division, at Rhens. 386 
THE CHEMICAL WARFARE SERVICE 
ference with forward observation. The crews of the 16id remained 
in position, until 28 March, in case the enemy shelled the bridge site.66 
The 16 id Smoke Generator Company also provided smoke for the 
assault of the 354th Infantry, 89th Division, opposite Wellmich, on 
the morning of 26 March from 0600 to 0630. Enemy artillery and 
small arms fire at the time of the successful crossing was heavy but 
unobserved.67 At the same time, the company set up five generator 
positions near Oberwesel for the crossing of the 355th Infantry, 89th 
Division, and smoked from 0550 to 1700 hours, 26 March, while two 
battalions crossed the river. The screen not only covered the crossing 
site but also denied observation to enemy forces located at Kaub, up- 
stream on the far side of the Rhine.68 The Luftwaffe was not as active 
against VIII Corps bridge sites as it was against those of XII Corps 
although artillery and small arms fire were heavier. But despite heavy 
initial resistance the 87th and 89th Divisions advanced rapidly to the 
east, and by 28 March the Rhine mission of 16 id Smoke Generator 
Company was over. 
The 8 1 st Smoke Generator Company supported XX Corps, which 
did not enter the picture until 27 March, when the 80th Division 
attacked across the Rhine and Main just southeast of Mainz and cleared 
the area around Kastel and at the junction of the two rivers. As soon 
as the infantry cleared the far bank, the smoke company screened the 
bridging operations, with half of the unit on either side of the river. 
Under smoke, the Third Army engineers built a 1,896-foot steel tread- 
way bridge, probably the longest floating tactical bridge of the war.69 
The 81 st continued to operate at Mainz until the evening of 1 April.70 
Early in March 1945 the 3d and 45th Divisions of Seventh Army 
began preparations for the Rhine crossings. These divisions and various 
supporting organizations converged on Luneville, France, to make use 
of the several lakes in the area for specialized training. Among the 
units supporting the 3d Division was the 540th Engineer Combat 
f’0 16zd Cml Smoke Generator Co Final Opn Rpt, St. Goar, 25-28 Mar 45. CMLHO. Col. James V. 
Montgomery, VIII Corps chemical officer, was killed during this operation. 
67 i6ad Cml Smoke Generator Co, Final Opn Rpt, Wellmich [Germany], 25-26 Mar 45. CMLHO. 
There were no bridging activities at Wellmich. 
68 (1) i6ad Cml Smoke Generator Co, Final Opn Rpt, Oberwesel [Germany], 25-27 Mar 45. 
CMLHO. There were no bridging operations at Oberwesel. (2) Timothy, The Rhine Crossing, p. 42. 
09 Timothy, The Rhine Crossing, p. 40. 
70TUSA AAR, I, 322; II, pt. 11, 15. LARGE AREA SMOKE SCREENS IN THE ETO 
387 
Group with the 69th Smoke Generator Company attached. Supporting 
troops of the 45 th Division included the 40th Engineer Combat Group 
and the 78 th Smoke Generator Company. These attachments were to 
carry through the entire period of the Rhine crossings so that trained 
and co-ordinated teams would be ready to support the assault.71 
Divisions of XV Corps led the Seventh Army assault across the 
Rhine. The initial crossings were to be made between Gernsheim and 
Ludwigshaven by the 45th Division on the left and the 3d Division 
on the right, the first crossing north, the second south of the city of 
Worms.72 All five companies of the 2 2d Smoke Generator Battalion 
received screening assignments for the assault crossing, the first time 
all had been committed to the same forward area operation. Battalion 
headquarters was relieved from all other duties on the eve of the 
crossing and placed under direct control of the Seventh Army chemical 
officer. Previously, the battalion commander had occasionally partici- 
pated in the Rhine crossing preparations, but generally his headquarters 
had performed other duties. As it turned out, the most important 
battalion function at the Rhine was logistical, the co-ordination of the 
supply of fog oil to the various smoke companies.73 
Early on 26 March, for a brief period just before as well as during 
the assault crossings, the 163d and 168th Smoke Generator Com- 
panies drew German attention from the actual sites by maintaining 
feint screens in the sectors of the 71st and 36th Divisions. Meanwhile, 
the 45th and 3d Divisions crossed the river in the Worms areas on 
2-regiment fronts. Enemy opposition to the 45 th Division petered out 
quickly and no smoke was needed although the 78th was in position. 
This was not the case with the 3d Division in its Ludwigshaven-Worms 
sector. Here initial resistance to the early morning attack was weak, 
but by 0400, an hour and a half after the assault began, hostile artillery 
pinned down all troops in the area, and engineer operations at the 
upstream crossing site stopped. One engineer company suffered fifty- 
four casualties. Although German artillery fire hit three smoke com- 
pany vehicles, the unit lost no men to enemy action. The intense 
71 (i) The same two smoke generator companies had attended an engineer school at La Yalbonne, 
near Lyon, during the previous October, with the mission of screening engineer river operations. (2) 
69th Cml Smoke Generator Co, History (May—Dec 44). (3) 78th Cml Smoke Generator Co, History, 
1 Oct-j 1 Oct 44, 12 Nov 44. Both in Orgn Files, ETO. (4) Seventh Army Cml Sec History, 
1 Jan-31 Oct 44. 
T2Seventh Army Opus in ETO, III, 741-45. 
73 Seventh Army Cml Sec History, Mar 45. 388 
THE CHEMICAL WARFARE SERVICE 
artillery fire did prevent a platoon trying to take over smoke pots 
in assault boats from reaching the west bank. Fortunately, the 
southwest winds eliminated the need for pots across the river. At 0700 
the 1 st Platoon, from positions in the near bank generated a fog oil 
screen between the enemy on Friesenheimer Island and the crossing 
site, a maneuver which effectively blocked German observation of 
troop and boat movement. At 1030 the 1st Platoon with six generators 
crossed the river in Dukws only to be pinned down for several hours 
by enemy fire with four generators still on the craft. The two that 
were gotten off maintained a haze between Sandhoffen and the crossing 
site which "greatly reduced the accuracy of enemy fire on the engineer 
operations.74 
The two assault battalions in the 30th Infantry sector completed 
their crossings by 0305, and the id Platoon, 69th Smoke Generator 
Company, set up a smoke pot line on the far bank two and a half 
hours later. Just before daylight smoke began to pour from the pots 
across the river and from mechanical generators on the near shore. 
The variant winds caused smoke to be needed on all sides. The smoke 
haze denied observation to German troops on an island in the river 
which held out until several hours after daylight. Because the infantry- 
men took over the storm boats which had been allotted to the smoke 
troops, their own being destroyed by enemy artillery, the supply of 
smoke pots and the crossing of the generators were both delayed. By 
0930 the smoke troops had four generators in operation across the river 
and half an hour later a wind shift to the southwest minimized the 
problem of smoke supply to the far bank.7'* 
During the day the commanding general, 3d Division, ordered that 
smoke be made over both sites on a 24-hour basis. After 27 March the 
Luftwaffe, not hostile artillery, became the greater threat. The 2d 
Platoon, 69th Smoke Generator Company, continued to smoke the 
ponton and tread way bridges, which the engineers built near Worms, 
until 31 March. The 1st Platoon concealed the heavy ferry site with 
smoke until 30 March then moved to Ludwigshaven and screened the 
7i (x) 2832c! Engr Combat Bn Opns Rpt, Mar 45. Orgn Files, ETO. (2) 69th Smoke Generator 
Co Opns Rpt No. }, 5-31 Mar 45. Except for the omission of meteorological information and data on 
expenditures, this is a model report. It outlines the general situation, the special training, the special 
organization of the company for the operation, the preliminary moves, the operations of both platoons, 
and includes a discussion, an evaluation, and overlays of the smoke lines. 
75 (1) 69th Smoke Generator Co Opns Rpt No. 3, 5-31 Mar 45. (2) 2833d Engr Combat Bn 
Journal, Mar 45. Orgn Files, ETO. LARGE AREA SMOKE SCREENS IN THE ETO 
389 
bridge which connected that city with Mannheim. The 78th Smoke 
Generator Company moved to Mannheim on 1 April and set up a 
smoke line around the bridge which was erected over the Neckar 
River, but smoke was not needed. CWS troops maintained both in- 
stallations until y April.76 
On the eve of the Rhine crossing the Ninth U.S. Army was still 
with the British 21 Army Group, an attachment which had taken 
place at the time of the German counteroffensive. On its left was the 
British Second Army with a boundary near Wesel; on its right, just 
upstream from Dusseldorf, was the First U.S. Army, holding the left 
sector of General Bradley’s 12th Army Group. Ninth Army designated 
its XVI Corps to make an assault crossing in the sector between Orsoy 
and Buderich. Initially, XIII and XIX Corps were to hold the west 
bank of the Rhine opposite the Ruhr, later to follow through the 
XVI Corps bridgehead. Chemical units available to XVI Corps for 
screening operations included the 27th Smoke Generator Battalion and 
the 74th and 83d Smoke Generator Companies. The 89th and 93d 
Chemical Mortar Battalions also were to contribute to the smoke 
mission. 
Ninth Army screening operations along the Rhine River were di- 
vided into two phases, those before the crossing and those in connec- 
tion with the assault. The purpose of smoke in the first phase was 
to conceal movement on the west bank and confuse the enemy as to 
Army intentions and crossing preparations. For eight days before 
the assault, smoke intermittently covered sixty-eight miles of the 
front north of Dusseldorf held jointly by British and American troops. 
The plan provided for "smoking” days and "nonsmoking” days, ac- 
cording to a schedule which was co-ordinated with air reconnaissance 
activities. In the Ninth Army sector the 74th and 83d Smoke Gen- 
erator Companies and provisional personnel performed these prelimi- 
nary missions with smoke pots, the mechanical generators being con- 
served for the main crossing effort. Enemy reaction to the employment 
of smoke during the first phase was varied. Prisoners stated that at 
first the Germans expected the assault after each smoke operation, 
but after continued feints they became confused as to Allied intentions. 
In some localities the Germans were extremely sensitive to smoke and 
76 (1) Ibid. (2) 69th Smoke Generator Co History, Mar 45. (3) XV Corps, AAR, Mar 45, pp. 
71ff. Orgn Files, ETO. (4) Memo, CO 226 Smoke Generator Bn to CmlO Seventh Army, 29 Mar 45. 
Orgn Files, ETO. (5) Cml Sec Seventh Army History, Mar 45. 390 
THE CHEMICAL WARFARE SERVICE 
replied promptly with inconsequential fire. A German radio broadcast 
boasted that an American attempt to cross the Rhine under smoke had 
been repulsed. On the whole, however, the enemy showed little 
reaction. A more important result of the smoke was expediting Allied 
troop and supply movements, particularly in the British and Canadian 
sectors where many dumps were located in exposed areas.77 
The XVI Corps plans for the Rhine operation called for a 2- 
division crossing in the vicinity of Wallach, Mehrum, and Milchplatz. 
Naval craft were available for the initial assault and the engineers were 
ready to bridge the Rhine, a task which they anticipated would be no 
more difficult than that of bridging the Roer River under flooded 
conditions. After the crossing, the Ninth Army was to drive eastward, 
contain the enemy in the Ruhr pocket to the south, and maintain 
contact with the British Second Army on the left. 
Smoke plans for the crossings provided for concealing the bridge 
sites for forty-eight continuous hours, if necessary. Under no cir- 
cumstances was smoke to interfere with the airdrop of the First 
Allied Airborne Army at Wesel, scheduled to begin at 1000 hours on 
the first day. Maj. Robert H. Kennedy, commanding the 27th Smoke 
Generator Battalion, supervised the activities of the two smoke gen- 
erator companies and operated the corps smoke control center. The 
artillery agreed to furnish liaison planes for observation of the screen. 
With the additional assistance from the artillery meteorological sections, 
the smoke control center would be advised of screening conditions any- 
where in the army area at any particular moment. Any complaints 
about the interference of smoke with operations were to be referred 
to the smoke control center, with the matter reconciled by the G-3. 
Elements of the 89th Chemical Mortar Battalion would screen the 
right flank of the corps sector, opposite Orsoy, along the Rhein-Herne 
Canal.'s The 83d Smoke Generator Company and two sections of the 
"This account is based upon: (i) Lt Col W. R. Sawyer, GSO i Rpt on Smoke Screens Carried 
Out by First Canadian Army (R) (printed in the field by i Canadian Mobile Printing Sec RCASC, 
15 Jul 4y), pp. 33—34; (2) 21 Army Group, Cml Warfare Liaison Ltrs, No. 8, 23 Mar 43, No. 9, 
24 Jul 43, CmlC School 461/2514; (3) Interv, Hist Off with Col Harold Walmsley (formerly 
CmlO Ninth Army) and Capt Joel B. Marangella (formerly IntellO Cml Sec Ninth Army), 14 Feb 47; 
(4) Ltr, CO 74th Cml Smoke Generator Co to CG Ninth Army, 23 Mar 45, sub: Rpt of Smoke Opns; 
(5) Ltr, CG 84th Div to CG XIII Corps, 7 Apr 45, sub: Smoke Opns; (6) Ltr, ACmlO toad Div to 
CmlO XIII Corps, 7 Apr 43, sub: AAR on Smoke Used on Rhine River, all in CMLHO; (7) Hewitt, 
Work Horse of the Western Front, pp. 234-38. 
7S (1) Interv, Hist Off with Lt Col Andrew M. Bishop, Lt Col Joseph C. Prentice, Capt Clyde H. 
Westbrook, Capt Ralph R. Wance, and Mr Charles E. Miller, 1 Mar 30. (2) For more information on 
chemical mortar smoke operations, see below, Ch. XII. LARGE AREA SMOKE SCREENS IN THE ETO 
391 
74th would conceal the crossing sites of the 30th Division near Wallach 
and Mehrum, while the other two sections of the 74th Smoke Generator 
Company were to smoke at Milchplatz for the 79th Division crossing. 
Generator positions, as far as practicable, were to take advantage of 
the protection afforded by the dike on the west bank. Where necessary, 
the smoke troops were to use pots over the low land between the dike 
and the river. The first smoke was to appear at dawn on 24 March.79 
The Ninth Army assault crossing of the Rhine River began on the 
night of 23-24 March. After heavy preparatory fire the initial waves 
of the 30th and 79th Divisions jumped off at 0200 and 0300 hours, 
respectively. Resistance was not serious and by daybreak thirteen bat- 
talions of infantry had crossed and secured four bridgeheads, several 
thousand yards deep. Within twenty-four hours the front lines had 
advanced approximately six miles beyond the Rhine.80 
At dawn, smoke from the generators along the dike line concealed 
the ferrying operations of the assault boats from enemy ground and 
air observation. Fear that the haze might drift over the Wesel airdrop 
area and impede paratroop operation proved groundless. In midmorn- 
ing the wind shifted from west to east, through south, and the smoke 
troops moved pots and generators across the river and screened from 
the far bank. Smoke continued on the first day until after dark. On 
25 and 26 March smoke covered the bridges in the 30th Division sector 
during the daylight hours. But at Milchplatz, in the sector of the 79th 
Division, the generators remained idle until enemy guns had ranged in 
on the bridge site.81 From 27 to 31 March the smoke troops operated 
only during the periods from 0500 to 0800 and from 1700 to 2000 
hours, when the bridges were most vulnerable to air attack. Enemy 
aircraft strafed the generator lines during the nights of 24, 25, and 26 
March, and artillery fire lasted through 24 and 25 March, but the 
smoke troops suffered only two casualties. The only damage to smoke 
equipment occurred during the movement of Alligators and tank 
destroyers during the hours of darkness of the initial assault. Smoke 
was not required after 3 1 March.82 
79 (i) Ltr, CmlO XVI Corps to CmlO Ninth Army, i Apr 45, sub: Smoke Opns—Flashpoint. 
Reproduced in Pritchard, Smoke Generator Opns in MTO and ETO, pp. 313-15. (2) Walmsley- 
Marangella Interv, 14 Feb 47. 
90 (1) Hewitt, Work Horse of the Western front, pp. 238-42. (2) 30th Inf Div G-3 After Battle 
Report, Mar 45, pp. 4-5. Orgn Files, ETO. 
81 Interv, Hist Off with Capt Warren (formerly CO, 74th Smoke Generator Co), 27 Jun 50. 
82 Ltr, CmlO XVI Corps to CmlO Ninth Army, 1 Apr 45, sub: Smoke Opns—Flashpoint. 392 
THE CHEMICAL WARFARE SERVICE 
Planned as a 48-hour operation, smoke actually was used at the 
Rhine crossings for a period of eight days. During the first two days of 
the crossing the frequent shifts of wind direction made screening 
difficult, especially at Milchplatz, although the concealment of crossing 
activities was generally effective.83 
Summary 
The outstanding mission of the chemical smoke generator company 
for all armies in the European theater was the concealment of bridge 
and river crossing sites. Next in importance was the screening of 
main supply routes. Only as the Allies approached the Rhine did the 
Luftwaffe become a threat to operations. There were no calls for 
smoke to hide the flash of friendly artillery, as had been the case in 
Italy. Occasionally, an area screen concealed a flank of an armored 
or infantry advance or withdrawal. 
Smoke generator companies generally operated as a unit, under the 
control of either the division or of the engineer unit charged with the 
bridging activities. When the need for area screening was anticipated, 
the division commander secured one or more smoke units from either 
corps or Army. Only in rare instances was the smoke generator kept 
available at regimental level, or lower, to be used as an instrument of 
opportunity. 
European experience in large area screening revealed several prin- 
ciples which govern successful smoke operations. First, adequate time 
should be allowed during the planning of any operation to insure thor- 
ough reconnaissance and supply. Second, the control of a screen should 
be in the hands of the commander of the highest echelon concerned. 
Smoke can be a two-edged sword, simultaneously harmful and bene- 
ficial. A high level arbiter is necessary to balance its benefits against 
its disadvantages and come up with a decision most likely to insure 
ultimate success. Third, a smoke plan should provide for a smoke 
installation which completely surrounds the vital area, a factor which 
requires the planned transfer of men and equipment to the far bank 
83 (1) Hewitt, Work Horse of the Western Front, pp. 238-42. (2) 30th Inf Div G-3 After Battle 
Report, Mar 45, pp. 13. (3) Lt. Col. John C. Dalrymple, “Engineer Combat Group in the Rhine River 
Crossing,” Military Review, XXVIII (August 1949), 5. (4) Ltr, CO 57th Cml Maintenance Co to 
CmlO Ninth Army, 29 Mar 45, sub: Maintenance of M2 Smoke Generators During Opns (Rhine 
River). CWS 314.7 Unit Files, 57th Cml Maint Co. LARGE AREA SMOKE SCREENS IN THE ETO 
393 
during the initial plan of a river crossing operation. And, finally, 
screening operations should begin before the enemy observes activity 
in the vital area and should cover considerably more territory than that 
area. 
American armies gradually applied these principles to their European 
smoke operations. At first, the divisions of Seventh Army were more 
adept in the technique because of their experience in Italy. But before 
long the Third Army units resorted to corps area screens even more 
often than those of Seventh Army. Of the four armies in the European 
theater only the First failed to employ area screening when the occasion 
seemed to demand it, due in large part to a policy which kept smoke 
units at other tasks from which they could not be quickly relieved. 
On the whole, American forces in Europe learned the technique and 
principles of forward area screening rather quickly, especially con- 
sidering the late development of the Mi generator which enhanced the 
possibilities of such employment. CHAPTER X 
Large Area Smoke Screens 
in the Pacific 
Large area smoke operations in the Pacific contrasted sharply with 
those in Italy, France, and Germany. By concealing rear area installa- 
tions and forward area operations, CWS smoke generators in Europe 
had performed a vital service. The few smoke units in the Pacific, on 
the other hand, were inactivated while still in the training stage. The 
role of smoke in the Pacific was restricted mainly by geography and 
by the decision which gave the war against Germany priority over 
the Japanese conflict. Geography was an especially limiting factor. 
It dictated that a good deal of the fighting in the Pacific would be 
done by the naval arm. The most effective use of smoke in the Pacific 
was in the form of anchorage screens maintained by the Navy to 
conceal the vulnerable vessels involved in the numerous island hopping 
campaigns so typical of the war against Japan. 
Early Attempts To Introduce Area Screening in SWPA 
In the early phases of the war in the Southwest Pacific Area com- 
manders who considered area screening as a means of concealing air- 
fields from enemy air attack ran up against several serious problems.1 
These included not only a lack of a suitable means for static screening 
and a shortage of smoke materials but also a scarcity in shipping, 
both within the immediate area and from the United States to SWPA. 
If smoke was to be used the means and material would have to be 
devised locally. 
When an industrial survey disclosed that large quantities of the FS 
smoke material could be produced in Australia, Colonel Copthorne, 
Chief Chemical Officer, USASOS SWPA, assigned the qad Chemical 
1 Ltr, CCmlO USASOS to CCWS, 16 Nov 42, sub: Tech and Intell Work. AGO CWS Ret 319.1/ 
3006. This letter reviews the background of the early requests for screening. LARGE AREA SMOKE SCREENS IN THE PACIFIC 
395 
Laboratory, then in Brisbane, the mission of developing both a large 
and a small smoke generator which could employ this chemical smoke. 
Tests in the summer of 1942 revealed deficiencies in the large model 
which was dropped entirely later in the year after word came that the 
newly developed mechanical smoke generator would soon be made 
available to the theater. The 4id Laboratory Company went on to 
develop a small smoke generator which was to see limited use in the 
theater. 
In January 1943 the Commanding General, USASOS SWPA, ap- 
proved a project for concealing an advanced base or port with smoke 
and requisitioned two smoke generator companies from the United 
States to carry out the project. The harbor at Port Moresby, New 
Guinea, was chosen as the site for the first smoke installation, although 
military authorities realized that another port might be more critical 
by the time the smoke units arrived. After an on-the-spot survey of 
Port Moresby, Colonel Copthorne recommended that some generators 
be mounted on barges or power boats to insure adequate smoke 
coverage.2 
In May 1943 the theater asked the Chief, CWS, to comment on its 
tentative plans for a smoke installation at Milne Bay, which, as had 
been foreseen, was now a more exposed harbor than Port Moresby. 
These plans, which included the employment of generators both on 
land and on water to conceal shipping activity in the harbor, suffered 
from a lack of power boats on which to mount the generators which 
were to be waterborne. The theater requested the War Department 
to send several craft suitable for this purpose along with the two smoke 
companies requisitioned earlier in the year.3 
In July SWPA pressed the War Department for the immediate ship- 
ment of the two smoke companies and speculated on the reduced re- 
quirement for smoke pots if three smoke generator battalions were 
assigned.4 People in the Southwest Pacific Area were also concerned 
with the possibility that the two companies, which by September had 
not yet arrived, would be equipped with the 3,000-pound Mi generator, 
instead of the new lightweight M2.5 Meanwhile, in response to the 
'Ltr, CCmlO USASOS to CCWS,jo Jan 43, sub: Rear Area Smoke Screens. CWS 314.7. 
3 Ltr, CCmlO USAFFE to CCWS, 21 Jul 43, sub: Smoke Generator Cos. AGO CWS Ret 320.2- 
USAF in the Far East. 
* (1) CM-IN 257, Brisbane to WAR, 1 Jul 43. (2) CM-IN 7666, Brisbane to WAR, 11 Jul 43. 
s CM-IN 1601, Brisbane to WAR, 3 Sep 43. 396 
THE CHEMICAL WARFARE SERVICE 
Smoke Generator in a Dukw on Milne Bay 
theater’s interest in large area screening, General Porter in August 
1943, sent Maj. Roy E. Halverson, a trained smoke officer, to the 
Southwest Pacific Area.6 Major Halverson made surveys at Milne Bay, 
Oro Bay, and Goodenough Island, concluding that the establishment 
of smoke installations at any of these locations would be a difficult 
proposition. He confirmed Colonel Copthorne’s view that the lack 
of road nets at advanced ports would entail heavy dependence upon 
water transportation. Not only were appropriate craft in short supply 
but the Mi smoke generator was rather bulky for this type of employ- 
ment. In fact, the successful screening of port facilities in the South- 
west Pacific seemed to require an amphibious smoke unit, a type that 
so far had not been foreseen by planners in Washington.7 
By mid-1943 the Japanese were raiding Goodenough Island regularly 
and Milne Bay, New Guinea, occasionally. The theater proceeded with 
its plans to station the two smoke generator units temporarily at 
Milne Bay where they could be adapted to island employment and 
°CWS USAFFE, Info Bull, No. 15, 24 Aug 43. 
7 (1) Interv, Hist Off with Morgan, former theater CWS liaison officer with the Australian Army, 
30 Jan 46. (2) Interv, Burke, former CmlO Base A, Milne Bay, New Guinea, 30 Jan 46. LARGE AREA SMOKE SCREENS IN THE PACIFIC 
397 
trained for more difficult operations at a more advanced port.8 But 
the 70th and 170th Smoke Generator Companies landed at Sydney, 
instead of Milne Bay. Shortage of shipping and the higher priority 
of other units precluded the immediate transshipment of these units to 
Milne Bay, and the two companies remained in Australia for almost 
two full months after their arrival in October 1943- As a result, smoke 
company training at Milne Bay did not begin until January 1944 and 
then only under the greatest difficulties. The base commander could 
not permit a considerable amount of smoke over the area because his 
installation was operating under pressure, day and night. Of even 
greater importance was the lack of craft on which to mount the smoke 
generators. Boats could be borrowed for short periods, but none could 
be assigned to the smoke troops. General Porter, Chief, CWS, arranged 
to ship four J boats which, shortly after arrival, were severely damaged 
by a storm. 
By April 1944 it was evident that smoke training operations would 
have to be shifted to a less active port. Chosen was Base E at Lae, on 
the northeastern coast of New Guinea, where ships anchored while 
awaiting a call to a more exposed port9 and, consequently, where 
practice screens would not interfere with normal port operations. 
Another advantage was the short distance to the air base at Nadzab, up 
the Markham River from Lae. The air base was an ideal place to test 
screening of air installations and a source of aircraft from which to 
observe the practice screens. The companies moved to their new loca- 
tion in mid-July and immediately experienced greater success with their 
training program. The road net facilitated land training, and boats 
were available for working out problems in the bay. In mid-August 
Headquarters and Headquarters Detachment, 26th Smoke Generator 
Battalion, under the command of Maj. Allen H. Williams, arrived 
from the United States and took charge of the two smoke companies.10 
A Question of Mission 
In June 1944 the commanding general, USASOS, recommended to 
General MacArthur the employment of smoke generator units during 
the early stages of an amphibious operation for screening supply dumps 
8 Burke Interv, 30 Jan 46. 
9 Interv, Hist Off with Lt Col Joseph S. Terrell, Jan 46. 
10 (1) Ibid. (2) Burke Interv, 30 Jan 46. 398 
THE CHEMICAL WARFARE SERVICE 
as well as for concealing ships engaged in unloading.11 He proposed that 
the 70th and 170th Smoke Generator Companies be equipped with 
suitable craft and trained to use the new lightweight Mi generators, 
then en route to the theater. General MacArthur agreed that the 
smoke troops could be profitably employed in future operations and 
suggested the transfer of the two companies to the Sixth Army for 
amphibious training under an engineer special brigade.12 
Col. Carl L. Marriott, Sixth Army chemical officer, opposed this 
suggestion, indicating that the USASOS recommendation was merely 
an admission that it had been unable to interest the 14th Antiaircraft 
Command in the value of the smoke units. Reasons given by Colonel 
Marriott for this lack of interest included inappropriate equipment, 
the fact that the Esso generators were too unwieldy, and the reputation 
of the two smoke companies at Milne Bay for "smashing up” their 
equipment.13 CWS officers at Milne Bay refuted this last argument, 
attributing damaged equipment to the work of the elements, not to 
careless maintenance.14 In arguing against the assignment of the two 
smoke companies to Sixth Army, Marriott also brought up the matter 
of control. In an assault landing these units initially would be con- 
trolled by the naval task force commander. On the other hand, 
smoke operations to conceal ships just off the beaches would have to 
be co-ordinated by a second agency, the one charged with the control 
of antiaircraft artillery and fighter aircraft. Marriott recommended 
that USAFFE should clarify the question of control and assign the 
smoke units to the 14th Antiaircraft Command, a troop unit not 
under Sixth Army.15 
Early in September 1944, and before any decision was reached on 
the control of the smoke units, a group of Sixth Army officers wit- 
nessed a smoke demonstration at Lae which featured the recently 
arrived M2 mechanical generator, smaller and more economical and 
efficient than its predecessor. Without exception, the officers were 
most enthusiastic about the capabilities of the new mechanical gen- 
11Ltr, CG USASOS to CG USAFFE, 4 Jun 44, sub: Assignment of Craft to Provisional Smoke Gen- 
erator Bn. Sixth Army, 470.7i-SG. 
12 1st Ind, CG USAFFE to CG Sixth Army, 11 Jul 44. 
13 Memo, CmlO Sixth Army for G-3 Sixth Army, 16 Jul 44. Sixth Army 470.71-SG. 
14 Ltr, Lt Col Joseph S. Terrell to Hist Off, 19 May 1950. 
15 Memo, CmlO Sixth Army for G-3 Sixth Army, 16 Jul 44. Sixth Army 470.71-SG. LARGE AREA SMOKE SCREENS IN THE PACIFIC 
3 99 
erator and requested that every effort be made to obtain smoke com- 
panies for Sixth Army to be used on beachheads and airstrips.16 
It seems that the final decision regarding the assignment of the CWS 
smoke companies pleased no one. The two companies were not assigned 
to the Sixth Army, nor to an antiaircraft artillery command, as recom- 
mended by Colonel Marriott. In October the commander of the USA 
Services of Supply, Southwest Pacific Area, unaccountably ordered 
that the 70th and 170th Chemical Smoke Generator Companies be 
inactivated and that the personnel so released be used to activate two 
quartermaster truck companies.1' This decision marked the end of 
efforts to prepare the two units for combat and prompted Navy officers 
to question the wisdom of eliminating the smoke units in face of the 
increasing need for smoke in beach operations.18 
The officers and men of the headquarters of the recently arrived 
smoke generator battalion received assignments with the chemical 
warfare school at Oro Bay. There they taught and prepared studies 
for the employment of smoke in future operations. The new light- 
weight Mi generators, which arrived in the theater in August, were 
turned over to the Navy along with the supply of fog oil and most 
of the floating smoke pots.19 
Renewed Interest in Smoke 
The smoke companies had hardly been inactivated before ground 
commanders in the area began inquiring about their availability. The 
XI Corps, for example, became interested in smoke after learning of 
the successful employment of the mechanical generator at Anzio.20 
Chemical officers at the CWS conference at Oro Bay wanted to know 
how long it would take to train combat troops in the use of the light- 
weight Mi generator for forward area operations. At this time, Oc- 
tober 1944, about 100 of these generators were in or en route to the 
theater.21 A month later Lt. Col. David D. Hulsey, Chemical Officer, 
38 Interv, Hist Off with Lt Col Allen H. Williams, formerly CO 26th Smoke Generator Bn, 5 Jun 50. 
17 (1) Ltr, Secy War to CINCSWPA, 16 Oct 44, sub: Disbandment, Constitution and Activation of 
Certain Units. AG 322 (12 Oct 44). (2) CM-IN 12423 (13 Nov 44) CG USAFFE, 12 Nov 44. 
38 Williams Interv, 5 Jun jo. 
19 Burke Interv, 30 Jan 46. 
20 Ltr, CmlO XI Corps to CmlO Sixth Army, 22 Aug 44, sub: Smoke Generators, and 1st Ind 
thereto, CG Sixth Army to CG XI Corps, 30 Aug 44. ORB Sixth Army 470.71-SG. 
21 CCmlO USASOS, Rpt of CWS Conf, 10-13 Oct 44, p. 30. 
289-149 0-68—27 400 
THE CHEMICAL WARFARE SERVICE 
6th Infantry Division, asked Col. Harold Riegelman, Chemical Officer, 
I Corps, whether any smoke troops were available to screen river cross- 
ings. The answer was: in the absence of smoke units ground troops 
would continue to rely on mortar smoke shell and smoke pots for that 
type of mission.22 
Meanwhile, various units of the Sixth Army resorted to limited area 
screening with whatever smoke weapons or equipment was available. 
The 2d Engineer Special Brigade used the small FS generator developed 
by the qid Chemical Laboratory Company to conceal LCM’s unloading 
at Colasion Point from rifle and machine gun fire.26 But the Mi and 
M4 smoke pots proved to be the mainstays for area screening. Smoke 
from these munitions successfully concealed the Tacloban airstrip on 
Leyte from Japanese bombers during the full moon period of November 
1944.24 In the Zamboanga operation in western Mindanao Colonel 
Arthur, chemical officer of the 41st Infantry Division, organized a 
smoke pot line along one side of an airstrip then under construction 
after Japanese artillery had damaged heavy engineer equipment.25 
During the Luzon Campaign, the Sixth Army used smoke pots far 
more extensively than previously to conceal road and bridge con- 
struction from enemy observers.26 The increased use of smoke in the 
Sixth Army resulted from the stepped-up activity of the Japanese 
air force; the shift to larger land masses for maneuvering, along with 
a decrease in the amount of jungle fighting; the availability of smoke 
weapons and munitions; recent emphasis by commanders and chemical 
officers on the importance of smoke in combat; and the fact that the 
use of smoke had proved beneficial in saving lives and equipment. 
Another possible mission for large area screening, the concealment 
of airfields, was beginning to take shape in the Pacific Ocean Areas. 
22 Ltr, CmlO I Corps to CmlO 6th Inf Div, 8 Dec 44. In Riegelman’s private files. 
23 (1) Memo, Actg CmlO for ACofS Sixth Army, 2} Nov 44. Sixth Army 470.6-Smoke. (2) 
In the Biak operation, I Corps had used this same item for harassing effect; when the generators were 
placed in the windward openings of caves, the smoke not only drove out the Japanese but disclosed 
other entrances to the cave. CG I Corps, History of Biak Opn 15— 27 Jun 44, G-j Rpt, an. 2, Cml, 
p. 47. AGO HRS 201-11.4 (15459). General Krueger cites the testimony of Japanese generals 
after the Philippines campaign attesting to the usefulness of smoke and white phosphorus in driving 
Japanese soldiers out of their caves. From Down Under to Nippon, p. 327. 
24 Comdr Amphib Group 8 Seventh Fleet Action Rpt, Leyte Opn, pt. V (D), Special Comments, 
Smoke. 
20 Interv, Hist Off with Col Frank M. Arthur, former chemical officer of the 41st Division and I 
Corps, 1 Jul 46. 
26 Sixth U.S. Army, Rpt of the Luzon Campaign, 9 Jan 45-jo Jun 45, III, Rpts of the General 
and Special Staff Secs, Rpt of the Cml Warfare Officer, 90. LARGE AREA SMOKE SCREENS IN THE PACIFIC 
401 
In the summer of 1944 United States forces captured Guam, Tinian, 
and Saipan in the Marianas group and immediately began constructing 
airfields from which to stage bombing attacks against Japan. These 
bases became operational in the fall and early winter of 1944, and 
B-29’s of the XXI Bomber Command began their assault on the Japan- 
ese homeland.2' In turn, these airfields in the Marianas were subjected 
to enemy air raids, infrequent and largely ineffective, but nonetheless 
"an expensive nuisance, which, if unchecked, could have become more 
costly.” 28 
Even as the Advanced Echelon, XXI Bomber Command, was staging 
at Hickam Field, Oahu, its chemical officer, Maj. John Barrows sug- 
gested the use of smoke generators to conceal the 6-29’$ when they 
reached the Marianas. The Commander in Chief, POA, turned down 
this request on the ground that the available shipping space was needed 
for more vital supplies.29 General Waitt, Assistant Chief CWS for 
Field Operations, brought the subject up again during his November 
1944 visit to Saipan. Noting the vulnerability of the B—29’s to Japanese 
attack—several of the planes had already been destroyed by enemy air 
action—Waitt insisted that the use of smoke could conceal the expen- 
sive aircraft without interfering with the antiaircraft screen. Later 
on in Hawaii, he urged Admiral Nimitz and General Richardson to 
adopt this plan.30 Despite the merits of the case, and the fact that 
eleven 6-29*5 had been destroyed and forty-three others damaged, the 
plan for screening the Marianas airfields against enemy attack never got 
off the ground. The interests of the strong antiaircraft artillery de- 
fenses were considered paramount.31 In any event, enemy air attacks 
ceased early in 1945 when Iwo Jima with its air bases fell to U.S. 
Marine forces, thus eliminating the trouble at its source. 
The question of employing smoke troops at airfields arose again in 
27 The XXI Bomber Command was an element of the Twentieth Air Force, which, under Joint Chiefs 
of Staff control, had as its mission the strategic bombing of Japan. For the complete picture of these 
operations, see Wesley Frank Craven and James Lea Cate, eds., THE ARMY FORCES IN WORLD 
WAR II, vol. V, The Pacific: Matterhorn to Nagasaki, June 1944 to August 1945 (Chicago: Univer- 
sity of Chicago Press, 1953). 
28 Craven and Cate, eds., Matterhorn to Nagasaki, p. 582. 
Hist Off with Grothaus, former CmlO, Seventh Air Force, 27 Apr 50. 
30 Rpt on Trip of Waitt and Javits to POA and SWPA, 24 Sep-21 Nov 44, dated ij Dec 44. CWS 
314.7 Observer Rpts. 
31 (1) CM-IN 930, CG AAFPOA to WD, 1 Dec 44. (2) Grothaus Interv, 27 Apr 50. Colonel 
Grothaus felt that the shortage of available shipping remained a factor in the decision not to employ 
smoke. 402 
THE CHEMICAL WARFARE SERVICE 
connection with Operation Iceberg, the campaign against the Ryukyus 
chain. Because of the proximity of the islands to the Japanese home- 
land, American planners correctly anticipated that their assault would 
provoke a great amount of enemy air action. The Navy made excellent 
use of smoke at Hagushi Beach, Okinawa, during the earlier phases of 
the operation, but withdrew its smoke personnel in the postamphibious 
phase when Lt. Gen. Simon B. Buckner, commanding Tenth Army, 
assumed leadership ashore of the land forces of the operation. Orig- 
inally, the Army planned to use smoke generators to conceal airfields 
and beaches during Phases II and III of Iceberg, during the occupation 
of le Shima and the establishment of control over northern Okinawa, 
and during the seizure of additional islands in the Nansei Shoto. The 
28th Smoke Generator Battalion, comprised of the 67th, 68th, and 
71st Smoke Generator Companies, received the Okinawa assignment. 
Unfortunately, the 71st Smoke Generator Company was not available 
in time for operations on le Shima. Although the Headquarters and 
Headquarters Detachment, 28 th Chemical Smoke Generator Battalion, 
and elements of the 67th and 68 th Smoke Generator Companies arrived 
at Okinawa on 12 June, Phase III of the operation was canceled. The 
remainder of the two companies arrived on Okinawa early in July, 
but Japanese air activity had diminished considerably, and the need 
for smoke no longer existed.32 
Although the planning for the invasion of Kyushu, the southern- 
most island of the homeland of the enemy, had not been completed 
when Japan surrendered, it appeared certain that smoke generator 
troops would have seen extensive use had the invasion been mounted. 
Colonel Copthorne, now Chemical Officer, Army Forces, Pacific, ar- 
ranged with representatives of the operations officer of his headquarters 
and with the commander of Amphibious Forces, Pacific Fleet, for the 
use of five chemical smoke generator companies during the early stages 
of Olympic, as the operation was dubbed. Earmarked for the eastern 
shore of Kyushu were the three companies of the 28 th Smoke Gen- 
erator Battalion. The two quartermaster truck companies which had 
formerly been the 70th and 170th Smoke Generator Companies were 
to be reconverted to smoke units and earmarked for operations on the 
western shore of Kyushu. During the initial stage of the operation 
32 (1) Unit records in CmlC Hist Off. (2) Interv, Hist Off with Maj Lucius F. Lincoln, formerly 
ExecO 28th Smoke Generator Bn, 12 May 50. (3) CG Tenth Army Action Rpt, Ryukyus, 26 Mar- 
30 Jun 4j, vol I, ch. n, sec. XIII, par ia(2). LARGE AREA SMOKE SCREENS IN THE PACIFIC 
403 
and under control of the Navy, the companies were to screen ship 
concentrations, harbors, and beaches. Once the invasion forces had 
successfully landed, smoke troops would revert to Army control. How 
these units were to be assigned in support of tactical operations on 
Kyushu was still a matter of conjecture when the war came to an end. 
Upon orders of AFPAC, Eighth Army prepared a study on the use 
of smoke troops in land operations on the island. It recommended in 
July 1945 that twelve M2 mechanical generators be issued to the 
chemical service platoon assigned to each combat division and that 
two smoke generator battalions, each with four companies, be rede- 
ployed from Europe and assigned, one each, to the two invading 
• qq 
armies. 
Colonel Copthorne approved the idea of giving mechanical smoke 
generators to chemical service platoons, calling attention to the growing 
tendency of combat troops to demand larger and larger smoke screens 
and arguing that the use of fog oil by the service platoon would reduce 
the tonnage of mortar and artillery smoke ammunition. The chemical 
officer of Sixth Army, Colonel Burns, opposed the plan. He felt that 
the chemical service platoons had neither the men nor the transporta- 
tion for the conduct of screening operations. Moreover, he considered 
impractical any attempt to substitute a fog oil screen for a projected 
smoke screen because they served "different tactical purposes.” 
There could be no doubt that chemical service platoons in the combat 
area were fully occupied in the supply and maintenance of chemical 
supplies and were already short of transportation facilities. But Burns’s 
statement concerning tactical screening ran counter to the experience 
of U.S. forces in Europe who frequently used fog oil to save mortar and 
artillery ammunition. V-J Day found still unanswered this question 
of how the combat divisions in the Pacific could best be supported by 
smoke generator personnel. 
33 (1) Interv, Hist Off with Williams, 5 Jun 50. Colonel Williams of the AFPAC Chemical Section 
had a part in this smoke planning. (2) Lt Col William R. Maull to CCWS, 28 Sep 45, Rpt of Official 
Travel, pp. 35-36. CMLHO. Colonel Maull stated that AFPAC was to activate only one additional 
smoke company. 
34 Ltr, CCmlO AFPAC to CmlO Sixth Army, 4 Aug 45, sub: Smoke Generators as Additional 
Equip for Cml Serv Platoons, and 1st Ind CmlO Sixth Army to CCmlO AFPAC, 11 Aug 45. Sixth 
Army 400.34—Equipment—Special T/E & T/BA. 404 
THE CHEMICAL WARFARE SERVICE 
The Navy’s Use of Smoke 
Naval operations in Pacific waters, particularly in the last two years 
of the war, were accompanied by an extensive use of smoke. Although 
the Navy had its own arsenal of smoke munitions, including HC pots 
and the Besler mechanical generator, its use of CWS equipment was 
not uncommon. CWS personnel also contributed to the fulfillment 
of the Navy’s smoke mission. 
The question of concealing Pearl Harbor with smoke was one of 
long standing, and the Army, before World War II, had discouraged 
at least one Navy suggestion for screening that most important in- 
stallation.30 It was natural that the matter would assume a much 
greater significance after 7 December 1941. Although early in 1942 
a special smoke board set up by Admiral Nimitz recommended against 
screening the Pearl Harbor area, the Mi mechanical smoke generator 
was scarcely off the assembly line before the Navy obtained fifteen of 
the items for use in the Hawaiian Islands.36 Knowing little or nothing 
about the generators, Navy officials at Pearl Harbor requested Colonel 
Unmacht to service and demonstrate the machines. By March 1943 he 
had gotten possession of all fifteen generators, trained men from the 
91st Chemical Mortar Company in their operation, started a program 
for training Navy personnel, and had demonstrated the generators 
along the Honolulu waterfront and at Pearl Harbor.37 
The Navy’s interest in area screening prompted General Richardson, 
commanding the Hawaiian Department, to take a renewed interest in 
smoke equipment. Earlier, he had attempted unsuccessfully to secure 
fifty generators without taking any smoke troops. The Chief, Chemical 
Warfare Service, had strongly opposed this suggestion, arguing that 
the efficient operation of the generators required trained men available 
on a 24-hour basis.38 Richardson was still unwilling to substitute smoke 
generator troops for others on his troop basis for Hawaii. Again the 
War Department replied that the Hawaiian Department could not 
have the equipment without the troops, although as a compromise it 
was willing to send a cadre of smoke specialists, provided that General 
3i> Watson, Prewar Plans and Preparations, pp. 470-71. 
31' Ltr, Waitt to Unmacht, 18 Nov 42. CWS J14.7 Personal Ltr file, AFMIDPAC. 
37Ltrs, Unmacht to Waitt, 11 Dec 42, } Mar, 5 Mar 43. 
38 Ltr, Waitt to Unmacht, CmlO Hawaiian Dept, 18 Nov 42. LARGE AREA SMOKE SCREENS IN THE PACIFIC 
405 
Richardson activate a smoke unit within the theater.39 During the 
negotiations, Colonel Unmacht argued that the need for smoke was 
far greater in Hawaii than along the west coast of the United States, 
where smoke units were then stationed. He believed that the situation 
justified 500 smoke troops despite the presence at Honolulu and Pearl 
Harbor of 10,000 men assigned to fighter, antiaircraft, and barrage 
balloon units. Unmacht’s arguments that smoke troops, man for man, 
contributed more to antiaircraft defense than those of any other service 
were not persuasive enough to cause the Hawaiian Department to 
substitute smoke troops for other types.40 
The Navy made one more attempt to secure a smoke installation for 
Pearl Harbor, suggesting that its facilities be screened with existing 
equipment—15 mechanical generators and 1,100 obsolete stationary 
generators. General Richardson referred the proposal to Colonel Un- 
macht who pointed out that, in comparison with mechanical gen- 
erators, the stationary models consumed too much oil and required 
too many men to operate. Besides, he argued, there was not enough 
equipment on hand to screen Pearl Harbor effectively. Unmacht used 
this opportunity to try again to convince the Hawaiian Department 
to ask for smoke generator companies.41 The diminishing need for 
smoke at the islands served to nullify this last attempt to get a full- 
scale smoke installation at Pearl Harbor. 
After mid-1943 smoke screening activities in the Pacific Ocean 
Areas were confined to the combat zones. The first of the island cam- 
paigns in the Central Pacific Area was the V Amphibious Corps’ as- 
sault on the Gilberts. Plans for Tarawa, the objective of the 2d 
Marine Division, called for curtains of smoke laid by carrier planes, 
as well as the use of Army Mi and M4 smoke pots loaded on landing 
craft, to conceal mine sweeper activity and the assault waves of 
marines as they rendezvoused for the final run. The actual operation 
saw limited use of smoke. The aircraft screens were deemed unneces- 
sary, although the pots on the landing craft did obscure the assault 
craft from enemy observation. Smoke activity during the difficult 
days after the assault proved to be of more importance. Six landing 
craft, stationed at various positions to the windward, used smoke pots 
39 Ltr, CG Hawaiian to CG ASF WD, 23 Apr 43, sub; Smoke Generator Equip and 1st Ind 
Secy War to CG Hawaiian Dept. AG 400 (4-23-43) OB-S-E. 
40 Ltr, Unmacht to Waitt, 30 Mar 43. CMLHO. 
41 Ltr, Unmacht to Waitt, 13 Jul 43. CMLHO. 406 
THE CHEMICAL WARFARE SERVICE 
to shield ships anchored in the lagoon during enemy night air attacks, 
at times aided by LST’s equipped with smoke pots.42 
Area screening of anchorages became accepted procedure for oper- 
ations in the Marshall Islands, the next step up the island ladder. The 
Navy rehearsed the planned smoke procedures during January 1944 
and put them into practice during the invasions of Kwajalein, Roi- 
Namur, and Eniwetok. In brief, small craft burned Mi and M4 HC 
pots, furnished by the CWS depot in Hawaii, while the cargo and per- 
sonnel ships employed the Navy’s Besler mechanical smoke generators 
for the first time. The glare from the pots and their fire hazard em- 
phasized the need for a small lightweight generator which could be 
mounted on small craft for this type of operation.43 
The Marianas campaign in the summer of 1944 saw further Navy 
successes with anchorage screening. Between 15 June (D-day) and 
7 July, the Saipan anchorage had a total of 19 hours of smoke entailing 
57,000 gallons of fog oil and 11,400 smoke pots. The commander of 
the Joint Expeditionary Force called it "the greatest factor in the 
extremely effective defense of the transport area against air attack. 
During the repeated attacks 100 bombs were dropped in the vicinity 
of the transport area, but were obviously dropped blindly. . . .44 
The Navy set up a most complete smoke installation at Guam. 
Emplaced mechanical generators lined the landlocked harbor while 
small craft with mounted generators patrolled the entrance. Resembling 
those established during 1943-44 at Bizerte, Naples, and Anzio in the 
Mediterranean theater, this was one of the few smoke installations in 
the Pacific which depended upon land-based mechanical generators 
as the primary means of screening. Ironically, enemy air forces never 
tested the smoke defenses.45 
42 (1) Comdr TF 53, app. 3 to an. A to CTF 33 OPORD A 104-43 (revised). CMLHO. (2) 
Comdr, Transport Div 4 Tarawa, in Extracts from Naval Rpts on Use of Smoke by the Navy in 
Amphib Opns to Date, Jan 44. Sixth Army 470.6—Smoke. (3) Rpt of Tarawa Opn (AGO 370.2 
(31 Dec 43)), cited in CWS TofO Ltr 11, 9 Mar 44, p. 12. (4) Growl and Love, Seizure of the 
Gilberts and Marshalls, p. 129. (5) Capt. James R. Stockman, USMC, The Battle for Tarawa 
(Washington, 1947), p. 13. 
43 (1) Extracts from Naval Rpts on Use of Smoke by the Navy in Amphib Opns to Date Marshall 
Islands Opn. Sixth Army 470.6—Smoke. (2) Ltr, CmlO Sixth Army to Div CG’s, 24 Jun 44, 
sub: Marshall Islands Campaign. Sixth Army 314.7—Rpts, Hist. 
■“CWS TofO Ltr 22, 28 February 1945, pages 23-24, cites comments made by the Commander of 
the Joint Expeditionary Force in Report of Amphibious Operations for the Capture of the Marianas 
Islands, 25 August 1944. 
4" (1) Lt. Comdr. V. C. Alexander, USNR, "Area Smoke Screen in Harbor Defense,” Naval Harbor 
Defense (OPNAV 30-3-A), No. 3, May 1945, pp. 11-15. (2) Interv, Hist Off OCCmlO with 
Comdr Alexander, member of the Amphib Smoke Committee, 25 Sep 45. CMLHO. LARGE AREA SMOKE SCREENS IN THE PACIFIC 
407 
On 20 October 1944 Sixth Army launched its operations against the 
Philippine Islands with the assault on Leyte. The Japanese response 
was immediate, including the commitment of a substantial part of 
Japan’s air reserves.4*1 During the first stage of the operation U.S. 
carrier-based planes twice laid screens over the invasion beaches of 
X and XXIV Corps. Floating smoke pots enabled two beached LST’s 
to resume unloading after an interruption caused by enemy mortar fire. 
For the first four days the Japanese concentrated their air activity 
during the hours of daylight. Antiaircraft defenses during this period 
consisted for the most part of U.S. carrier-based fighters which pre- 
vented any serious damage to the ships or the targets onshore. This 
procedure restricted smoke to the twilight periods and night alerts. 
In the next four days, when enemy planes averaged 175 sorties, the 
Navy used smoke extensively during day as well as twilight and night 
attacks. After 27 October the smoke again was restricted to twi- 
light, moonlight, and nocturnal alerts. This return to former tactics, 
which were continued in operations at Lingayen Gulf and Okinawa, 
came about for several reasons: the ineffectiveness of the daytime 
screens except under ideal low-speed wind conditions, the fear that the 
smoke generators would not hold up under extended use, a shortage 
of fog oil, the establishment of an airstrip at nearby Tacloban, and the 
fact that daytime smoke precluded observation by the antiaircraft 
batteries at the same time that it allowed enemy aircraft glimpses of 
the masts of the assembled ships.47 
Antiaircraft defenses at Leyte Gulf were largely successful. Few, if 
any, ships received hits while hidden by smoke although several de- 
stroyers outside the screen suffered damage. This accomplishment was 
the greater because Leyte marked the first appearance in force of the 
Japanese kamikaze planes. By preventing Japanese pilots from sighting 
individual targets, smoke did much to reduce the effectiveness of these 
suicide missions. After the operation the commander of Southern 
Attack Force commented that "area smoke, properly employed, is 
,lt CG Sixth Army, Rpt of the Leyte Opn, 20 Oct-25 Dec 44, pp. 40-41. CMLHO. 
4‘ (1) Ltr, Comdr TF 79 to Comdr Seventh Fleet, sub: Seizure of Leyte—Rpt of Participation of 
TF 79. Bur Yards & Docks File No. FFI-D-NB (503). (2) Comdr Amphib Group 6, Pacific Fleet, 
TF 79.2, Rpt of Leyte Opn, 4 Nov 44. CMLHO. (3) Comdr Amphib Group 8, Seventh Fleet 
Action Rpt—Leyte Opn—Rpt On, pt. V, Special Comments (d) Smoke (extract undated). Both 
in CMLHO. 408 
THE CHEMICAL WARFARE SERVICE 
invaluable for protecting a transport area from enemy air attack at 
night or at twilight.” 48 
The landings at Lingayen Gulf in Luzon saw some use of smoke pots 
to conceal the beaches from direct observation by enemy artillery 
until American counterbattery fire could silence the opposition.49 
Once the beachhead was secured the Navy regularly screened the 
anchorage at dawn and dusk for a daily total of about two hours. 
The Leyte experience led to improvements in the screens at Lingayen 
Gulf. Smoke boats arranged in lines at distances of 500, 1,000, and 
2,000 yards windward from the ships resulted in a more uniform 
screen than had been the case at Leyte. Ships under smoke at Lingayen 
suffered no damage from the dawn and dusk air raids, despite the fre- 
quent 15- to 20-knot sea breeze. Denied observation of the anchorage, 
the Japanese planes made several hits on destroyers and escorts patrol- 
ling outside the concealed area. The supply situation at Lingayen Gulf 
was much better than that at Leyte which had seen the near depletion 
of fog oil and smoke pots.50 
The naval commander at Lingayen Gulf strongly recommended 
that LG VP (landing craft, vehicle and personnel) smoke boats should 
be fitted with the CWS lightweight smoke generator as soon as possible. 
The smoke cloud produced by this mechanical generator not only was 
more persistent, but it was without the toxicity of HC smoke. Fre- 
quently, both at Leyte and at Lingayen, men aboard ships became ill 
when ventilating systems drew in the HC-laden air. And there was 
always the storage problem and fire hazard presented by smoke pots.51 
In preparing for the campaigns of Iwo Jima and Okinawa, the Navy 
in the Pacific received technical assistance from members of the 
Amphibious Smoke Committee. Capt. N. F. Chamberlain, CWS, and 
three naval officers of the committee reported to the Commander, 
Amphibious Forces, U.S. Pacific Fleet, on 5 November 1944 for 
48 (t) Comdr Southern Attack Force (TF 79), Rpt of Philippine Opn: Tactical Use of Smoke 13 
Nov 44. Bur Yards & Docks, FFI-D-NB (503) (AL). (2) CmlO X Corps, Hist Data, Leyte- 
Samar Campaign, app. G, n.d. Sixth Army 319.1—Leyte Opn. 
49 Ltr, CmlO 43d Inf Div to CmlO I Corps, 23 Jan 45, sub: Misc Summary Rpt, 23 Jan 45. 
Sixth Army 319.1—Weekly Activity Rpts, Divs. 
60 (1) Rpt, Comdr TF 79, Lingayen Gulf Opn, n.d., sub: Tactical Use of Smoke. Bur Yards & Docks 
FFI-D-NB (503) (AL-i), and in ORB Sixth Army 37o.2-Luzon Opns Rpts. (2) Ltr, Copthorne 
to Hist Off, 23 May 50. Naval officers remarked to Colonel Copthorne that smoke operations at 
Lingayen Gulf showed a great improvement in technique. 
51 (1) Ibid. (2) Capt Walter Karig, Battle Report: Victory in the Pacific (New York: Rinehart 
& Co., 1949), pp. 30-31. LARGE AREA SMOKE SCREENS IN THE PACIFIC 
409 
temporary duty as smoke specialists. In Hawaii they lectured on the 
experimental work done at the Amphibious Training Base, Fort Pierce, 
Fla.,'1- trained air and naval crews and infantry troops in the employ- 
ment of smoke munitions and equipment, prepared training directives, 
and assisted in writing smoke plans for scheduled operations. The 
committee appeared in Hawaii at a rather opportune moment, for 
interest in smoke screening had reached a high point with the news 
of how kamikaze pilots had been baffled at Leyte.53 
On 22 December 1944 the committee, before many high-ranking 
combat commanders in the POA, including ten admirals and a number 
of Marine and Army generals, successfully staged in Hawaii a large- 
scale demonstration on the use of smoke in landings. Vice Adm. 
Richmond K. Turner, Commander, Amphibious Forces, Pacific Fleet, 
was among those impressed by the capabilities of smoke. As a result of 
the demonstration members of the smoke committee were requested 
to participate in subsequent landing operations as smoke advisers.54 
At Iwo Jima the Navy used a limited quantity of smoke during the 
initial assault, including screens laid by carrier-based planes as the 
first wave approached the beach.55 Later, screens concealed ships in 
the anchorage from kamikaze planes during sixteen different night 
raids. No vessel under the screen suffered damage, although five enemy 
bombs straddled the USS Auburn. '* Beach and shore party personnel 
had been specially trained for the employment of portable smoke gen- 
erators on the island, but none actually made the landing.57 The 
satisfactory performance of waterborne generators negated the need 
for landing the palletized generators, an operation which would have 
been imperiled by the heavy sea and currents. 
The most extensive and prolonged area screening operation in the 
Pacific took place at Okinawa. Anticipating that the Japanese air 
forces would desperately oppose any landing so close to the homeland, 
framers of the task force smoke plan specifically provided for night 
coverage of the anchorage and further directed the commanders of 
62 The naval doctrine on use of smoke in amphibious operations was published in Commander in 
Chief, U.S. Fleet, Smoke Screens for Amphibious Operations, 8 Nov 44. 
53 Memo, Chamberlain for CO Research and Development Center Amphib Tng Comd U.S. Atlantic 
Fleet, 22 Jun 45, sub: Summary of Activities of the Amphib Comd in Forward Areas. CMLHO. 
54 (1) Ibid. (2) Ltr, CmlO POA to ACCWS for Field Opns, 2} Dec 44. CWS 314.7 Personal 
Ltr file, AFMIDPAC. 
r’" Karig, Battle Report: 'Victory in the Pacific, p. 303. 
58 Comdr Amphib Group 2, Iwo Jima, Action Rpt, pt. VIII, Smoke. CMLHO. 
5' Ibid., pt. X, Force Beachmaster’s Rpt, sec. B (K), Smoke Generators. 410 
THE CHEMICAL WARFARE SERVICE 
attack forces and groups to draw up detailed plans for other uses of 
smoke. The latter provision resulted in limited use of smoke in con- 
nection with underwater demolition team activities, landing feints, 
the assault on le Shima, and mine-sweeping activities. But the anchor- 
age screens were another matter. Okinawa saw the kamikaze campaign 
reach a crescendo,r,s and in an effort to minimize the terrible destruc- 
tion caused by these riders of the "heavenly wind” the Navy expended 
more fog oil and smoke pots at the Hagushi Beach anchorage than in 
any other single operation of World War II.59 
In addition to the customary means of smoking from small craft 
and ships the Navy on L-day plus i took ashore forty-five mechanical 
generators and divided them between the north and south sectors of 
Hagushi Beach. Next day these generators went into operation. The 
southern line, commanded by Captain Chamberlain of the Amphibious 
Smoke Committee, had twenty-five emplacements; the northern line 
had about fifteen. Limited training of the generator operators did 
not prevent the shore contingent from maintaining an adequate screen 
over the anchorage.60 
A word about the operation of the screen. The senior officer present 
afloat ordered smoke when unidentified planes, as shown by the radar 
screen, seemed likely to attack. All ships under the screen withheld 
antiaircraft fire, because smoke was an ample safeguard against the 
few planes which penetrated the outside fighter defense and because 
AA fire might disclose the location of the ships.61 During the night of 
L-day (i April) smoke covered the anchorage for a total of 6 hours 
and 32 minutes. Smoke concealed the anchorage and beaches during 
40 of the 46 nights between L-day and 16 May, with the average screen 
lasting slightly more than 2 hours. From 17 May until 21 June, the 
day the island was secured, the Navy resorted to smoke practically 
68 For details on the kamikaze attacks, see: (i) Appleman et al., Okinawa: The Last Battle, pp. 
97-101; (2) Maj Charles S. Nichols, Jr., and Henry I. Shaw, Jr., Okinawa: Victory in the Pacific 
(Washington, 1955). PP- 82-86. 
59 (1) Comdr (Adm Turner) Amphib Forces Pacific Fleet, Action Rpt, Okinawa Gunto, pt. V, 
Special Rpts; sec. C, Naval Ordnance and Gunnery; IV—Protective Smoke Cover (1 Apr-16 May 45). 
CMLHO. (2) Memo, Chamberlain for CO Research and Development Center Amphib Tng Comd, 
U.S. Atlantic Fleet, 22 Jun 45, sub: Summary of Activities of the Amphib Comd in Forward Areas. 
00 (1) Beachmaster Hagushi Beaches to Comdr Amphib Group 12, Rpt, Smoke Generator Opn, 
Hagushi Beaches, Okinawa. (2) Comdr (Turner) Amphib Forces Pacific Fleet, Action Rpt, Okinawa 
Gunto, pt. V, Special Rpts; sec. C, Naval Ordnance and Gunnery; IV—Protective Smoke Cover (1 Apr- 
16 May 45). 
61 Ltr, Maj N. F. Chamberlain, CmlC Res, to Hist Off, 1 May jo. LARGE AREA SMOKE SCREENS IN THE PACIFIC 
411 
every night for an average of one hour and 27 minutes, although one 
night of unusual Japanese air activity resulted in an 8-hour screen. 
Estimated expenditures of smoke materials for the Okinawa operation 
were 2,475,000 gallons of fog oil, 35,000 land smoke pots, and 47,500 
floating smoke pots, or floats as they were known to the Navy.62 
Comments on smoke operations at Okinawa were of special impor- 
tance because of their influence on planning for the invasion of Japan. 
Captain Chamberlain reported that the initial skepticism among ship 
captains as to the value of smoke over the anchorage quickly changed 
"to an almost frantic clamor for smoke cover when it was found that 
only those ships outside the smoke screen were being hit by suicide 
planes.” 63 
Admiral Turner made a number of recommendations for future 
smoke operations, which, for the most part, concerned logistics. Again, 
planning for the Okinawa operation had not provided adequate quan- 
tities of fog oil and pots, either in the forward area or in reserve. 
Consequently, supplies were almost exhausted several times during an 
operation. He advocated equipping all merchant ships with fog oil 
generators and expanding the maintenance facilities for smoke equip- 
ment. Both measures would further increase the requirements for fog 
oil to 8,000 barrels (approximately 400,000 gallons), an amount he 
considered a minimum for planning an operation the size of the one 
at Okinawa. This weekly replenishment figure was double that re- 
quested (although not always supplied) for Okinawa. Turner also 
emphasized that smoke personnel should be recognized as specialists and 
urged that CWS smoke generators units be provided for onshore 
assistance.64 It seems that if the Pacific war had continued, smoke 
would have played an important role on sea as well as on land. 
Screens for Airborne Operations 
Airborne operations in the Pacific differed considerably from those 
in the war against Germany. The difference was largely a matter of 
62 (1) Comdr (Turner) Amphib Forces Pacific Fleet, Action Rpt, Okinawa Gunto, pt. V Special 
Rpts; sec. C, Naval Ordnance and Gunnery: IV—Protective Smoke Cover (i Apr-16 May 45). (2) 
Comdr V Amphib Force, CTF 51, Rpt of Capture of Okinawa Gunto, Phases I and II (17 May-21 Jun 
45)- 
63 Memo, Capt Chamberlain for CO Research and Development Center Amphib Tng Comd U.S. 
Atlantic Fleet, 22 Jun 45, sub: Summary of Activities of the Amphib Comd in Forward Areas. 
Comdr (Turner) Amphib Forces Pacific Fleet, Action Rpt, Okinawa Gunto, pt. V, special Rpts; 
sec. C, Naval Ordnance and Gunnery; IV—Protective Smoke Cover (1 Apr—16 May 45). THE CHEMICAL WARFARE SERVICE 
412 
size; the geography of the Pacific area, as noted earlier, dictated that 
most ground operations there would be on a smaller scale than those 
on the land mass of Europe. The forces in the Pacific received more 
modest allotments of men and materiel than did those in Europe. 
Perhaps the very small size of the Pacific airborne operations made 
them more suitable for support by air-land smoke screens. In any 
event, in contrast with experience in Europe, half of the six airborne 
operations in the war against Japan had the benefit of smoke.60 
The first of the air-screened paratroop landings, indeed the first 
airborne operation in the Pacific, took place in eastern New Guinea 
at the airstrip near Nadzab, a village some twenty-five miles up the 
Markham River from the coastal town of Lae.66 The landing at the 
Nadzab strip, an overgrown facility about a half a mile north of the 
river, took place on the morning of 5 September 1943, the day after 
an Australian-American amphibious task force went ashore near Lae. 
The successful completion of these missions would lead to control of 
New Guinea’s Huon Peninsula and increased control of the straits 
between New Guinea and New Britain. More immediately, the seizure 
of Nadzab would prevent Japanese reinforcement from the Wewak 
area and would enable C-4/’s to fly in the Australian 7th Division for 
a move down the Markham River to Lae.67 
The 503d Parachute Infantry regiment made the jump at Nadzab. 
Little enemy opposition was expected, but because the Japanese did 
have troops in the vicinity of Lae and at the Heath Plantation, between 
Lae and the immediate objective, there was some chance of encounter- 
ing one of the daily patrols which scouted the Nadzab area. To take 
care of any such possibility the airdrop was preceded by B—25’s which 
worked over the area with .50-caliber machine guns and parachute 
fragmentation bombs. Seven A-io’s followed armed with smoke tanks 
to screen each of the three drop zones from possible enemy observation. 
(Map 7) Eighty-one C—47’s fell in behind the smoke-laying A—20’s. 
The troops began jumping at 1020 and within five minutes the entire 
r’5 For a detailed account of the use of smoke in Pacific airdrops, see John Christianson, "The Use 
of Smoke with Parachute Operations,” Military Affairs, XXV, No. 3 (Fall, 1961) 47—56. 
1,8 For a full treatment of this operation and the general strategic picture of operations in eastern 
New Guinea, see John Miller jr., CARTWHEEL: The Reduction of Rabaul, UNITED STATES ARMY 
IN WORLD WAR II (Washington, 1959), pp. 189-221. See also, Wesley Frank Craven and James 
Lea Cate, eds., "The Army Air Forces in World War II,” vol. IV, The Pacific: Guadalcanal to Saipan 
(Chicago: The University of Chicago Press, 1950), pp. 180-86. 
67 Miller, CARTWHEEL: The Reduction of Rabaul, pp. 189, 194. LARGE AREA SMOKE SCREENS IN THE PACIFIC 
413 
HUON PENINSULA 
Elevations in meters 
NADZAB SMOKE CURTAINS 
5 September 1943 
Smoke curtains 
Form lines only 
D. Holmes, Jr. 
MAP 7 
force was on the ground. No Japanese were encountered; casualties 
were minor.6S No doubt the distinct success of the landings was the 
result of the total lack of opposition at Nadzab. 
The smoke phase of the operation, while generally successful, re- 
vealed the expected inadequacies in procedure which accompany any 
such pioneering effort. Each of the seven A-ao’s carried four Mio 
smoke tanks, a versatile munition which served also as a spray tank 
for toxic agents. Slung under the wings of aircraft, the Mio tank 
68 (i) Ibid., p. 208. (z) General George C. Kenney in General Kenney Reports, A Personal History 
of the Pacific War (New York: Duell, Sloan and Pearce, 1943), page 293, states there were ninety-six 
C~47’s in the Nadzab operation. 414 
THE CHEMICAL WARFARE SERVICE 
had a capacity of thirty gallons and when filled with the smoke agent 
FS weighed a total of almost 550 pounds.6” 
On the morning of the Nadzab operation weather conditions were 
almost ideal for putting down a curtain of smoke. The wind was 
blowing from northwest to southeast at an estimated five miles an hour. 
Although the sky was clear there was a high overcast. The 8o° tem- 
perature was accompanied by a humidity of 85 percent, a favorable 
condition for a good curtain, dependent as FS is on the moisture in 
the atmosphere.70 
In 2 groups of 2 and one of 3, the A-20 attack aircraft laid the 
screens over Nadzab at an altitude of 250 feet and a speed of 225 miles 
an hour. Each of the tanks was filled with 19 gallons of the agent, 
or a total for the 28 tanks of approximately 532 gallons. In each 
formation the pilot of the lead plane discharged 2 tanks, counted 4 
seconds, and discharged the remaining 2. Staggered slightly to the rear, 
the other A-20 went through the same procedure, allowing for a 
slight overlap to insure the continuity of the screen. The smoke settled 
quickly to the ground and then rose to an average height of 400 feet 
along each of the three 4,500-foot screens. Each screen lasted about 
2 minutes, the length of time prescribed in the operational plan. Still 
effective after 5 minutes, the smoke rose, bunched, and dispersed after 
10 more minutes had passed. 
How effective would these smoke curtains have been if the para- 
troopers had landed in the face of enemy opposition? Maj. Tristram J. 
Cummins, Jr., Chemical Officer, Fifth Air Force, felt that two of the 
screens were too close to the wooded areas to have screened the observa- 
tion of Japanese had they been located in the outer fringes of the woods. 
If the screen had been placed 2,000 feet from the woods, the troopers 
could have landed and organized with a potential enemy still cloaked 
by the drifting smoke. The operation also disclosed shortcomings in 
filling equipment and difficulty with the attachment of tanks to the 
aircraft. 
It seems that little use was made of the lessons learned at Nadzab 
in the application of air smoke to the next Pacific airborne operation— 
Gt> FS, a solution of sulphur trioxide in chlorosulfonic acid, was a standard smoke agent. When 
atomized it reacted with water vapor present in the air to form a dense cloud of droplets of sulphuric 
acid. 
70 Cml Warfare Opns Rpt i, CmlO Fifth AF, 14 Sep 43. Sixth Army 470.6 Smoke. The remainder 
of the Nadzab account is based upon this report. LARGE AREA SMOKE SCREENS IN THE PACIFIC 
415 
Smoke Shields a Paratroop Drop, New Guinea 
the jump at Kamiri airdrome on the island of Noemfoor. Capture of 
the island, which lay just off the coast of northwestern New Guinea, 
would neutralize the Japanese on nearby Biak and provide airstrips for 
the Allied advance on the Vogelkop Peninsula. Again, the jump was 
made by paratroopers of the 503d Parachute Infantry regiment; their 
3 July 1944 airborne attack followed by one day the amphibious 
landing of the 158th Regimental Combat Team (RCT).71 Because 
of the success of the assault landing, the troopers of the 503d landed 
without encountering enemy opposition. Two smoke missions preceded 
the airdrop. 6-25*5 used M47A2 white phosphorus bombs to blanket 
nearby Kornasoren airdrome and its antiaircraft batteries. Then three 
A-20 attack bombers, each with two Mio smoke tanks, moved in the 
van of the C-47*s with their cargo of paratroopers. 
71 Smith, in Approach to the Philippines, pages 397-424, presents a detailed description of the Noem- 
foor operation. 
289-149 0-68—28 416 
THE CHEMICAL WARFARE SERVICE 
The weather, similar to that at Nadzab but with a bit more humidity, 
favored the use of smoke. But the six smoke tanks on the three attack 
bombers, not enough to lay a screen for the required two and a half 
miles, produced a patchy, hole-filled curtain over the airdrome. Conse- 
quently, the troopers jumped into a undeveloped screen and were still 
jumping as the smoke began to dissipate and as a southeasterly wind 
blew it directly over the drop zone, creating hazard and confusion. 
The hard surface of the airstrip, the debris with which it was cluttered, 
and the low altitude from which the jump was made combined to 
produce casualties totaling 10 percent, an abnormally high rate. Next 
day another battalion jumped onto the same airstrip, this time without 
a smoke screen. Casualties were 8 percent, high enough for the task 
force commander to call off a scheduled third jump.72 
By way of explanation for the rather shoddy smoke operation, the 
Fifth Air Force chemical officer cited insufficient notice of the im- 
pending mission and the lack of opportunity for the wing chemical 
officer to participate in the operation’s logistical planning. Whatever 
the fault, the fact remained that not only was smoke for the mission 
inadequate but no planes were in reserve to patch up the screen once 
it got spotty. 
The last use of smoke in Pacific airborne operations took place on 
23 June 1945 over the Camalaniugan airstrip in northern Luzon. The 
airdrop, carried out by a reinforced battalion of the 511th Parachute 
Infantry, coincided with a drive down the Cagayan River valley by 
Sixth Army’s 37th Division and the occupation of the coastal town of 
Aparri by a Ranger task force. Lt. Gen. Walter Krueger, Army com- 
mander, expected that this combination of actions would pinch out 
the remaining Japanese forces in northern Luzon.74 
Smoke was needed to conceal the troopers from the observation of 
Japanese forces suspected to be in positions in the wooded hills four 
miles to the southeast of the airstrip. Three 6-25’$, each equipped with 
a single tank, laid down an intervening screen. The Ei tank, developed 
in the Southwest Pacific by the V Air Force Service Command, 
73 (1) Cml Warfare Opns Rpt 5, CmlO Fifth AF, n.d., no sub. (2) See also unsigned report, Use 
of Smoke at Noemfoor Island. Both in CWS 314.7 Air Smoke. 
7" Smith, Approach to the Philippines, pp. 413-16. 
7t Robert Ross Smith, in Triumph in the Philippines, finds fault with General Krueger’s conclusion, 
pointing out that most of the contemporary intelligence sources, which proved to be right, indicated 
that the Japanese forces were not retreating down the valley but into the mountains both east and 
west of the valley. LARGE AREA SMOKE SCREENS IN THE PACIFIC 
417 
carried 167 gallons of liquid FS smoke and featured a discharge valve 
which could be opened and closed during the course of a mission.70 This 
was in decided contrast with the Mio smoke tank, used at Nadzab and 
Noemfoor, which expended smoke all at one time. 
The weather over northern Luzon was ideal for the smoke mission. 
The three B-ij’s took off from an airfield to the south and arrived 
over the target at 0855. A pair of planes made the initial run, one a 
scant 10 feet above the grassy surface, the other, 25 feet. They flew 
parallel to one another, 30 yards apart and one echeloned 100 feet to 
the rear, at speeds between 230 and 240 miles an hour. After an interval 
of several minutes the third plane reinforced the screen by laying 
smoke between the existing streamers at an altitude of 50 feet. 
Within a matter of minutes the original planes made a return run, 
this time at altitudes of 75 and no feet. The third B-25 completed 
the mission by making its second pass at 120 feet. The net result was 
a dense screen which was effective for over an hour. The first wave 
of C~47’s dropped its paratroopers a little after 0900, and within half 
an hour the second and third waves landed. The operation was featured 
by seven gliders which brought in artillery and heavy equipment. 
Jump casualties came to 7 percent of the participating force. There 
was no enemy opposition.'6 
All of the air screening operations in the Pacific were carried out 
unhampered by enemy opposition, certainly a factor which contributed 
to their over-all success. But this much can be garnered from the 
Pacific experience: given proper planning, an adequate amount of 
smoke correctly placed, and good weather conditions, smoke delivered 
by air could add great insurance to the success of any airborne 
operation. 
75 Ltr, ACCmlO for Field Opns to CmlO FEAF, 29 Jan 45, sub: Airplane Spray Tank E-i for 
B-25 Aircraft. CWS 314.7 Air Smoke. 
78 (1) Rpt, CmlO 309th Bomb Wing to CmlO Fifth AF, 26 Jun 45, sub; Cml Warfare Tactical 
Opns Rpt. CWS 314.7 Air Smoke. (2) Smith, Triumph in the Philippines, pp. 29—30. CHAPTER XI 
The 4-2.-Inch Mortar in the MTO 
On 10 July 1943 American, British, and Canadian forces landed on 
the southern and eastern coasts of Sicily, and in the ensuing 3 8-day 
campaign the 4.2-inch chemical mortar met its first test in combat. 
This CWS weapon, still untried in battle nineteen months after the 
entry of the United States into the war, by 1945 was to become an 
important part of the Army’s arsenal. 
The 4.2-inch chemical mortar was a multiple-purpose weapon em- 
ployed in close support of ground troops. Its versatility was indicated 
by its ability to fire toxic agents, smoke, and high explosives. In 
original tactical concept it was a basic ground weapon for offensive 
gas warfare. No other weapon approached the gas-delivering capacity 
of the 4.2-inch mortar; eight of them could fire over a ton of toxic 
agent in a span of two minutes.1 The smoke mission was also a part 
of the original tactical concept of mortar employment and was one 
of the reasons for its success in World War II. But the real key to the 
popularity of the weapon was its ability to fire high explosive shell, a 
johnny-come-lately as far as chemical mortar missions were concerned. 
The 4.2-inch mortar was the culmination of attempts to improve the 
4-inch British Stokes Brandt (SB) mortar. With American-made SB 
mortars and with shell and propellants purchased from the British after 
World War I, the CWS sought to obtain increased range, accuracy, 
and mobility.2 By 1924' experiments under the direction of Capt. 
Lewis M. McBride (later colonel) produced the rifled 4.2-inch chemical 
mortar with a range of over 2,000 yards, and by the end of World War 
II this distance had been doubled.3 
The Chemical Warfare Service saw the 4.2-inch mortar as a weapon 
which possessed mobility and flexibility, which could go in and out of 
2 Chemical Mortars, 4-inch and 4.2-inch, in Summary of Activities of the Mechanical Division, Edge- 
wood Arsenal, 1920-1928 (hereafter cited as EATR 189) Proj E8a 29 May 35, p. 6j. 
1 Memo, CCWS for AcofS G-j, 13 Apr j 6. 
3 (1) EATR 189, p. 62. (2) For a full description of the research and development of the 4.2-inch 
mortar, see Brophy, Miles, and Cochrane, Front Laboratory to Field. THE 4.2-INCH MORTAR IN THE MTO 
419 
action quickly, and which was capable of delivering mass fire in an 
unusually short time. Compilation of firing data was simple, and the 
communications system was efficient and rapid. Its high angle enabled 
it to reach targets in defiladed positions, inaccessible to most types of 
artillery. The short minimum range of the mortar and its mobility 
enabled it to give support to infantry units. The low silhouette of 
this easily concealed weapon offered a difficult target to the enemy.4 
Despite the potentialities of the 4.2-inch mortar the War Depart- 
ment showed little interest in the weapon and in 1935 suspended its 
manufacture. For about a year preceding September 1941 the 81-mm. 
mortar and not the 4.2-inch was the authorized weapon for the chem- 
ical battalions. These developments were typical and help reveal the 
over-all status of the CWS during the i93o’s. Later, during the war, 
a theater chemical officer was to maintain: "It can be readily under- 
stood that our service cannot be too greatly criticized, for at no time 
during the days of peace were we permitted to try out our equipment 
during field maneuvers, etc., which would have given us a great amount 
of experience,” 5 an opinion concurred in by General Porter, Chief of 
the CWS. 
The Authorization of the High Explosive Mission 
If the high explosive mission had not been authorized, activity of 
chemical mortar units in a nongas war probably would have been con- 
fined to screening operations.6 While the CWS saw the chief function 
of the mortar as firing gas shells, it did not overlook the possibility of 
using the weapon to fire high explosives. As early as 1934 these shells 
were fired in experiments.7 After the outbreak of World War II the 
infantry’s need for a good medium-range close support weapon became 
evident, and General Porter and his staff took vigorous steps to get the 
HE shell standardized and to make the firing of such a shell a major 
mission of the chemical mortar battalions. 
1 Memo, ExecO OCCWS for CCWS, 17 Dec 34. CmlC Bd. 
6(i) Ltr, CCmlO AFHQ to Chief Opns Div CWS, 26 May 43. (2) Ltr, CCWS to CCmlO 
NATOUSA, 4 Jun 43. Both in CWS 314.7 Personal Ltr files, NATOUSA. 
8 For an expanded account of the matter of authorization of the HE mission and the early activa- 
tion of mortar units, see (1) Opnl History of Cml Bns and the 4.2-Inch Mortar in World War II, pt. 
I, To the End of the Sicilian Campaign (Aug 43); (2) Brophy and Fisher, Organizing for War, pp. 
302-04. 
7 Memo, Lt Col Rollo C. Ditto ExecO OCCWS for CCWS, 17 Dec 34, in Mortars (4.2-Inch), De- 
velopment of Mechanized Transportation. CRDL Tech Library, Edgewood Arsenal. 420 
THE CHEMICAL WARFARE SERVICE 
The determination, mentioned above, to convert the chemical weap- 
ons units to the 8i-mm. mortar naturally interrupted negotiations 
regarding the HE 4.2 mortar shell. A personal conference between 
General Porter and General Marshall, Army Chief of Staff, resolved 
the issue in favor of the 4.2-inch mortar, a decision followed by steps 
to equip the mortar battalions with the approved weapon.8 Later came 
the authorization to produce a high explosive filling for the 4.2-inch 
mortar shell.9 
This was only half the battle. There remained the double problem 
of securing War Department approval for the necessary doctrinal 
change and convincing the ground commanders that mortar battalions 
were worthy inclusions on troop lists that already must have looked 
pathetically thin. The doctrinal matter involved the revision of 
FM 100-5, Field Service Regulations, Operations. Actually, the manual 
change would merely reflect the tacit approval of the War Department 
of the new mission for the 4.2-inch mortar. The CWS presented its 
case at a February 1943 conference with representatives of the Army 
Ground Forces and the Services of Supply. The latter agreed with 
the CWS point of view but the Army Ground Forces demurred, 
advocating a Field Artillery Board test of the mortar. If it passed, 
the weapon should be given to the Field Artillery to be employed only 
in those theaters which were without 10 5-mm. howitzers, just about 
eliminating any effective employment of the mortar.10 
The Training Division, Services of Supply, in a strong statement of 
nonconcurrence, called attention to the substantial increase in fire- 
power which would be enjoyed by a division supported by 4.2-inch 
mortars. For example, the mortar could place almost four and a half 
times as much high explosive on a target in a given period of time as 
could the 105-mm. howitzer, albeit at shorter ranges. The mortar 
weighed 305 pounds, the howitzer over 2 tons. And mortar units were 
extremely economical in demands upon manpower. To support its 
case by actual combat experience, SOS cited the excellent war record 
of the British chemical mortar with its high explosive mission.11 
s Memo, Chief Field Serv OCCWS for CmlO GHQ, 19 Jan 42. Cited in CWS, Monograph, Opnl 
Hist of Cml Bns and the 4.2-inch Mortar in W II, pt. 1, p. 19. 
8 (1) CWTC Item 515, 26 Apr 42. (2) Brophy and Fisher, Organizing for War, p. 45. 
10 (1) Interv, Hist Off with Lt Col Graydon C. Essman, 30 Oct 44. (2) Memo, Dir of Tng SOS 
for CofS SOS, 27 Feb 43. (3) Memo, CG AGF for CofS, 13 Feb 43. All in CMLHO. 
11 (1) Memo, CofS SOS for CofS, 27 Feb 43. CMLHO. (2) The 12,000-yard range of the 
105-mm. howitzer was three times that of the 4.2-inch mortar. THE 4.2-INCH MORTAR IN THE MTO 
421 
Opposition to the CWS SOS point of view gradually waned, and on 
19 March 1943 the War Department authorized the use of HE by 
the 4.2-inch mortar and directed that necessary amendments be made 
in the tactical doctrine.12 
There remained the difficulty of selling the mortar battalion to the 
field commanders. To them the idea of firing high explosives from the 
chemical mortar was untried and unproven. An accompanying diffi- 
culty was the fact that the 4.2-inch mortar was a chemical weapon. 
The general impression of most ground force officers was that the 
functions of CWS were confined to "gas and gas masks and . . . 
smelly clothing.” 13 These officers were surprised and dubious about 
including in the troop basis chemical units which would fire WP and 
HE in close support of the infantry. 
Obviously, CWS officers had a job on their hands, particularly those 
staff officers assigned to commands just entering combat. In North 
Africa Colonel Barker, chemical officer of the Western Task Force, 
was effective in convincing ground commanders of the worth of the 
4.2- mortar. Barker pressed for chemical mortar units for support 
of the North African operations, calling attention to the tactical 
demands for such a weapon, "This country (and north) is mostly 
open except for farmhouses and country villas which are in fact rather 
strong little forts. Trenches within these rock walls give lots of pro- 
tection to the inhabitants thereof and [machine guns] in such places 
command a lot of ground.” 14 Barker was not to get his mortar units 
in time for North African operations, but as Fifth Army chemical 
officer he got four chemical mortar battalions with which to begin the 
Italian campaign, fought in terrain even better suited for use of the 
4.2- weapon. 
Activation of Chemical Mortar Units 
In mid-1941 there was only a handful of mortar units, consisting 
of regiments, separate battalions, and companies. The 1st and 2d 
Chemical Regiments had only one active company between them; the 
two separate battalions, also the 1st and 2d, each had an active company. 
Completing the roster were two separate chemical companies, one of 
12 Memo for Red, 18 Mar 43, by Essman, on Memo, CofS SOS for CofS. CMLHO. 
13 Ltr, CmlO Atlantic Base Sec NATO to Chief Opns Div, 25 Feb 43. 
14 Ltr, CmlO Fifth Army to CCWS, 9 Jan 43. CWS 314.7 Personal Ltr files, Barker, 1942-43. 422 
THE CHEMICAL WARFARE SERVICE 
which was to be lost on Bataan and the other to be inactivated shortly 
after the United States entered the war.1:> This unimpressive list, with 
its regiments, battalions, and companies, indicated some indecision 
about the size of the basic type of weapons unit. Indeed, the brigade 
also had its supporters. By 1941 it had been pretty well decided that 
the basic unit of the mortar organization would be the battalion, com- 
posed of organic companies. The exception was the several separate 
mortar companies which saw action in the Pacific fighting. 
As of January 1942 there were two chemical mortar battalions, the 
2d and 3d, on active duty.16 Four more, the 81st, 8ad, 83d, and 84th 
were activated by mid-year.17 During the ten-month interval from 
June 1942 until May 1943 the number of mortar battalions remained 
at six. 
Meanwhile, the series of plans prepared in the United Kingdom for 
the cross-Channel attack included the possibility of chemical weapon 
support.18 The 1942 plan, for example, which called for a force of a 
million men included a recommendation for twenty mortar battalions.19 
While there was far less than this number available, the lack of reality 
between plans for the use of mortar battalions and the number of 
units on hand was tempered by several factors. At that time the 
mission of these units was restricted to gas and smoke, and thus far 
it was a gasless war. Moreover, ground force commanders, operating 
within the limits of the troop basis, were reluctant to give up units 
of known potential for a type untested in combat. 
By March 1943 the persistent work done by the Chemical Warfare 
Service in selling its battalions was beginning to prove embarrassing 
because by this time theater requests for weapons battalions exceeded 
the 6 on hand. The CWS pointed out that, unless other activations 
35 See Brophy and Fisher, Organizing for War, app. H. 
10 Chemical mortar battalion was the designation prescribed by the last of several wartime tables of 
organization. Earlier names included separate chemical battalions, chemical battalions (separate), 
and chemical battalions (motorized). For the sake of simplicity, the designation chemical mortar bat- 
talion will be used throughout the text. 
1 ‘ (i) Ltr, TAG to CG Third Army and CG SOS, 25 Mar 42. (2) 1st Ind, Asst AG to CCWS, 
7 Apr 42. (3) Ltr, Asst AG Third Army to Chief CWS, 11 Apr 42. (4) 83d Cml Bn GO 1, 10 
Jun 42. (5) The War Department General Staff based future activations on a schedule which called 
for a total of 6 battalions by the end of 1942, 12 more in 1943, and another 12 in 1944. Except 
for 1943, when only five battalions were activated, this schedule was met. Memo, Troops Div OCCWS 
for Chief Field Serv, 28 Mar 42. 
18 Memo, McCormick for Chief Troops Div, 2 Apr 42. 
10 Memo, Chief Planning Br Opns Div SOS for Supply Arms and Services, 7 May 1942. THE 4.2-INCH MORTAR IN THE MTO 
423 
4.2-Inch Chemical Mortar Crew in Action during the Italian campaign. 
were authorized before the existing units were shipped, there would 
be no battalions in the United States, trained or in training, and no 
sources of cadres for units activated later. As all of the 6 existing 
battalions were committed for the months of March and May 1943, 
the CWS urgently recommended that 19 additional battalions be acti- 
vated by the end of 1943, 6 of them at once to replace a like number 
being sent overseas.10 Soon after the final decision to commit four 
battalions for operations in Sicily, the War Department authorized the 
activation of four additional battalions—the 86th, 87th, and 88th in 
May and the 85th in June.21 
Ltr, Actg CCWS to OPD WDGS, u Mar 43. 
(1) Memo, Chief Field Rqmts Br OCCWS for Chief Sup Br, 16 Apr 43. (2) TAG Ltr, 4 May 
43. AG 320.2 (5-1-43). (3) CWS Units Activated, 1 Oct 44. CMLHO. 424 
THE CHEMICAL WARFARE SERVICE 
Sicily 
Preparation for Combat 
The mortar battalions selected for participation in Husky, the 
invasion of Sicily, were the 2d, 3d, 83d, and 84th.22 The latter three 
sailed almost immediately, arriving in North Africa early in May. 
These battalions finished their training in the theater although about 
half of the available time was spent in acquiring their full complement 
of organizational equipment and in staging. At this time the 3d, 83d, 
and 84th Battalions were placed in support of the 3d, 1st, and 9th 
Infantry Divisions, respectively.23 
Unfortunately, the pressure of preinvasion activities and the late 
date of attachments left little time for the kind of training most 
urgently needed by the mortar battalions—combined exercises with the 
infantry units to which they were attached. Most mortar units also 
lacked amphibious training. Of the early arriving battalions, only two 
companies of the 3d, commanded by Lt. Col. Edgar D. Stark, had 
received this specialized training before leaving the United States, and 
that was limited to a few weeks at the Amphibious Training Center, 
Camp Carrabelle, Fla., later known as Camp Gordon Johnston.24 The 
three battalions received "only sketchy preparation for the problem 
of amphibious maneuvers” at the Fifth Army Invasion Training Center 
after they arrived in North Africa.2i> 
The fourth mortar unit earmarked for Sicily fared better in its 
preparations. While undergoing training at Fort Bragg, N. C., the 
2d Battalion, commanded by Lt. Col. Robert W. Breaks, had been 
able to arrange locally for joint training with infantry units also located 
at Fort Bragg. The 2d Battalion was attached to the 45 th Infantry 
Division in February 1943 during final training preparations for over- 
seas movement, preparations which included work in mountain and 
amphibious operations. This experience constituted what until then 
"Unless otherwise noted, the section on Sicily is based upon the combat reports of the participating 
battalions: (i) Journal of ad Cml Bn (Motorized) in World War II, to to Aug 1943; (2) History 
of 3d Cml Bn in Campaign of Sicily, 10 Jul 43-30 Aug 43; 83d Cml Bn, Battle Rpt, The Battle 
for Sicily, 5 Nov 1943. See also: (4) Lt Col Albert N. Garland and Howard McGaw Smyth, Sicily 
and the Surrender of Italy, UNITED STATES ARMY IN WORLD WAR II (Washington, 1965). 
2i Rpt of Seventh Army in Sicily. 
24 (1) Rpt of Seventh Army in Sicily, p. H—1. (a) Interv, Hist Off with Lt Col Robert W. 
Breaks and Col Fellenz, a3 Oct 44. (3) Brophy and Fisher, Organizing for War, ch. XIII. 
20 Rpt of Seventh Army in Sicily, p. H-i. THE 4.2-INCH MORTAR IN THE MTO 
425 
were probably the only cases of joint 4.2-inch mortar-infantry train- 
ing in the United States. The 45 th and its supporting units sailed for 
North Africa combat-loaded, arriving near Oran just twelve days 
before embarkation for Sicily. During this brief stay the id Battalion 
completed a 15-day training program in less than half the allotted 
time.26 
CWS officers in North Africa exerted every effort to acquaint in- 
fantry commanders with the chemical mission, including the 4.2-inch 
mortar and its proper employment. Even before the arrival of the 
chemical battalions they conducted demonstrations with 4.2-inch 
mortar WP shells, colored grenades, and flame throwers. With the 
arrival of the first three battalions CWS officers were able to hold 
mortar demonstrations for the chief of staff of Seventh Army and other 
high ranking officers.2' 
Despite the limited time to prepare for the invasion the participating 
infantry divisions gave some thought and effort to use of mortar units 
during the assault phase. Three platoons of the 3d Battalion mounted 
mortars on landing craft and actually accompanied the assault waves 
of three of the four landing teams of the 3d Infantry Division. Com- 
plete surprise in that sector eliminated any need for the 4.2-inch 
mortars.28 Plans to use 2d Battalions mortars in the assault phase were 
canceled because of the limited number of landing craft. No thought 
was given to the amphibious employment of the 83d Battalion because 
of that unit’s lack of specialized training.29 The 84th Battalion was 
not committed to the fighting in Sicily, but was kept in reserve. 
The experience in Sicily prompted some of the participating CWS 
officers to predict the unlikelihood of mortar employment in subsequent 
landing operations/0 The Fifth Army chemical officer felt that "when 
one is making a landing at a distance from his base, shipping space is 
so precious that I doubt if it will ever be possible to mount the 4.2-inch 
20 (i) Journal of 2d Cml Bn. (2) Col. Breaks Comments on draft of this volume, } Feb 61, 
declared that senior commanders such as Maj. Gen. Omar Bradley and Maj. Gen. Troy Middleton 
gained an early appreciation of the 4.2-inch mortar from observing these exercises. 
27 (1) CWS TofO Ltr No. 5, 3 Sep 43 and Inch 1, p. 2. (2) Rpt of Seventh Army in Sicily, 
p. A-4. 
28 History of 3d Cml Bn in Campaign of Sicily, 10 Jul 43-30 Aug 43. (2) CWS TofO Ltr No. 6, 
8 Oct 43, p. 14. 
29 (1) Breaks-Fellenz Interv. (2) CWS TofO Ltr No. 6, 8 Oct 43, p. 14. 
30 (1) Ltr, CO 83d Cml Bn to ACCWS for Field Opns, 12 Sep 43. CWS 314.7 Personal Ltr files, 
NATOUSA. (2) Breaks-Fellenz Interv. 426 
THE CHEMICAL WARFARE SERVICE 
on landing craft,” 31 a correct prediction for the war against Germany, 
if not for the operations in the Pacific theaters. 
Upon entry in combat each of the mortar battalions was composed 
of 1,010 men: 36 officers, 1 warrant officer, and 973 enlisted men,32 
distributed among a headquarters, a headquarters company, a medical 
detachment, and four weapons companies. Each company had 2 
platoons, each platoon 2 sections, and each section 3 squads. On the 
basis of one mortar per squad, the battalion complement of mortars 
was 48. Transportation of the battalion consisted of 88 il/2-ton trucks 
and 3 6 vehicles of varying smaller sizes. Chemical mortar carts were 
present in case of rough terrain. Side arms for the battalion included 
820 .45-caliber automatics.33 
The Initial Test of Battle 
H-hour for Husky was 0230, 10 July 1943. With one exception 
the mortar units landed in their assigned sectors without incident. The 
exception was the 83d Battalion, commanded by Colonel Cunin, three 
companies of which supported a Ranger task force which was attached 
to the 1 st Infantry Division and which had as its objective the coastal 
town of Gela, with its complex of strong defenses.34 The three mortar 
companies encountered false beaches in front of the true landing area. 
Although the assault craft carrying Company A managed to push 
across the sandbar and reach its proper objective, the vessels carrying 
the other two companies extricated themselves only with difficulty. 
During the first days of the battle chemical mortars fired against 
every type of target that presented itself. Some of the hardest fighting 
took place at Gela where a series of enemy tank thrusts threatened 
Ranger units, and, surprisingly enough, where 4.2-inch mortar fire 
was used with a great deal of success against armor. On D-day mortar 
fire from Company C, 83d Battalion, helped throw back a tank- 
infantry attack, and later a group of Italian light tanks broke into 
town only to be repulsed by antitank guns, bazookas, and pole charges. 
31 Ltr, CmlO Fifth Army to ACCWS for Fid Opns, 26 Sep 43. 
3'T/0 3-25, Cml Motorized Bn (Separate), I Apr 42. 
33 The 2d Battalion substituted .30 carbines for the .4j’s in order to have a better local defense capabil- 
ity. Breaks Comments, 3 Feb 61. 
34 (1) 83d Cml Bn, Battle Rpt, The Battle for Sicily, 3 Nov 43, pp. 2-5. (2) Maj. William S. 
Hutchinson, Jr., "Use of the 4.2-Inch Mortar in the Invasion of Sicily,” Chemical Warfare Bulletin, 
vol. 29, No. 8 (December, 1943-January, 1944). THE 4.2-INCH MORTAR IN THE MTO 
427 
Pulling a 4.2-Inch Mortar Cart Over Rugged Terrain 
In this skirmish the bazooka team of Company A disabled one tank 
which was immediately blown up by a Ranger with a pole charge.33 
Next day chemical mortars, firing without aiming stakes or prepared 
emplacements, were not quite accurate enough to destroy any of a 
group of nine tanks but were threatening enough to force the tanks 
to withdraw to positions where they were dispatched by friendly 
artillery and naval gunfire.36 
Actually, the chemical mortars had the necessary accuracy to engage 
targets as small as a tracked vehicle. Just before dawn on one of the 
early days of the Sicily campaign, a temporarily disabled German tank 
began harassing an infantry position with automatic fire as the crew 
made repairs. Asked for help by the infantry, a 2d Chemical Battalion 
company commander called for one sensing round and then for a volley 
of eight. The tank was silenced. Daylight examination of the tank 
found all mortar rounds within an area fifteen yards in diameter, with 
i’Hutchinson, "Use of the 4.2-Inch Mortar in the Invasion of Sicily,” Chemical Warfare Bulletin, 
vol. 29, No. 8 (December, 1945-January, 1944). 
38 (1) Ibid. (2) 83d Cml Bn, Battle for Sicily, 5 Nov 43. 428 
THE CHEMICAL WARFARE SERVICE 
one of them down the open turret of the vehicle.37 Once the beach- 
heads were consolidated, chemical mortars fired preparations preceding 
infantry attacks, interdicted enemy lines of communications, and fired 
on machine guns, mortars, ammunition dumps, and barracks.38 
One of the most significant chemical mortar smoke missions in 
Sicily was a series of screens fired for the 3d Infantry Division during 
the period 6-8 August. The Germans held a strong ridge line east of 
the Furiano River, which flows northward to the sea. The 7th Infantry 
received the mission of seizing the heights dominated by Hill 715. 
The 2d Mortar Battalion supported the attack with smoke and high 
explosives; Companies A and D fired HE concentrations and Company 
B carried out the smoke mission.39 From 0530 to approximately 0900 
on 6 August B Company maintained a 3,500-yard screen to conceal 
the advancing infantry. Firing from positions west of the river the 
mortarmen gradually increased the range of the smoke curtain from 
1,000 to 3,200 yards to keep pace with the progress of the attacking 
troops. The smoke mission terminated upon orders of the commander 
of the assault infantry battalion. At about 1000, as the mortars were 
firing on call, enemy artillery began pounding the American positions. 
Enemy shells hit 4 of the 6 mortar positions (knocking over 3 weapons, 
but damaging only 1), 2 platoon-size ammunition dumps, and gen- 
erally raised havoc with the wire communications of the battalion. 
That afternoon D Company fired a smoke mission which helped 2 
infantry battalions under heavy counterattacks to withdraw to the 
west side of the river. 
Early next morning the infantry tried again, and one B Company 
platoon concealed the advance to the attack position with a 1,000-yard 
screen. The mortars maintained this screen for almost fourteen hours 
despite difficulties caused by shifting winds.40 Once the screen was 
established it was kept up by two WP rounds a minute, although for 
a short period around noon weather conditions made it necessary to 
raise this number to five. The mortar crews lifted the screen several 
37Journal of ad Cml Bn, 14 Jul 43. (2) Lt Col Robert C. Breaks, "My Men Had Guts,” Chemi- 
cal Warfare Bulletin, vol. 30, No. 1 (February-March, 1944), (3) The journals of the three batta- 
lions contain frequent references of the direct or indirect destruction of tanks by 4.2-inch mortar fire. 
3S Ltr, ACmlO 45th Div to CmlO 45th Div, 3 1 Jul 43. 
30 Because of its proficiency in dispatching enemy troops the 4.2-inch mortar in Sicily acquired 
the nickname Goon Gun. As a tribute to the part these mortars played in this operation, Hill 71 j 
became known as Goon Gun Hill, at least in CWS circles. The infantry called it Million Dollar Hill 
because of the large number of rounds fired on it. The artillery also participated in the smoke mission. 
40 Rpt of Seventh Army in Sicily, p. B-18. THE 4.2-INCH MORTAR IN THE MTO 
429 
times during the day to permit friendly dive bomber attacks on the 
enemy positions. On the third day the infantry succeeded in taking 
the heights east of the Furiano, again with the help of chemical mortar 
smoke and high explosives.41 
Of the three mortar units committed to Husky the 2d Chemical 
Battalion saw the most action. In fact, it was said to have been the 
only combat unit on the island that saw no relief during the entire 
operation.42 After reaching Palermo the 3d Battalion was transferred 
to II Corps, an attachment which terminated its combat activities for 
the campaign. Thereafter the battalion performed a number of rear 
area duties, principally those dealing with transportation. It also 
guarded prisoners of war and ammunition dumps, collected ammuni- 
tion, and generally participated in assignments which failed to utilize 
its capabilities as a mortar unit.41 On the other hand, the limited ac- 
tivity of the 83d Battalion, attached to both the 2d Armored and 
82d Airborne Divisions after the initial stages of the campaign, resulted 
primarily from a lack of suitable targets.44 
Despite early difficulties faced by the chemical mortar battalions in 
their first combat action, they made a creditable record during the 
Sicily Campaign. The absence of established doctrine and, with the 
exception of the 2d Battalion, the lack of joint infantry-mortar train- 
ing, resulted not only in some misuse of the battalions but in the failure 
to use them "where they could have been employed to exceptional 
advantage.” 40 
Nevertheless, reaction of ground commanders who had been sup- 
ported by the chemical mortars was generally favorable, and most of 
them advocated chemical mortar support for all divisions committed 
to action.46 Among their comments were "the equivalent of real ar- 
tillery,” which the chemical mortar was not, and "the most effective 
single weapon used in support of infantry,” 47 a statement to which 
it had fair claim. 
41 Breaks, "My Men Had Guts,” Chemical Warfare Bulletin, vol. 30, No. 1 (February-March, 1944). 
42 (1) Ibid. (2) Upon its relief from attachment to the 45th Division, the id Battalion was attached 
to the 3d Division. 
43 (1) History of 3d Cml Bn in Sicily. (2) Rpt of Seventh Army in Sicily, pp. H-i—3. 
44 Rpt of Seventh Army in Sicily, pp. H-i—3. 
45CmlO Seventh Army, Rpt of Cml Warfare Opns—Sicilian Campaign, 24 Sep 43. 
46 Ltr, CO 83d Cml Bn to ACCWS for Field Opns, 12 Sep 43. 
4‘ Extracts from Training Notes from the Sicilian Campaign, in Ltr, CCmlO NATOUSA to ACCWS 
for Field Opns, 6 Nov 43. CWS 314.7 Personal Ltr files, NATOUSA. 430 
THE CHEMICAL WARFARE SERVICE 
The Problem of Transportation 
General Shadle, Chief Chemical Officer, NATOUSA, put his finger 
on one of the main shortcomings revealed by this first test of combat 
when he said there was nothing seriously wrong with the 4.2-inch 
mortar or the chemical battalion except transportation.48 The prin- 
cipal means of motor transport in the mortar battalion was the 2/4-ton 
truck, often too big and too conspicuous to operate adequately in 
positions as near the front as the 4.2-inch mortars were emplaced. 
The /4 -ton truck and trailer seemed more appropriate, and at times 
infantry commanders gave up some of their own jeeps in order to 
insure chemical mortar support.49 Because man-handling the mortar 
carts was an arduous task, crews sometimes attached them to jeeps, an 
unsatisfactory practice because of damage to the wheels and handles 
of the smaller vehicle. Once an infantry battalion commander directed 
his reserve riflemen to help mortar crews struggling with their carts, 
an unorthodox move which illustrated as well as anything how highly 
infantrymen esteemed the mortar.50 Often mortar crews comman- 
deered mules in order to keep up with the infantry advance. These 
animals not only made up for inadequate basic transportation but 
reached places inaccessible to vehicles,51 a fact that led General Patton 
to opine at the end of the campaign that the pack animal still had a 
role in modern warfare.i)2 
The mortar battalion tables of organization and equipment pub- 
lished shortly after the Sicilian campaign provided for /4-ton trucks 
and trailers as the basic means of transportation. But because of delays 
in acquiring the new vehicles and because of the type of terrain and 
fighting encountered in Italy, this change did not prove to be the 
expected panacea. 
Efforts To Increase the Range 
The other serious difficulty encountered in the first combat employ- 
ment of the mortar was that of its range. The introduction of the 
JS Ltr, CCmlO NATOUSA to ACCWS for Field Opns, 26 Aug 43. CWS 314.7 Personal Ltr files, 
NATOUSA. 
4<> Journal of 2d Cml Bn. 
50 Breaks, "My Men Had Guts,” Chemical Warfare Bulletin, vol. 30, No. 1 (February-March, 1944). 
B1 Journal of 2d Cml Bn. 
"■ Notes on the Sicilian Campaign. THE 4.2-INCH MORTAR IN THE MTO 
431 
M5A1 propellant in January 1943 increased the range of the mortar 
from 2,400 to 3,200 yards.',1 The M6 propellant, standardized in 
March 1943, raised the maximum range to 4,500 yards although the 
item was not in production in time for use in Sicily. Meanwhile, in 
July 1943 OCCWS froze the range of the 4.2-inch mortar at 3,200 
yards, despite repeated requests from North Africa for increased range. 
Washington headquarters answered: "It has been decided, for prac- 
tical purposes, and in view of manufacturing and materiel difficulties, 
the chemical mortar is to be considered as having a maximum range 
of 3,200 yards. ... It is considered that this is a satisfactory range, 
and any additional work done is to be confined to further perfecting 
the performance of this weapon within this range.” 54 
At the end of hostilities in Sicily a conference of Seventh Army 
CWS officers agreed that a range of 4,500 was required,05 an opinion 
which was reflected in the other important reports of the Sicilian 
campaign. ’6 These recommendations, combined with an urgent request 
from theater headquarters for a chemical mortar range of at least 
4,500 yards, led the OCCWS to reverse its decision/" Shortages of 
certain ingredients for the M6 propellant added to the delay involved 
in getting the Army Ground Forces blessing for the increased range, 
so that supplies of the M6 propellant did not reach the theater until 
the end of the year. 
Among the lesser problems arising in Sicily were certain shortcomings 
of the M2 mortar sight. This piece of equipment was unsatisfactory 
for night employment because it lacked a means of illumination. More- 
over, it could not be employed from deeply defiladed positions. In these 
positions sighting stakes had to be placed to the rear of the mortar 
position rather than to the front, because of the small traverse (200 
mils) of the M2 sight. This limited traverse also caused excessive 
re-emplacements. Captured Italian 81-mm. mortar sights with 360° 
traverse proved much superior to the American model.58 
63 CWS TofO Ltr No. i, j Mar 43. 
64 CWS TofO Ltr No. 3, 23 Jun 43. 
66 Conf of Cml Warfare Officers of Seventh Army'. CMLHO. 
58 (1) Rpt of Cml Warfare Opns, Sicilian Campaign, 24 Sep 43. (2) Notes on the Sicilian Cam- 
paign. 
57 (1) CM-IN 18330, 24 Aug 43. (2) CM-OUT 11648, 28 Aug 43. (3) IOM, ACCWS to 
ACCWS Field Opns, 26 Aug 43. 
58 (1) Ltr, CO 83d Cml Bn to ACCWS Field Opns, 12 Sep 43. (2) Conf of Cml Warfare Officers 
of Seventh Army. (3) Memo, ACmlO Seventh Army for CmlO Seventh Army, 23 Aug 43. 
CMLHO. 
289-149 0-68—29 43 2 
THE CHEMICAL WARFARE SERVICE 
There was little difficulty with mortar maintenance during the oper- 
ation as the equipment was new and not seriously overtaxed. Ammuni- 
tion was in good supply in Sicily although inadequate waterproofing 
initially resulted in numerous corroded fuzes.59 And transportation 
difficulties resulted in low ammunition reserves at forward positions, 
even though the over-all supply of mortar shell in Sicily was ample.60 
The Salerno Landings 
The 2d, 83d, and 84th Chemical Mortar Battalions took part in the 
fighting at Salerno, the first of a series of punishing campaigns fought 
in the rugged terrain of Italy.61 Companies C and D of the 83d sup- 
ported American Rangers and British Commandos of the 10 British 
Corps, Fifth Army’s left unit during its assault at Salerno. Originally, 
the 84th Chemical Battalion was to have supported the 36th Division, 
the assault force of the VI U.S. Corps on the army’s right. These 
plans went awry. According to the battalion commander, Lt. Col. 
Harrison Markham, Seventh Army orders releasing the 84th to VI 
Corps were lost, and by the time the confusion cleared no shipping 
space was available with the 36th Division. Three companies of the 
battalion did find room with corps reserves and eventually fired for 
the 45 th Division, which also had the support of the 2d Chemical 
Battalion.62 
Although the enemy reacted vigorously to the Salerno landings, so 
that a period of sanguinary fighting resulted in which the fate of the 
beachhead was sometimes uncertain, the attack began auspiciously. 
Company A, 2d Chemical Battalion, landed at 0300, 10 September, 
(D plus 1) with the 179th Infantry, 45th Division.63 Next day violent 
enemy counterattacks pushed the American force back from its ad- 
vanced position, and in the course of the withdrawal Company A’s 
1 st Platoon lost eleven men. Company B, in support of elements of 
69 (i) Rpt of Seventh Army in Sicily, p. H-i. (2) CM-IN 4819, 8 Jun 43. 
60 See Journal of 2d Cml Bn, pp. 28, 33, 40, 52. 
61 For general accounts of the fighting in Italy, see (1) Blumenson, Salerno to Cassino, and Ernest 
F. Fisher, Cassino to the Alps, volumes in preparation for the series U.S. ARMY IN WORLD WAR 
II; (2) see also, Garland and Smyth, Sicily and the Surrender of Italy. 
62 (1) Interv, Hist Off with Markham, 16 Jan 45. (2) Opnl History of Cml Bns and the 4.2- 
Inch Mortar in World War II, pt. II, The Italian Campaign, p. 53. This is a detailed study of chemical 
mortar operations in Italy. 
93 Unless otherwise noted, the 2d Chemical Battalion S-3 Journal serves as the basis for the account 
of that unit’s operations in Italy. THE 4.2-INCH MORTAR IN THE MTO 
433 
another regiment of the 45 th Division near the town of Persano, also 
ran into trouble. Suddenly faced with direct enemy fire, the mortarmen 
had no alternative but to pull back. In the confusion that followed 
some of the mortars were left behind, to be recovered, fortunately, at 
a later time. Company C supported the 1 57th Infantry, 45th Division; 
for some unaccountable reason Company D remained in reserve during 
the entire Salerno operation.64 
The first troops of the 84th Battalion came ashore near Paestum on 
D-day, but congestion in shipping space forced them to land without 
equipment. It was not until 12 September that these companies received 
their full complement of men and mortars.6'1 By this time the situation 
of the Fifth Army was serious. The German attack which had turned 
the right flank of the 45 th Division also cut off elements of the 36th 
Division north of the Galore River.66 Orders received by a company 
commander of the 2d Mortar Battalion indicated the grave plight of 
the American forces. If the enemy should come too close for effective 
mortar fire, the mortar troops were directed to stand fast and defend 
their positions with rifle fire and, if necessary, bayonets.67 
Virtually every available American element was thrown into the 
line on 14 September when the enemy renewed his heavy infantry and 
tank attack. One of the companies of the 2d Chemical Battalion fired 
1,152 rounds during the day. Over 500 of these were white phos- 
phorus used to set fire to the dry brush, making those areas untenable 
to the enemy. Early that afternoon the company helped repulse an 
enemy tank attack in an action which saw the mortar forward observer 
direct artillery fire as well as that of his own weapons. The stalwart 
defense on 14 September blunted the German counterattack and se- 
cured the beachhead. 
Meanwhile, companies of the 83d Battalion supported the American 
Rangers and British Commandos in action in the 10 Corps sector.68 
On Sicily this mortar unit had earned the sobriquet Artillery of the 
Rangers. This expression was equally apt for the unit’s service with 
the Commandos, who also operated without organic heavy weapons. 
84 (i) Co A 2d Cml Bn, Red of Events. (2) 2d Cml Bn Casualty Rpt, 11 Sep 43. (3) Fifth Army 
Cml Warfare Sec Journal, 26 Sep 43. (4) Ltr, Fifth Army CmlO to CCWS, 25 Sep 43. 
60 Unless otherwise noted, the operations of the 84th are based on the battalion field journal. 
68 VI Corps Opns Rpt, Sep 43. 
Co C 2d Cml Bn Unit Journal. 
8<< Unless otherwise noted, the 83d Battalion Operations Report is the basis for account of unit op- 
erations in Italy. 434 
THE CHEMICAL WARFARE SERVICE 
The Commandos and Company D landed at Vietri sul Mari at 0400, 
9 September, with the task of blocking the northern approaches to 
Salerno. In addition to performing missions of harassment and inter- 
diction, the 4.2-inch mortars fired on troops, tanks, and emplacements. 
An impressive action took place on 18 September when D Company 
fired a preparatory barrage of 1,194 rounds on two strongly defended 
hills north of Salerno. The hard fighting in the Vietri area continued 
for about ten days until the Germans began their withdrawal.69 
At this juncture, the Commandos, having suffered casualties of 
almost 75 percent, were pulled from the line. Company D stayed on, 
reinforcing Company C, which had landed at Mairoi on D-day in 
support of the three battalions of American Rangers. This small, elite 
force of 1,500 advanced inland and seized Chiunzi Pass and Mt. St. 
Angelo, which commanded the German supply route south of Naples. 
Charged with holding the entire peninsula the Ranger force held out 
for three weeks against attacks in which the enemy sometimes had 
a numerical superiority of eight to one. As a consequence, the Rangers 
were so thinly spread that mortar units not only performed their own 
mission as artillery of the Rangers but also held front-line positions 
as regular infantry. Sometimes mortar crews were stripped down to 
one or two men and the rest sent to repel counterattacks or on patrol. 
These crews engaged enemy 8 8-mm, guns and 240-mm. howitzers 
at distances 2,000 yards or more beyond the authorized range of their 
mortars. Companies C and D of the 83d fired over 14,000 rounds in 
the first two weeks of the campaign, a total, according to Colonel 
Barker, which equaled that of all the other mortar units.'0 One result 
of this heavy firing at excessive ranges was the rapid breakdown of the 
weapons. In spite of the combined efforts of both CWS and ordnance 
maintenance units, at the end of the first three weeks in Italy there 
were only three mortars in action in one company and six in the other.71 
Naples fell to the British 10 Corps on 1 October and the first phase 
of the Italian fighting was over. The important role of 4.2-inch mor- 
tars in the over-all success is indicated by Col. William Darby of the 
Rangers who reported that his forces were able to hold Chiunzi Pass 
"largely due to the chemical mortar battalion attached to the unit.” 72 
Interv, Hist Off with Lt Col William S. Hutchinson, Jr., 26 Jan 45. 
11 Ltr, CmlO Fifth Army to CCWS, 25 Sep 4J. 
a (1) Ibid. (2) Hutchinson Interv, 26 Jan 45. 
72 Notes on Interv with Darby, 18 May 44. AG-OB-S, Log 2704. THE 4.2-INCH MORTAR IN THE MTO 
435 
From the Volturno to the Winter Line 
Crossing the Volturno 
By 6 October the Fifth Army had advanced to a line running gen- 
erally along the south banks of the Volturno and Galore Rivers inland 
to the town of Benevento. The British io Corps held the western part 
of this front, the U.S. VI Corps the eastern sector. These units crossed 
the Volturno on the night of 12-13 October. The 84th Chemical Mor- 
tar Battalion (less Company A) supported the 3d Division and Com- 
pany A, id Battalion, supported the 34th Division. 
Of these mortar units, the 84th Battalion probably received the most 
calls for support. Company D fired both screening and high explosive 
missions for a regimental crossing and later screened bridge-building 
activity of the engineers. During the daylight hours of 13 October 
Company B used 2,805 rounds of white phosphorus to conceal the 
corps left flank from enemy observation from the heights above the 
town of Triflisco. The mortarmen carried out this mission by firing 
the WP directly on these heights using the maximum authorized range 
of the 4.2-inch mortar—3,200 yards. At first, Company B employed 
one platoon of four mortars for the screening operation but the re- 
quired rapid rate of fire made barrels so hot that propellants ignited 
before the rounds reached the firing pin. The commitment of another 
platoon reduced the rate of fire and eliminated the trouble.73 In addi- 
tion to these normal mortar missions, the 84th Battalion furnished a 
detail of 3 officers and 100 men which expended 400 Mi smoke pots 
to conceal bridging sites and their exposed approaches.74 
Fifth Army carried the assault of the Volturno with swiftness and 
skill, and for a brief time thereafter chemical mortar activity was 
characterized by relatively light firing. It was during this period that 
problems arose which were to confront mortar units throughout most 
of the Italian campaign. One of these involved communications. 
Mortar battalions used a tremendous amount of wire to maintain 
contact among units, the radio playing a secondary role because of 
the excessive amount of dead space typical in mountainous terrain and 
because of the danger that its use would reveal exact positions to the 
enemy. Mortarmen usually laid two lines of wire from the company 
73 (1) Fifth Army Chemical Warfare Sec Journal, 16 Oct 43. (2) Markham Interv, 16 Jan 43. 
71 For an account of the use of smoke pots by mortar units, see above, Chapter VIII. 436 
THE CHEMICAL WARFARE SERVICE 
command post to the platoon firing positions and at least two lines (by 
different routes) from each gun position to the observation post. In 
heavy fighting enemy fire frequently shot up the wire—the communi- 
cation lines of one mortar platoon were interrupted six times during 
a single day in the Mount Acero region, permitting it to fire only two 
missions with a total expenditure of eighteen rounds.75 The wire- 
cutting capabilities of friendly vehicles, particularly those with tracks, 
also proved discouraging to good communications. In fast-moving 
situations there was no alternative to the radio. The SCR-284, used 
principally between battalion and company command posts, proved 
reasonably satisfactory but poor performances by SCR’s 193 and 194 
brought a great many complaints.76 
It was also at this time that the need for animal transport began to 
increase. Poor roads characterized the rocky, mountainous terrain in 
which the fighting took place, forcing the 84th to use oxen to haul 
its mortars over the steep slopes near Venafro. Mules were the usual 
beasts of burden. Upon crossing the Volturno, the 84th Battalion, 
failing to get these animals from the 3d Division to which it was at- 
tached, captured its own mules and successfully improvised pack saddles. 
Because the U.S. Army mule pack was too large and heavy for the local 
animals, the Italian model became the pack usually employed.77 
Early Fighting in the Winter Line 
After being driven from positions north of the Volturno the enemy 
fell back to his Winter Line which extended along the Garigliano River 
and thence into the mountainous region from Mignano to Venafro and 
on toward Isernia. This series of defensive positions was designed to 
hold Fifth Army’s advance and allow the Germans to fortify further 
the more formidable Gustav Line. Allied forces reached the Winter 
Line during the first week of November, but the rather rapid advance 
ground to a halt in front of stiffened resistance and in face of the 
increased difficulties caused by winter weather.78 
The initial attack on the Winter Line saw all four chemical mortar 
battalions committed to action. The 3d Battalion, which had remained 
'“Co C ad Cml Bn Unit Diary, 15 Oct 43. 
™ (1) History of 3d Cml Bn, Jan 44, pp. 10-11. (a) ASF Bd Rpt, NATO, No. 71, 6 Nov 43, Rpt of 
45th Inf Div. (3) Breaks-Fellenz Interv, 23 Oct 44. (4) Markham Interv, 16 Jan 45. 
" (1) Markham Interv, 16 Jan 43. (2) AGF Bd Rpt, NATO, No. A-112, 23 Dec 43. 
78 Fifth Army History, II, 47. THE 4.2-INCH MORTAR IN THE MTO 
437 
behind in Sicily, joined the Fifth Army on 30 October. Company A 
of the 84th and Companies A and B of the 83d rejoined their parent 
units for the first time on Italian soil.'9 Until then the operations of 
the Fifth Army had not been marked by extended static situations, 
and the chemical mortar units were of only limited value in rapidly 
moving situations. Strong enemy defenses and the approach of winter 
promised a different sort of campaign, one which would make good 
use of the capabilities of the 4.2-inch mortar. 
The key position in the American sector opposite the Winter Line 
was a gap in the mountains at Mignano through which ran Highway 6. 
This presented an avenue to the Liri Valley, called the Gateway to 
Rome, and the ultimate objective of the operations. To the left of the 
Mignano gap loomed Mount Camino and to the right, Mount Sam- 
mucro. In between were several lesser land masses which effectively 
served as "stoppers” for the break in the east-west mountain chain.80 
The VI Corps had reached the Winter Line in early November and 
had bloodied its nose in its attempt to break through. In the various 
engagements in the Mount Difensa—Mount Sammucro—Mount Santa 
Croce area the 2d and 83d Chemical Mortar Battalions saw action 
in support of the 3d Division and Ranger and parachute troops. The 
mortars fired preparatory barrages, sometimes followed by screens for 
the advancing infantry. On 12 November one platoon of Company 
C, 2d Battalion, in conjunction with the artillery and in support of 
a 3d Division attack on Mount Difensa, laid down a preliminary bar- 
rage on a point just beyond the summit, an area which could not have 
been reached by the artillery. During the last three minutes of the 
barrage, the platoon fired forty-nine rounds of WP to conceal the 
infantry assault. Twenty-four rounds of white phosphorus screened 
the American withdrawal when the attack failed.81 
On 13 November a German counterattack against the 4th Ranger 
foothold on Mount Sammucro initially rolled back that unit’s right 
and left flank. Some of the shells of the protective concentrations of 
Company B, 83d Battalion, fell within 100 yards of friendly positions. 
The company fired 3,605 rounds of HE and 163 WP so rapidly that 
one of the mortar firing pins became fused. In the course of this 
fighting German artillery scored two direct hits on Company B ammu- 
79 Fifth Army Cml Warfare Sec Journal, i, 9, 22, 30 Oct 43. 
Fifth Army at the Winter Line, p. 8. 
M Co C 2d Cml Bn Unit Diary. 438 
THE CHEMICAL WARFARE SERVICE 
nition dumps, destroying i ,000 rounds of ammunition.82 The Rangers 
thwarted the attack, and artillery, mortar, and small arms fire pre- 
vented the enemy from reorganizing for another assault.83 
In mid-November Fifth Army paused to regroup. II Corps moved 
to the middle of the line, and VI Corps shifted to the right. For 
two weeks, while army planned for a continuation of the assault 
on the Winter Line, its troops remained on the defensive. The missions 
of the 4.2-inch mortars—the prevention of enemy observation and 
disruption of his troop concentrations and counterattacks—reflected 
this lull in operations. It was during this period that water-damaged 
propellants became a serious problem. In the 84th Battalion 80 percent 
of these items were found to have moisture enough to cause shorts or 
"poop outs.” An investigation of this condition by the chemical 
officer of the Fifth Army led to the manufacture and operation of a 
dryer for propellants by the 12th Chemical Maintenance Company 
at Capua.84 
Fifth Army plans for overcoming the Winter Line defenses consisted 
of three phases: an attack on Mount Camino on the left of the Mignano 
gap; an attack on Mount Sammucro on the right of the gap; and, 
finally, the drive into the Liri Valley. The first phase, appropriately 
called Operation Raincoat, combined assaults by the British 10 and 
the American II Corps on Mount Camino and its neighboring peaks, 
Mounts Difensa and Maggiore. Company A of the 83d Battalion and 
Company B of the 2d supported the 1st Special Service Force85 and 
the i42d Infantry, 36th Division, in this operation. The second phase, 
the attack on the Mount Sammucro complex, began on 8 December. 
During this difficult fighting Company B, 83d Chemical Battalion, 
supported the 3d Ranger Battalion in an attack against Hill 930, a 
lesser land mass adjacent to the main objective. Although at first suc- 
cessful, the Rangers were finally swept off the hill by a violent enemy 
counterattack. Company B mortarmen placed heavy concentrations 
on the hill in rebuttal, attracting intense enemy artillery and mortar 
fire in the process. This concentration killed two men, wounded ten, 
hit the company ammunition dump, and temporarily put one platoon 
s3 83d Cml Bn Casualty Rpt, 14 Nov 43. 
83 Co B 83d Cml Bn Action Rpt, 23 Nov 43. 
84 (1) Fifth Army Cml Warfare Sec Journal, 10 Dec 43. (2) See above, Chapter VII, for more 
on the Capua facility. 
80 Composed of Canadians and Americans, this regiment-sized unit was a specially trained task force 
and not, as the name implies, a service force in the normal sense. THE 4.2-INCH MORTAR IN THE MTO 
439 
out of action. Next morning the Rangers again took Hill 950, abetted 
by heavy artillery and 4.2-inch mortar preparations, but their losses 
were so heavy that they were replaced by the 504th Parachute Infantry 
regiment. The 4.2-inch mortar company remained in position and 
supported the new unit until 23 December, by which time Mount 
Sammucro was in American hands. 
Problems and Improvisations 
On 15 December the 36th Division attacked the remaining enemy- 
held heights of Mount Sammucro and the stronghold of San Pietro, 
a town located off the southwest slope of the mountain. The four 
companies of the 2d Battalion ran into trouble in supporting this 
attack with smoke and high explosives. Tanks broke the communication 
wire of two companies, and spongy soil caused the mortars of another 
to bounce so badly that they had to be re-emplaced every five or six 
rounds. Mortar breakage was a serious problem; when Company A 
completed its mission on 16 December only three mortars remained 
in action, and the elevating screw of each of these was locked.86 Much 
of the breakage resulted from frequent use of mortars against German 
heavy mortars and Nebelwerfers, whose ranges exceeded that of the 
American weapon. Firing at excessive range caused failure of many 
parts of the mortar—elevating and traversing screws bent, the brass 
barrel housings split, locking forks bent, base plates broke, and recoil 
springs lost their resilience.87 The new M6 propellant, promised during 
the Sicily Campaign, and a strengthened base plate combined to increase 
the maximum authorized range of the 4.2-inch mortar from 3,200 to 
4,400 yards. The battalions in Italy began receiving the new propel- 
lants in December 1943, and their successful tests prompted the Fifth 
Army chemical officer to request that all future shipments of propel- 
lants be of this type.88 
A feature of the fight for San Pietro was the introduction of a self- 
propelled 4.2-inch mortar, designed to provide the infantry with a 
means of more mobile support and armored units with a weapon with 
a high angle of fire. Developed by Colonel Barker and the 36th Divi- 
sion ordnance officer, at the instigation of the latter’s commander, 
s" (i) Co C 2d Cml Bn Unit History, 15 Dec 43. (2) Co A 2d Cml Bn Red of Events. 
8‘ Ltr, CmlO Fifth Army to CCWS, 24 Nov 43. CMLHO. 
ss (1) 3d Cml Bn Journal, 5 Dec 43. (2) Fifth Army Cml Warfare Sec Journal, 5 Dec 43, 21 
Jan 44. (3) Ltr, CmlO Fifth Army to CCWS, 22 Jan 44. (4) CM-IN 20511, 31 Jan 44. 440 
THE CHEMICAL WARFARE SERVICE 
this roving gun was simply a 4.2-inch mortar mounted on an M7 
half-track. Upon first lumbering into position at San Pietro, its noise 
brought down a heavy enemy artillery concentration. Moving to a 
defiladed position the self-propelled mortar fired with good results 
fifty rounds of WP at a range of 3,000 yards. 
The weapon and chassis came through this initial test with moderate 
success. The mortar mount suffered some damage and the blast effect 
against the sides of the vehicle proved exceedingly uncomfortable to 
the gun crew. But it appears that little subsequent use was made of 
the self-propelled mortar. Its size and silhouette precluded emplace- 
ment where close support weapons were needed. And any weapon 
which attracted too much enemy fire was not popular with the in- 
fantry.89 
While II Corps was overcoming the stubborn German defenses 
around Mignano, VI Corps, occupying the right flank of Fifth Army, 
found the going equally rough in the mountains to the north. Heaviest 
fighting in the 45 th Division sector took place near the village of 
Lagone. In an engagement on 1 5 December a forward observer for 
Company B, 84th Battalion, attached to the 180th Infantry, sighted 
the enemy forming for a counterattack in the sector of the adjacent 
regiment. The 209 rounds of high explosive and 454 rounds of white 
phosphorus shell dumped upon this formation aided in throwing back 
the enemy assault. One prisoner disclosed that the attack was going 
well until the German troops suddenly encountered intense mortar 
fire which killed the prisoner’s officer and a number of his fellow sol- 
diers. "We wanted to surrender . . .,” the German continued, and the 
"mortar fire scattered our troops all over the hill and gave us a chance 
to get away and give ourselves up.” 90 
Mount Pantano was the scene of the heaviest action in the sector of 
the other VI Corps division, the 34th. Fighting seesawed among the 
four knobs of the mountaintop for days, supported on the American 
side by the effective fire of a company and a half of the 3d Chemical 
Battalion. During a 2-day period at the end of November the mortar 
crews used so much ammunition, over 1,500 rounds, that fire was 
temporarily suspended. This was one of the few cases of such curtail- 
ment in the Italian campaign.91 
88 Fifth Army Cml Warfare Sec Journal, 5, 7, 8, 11, 16 Dec 43. 
,lrt 84th Cml Bn Field Journal, 15 Dec 43. 
81 (1) History of 3d Cml Bn, Nov 43. (2) Co D 3d Cml Bn Journal 29, 30 Nov 43. THE 4.2-INCH MORTAR IN THE MTO 
441 
Action With the French Expeditionary Corps 
The capture of the heights of Mount Sammucro, to the northwest, 
and of Mount Lungo, to the southeast, made San Pietro untenable for 
the Germans. The 36th Division occupied the destroyed and deserted 
village on 17 December. There remained the third phase of the Fifth 
Army attack on the Winter Line, a II Corps drive to the Rapido, ac- 
companied by a similar move through the mountains to the river by the 
French Expeditionary Corps (FEC) on the north. The fighting here 
provided a unique attachment for the 3d Chemical Mortar Battalion. 
The FEC, composed of a Moroccan and an Algerian division, replaced 
the VI U.S. Corps early in January 1944 when the corps withdrew from 
the right sector of Fifth Army to prepare for the impending Anzio 
operation. The 3d Chemical Mortar Battalion joined the FEC in an 
attachment which, with brief exceptions, lasted until June 1944. 
Preparatory to this attachment Fifth Army screened the four mortar 
battalions in Italy for French-speaking personnel, assigning those who 
qualified to the 3d Battalion. The mortar unit carried out its assign- 
ment well, being only mildly affected by the difficulties of adjusting 
to the operational procedures of the French.92 Its troubles came from 
another quarter. 
On 12 January the French Expeditionary Corps began a 3-day attack 
which successfully carried it through the northeastern vestiges of the 
Winter Line. Initially, Company B supported a regiment of the 2d 
Moroccan Division. During the course of the morning’s firing a shell 
exploded in a mortar barrel, killing one of the crew and wounding three 
others. As it turned out, this was but a prelude for worse things to 
come. The command post of Company C, 3d Battalion, was located in 
the town of Cerasuolo, a focal point for action in that particular 
sector. Colonel Stark, the battalion commander, was at this command 
post to insure the necessary close mortar support and to co-ordinate the 
fire of Companies C and D. At 1430 12 January Colonel Stark held an 
impromptu conference, attended by two company commanders, two 
acting company commanders, and a company executive officer. Eight- 
een minutes after these officers assembled enemy aircraft bombed the 
town. The command post sustained at least one direct hit. All the 
attending officers and seven enlisted men died instantly. Despite the 
virtual elimination of the command element of the battalion, prompt 
92 3d Cml Bn Journal, Dec 43, Jun 44. 442 
THE CHEMICAL WARFARE SERVICE 
reorganization permitted the unit to continue its mission, in fact, Com- 
pany C fired 157 rounds within two hours of the bombardment. The 
next day, however, the battalion reverted to Army control and went to 
a rest area near Naples.93 
The Gustav Line 
While defending the Winter Line the enemy had been working 
furiously on his positions behind the Rapid© and Garigliano Rivers. 
Known as the Gustav Line, these defenses extended from Mount Mar- 
rone on the northeast, through the mountains to Belvedere Hill, and 
south to Cassino. The line then followed the Rapid© and Garigliano 
Rivers across the Liri Valley and continued along a formidable moun- 
tain barrier curving back to its terminus, Mount Scouri, on the Tyr- 
rhenian Sea. The mountains on both ends of the Gustav Line, tremen- 
dous obstacles in themselves, were supplemented by well-emplaced 
weapons and mine fields. The center of the line, although lacking 
natural impediments, was a skilfully organized defense of mine fields 
and wire, pillboxes, and automatic weapon emplacements, all of which 
were covered by enemy artillery farther up the valley. The Fifth Army 
History succinctly summarizes the strength of the position: "The area 
of the Gustav Line had long provided the Italian General Staff with 
ideal terrain for field exercises. In these problems forces representing 
the enemy had never been able to penetrate the defense. The Italians 
considered the area as an impregnable obstacle to any army attempting 
to capture Rome from the south. The Germans were determined to 
prove the validity of that assumption.” 94 
On 1 5 January the enemy line before II Corps extended from Bel- 
vedere Hill along the right bank of the Rapido and Garigliano Rivers 
to the junction of the Liri and the Garigliano. Highway 6, the road to 
Rome, passed through the level terrain in the center of the corps sector, 
exposed as far back as Mount Lungo to observed artillery fire from 
enemy positions on the mountain heights in back of Cassino.95 The 2d 
Chemical Battalion used smoke pots to conceal this vulnerable area 
83 jd Cml Bn Opns Rpt, Jan 44. 
M Fifth Army History, VI, 7-8. 
85 See Fifth Army at the 'Winter Line, illustration on p. 66. THE 4.2-INCH MORTAR IN THE MTO 
443 
during the build-up for the II Corps attack across the Rapido, the 
initial American thrust against the Gustav Line.96 
The Fifth Army plan for its drive on Rome consisted of two parts: 
a 3-corps attack against the Gustav Line followed a few days later 
by an amphibious maneuver south of Rome and in back of the Gustav 
Line defenses—the Shingle operation at Anzio. Army planners hoped 
that the pressure on the main German position, combined with the 
threat to his rear, would force the enemy into a general withdrawal. 
The assault on the Gustav Line began on 17 January when the British 
10 Corps attacked across the Rapido. Successful on the left and in the 
center, the British forces were unable to win their objective on the right. 
So it was that when II Corps attacked three days later, it did so with an 
exposed left flank. South of Cassino the Rapido is a narrow, swift- 
moving stream varying in depth from nine to twelve feet. Sant’Angelo, 
the objective of the 3 6th Division, the assault force of II Corps, stands 
on a 40-foot bluff above the west bank of the river. The 141st Infantry, 
supported by Company A of the 2d Chemical Battalion, was ordered to 
cross the Rapido north of the town and then attack south and west. 
Companies B and C of the mortar battalion fired for the 143d In- 
fantry which was to cross the river south of the town and then, after 
reaching initial objectives, assist the 141st in the seizure of Sant’Angelo. 
Company D, assigned to a regiment of the 34th Division, was located 
in a position from which it could support the 141st Infantry. 
The night of 20 January was one of pandemonium. Attacking at 
2000 without surprise through mine fields and the fire of artillery, 
mortars and automatic weapons, both regiments encountered terrific 
resistance. All four mortar companies fired barrages just before or im- 
mediately after the time of attack. One half hour before the assault, 
Company A used 400 rounds of white phosphorus to lay down a smoke 
screen which, in the total absence of wind, rose to a height of 150 feet. 
Between 2030 and 2100 Company C placed 119 rounds of WP on 
enemy positions. Next day Company A laid down smoke screens for 
the men of the 141st who had been stranded on the far bank of the 
Rapido while Company C fired 204 rounds of WP to cover the with- 
drawal of elements of the 143d Infantry which had been given up for 
!,s For an account of these screening activities by the 2d Battalion, see above, Chapter VIII. 444 
THE CHEMICAL WARFARE SERVICE 
lost on the previous night. That afternoon, on the resumption of the 
attack, further 4.2-inch mortar fire supported the infantry units.97 
One of Company C’s forward observers participated in this action 
as a member of the command post party of the 1st Battalion, 143d 
Infantry. Meeting with heavy German rocket and automatic weapons 
fire on the near side of the river, the battalion commander ordered a 
barrage of 4.2-inch white phosphorus. At midnight the small party 
crossed the Rapido. The battalion commander was wounded, and the 
lieutenant who took charge ordered the men to dig in for the night. 
At dawn he went in search of the missing infantry Companies A and B 
and upon his return announced that they were the only ones re- 
maining. With the radio out, the small group made its way back across 
the Rapido under cover of fog. It was a thorough defeat; the regi- 
mental commander reported that the combat efficiency of his unit was 
destroyed.98 
The situation was just as bad with the 141st Infantry. Mortar Com- 
pany A fired smoke missions on 21 and 22 January to screen two in- 
fantry battalions on the far side of the river. Next day the company 
expended 441 rounds of WP on a screen to cover the withdrawal of 
some forty men of the 141st Infantry. The abortive attack had been 
costly.99 
Unfortunately, the smoke screen mission fired for the men stranded 
on the far bank of the Rapido seriously interfered with the observation 
of the corps artillery. With communications out and with infantry 
positions unknown, effective artillery support was impossible.100 There 
were also misunderstandings regarding the use of smoke. In a 23 
January conference between the 36th Division chemical officer and 
Capt. James O. Quimby, Jr., commanding Company A, 2d Chemical 
Battalion, the former commented on the density of enemy smoke at 
the site of the bridgehead, Quimby had to explain that this was his 
smoke, not German, a fact unknown to division as well as corps.101 
A 24 January mission of Company C demonstrated that some com- 
manders receiving support continued to be unfamiliar with the cap- 
87 (i) 2d Cml Bn Journal, 15-20 Jan 44. (2) Co C 2d Cml Bn Unit Diary, 20-21 Jan 44. (3) 
Co A 2d Cml Bn Unit Diary, 21 Jan 44. 
88 (1) Co C 2d Cml Mortar Bn Unit Diary, 21 Jan 44. (2) 143d Inf Opns Rpt, Jan 44. 
88 (1) Co A 2d Cml Bn Red of Events, 22 Jan 44. (2) 141st Inf Opns Rpt, Jan 44. 
108 Fifth Army History, IV, 47. 
101 Statement, Maj James O. Quimby, Jr., to CMLHO, 17 May 50. THE 4.2-INCH MORTAR IN THE MTO 
445 
abilities of the chemical mortar. The infantry battalion commander, 
for example, called for smoke to screen a patrol which was about to 
feel out enemy defenses and search for American wounded. Several 
times during the course of this mission he called for target changes 
requiring gun re-emplacements and once he wanted it without cessation 
of fire. The commander also requested an increase in the rate of fire 
at a time when mortarmen were already firing twenty-one rounds per 
mortar per minute. When the smoke ascended directly into the air, 
he called upon the mortar commander to rectify the situation. In the 
words of the custodian of the company diary: "We are still wondering 
if he wanted us to come down and blow on it.” 102 Reactions to this 
impromptu mission were mixed. The captain with the infantry patrol, 
which brought back two wounded American soldiers, praised Company 
C for the effective screen. On the other hand, II Corps immediately 
informed the mortar company that no more smoke was to be fired 
without its approval.103 
The Anzio Beachhead 
Fifth Army launched the second phase of its winter offensive on 
22 January on the beaches near Anzio and Nettuno, seaside resort 
towns located barely thirty air miles south of Rome. The objective of 
VI Corps was to cut the historic roadway known as the Appian Way 
and Highway 7, as well as other German supply routes. With these sev- 
ered, the enemy in the Gustav Line would be left to choose between ex- 
termination and withdrawal. Two mortar battalions saw action at An- 
zio, the 83d, initially in support of Colonel Darby's Ranger forces, and 
the 84th, which landed late on D-day with the 3d Infantry Division. 
The 83d had undergone a month of training in preparation for the 
assault. Companies A and B, loaded in Dukws, went in with the second 
wave but received no calls for fire until H plus 6 because of the achieve- 
ment of complete surprise. An enemy 8 8-mm. gun which had been 
shelling the beach supplied the mortars with their first target. In firing 
on this gun at a range of 2,000 yards and forcing it to withdraw, 
Company B provided an excellent example of its usefulness at times 
when the artillery had not yet come into position.104 That the mortars 
’“Co C zd Cml Bn Unit Diary, 24 Jan 44. 
103 Ibid. 
104 (1) 83d Cml Bn Opns Rpt, Jan 44. (2) Hutchinson Interv, 26 Jan 43. 446 
THE CHEMICAL WARFARE SERVICE 
did not need specific targets to be effective was well illustrated at 
Anzio by the tactics of the Ranger commander. Colonel Darby, who 
had received mortar support both on Sicily and at Salerno, met the 
first elements of the 83d Battalion with orders to set up weapons and 
start firing in the general direction of the Germans. His logic was: 
”1 want the bastards to know I have something heavy, so they will start 
digging in. That will give me a chance to maneuver.” 105 
On the morning of D plus 1 Company B moved into position 2,000 
yards north of Anzio to support the advance of the Rangers, while 
in the afternoon Company A advanced to a position 10,000 yards north 
of the town on the east side of the Anzio-Rome highway. From 24 to 
28 January these companies fired on wooded areas and troop concentra- 
tions, on roads and rail junctions, and on houses and haystacks in sup- 
port of Ranger attacks on Carocetta and Aprillo. Bedevilled by ex- 
cessive mortar breakage from emplacements in the spongy ground, Lt. 
Col. William S. Hutchinson, Jr., commanding the 83d, ruefully con- 
cluded that the 4.2-inch mortar was far better suited to mountain 
fighting than for operations "in the mucky, ill-drained soil of the 
Anzio beachhead.” 106 
Although it landed on D-day, the 84th Chemical Battalion did not 
undertake its first missions until three days later, 25 January, when 
Company A, with its mortars emplaced on an abandoned railway bed, 
fired 100 rounds against houses, haystacks, roads, and ditches, all places 
that were suspected of concealing Germans. Two days later the same 
unit expended 750 rounds of ammunition, hindered all the while by 
excessive mortar breakage.107 
Meanwhile, on 26 January Companies C and D met with tragedy. 
While en route from Naples to the beachhead the LST carrying these 
units struck a mine and caught fire. The explosion of mortar ammuni- 
tion magnified the danger. Many of the survivors who escaped this 
small hell were picked up by an LCI (landing craft, infantry) which in 
turn hit a mine and went down with all on board. The two companies 
lost a total of 293 officers and enlisted men; the survivors were taken 
to a rest camp near Naples.10* Augmented, reorganized, and retrained, 
10'’ Cml Warfare School Tng Memo No. 6, 31 Oct 44. 
loc 83d Cml Bn Opns Rpt, Jan 44. 
10, 84th Cml Bn Field Journal, 25, 27 Jan 44. 
10!’ 83d Cml Bn Unit Journal, 31 Jan 44. THE 4.2-INCH MORTAR IN THE MTO 
447 
these units were to see some combat action with the 88th Division near 
Minturno before joining the parent battalion at Anzio in mid-April. 
One of the objectives of the 30 January drive by VI Corps toward 
the Alban Hills was cutting Highway 7 at the point where it passes 
through Cisterna. The 1st and 3d Ranger Battalions set off toward the 
town at 0100, an hour before the main effort, which would be made by 
the 4th Ranger Battalion and elements of the 3d Infantry Division. 
Companies A and B, 83d Chemical Battalion, were in support of the 
Ranger battalions. Creeping along a ditch which led to Cisterna, the 
Rangers reached the outskirts of town by dawn. There they fell into 
an enemy ambush. The units making the main effort failed to advance 
sufficiently to be of any aid to the embattled Ranger forces. Company 
B placed mortar fire on the encircling Germans in a vain attempt to 
cover a withdrawal. Only six Rangers made it back.109 
Not only did the VI Corps attack fail but it was soon clear that a 
German counterattack was imminent. From 1 February until the 
eventual breakout in May, the corps mission was essentially defensive. 
Both mortar battalions were called upon for heavy fire against enemy 
attacks and were subjected to frequent enemy artillery and mortar 
shelling and air bombardment. Because of excellent German observa- 
tion of the beachhead and all routes leading to Allied positions, there 
was a great demand for smoke screens laid by mortars, pots, and gen- 
erators.110 
During the period of containment at Anzio it was usual for three 
mortar companies to stay in the line, while one remained in reserve 
near battalion headquarters. Unlike the situation near Venafro and 
San Pietro on the southern front, rear areas at Anzio were well within 
the range of enemy artillery. Reports were that some men preferred 
their emplacements to the battalion areas on the beaches. Nevertheless, 
rotation did give the men a change of scene and diet and also allowed 
commanders to inspect equipment and to supervise the integration of 
replacements. 
From the time of the landing until 20 May the 84th Battalion fired 
50,166 rounds (8,019 WP) of ammunition; the 83d from February 
109 (i) Company A supported the 4th Ranger Battalion on 30 January in its attempt to relieve 
its sister units at Cisterna. (2) Rounds Away!—The Story of the 83d Cml Bn, pp 8-9. CWS 314.7 
Unit Files. (3) Hutchinson Interv, 26 Jan 45. (4) CmlO Fifth Army Rpt of Cml Warfare Activi- 
ties, 8 Jan-21 Jan 44. 
110 See above, Chapter VIII, for smoke generator operations at Anzio. 448 
THE CHEMICAL WARFARE SERVICE 
until 20 May expended 14,3 26 rounds (4,716 WP). Casualties for the 
two battalions in the Anzio beachhead were 30 dead and 87 wounded.111 
Cassino 
With the failure of the 36th Division attack across the Rapido, Gen- 
eral Clark directed II Corps to shift to the north, with the town of 
Cassino, Monte Cassino, and the eventual drive into the Liri Valley as its 
objectives. By 1 February the 34th Division, which was to serve as the 
main striking force, had established a bridgehead across the Rapido near 
the town of Cairo, about two miles north of Cassino. 
The town of Cassino lies on Highway 6 at the foot of the main moun- 
tain barriers to the Allied advance through the Liri Valley, Rising 
behind Cassino is Castle Hill, an elevation of some 633 feet. Over- 
shadowing both is Monte Cassino upon which stands the historic mon- 
astery, Together they offered the enemy excellent observation of the 
movements of the Allied army in its attempt to break into the Liri 
Valley. A few miles north of Cassino were the towns of Cairo and 
Villa, the latter being the site of a group of Italian barracks which at 
different times in the tug of war which followed were to shelter both 
German and American forces. Four miles northeast of Monte Cassino 
massive Mount Cairo towers 5,500 feet above sea level. This small area 
to the north and west of Cassino was to be the scene of some of the 
bitterest battles fought during the Italian campaign, for it was here that 
the German forces battled to protect Monte Cassino and the entrance 
to the Liri Valley.112 
Commanded now by Maj. James R. Chapman, the 2d Chemical 
Battalion supported the 34th Division in the February attacks against 
the Cassino defenses. On 1 February Company D fired ninety-seven 
rounds of WP before a successful infantry assault on the barracks area 
at Villa. But next day the lack of communications and the absence of 
adequate observation precluded mortar support for men of the 135th 
Infantry as they worked their way southward along a ridge line. This 
situation repeated itself during the period 4—6 February in the bitter 
engagement on the headland and plateau north of the abbey. In three 
days of costly fighting the infantry won Hill 593 (Abaneta Farm) 
111 (i) 84th Cml Bn Opns Rpt, Jan-May 44. (2) 8jd Cml Bn Opns Rpt, Feb—May 44. 
112 Fred Majdalany, The Battle of Cassino (Boston: Houghton Miffiin Co., 1957), gives a graphic 
account of this action. THE 4.2-INCH MORTAR IN THE MTO 
449 
which dominates the approaches to the abbey but the fluid, even con- 
fused, situation dictated that there could be little or no mortar support. 
In further attacks toward the abbey on 8 February Companies B and D 
did fire 840 rounds in casualty and screening missions. On the same 
day Company A used limited amounts of WP to screen the advance of 
supporting tanks, a mission abruptly halted when the smoke spread over 
infantry positions on the flats near the river.113 On 11 February, in rain, 
sleet, and snow, the troops of II Corps made another effort to take 
Monte Cassino. Companies B, C, and D, hampered by the weather 
and disrupted communications, supported individual regiments of the 
34th and 36th Divisions. Fighting in the craggy terrain before the 
abbey was at such close quarters that Company C received no calls from 
the regiment it supported. The other two mortar companies fired 
less than 100 rounds each.114 
Mid-February saw British, New Zealand, and Indian troops com- 
mitted to the fighting around Monte Cassino. Allied bombers struck 
the famous abbey on 1 5 February in an operation conspicious for its 
lack of positive results. In fact, Allied troops moved back from the 
hard-won Hill 593 just before the bombardment, and it was the Ger- 
man forces that reoccupied the position when the air strike was over. 
It took three days for British and Gurkha troops to retake the hill, dur- 
ing which time the British requested and received support from Com- 
pany C, 2d Chemical Battalion. The mortar unit delivered a 20-minute 
barrage of 246 rounds against a row of trees near the abbey among 
which the enemy had emplaced a number of machine guns. After 
completion of this mission the commanding officer of the 141st In- 
fantry, to which the mortar company was attached, telephoned his con- 
gratulations and those of the British to the mortarmen of Company C. 
This gesture, as well as expression of thanks upon the relief of Company 
C on 27 February, was particularly gratifying for the mortarmen 
since this same infantry officer had previously announced, when a 
short mortar round fell within fifty yards of his command post, that 
he would never again request a mission from a chemical mortar unit.115 
During the last days in February all of the weapons companies of 
118 (i) 2d Cml Bn Opns Rpts, i, 2, 4, 5, 6 Feb 44. (2) 135th Inf Opns Rpt, 2 Feb 44. (?) 2d 
Cml Bn S-3 Journal, 8 Feb 44. (4) Co A 2d Cml Bn Red of Events, 8 Feb 44. (5) 133d Inf Opns 
Rpt, Feb 44. 
114 (1) Co C 2d Cml Bn Unit Diary, 10 Feb 44. (2) 2d Cml Bn Opns Rpt, 11 Feb 44. 
lla (1) Co C 2d Cml Bn Unit Diary, 14, 18, 20 Feb 44. (2) Co C 2d Cml Bn Red of Events, 
17, 18, 27 Feb 44. 450 
THE CHEMICAL WARFARE SERVICE 
the 2d Chemical Battalion reverted to the control of the parent unit. 
One hundred and seventy consecutive days in the line had been cul- 
minated by the difficult fighting at Cassino, the roughest time ex- 
perienced by the battalion to date. The Germans were not the only 
enemy; the terrain, the weather, the lack of shelter, and the limited 
supply of suitable clothing combined to make life miserable.116 
Small satisfaction was gained at Cassino from the over-all contribu- 
tion of the mortars. There were times when disrupted communications 
and the fluid nature of the fighting meant that the chemical companies 
could offer only limited support. 
The Drive on Rome 
During March and April 1944 the Allied forces in Italy paused, 
trained, refitted, and regrouped in preparation for another assault 
against the Gustav Line defenses. A greatly contracted Fifth Army 
held a narrow sector from the Tyrrhenian coast to the Liri River; 
II Corps, composed of the recently arrived 85 th and 88 th Divisions, 
was on the left and the French Expeditionary Corps was on the right. 
The sector of the British Eighth Army now extended from the Liri 
River to the Adriatic, including the strong German defenses which 
centered at Monte Cassino. 
The 2d and 3d Chemical Battalions maintained their attachments to 
the II Corps and the FEC. After leaving the lines at Cassino in late 
February, the 2d Battalion passed into II Corps reserve for a period of 
rest, training, and repair and replacement of equipment. On 13 March 
Company D joined the 88 th Division in its quiet zone near Minturno 
for a 2-week attachment that served to familiarize the new unit with 
the 4.2-inch mortar and its capabilities. During April the entire bat- 
talion, again in corps reserve, underwent a vigorous training program. 
Elements of the 3d Battalion participated in smoking operations on 
the upper Garigliano in the FEC sector. Abetted by a detail from the 
ly 2d Smoke Generator Company, successive companies of the mortar 
battalion maintained an extensive smoke installation in the vicinity of 
the Tiger Bridge across the Garigliano.117 
On the eve of Fifth Army’s 11 May attack on the Gustav Line 3d 
Battalion communication equipment was augmented by the issue of 
118 History of Second Mortar Battallion (Salzburg, Austria, n.d.) p. 24. CMLHO. 
117 3d Cml Bn Opns Rpts, 30 Apr 1-13 May 44. THE 4.2-INCH MORTAR IN THE MTO 
451 
sixteen The successful use of this radio prompted the bat- 
talion commander to regard it as the only set which might tend to 
reduce the telephone to the rank of a secondary means of communica- 
tion in battle. The exchange just before the attack of 10 2/4-ton 
trucks for 32 jeeps and 48 % -ton trailers increased the mobility of the 
mortar battalion and its ability to get ammunition forward. 
The 3d Battalion fired 7,000 rounds of ammunition in twelve hours 
of preparatory fire. Each of the four companies supported a French 
division, three of them by direct attachment to the infantry and the 
fourth through the control of division artillery. The latter company 
did the least firing, primarily because of delays encountered in securing 
firing data, a circumstance which prompted the battalion commander 
to recommend strongly that this company also be placed under infantry 
control.118 The enemy lines broke by the middle of the second day, and 
mortar support decreased. By 27 May the pursuit became so rapid that 
the battalion was placed in corps reserve and remained there until 
relieved from attachment to the EEC on 11 June. 
The 2d Chemical Battalion went into action on the Minturno front 
on 11 May in support of II Corps’ 85 th and 88 th Divisions. After 
expending more than 10,000 rounds in a 7-hour preparation, the bat- 
talion fired missions for the two divisions as the situation required.119 
For example, the initial objective of the 339th Infantry, 85th Division, 
was San Martino Hill which had an importance all out of proportion 
to its modest height of 200 feet because it dominated an important 
enemy supply route. Within a 15-minute period late on 11 May the 
battalion fired 1,267 rounds against this objective.120 The fight for San 
Martino Hill lasted several days. On 13 May all four mortar companies 
fired high-explosive and smoke missions in support of the attacking 
infantry. The hill fell next day, and II Corps placed the 2d Battalion 
in support of the 88 th Division attacking Santa Maria Infante. In this 
engagement the mortars made good use of smoke to blind enemy obser- 
vation from nearby Pulcherini. In fact, WP made up about one-third 
of the 13,575 rounds fired by the battalion between 11 and 14 May. 
Generalfeldmarschall Albert Kesselring, the German commander in 
Italy, commented on the effectiveness of these American screens. Be- 
lla Hist of 3d Cml Bn, May 44. 
118 Col. Maurice E. Barker, "Mortars Are the Man-Killers,” Chemical Warfare Bulletin, vol. jo, No. 
4 (August, September, October, 1944). 
128 ad Cml Bn Opns Rpt, May 44. 452 
THE CHEMICAL WARFARE SERVICE 
cause of the extensive use of smoke along the Garigliano, he wrote, Ger- 
man artillery had to fire on American river crossings "without the 
least observation.” 121 
The May experiences of Company A may be taken as typical of 
those of the entire 2d Chemical Battalion once Allied forces breached 
the Gustav Line defenses. On the 14th the company moved forward 
by jeep with a regiment of the 88 th Division, firing 191 rounds of white 
phosphorus in midafternoon. Two days later the company used a 
pack mule train to move overland with the infantry; even then it took 
overnight marches to keep up with the assault battalions. During the 
period 21-22 May Company A fired 165 rounds against enemy troops. 
There were more marches, more difficult terrain to traverse, more 
changes in position and attachment. All in all, events and units moved 
so swiftly that there could be little employment of the 4.2-inch 
mortars.122 
Fifth Army co-ordinated the VI Corps breakout of the beachhead 
at Anzio with the southern front’s attack on the Gustav Line. Com- 
panies A and B, 83d Chemical Battalion, supported the 1st Armored 
Division and Companies C and D, the 45 th Infantry Division. All 
four companies fired mass concentrations in support of the initial at- 
tack, those with the 45 th Division aiding greatly in the successful 
resistance to two German counterattacks. Once the breakthrough was 
achieved the mortar units supporting the armored division found they 
could keep pace only by frequent displacements. Consequently, corps 
placed these companies in support of the 36th Division, which had 
moved to Anzio by sea, for the drive that broke the German line at 
Velletri, twenty miles southeast of Rome.123 
Meanwhile, the 84th Chemical Battalion on 23 May expended 3,081 
rounds in support of 3d Division. After the initial breakthrough the 
84th Battalion, as had the 83d, found it impossible to keep up with the 
infantry. The battalion commander blamed this on the large and un- 
wieldly il/2-ton trucks and the scarcity of jeeps and trailers. Com- 
munications also broke down during the swift movement, for there 
was no time to lay wire and the SCR-284 proved unreliable. But 
121 Quoted in Fifth Army History, V, 204. 
123 Co A 2d Cml Bn Red of Events, May 44. 
123 (1) The Story of the 83d Cml Bn, pp. 10-11. (2) Lt. Col. William S. Hutchinson, "The For- 
gotten Front,” vol. 31, No. 1 Chemical Warfare Bulletin (January, February, 1945). (3) Hutchin- 
son Interv, 26 Jan 45. THE 4.2-INCH MORTAR IN THE MTO 
453 
these complications mattered little; the rapid retreat of the enemy 
meant that the mortars found little use. As the 83d Chemical Battalion 
commander summarized it: "The pursuit was so fast-moving and re- 
sistance so weak that the use of the 4.2-inch mortars was unwar- 
ranted.” 124 
Both mortar battalions participated briefly in the pursuit beyond 
Rome before reverting to army control on 10 June. The 2d and 3d 
Battalions returned to army control a day later. After about a month’s 
rest three of the battalions, the 2d, 3d, and 83d, went with VI Corps 
from the Fifth Army to the Seventh Army and began training for the 
invasion of southern France.120 
The Invasion of Southern France 
The three chemical mortar battalions which participated in the as- 
sault on the beaches of southern France were veteran units which 
had taken part in one or more amphibious landings in Sicily and 
Italy.126 Consequently, preparations for Dragoon for the most part 
consisted of perfecting teamwork with the infantry. The exceptions 
were Company A, 2d Chemical Battalion, and Company D, 83d Bat- 
talion, which were part of an airborne task force created especially 
for the operation. Activated in July, this force included American 
and British parachute and glider units.127 The mortar companies re- 
ceived their assignment to the airborne task force on 11 July and 
moved to training sites at airfields in the vicinity of Rome, Here 
they trained in glider operations and prepared loading lists for per- 
sonnel, equipment, and vehicles.128 
Late on the afternoon of D-day, 15 August, the two airborne mortar 
companies landed in the vicinity of Leluc, France, with the glider units 
of the provisional airborne task force. None of the gliders was lost 
through enemy air or antiaircraft action but many were wrecked by 
the sawed-off utility poles—Goering asparagus—with which the Ger- 
mans studded some of the most likely landing sites. One glider hit 
124 (i) 84th Cml Bn Opns Rpt, May 44. (2) 8jd Cml Bn Opns Rpt, Jun 44. 
125 (1) Hist of }d Cml Bn, Jul 44, incl 5. (2) Markham Interv, 16 Jan 45. 
128 For a detailed description of the invasion of southern France, see Smith, Riviera to the Rhine. 
127 Rpt of Opns, Seventh U.S. Army in France and Germany (hereafter cited as Rpt of Opns, Sev- 
enth Army), I, no—11. Other supporting units were antitank, engineer, signal, and medical com- 
panies. 
128 CWS TofO Ltr No. 23, 3 Apr 45. This document includes the loading lists and tables of indi- 
vidual equipment. 454 
THE CHEMICAL WARFARE SERVICE 
with such impact that the jeep load in its nose catapulted through the 
front end of the aircraft, seriously injuring the three men sitting in the 
vehicle. 
Elements of Company A, landing between 1845 and 1900, had as- 
sembled at their predesignated area by 2130 and were prepared to fire 
on the town of Le Muy. Next morning the company fired 200 rounds 
of HE on the town and 48 rounds of WP on its southern exits. Le Muy 
fell by midafternoon. Later that day the airborne troops made contact 
with reconnaissance elements of the 45 th Division. After this junction 
the mortar companies remained attached to the task force as it pushed 
to the French-Italian border, being relieved from this attachment on 
17 September at Nice, France.129 
The gliders of Company D, 83d Chemical Battalion, were released 
over the drop zone near Le Muy at seven minutes after seven on the 
morning of D-day. Fourteen mortarmen received light injuries during 
the landings. The company did not fire on that first day but expended 
650 rounds in support of the 517th Infantry on 16 August. The mortar 
unit remained in support of this unit until the end of the month doing 
relatively little firing in the drive to the Italian border.130 
A mortar company accustomed to normal attachments encountered 
problems in adapting itself to glider operations. Techniques of loading 
and securing equipment had to be formulated and mastered. Men and 
equipment had to be distributed in such a way as to allocate weight 
equally among the several gliders. Moreover, it was necessary to al- 
locate the material so that the loss of one glider would not destroy all 
the equipment of the same type. The exigencies of glider operations 
caused a number of changes in the normal organization and equipment 
of a mortar company based mostly on the fact that a company, landing 
by gliders, often had to operate as an independent unit until such time 
as contact could be made with other elements. Because of this fact 
medical aidmen joined each mortar platoon and automatic weapons 
were added to provide means for independent defense. In the table of 
equipment for an airborne mortar company drawn up after Dragoon 
by Capt. Raymond J. Lakey of the 83d Battalion, the responsibility 
for unit security accounted for all additions to the complement of 
weapons. Captain Lakey recommended that 4 light machine guns, 8 
u>9 (i) Rpt of Opns, Seventh Army, I, 110-14. (2) CWS TofO Ltr No. 23, j Apr 45. (3) Co A 
2d Cml Bn Red of Events. 
130 83d Bn Rpt of Action, Aug 44. THE 4.2-INCH MORTAR IN THE MTO 
455 
BAR’s, i 6 tommy guns, and 18 .45-caliber pistols be added to the 
arsenal of an airborne company. And whereas the table of equipment 
of a motorized company called for 5 bazookas, 7 should be carried by 
a glider-borne company.131 
Since the assault operation against the beaches of southern France 
met only light opposition, the mortar battalions found they had rela- 
tively few missions to fire as they accompanied their divisions to the 
west and north.132 Because fire was not needed in such a rapid advance, 
some of the units were given jobs involving supply. A company of 
the 83d Battalion established and operated a railhead to St. Maximin in 
order to ease the serious logistical problems of the 45 th Division. And 
at one time companies of the 2d Battalion hauled supplies for the 3 6th 
Division.133 For the 3d Battalion August was a period of long, fast 
movements with little fighting. The low rate of ammunition expendi- 
ture mitigated the shell supply problem which otherwise would have 
been acute since army supply dumps were frequently 100 miles to the 
rear.134 
These mortar battalions continued to support the troops of the 
Seventh Army as they fought to the north and northeast—the Vosges, 
Belfort, Bitche, Colmar were familiar names to the mortarmen. Some 
mortar units fired for divisions of the 1st French Army which, with the 
U.S. Seventh, made up Lt. Gen. Jacob L. Dever’s 6th Army Group. 
Offensive action came to a temporary halt in mid-December 1944 when 
the Germans launched their Ardennes counteroffensive.130 
The Fighting Ends in Italy 
The departure of the 2d, 3d, and 83d Chemical Mortar Battalion for 
southern France left only the 84th in support of the divisions of Fifth 
Army from July until the end of October 1944. This unit found 
itself scattered along the entire army front.136 In an effort to make up 
for this lost support the theater in June 1944 converted two antiaircraft 
131Capt Raymond J. Lakey, Rpt on 4.2-Inch Mortar Airborne Company, pt. II, 15 Oct 44. CmlC 
School Lib. 
132 For an account of mortar battalion participation in the D-day screening, see above, Chapter VIII. 
183 (1) Rounds Away: Two Years of Combat with Eighty-Third Chemical Mortar Battalion (Inns- 
bruck, 1945), pp. 41-42. (2) History of Second Chemical Mortar Battalion, pp. 33-34. 
134 3d Cml Bn Rpt of Opns, Aug 44. 
135 See below, Chapter XII, for details on the German counteroffensive. 
133 Ltr, CCmlO NATOUSA to CCWS, 26 Oct 44. CWS 314.7 Personal Ltr files, NATOUSA. 456 
THE CHEMICAL WARFARE SERVICE 
artillery automatic weapons units to the 99th and 100th Chemical Mor- 
tar Battalions. After completing a period of intensive training under 
the direction of Colonel Hutchinson, a former commander of the 83 rd, 
the 99th, commanded by Lt. Col. Gordon A. Dixon, left for France 
and the 100th, commanded by Lt. Col. Russell E. McMurray, joined 
Fifth Army in Italy.137 
July had seen the 84th reorganize under the long ignored tables of 
organization and equipment of September 1943, a move which reduced 
the number of officers and enlisted men of a mortar battalion from 
1,010 to 622. The new tables also cut the number of il/z -ton trucks 
and increased the number of %-ton trucks (jeeps) assigned to a bat- 
talion. The long delay between the publication of the tables and actual 
reorganization was the result of several factors. For one thing, mortar 
battalions in Italy had scant time away from the front line to put the 
required changes into effect. Moreover, for a long while there were 
not enough jeeps to make the substitution in vehicles. Finally, mortar 
commanders feared that because of the cut in personnel their units 
would find it impossible to operate efficiently if reorganization took 
place.138 
While the Italian campaign was in progress the War Department 
drew up still another TOE based upon the recommendations received 
from battle-experienced CWS officers.139 The salient feature of this 
revision was the elimination of one weapons company, a move which 
placed the battalion on the triangular basis characteristic of the in- 
fantry division.140 The new organization became effective in Septem- 
ber 1944, and two months later the 84th and 100th Battalions re- 
organized accordingly.141 
After his rapid retreat above Rome, the enemy defended positions 
north of the Arno River, called the Gothic Line, which were not 
187 (i) Ihid. (2) 100th Cml Bn Opns Rpts, Jul-Nov 44. 
188 (1) Hist of 3d Cml Bn, Jun 44, p. 44. (2) Markham Interv, 16 Jan 45. (3) See Opnl History 
of Cml Bns and the 4.2-inch Mortar in World War II, pt. II, The Italian Campaign, pp. xoi—19. (4) 
The fighting in Italy had altered mortar commanders’ views as to the desirability of the %-ton truck. 
Too much had been expected of these vehicles. The 2% -ton trucks were still needed to haul ammuni- 
tion from army supply points to the mortar battalion dumps and on to company dumps. Earlier 
thoughts on transportation had been conditioned by the experience of the fast-moving Sicilian cam- 
paign; operations in Italy, characterized by slow movements and static situations, brought about the 
change. Opnl History of Cml Bns and the 4.2-inch Mortar in World War II, p. II, Italian Campaign, 
p. 10 6. 
189 Ltr, ACCWS for Field Opns to CCmlO NATOUSA, 12 Feb 44. 
140 Other features of this TOE are discussed in Chapter XII, below. 
141 CWS TofO Ltr No. 21, 31 Jan 43, p. 33. THE 4.2-INCH MORTAR IN THE MTO 
457 
breached by Allied forces until late September 1944. During that 
month the 84th Battalion expended about 6,500 rounds of ammuni- 
tion, over half of which was white phosphorus. New infantry divisions, 
unfamiliar with the mortars and particularly their high-explosive mis- 
sion, seemed to make more frequent calls for smoke. Each of the four 
companies of the 84th supported a different division of II Corps, which 
was fighting its way northward through the mountains. Despite trans- 
portation difficulties, the 84th gave heavy support during October, 
firing some 16,000 rounds (5,000 HE), mainly against enemy counter- 
attacks and emplacements and also as a screen for American positions 
and supply routes.142 On 31 October the 84th Chemical Battalion 
passed into Fifth Army reserve to be replaced by the 100th Battalion, 
companies of which supported, at one time or another, each of the 
infantry divisions of II Corps.143 
In January 1945 Fifth Army received reports of the hardships en- 
countered in other theaters and in the United States with the fuzes for 
the M3 4.2-inch mortar ammunition which, unfortunately, made up 
the bulk of 4.2-inch ammunition in the theater. Nonetheless, during 
February the 84th and 100th Battalions used over 11,000 rounds of the 
suspected ammunition without particular difficulty. On 9 March a 
shell burst three feet from the barrel of one mortar, killing one man 
and wounding four others. Thereafter, mortar crews used lanyards 
to fire suspected ammunition, a precaution which at first reduced the 
efficiency of mortar crews.144 
From the conclusion of the Gothic Line fighting in the fall of 1944 
until the spring of 1945 Fifth Army troops remained in relatively the 
same positions. April saw an army offensive which cracked German 
defenses in a matter of a week. The 84th and 100th Battalions sup- 
ported the IV and II Corps, respectively, in this operation until the 
infantry advance was too swift for effective support. It was at this 
time that 4.2-inch mortar operations in the Mediterranean theater 
came to an end.14,0 
14a 84th Cml Bn Opns Rpts, Sep, Oct 44. 
143 100th Cml Bn Opns (for Nov 44), 5 Dec 44. 
144 (1) 84th Cml Mortar Bn Opns Rpt, Feb, Mar 45. (2) 100th Cml Mortar Bn Opns Rpts, Feb 
45. (j) 84th Cml Mortar Bn Field Journal, 9 Mar 45. (4) Fifth Army Cml Sec, Cml Warfare 
Activities, 11-17 Mar 45. 
145 (1) 84th Cml Mortar Bn Opns Rpt, Apr 45. (2) 100th Cml Mortar Bn Opns Rpt, Apr 4J. 458 
THE CHEMICAL WARFARE SERVICE 
Fighting in Italy was as bitter and the enemy defenses as stubborn as 
any experienced by American forces in World War II. The moun- 
tainous Italian terrain, with its abundance of defiladed positions in- 
accessible to artillery fire, placed a heavy demand on high trajectory 
weapons, particularly the 4.2-inch mortar. In addition, 4.2-inch 
mortar units were indispensable to Ranger and Commando units which 
lacked organic heavy weapons. Most infantry commanders were at 
first unaware of the potential of the 4.2-inch mortar, but once they 
had seen the weapon in action they were usually anxious for mortar 
support. In Italy the chemical mortar truly came of age. CHAPTER XII 
The Chemical Mortar in the ETO 
Getting chemical mortar battalions for the European Theater of 
Operations, U.S. Army, proved to be a complicated and difficult prob- 
lem. Colonel Rowan, chief chemical officer in the theater, had recom- 
mended a total of 24 battalions for the theater troop list, a figure based 
upon the formula of 2 battalions per corps (18) and 2 additional bat- 
talions per army (6). His commander approved this recommendation, 
including the figure in the over-all troop list, which was forwarded to 
Washington early in 1943.1 
The War Department took no action on the troop basis recom- 
mended by the theater commander. In November 1943 it sent an 
officer to England to inform the theater commander on War Depart- 
ment troop basis policy—the establishment of an over-all theater 
personnel ceiling within which the theater commander could set up 
his own troop basis. The officer produced a list of those units which 
were immediately available, those which were in training, and those 
which were scheduled for activation. He stated that the theater com- 
mander could take his pick, staying, of course, within his over-all 
ceiling. Because the list admittedly had no relation to the one sub- 
mitted by the ETO, a situation which negated a large amount of de- 
tailed theater planning, the War Department agreed to activate and 
train units not on the list, with the understanding that this would take 
additional time. Unfortunately, there were only seven chemical mortar 
battalions on the list. 
Lt. Gen. Omar N. Bradley, commander of the U.S. army group in 
the theater, received the job of determining the final troop list. Rowan 
pointed out to General Bradley that the seven chemical mortar 
battalions bore no logical numerical relation to the number of armies 
and corps on the list, that they could not be distributed equitably, 
1 (1) Ltr, ACCWS for Field Opns to CCmlO ETOUSA, 16 Nov 43. (2) Ltr, Rowan to Hist 
Off, j Dec 51. CWS 314.7. 460 
THE CHEMICAL WARFARE SERVICE 
and that they were far too few to achieve their full potential. Rowan 
then asked Bradley for the twenty-four mortar battalions of the origi- 
nal troop list. Bradley replied that he would like to have more mortar 
units but, because the troop ceiling had just about been reached, adding 
them would mean giving up other units that were equally valuable. 
This he was reluctant to do. 
At the time of these negotiations the only mortar battalion located 
in the European theater was the 8 ist. Attempts to secure one of the four 
combat-experienced units from the North Africa Theater of Opera- 
tions were turned down as "impossible and impracticable”; the mortar 
battalions in Italy already were overworked. Colonel Shadle, chief 
chemical officer of that theater, stated that the battalions were so 
highly regarded that "the sticking of my fingers into this question 
would be practically the same as putting them in a 'bandsaw’.” 2 
A change in the table of organization for the mortar battalion 
promised an unexpected source of men. Under the existing table the 
authorized strength was i,oio; a revised table of September 1943 re- 
duced this number to 622.3 Colonel Rowan was informed that the 
battalions in the United States were organized under the older table. 
Taking into consideration the battalions then existing and those which 
could be formed from the men excess by reorganization under the 
new table, Colonel Rowan came up with a total of eleven potentially 
available battalions. If General Bradley asked for but one battalion in 
addition to the War Department troop list, there would be enough to 
equal just half of the original request, or one per corps and army. Gen- 
eral Bradley acceded, requesting twelve mortar battalions for the 
theater troop list. 
Although it began auspiciously, the plan for capitalizing on battalion 
reorganization as a source for new units soon turned sour. The theater 
received permission in December to activate a mortar battalion in Eng- 
land manned in large part by the men freed in the reorganization of the 
81 st Battalion.4 But Rowan learned to his dismay that the battalions 
in the United States earmarked for his theater had already been re- 
organized under the new table of organization, thus cutting off an 
important supply of personnel. 
With only two battalions in England as late as February 1944 the 
2 Ltr, CCmlO NATO to ACCWS for Field Opns, 2 Dec 43. 
3 See above, ch. XI. 
* (t) CM-IN 7606, 12 Dec 43. (2) CM-OUT 7110 16 Dec 43. THE CHEMICAL MORTAR IN THE ETO 
461 
shortage of such units became critical. Although the troop basis for 
the ETO now included 12 battalions, only 7 were listed as available in 
1944. What was worse, only 4 of these would be in the theater in time 
for the Normandy landings—the 81st, the 9id, activated in England, 
and the 86th and 87th, both of which arrived in April.5 
Preparations for OVERLORD 
Of these four battalions the 92d was least prepared for combat op- 
erations in France. The other three units concentrated on amphibious 
training in the winter and spring of 1944, having undergone basic and 
unit training in the United States. The 9 2d, activated in England in 
February 1944, had to start from scratch.6 
From the beginning the training activities of the battalion were 
hampered by the type of men it received. Of the first 373 assigned 
to the unit, 308 were of average intelligence or less. Fifty-six had 
AWOL records, 22 had been court-martialed for other offenses, and 
12 had had VD. About 15 of the group were suffering from some 
disability or were on limited service; 13 others went immediately to 
the hospital. Throughout its period of activation the 9 2d usually re- 
ceived those men declared surplus by other units.7 
The battalion devoted the last two weeks of February to making its 
camp at least partially fit for human habitation. The first part of 
March saw the enlisted men screened for a selection of potential NCO 
material and subjected to a review of all basic subjects. Small arms 
instruction, mortar drill, and the training of 162 drivers followed. 
By the end of March companies had been organized, squads knew 
something about their mortars, and the battalion was able to pack 
and move with some degree of order. Training intensified in April, 
with special emphasis on field work and marksmanship. Morale 
reached its lowest point at this time; few realized that the rigorous 
conditioning was necessary for their own survival. Work on mortar 
ranges began on 10 April and continued into May. The month of 
8 (i) Memo, MacArthur, CmlO FUSAG, for Brig Gen James E. Wharton, ACofS G-i FUSAG, 23 
Mar 44. (2) CM-OUT 1365 j Feb 44. 
8 The only other mortar battalions activated overseas were the 99th and 100th, converted from 
antiaircraft artillery units in Italy, and the 98th converted from a tank destroyer battalion on New 
Guinea. 
7 Unless otherwise noted, the unit material in this chapter has been taken from the histories, journals, 
and after action reports of the several mortar battalions. 462 
THE CHEMICAL WARFARE SERVICE 
May also saw the battalion undergo a two-and-a-half-week period of 
intensive training while attached to a field artillery group. There was 
no time for amphibious training before the invasion, and as a conse- 
quence the 9 2d did not participate in the initial landings. Nor did 
the 86th Battalion receive assault training in time for D-day activity. 
The 81 st Battalion was the chemical unit most adequately prepared 
for the D-day operation. It had trained at the amphibious center at 
Camp Gordon Johnston, Fla., before leaving the United States. From 
December 1943 until the following April it participated in intensive 
exercises at the Assault Training Center in Devonshire and in other 
maneuvers along the western and southern coasts of England. The 
87th Battalion was also well prepared for the invasion; thoroughly 
trained in the United States, it took part in two amphibious exercises 
in England that spring. The latter training had indicated that the 
increased problems in communications and supply in amphibious oper- 
ations made greater demands on unit personnel. (Battalion commanders 
already were finding that the reduced complement of men in the 
new TOE was inadequate to keep forty-eight mortars in action even 
in normal operations.) Consequently, each of the two mortar bat- 
talions earmarked for the invasion was temporarily fattened by 125- 
man detachments from two chemical processing companies. 
The Normandy Campaign 
The 81st and 87th Chemical Mortar Battalions landed in Normandy 
early on D-day in support of the V and VII Corps, respectively, on 
Omaha and Utah Beaches. Companies A and C of the 81st were 
attached to battalions of the 16th Infantry, 1st Division, and Com- 
panies B and D landed with battalions of the 116th Infantry, 29th 
Division. As it approached the shore, the landing craft carrying the 
forward battalion group received heavy shelling which killed a sergeant 
and seriously wounded the battalion commander, Lt. Col. Thomas H. 
James. Without benefit of engine or rudder the craft drifted aimlessly 
until currents providentially beached it at a protected spot along the 
shore. 
Company A, landing at H plus 50, lost some of its equipment in the 
heavy seas. Even worse, Capt. Thomas P. Moundres, its commander, 
was mortally wounded before reaching the beach. The senior lieutenant 
assumed command and succeeded in getting the platoons into firing THE CHEMICAL MORTAR IN THE ETO 
463 
Smoke Screen During the Omaha Beach Landings 
positions. First day missions included a smoke screen for advancing 
infantry and the destruction of an enemy machine gun. Company C 
did not land until midafternoon because the infantrymen in preceding 
waves were pinned down on the edge of the beach. The unit finally 
got ashore at 1500 and made its way to positions about 200 yards 
inland. It received no requests for supporting fire. 
The four LCVP’s carrying Company B were unable to find a route 
through the heavy obstacles in their assigned sector, and two of these 
vessels were disabled by artillery fire as they headed toward another 
landing area. Despite a heavy sea and enemy opposition, all troops and 
equipment aboard the stricken craft were transferred to an empty 
LCT. Company D landed between H plus 50 and H plus 60, but its 
commander, Capt. Philip J. Gaffney, was killed when his landing craft 
struck a mine. Before finding an outlet off the dangerous strip of beach 
the unit changed its position three times and fired one mission. Night 
found the mortars dug in at St. Laurent-sur-Mer. Thus, on 6 June 
289-149 0-68—31 464 
THE CHEMICAL WARFARE SERVICE 
Chemical Mortars at Utah Beach 
1944 3 officers of the 8ist were killed and 2 others, including the 
battalion commander, were seriously wounded. One company lost its 
total complement of transportation while each of the other three com- 
panies lost two vehicles. 
Trouble developed on D plus 1 as enemy snipers allowed leading 
infantry elements to pass through, firing on units which followed. 
To meet this threat the battalion formed details to wipe out the sniper 
nests. The mortarmen learned another trick of combat during these 
early days in Normandy. The enemy, having retreated from the area 
in which American mortars were to be set up, had marked on its firing 
charts all logical positions for these weapons. The men of the 81st 
soon found it was best to avoid reverse slopes and similar accepted 
mortar sites in favor of unconventional open terrain. 
The 87th Chemical Battalion, commanded by Lt. Col. James H. 
Batte, was attached to VII Corps in the D-day assault of Utah Beach. 
Three of the firing companies supported the three battalions of the THE CHEMICAL MORTAR IN THE ETO 
465 
8 th Infantry, 4th Division, and the fourth company supported a 
battalion of the 2 2d Infantry of the same division. Forward observers 
of the mortar companies landed with the initial waves of infantry, 
and the units themselves came in at H plus 50. Shortly after landing, 
the battalion fired 140 rounds and then followed the infantry in moving 
off the beach. For almost six hours the 4.2-inch mortars were the only 
ground weapons capable of delivering heavy fire support.8 Targets 
during the first twenty-four hours of action were enemy machine gun 
emplacements, concrete emplacements, and pillboxes. 
Quinville Ridge, some ten miles northwest of Utah Beach and a 
D-day objective for VII Corps, was not taken until 14 June. The 
companies of the 87th Battalion supported the 4th Division in the 
fight for this objective, expending 16,870 rounds and suffering 36 
casualties in the process. The mortar units continued in support of 
the 4th Division as it drove north to Cherbourg. On 23 June Company 
C fired a spectacular rolling barrage in support of a battalion attack 
which prompted Brig. Gen. Theodore Roosevelt to telephone his con- 
gratulations back to the mortar positions.9 
The attack on Cherbourg included several other noteworthy 4.2-inch 
mortar missions. On 23 June Company A blended its fire so that white 
phosphorus showered German troops just routed from their positions 
by high explosives. That evening twenty men from Company D fought 
as infantry troops while the rest of the unit delivered heavy fire against 
an enemy counterattack. On 24 June the mortars of Company B 
successfully dueled with German artillery, assumed to be 8 8-mm. 
guns, which had been shelling an American regimental command post. 
On the same day, Company C aided in repelling a vigorous enemy 
counterattack by getting off 300 rounds before the division artillery 
could come into action. Expressing his view that the two mortar 
companies with his division had materially aided the success of the 
advance, Col. Kramer Thomas, chief of staff of the 79th Division, 
emphasized an inherent characteristic of the mortars—that of quick 
response to a given mission. On several occasions, he stated, the chemical 
mortars, because of the rapidity with which they went into action and 
the availability of ammunition at gun positions, were the only artillery- 
type support available.10 
8 87th Cml Bn Journal, 6 Jun 44. 
9 87th Cml Bn Opns Rpt, 6-15 Jul 44. 
10 87th Cml Bn Journal, From D Day to D plus 20, 466 
THE CHEMICAL WARFARE SERVICE 
After the fall of the port of Cherbourg half of the battalion sup- 
ported the 9th Division during the several days required to mop up 
the Cap de la Hague. By i July, when this operation ended, the 87th 
Battalion had been in continuous combat for twenty-five days. Nine- 
teen man had been killed and 75 had been wounded; battalion ammuni- 
tion expenditures totaled 19,129 rounds of HE and 11,899 rounds of 
white phosphorus. 
The nature of the fighting in Normandy was determined by the 
predominant feature of the Norman terrain, the hedgerow. As de- 
scribed by Colonel Mac Arthur, Chemical Officer, 12th Army Group: 
"The country is gently rolling grazing land, consisting of rectangular 
grass fields generally about 100 yards deep in the direction of our 
advance and 150 to 200 yards wide.” The colonel stated that these 
hedgerows were actually earth walls about four feet high surmounted 
with bushes and dotted with small trees. They were natural obstacles 
which could be put to excellent use in warfare, and the enemy fully 
exploited their defensive possibilities. Machine gun emplacements were 
located at the corners of hedgerows, and their lengths bristled with 
machine pistols, rifles, and antitank weapons. Mines with trip wires 
sometimes supplemented the already imposing defenses. Naturally, an 
advance over this ground was as slow as it was dangerous; units meas- 
ured their progress by hedgerows, not miles. This was a form of 
position warfare with bocage replacing the traditional role of trenches.11 
The terrain was particularly dangerous for mortar forward ob- 
servers, a fact emphasized by the following notation from the journal 
of the 87th Battalion for 13 July 1944: "Scarcely a day passes that 
some one, if not all the forward observer party, are either wounded 
or killed. Yet, all officers of this battalion operate as forward observers 
and there are always volunteers among the men.” 
The 86th Battalion arrived in Normandy on 29 June. Attached to 
First Army, the companies of this unit initially supported elements of 
the 90th Infantry and 8 2d Airborne Divisions. Company B was an 
exception. The ship which was taking this unit across the Channel 
sank after either striking a mine or being struck by a torpedo. One 
man was listed as missing and 26 were injured; most of the equipment 
was lost. Refitted in England, the unit rejoined the 86th on 18 July. 
u Memo, MacArthur for ACofS G-j Hq 12th Army Group, 28 Jul 44, p. 2. CWS 314.7 Unit Files. 
CMLHO. THE CHEMICAL MORTAR IN THE ETO 
467 
Although created for combat support, chemical mortar battalions 
found themselves at times in something other than a supporting role. 
The experience of Company A of the 86th on the night of 6-7 July 
is a case in point. One of its platoons was firing for a battalion of the 
359th Infantry; another was in the immediate vicinity. Wire con- 
nected the mortar company with the infantry battalion. The mortar 
company liaison officer at the forward infantry observation post re- 
ported that the situation there was uncertain and appeared to be 
getting out of control. An urgent mission, requested by an adjacent 
battalion, prompted the mortar company commander to withdraw 
his security element and send it for more ammunition. Although three 
infantry companies were thought to be in front of the mortars, enemy 
machine gun fire suddenly pierced the air above the mortar crews. 
The mortar company commander called the infantry battalion but 
could get no definite word about the situation. The infantry battalion 
agreed that a mortar barrage would probably help, and the two platoons 
fired at a range of 700 yards. When the machine gun fire crept closer, 
the commander again tried to contact the infantry command post. 
Finding it had moved, he ordered one of his platoons to withdraw, a 
maneuver accomplished with difficulty because of the heat of the 
barrels and the firm emplacement of the base plates. Soon the mortar 
positions were swept by enemy machine gun fire and the other platoon 
received the march order. As the company withdrew, 5 men fell into 
enemy hands, escaping when the Germans were driven off by the com- 
pany’s sole remaining .50-caliber machine gun. The next morning all 
equipment was recovered with the exception of one destroyed jeep.12 
Although not involved in D-day operations, the 9id Chemical Bat- 
talion soon participated in the Normandy fighting. Attached to XIX 
Corps and supporting the 30th Division, the unit first saw action in 
the opening days of July along the Vire River. On 8 July the 9id 
supported the 29th Division which was spearheading the XIX Corps 
drive on the centers of German resistance around St. L6. This and one 
other attack proved unsuccessful; fourteen days and two attachments 
later the battalion was poised for the breakthrough operation. 
Cobra, the offensive to break out of Normandy, began on 25 July. 
The VII Corps, with three divisions abreast, led the attack. Companies 
A and B, 9id Battalion, were firing preparatory missions in support 
12 86th Cml Bn AAR, i Jul-31 Jul 44, pp. 5-6. 468 
THE CHEMICAL WARFARE SERVICE 
of units of the 30th Division when Allied heavy bombers droned in 
to soften German resistance. To the dismay of the American troops, 
about 3 5 of the planes dropped their bomb loads within friendly lines.13 
Nearly 200 bombs fell in the 9 2d Battalion area alone. Lt. Gen. Lesley 
J. McNair, Army Ground Forces commander, was instantly killed 
while observing the action from a point just in front of Company A. 
Battalion losses were 5 dead and 23 wounded. Company A lost 9 mor- 
tars, half of its ammunition, and all of its vehicles. Company B fared 
better, managing to salvage 8 of its 12 mortars. On the following day 
Company C relieved Company A and the latter unit drew back to 
reorganize; three days later Company A, in turn, relieved Company B. 
By 3 August all units returned to the battalion area for rest and 
refitting. 
Operational Problems 
Despite the complaints heard throughout the Normandy Campaign 
about the lack of trained mortar battalion replacements, there was no 
over-all shortage of CWS officers in the European theater. Colonel 
St. John, Chemical Adviser, G-3, SHAEF, reported in June 1944 that 
so many CWS officers were in the theater that they were "sitting in 
each other’s laps and standing on each other’s feet.” 14 
The root of the trouble was the existence of two distinct types of 
CWS officers, technical and combat, whose roles were usually not inter- 
changeable. Misassignment not only resulted in a waste of talent but 
usually in a substandard performance. An officer whose training and 
background fitted him for a chemical laboratory assignment probably 
made a poor mortar platoon leader. Because these facts were under- 
stood neither by the Ground Forces Replacement Command in England, 
nor by the personnel officers of the higher commands, it was not 
unusual for trained mortar officers to find themselves in depots or in 
branch immaterial positions, while the mortar battalions had to settle 
for unqualified replacements.15 
This situation was verified by the commander of one of the mortar 
units which saw action in Normandy. Colonel Batte reported that 
during the course of one week in the latter part of June he received 
13Craven and Cate, eds., Europe: ARGUMENT to V-E Day, pp. 231-34. 
14 Rpt, St. John for CCWS, 28 Jun 44. 
15 (1) Ibid. (2) Ltr, Rowan to Waitt, 24 Feb 45, no sub. CWS 314.7 Personal Ltr files, ETO. 
(3) Rowan Interv, 26 Sep 58. THE CHEMICAL MORTAR IN THE ETO 
469 
two CWS officers and one infantry officer as battalion replacements. 
Batte stated: "The two CWS officers admitted they had never so much 
as touched a mortar in their entire army experience; before entering 
OCS they were in the Medical Corps. The greater part of their service 
in CWS after finishing OCS had been in pools and at the Military 
Police Training Center, Ft. Custer, Mich.” 16 The accuracy of these 
comments made by graduates of the CWS officer candidate school 
might be open to question, since the OCS curriculum included fifty 
hours of 4.2-inch mortar training.1' But whatever the explanation, 
these men were not psychologically prepared to enter combat.18 
They probably lacked technical proficiency, as well, for the Chemical 
Warfare School came to consider fifty hours as an inadequate period 
of mortar training, and in the summer of 1943 inaugurated a Battalion 
Officers Course, with the specific purpose of producing qualified mortar 
battalion officers. Because the battalions in combat were not receiving 
these officers as replacements, Colonel Batte had been requesting and 
usually getting infantrymen.19 Similar problems were encountered 
with enlisted men. Lt. Col. William B. Hamilton, commanding the 
86th Battalion, stated that the replacements received by his unit were 
not trained CWS mortarmen but were "basics from the infantry or 
most any other branch.” 20 
Efforts were made to overcome the lack of suitable mortar battalion 
replacements. General Rowan established a Chemical Training Bat- 
talion in England which began operations in August 1944. Until its 
termination in October 1944 this unit, which doubled as a replacement 
organization, trained 125 officers and 700 enlisted men for assignment 
with mortar battalions. This fine record was in part vitiated by two 
factors: the heavy demands permitted only a fraction of these troops 
to receive all of the prescribed three weeks of training, and despite 
19 Memo, Batte to Porter, 26 Jun 44. CWS 3 14.7 Personal Ltr files, ETO. 
17 See Brophy and Fisher, Organizing for War, ch. XV. 
1sColonel Batte had some first lieutenants who actually broke down and cried at the prospect of being 
sent into battle. Ltr, Batte to CMLHO, 28 Jul 60. 
10 Memo, Rowan, no addressee, 26 Aug 44, sub: Notes on Trip to Far Shore, in Ltr, Rowan to 
Waitt, 2 Sep 44. 
20 Ltr, CO 86th Cml Bn to CCWS, 18 Jul 44, sub: Employ of Cml Combat Bn. 470 
THE CHEMICAL WARFARE SERVICE 
all precautions these men continued to become lost in the Ground 
Forces Replacement Command.21 
The personnel situation remained critical throughout the winter of 
1944-45. December found the mortar battalions in the 12th Army 
Group understrength by twenty-five officers and the theater replace- 
ment center seemingly devoid of qualified chemical mortar officers.22 
The 9id Battalion, earlier unaffected by replacement problems, now 
reported that "trained officer and enlisted replacements have been un- 
available and consequently a continuous training program has been 
found necessary.” 23 
An urgent message from the theater to the War Department in 
February 1945 called attention to the need for chemical mortar 
officers. Within the theater further steps were taken to rectify the 
replacement situation. All CWS officers assigned outside the service 
had been located and a number of them were now serving in their 
proper capacities. Also, the willingness of the Ground Forces Replace- 
ment Command to work with the informal advice of General Rowan’s 
office lessened greatly the chance of misassignment of officers.24 
A personnel problem of a different sort had existed even before the 
battalions entered combat. The revised table of organization of Sep- 
tember 1943, it will be recalled, reduced the battalion strength from 
1,010 to 622. Battalion commanders were of the opinion that this 
number was below that required to man, supply, and provide com- 
munications for the forty-eight mortars within the unit. Although 
there was disagreement as to the composition of an appropriate table 
of organization, all of the commanders considered the 6-man squad 
too small to keep a mortar in action. A popular remedy was to with- 
draw several mortars and reinforce the remaining squads with the 
men thus freed. Lt. Col. Ronald LeV. Martin took more drastic 
measures with the 92d Battalion. He received permission to eliminate 
one of the four companies of his unit, thus anticipating the revised 
21 (i) Ltr, Maj Otis P. Gray to CCmlO ETOUSA, 15 Jan 45, sub: Rpt on Cml Training Bn, Incl 
to History of Plans and Tng Div Cml Sec ETOUSA, 6 Jun 44-9 May 45. Admin File 545B, Hq 
ETO, W II Div NA. (2) Memo, St. John for Comdt Cml Warfare School, 21 Sep 44. (3) Ltr, 
Rowan to Waitt, 22 Dec 44, no sub. CWS 314.7 Personal Ltr files, ETOUSA. 
22 Ltr, CmlO 12th Army Group to CCWS, 11 Dec 44, no sub. 
23 92d Cml Bn AAR, Dec 44. 
24 (1) CM-IN 22090, 22 Feb 4j. (2) Ltr, Rowan to Waitt, 24 Feb 45, no sub. CWS 314.7 
Personal Ltr files, ETO. THE CHEMICAL MORTAR IN THE ETO 
471 
table of organization which was to become effective in the fall of 
I944-25 
Another difficulty which emerged in Normandy involved the tactical 
employment of chemical mortar units, or more precisely, the matter 
of mortar battalion control. The resulting controversy provoked two 
schools of thought, one holding that mortar units should be directly 
responsible to the infantry which they supported, the other maintaining 
that they should operate under artillery control. Influential in this 
dispute was the background and training of the participants. The 
commander of the 9id, for example, had been a field artillery officer 
until transferring to the CWS; moreover, the last training phase of 
his unit had been supervised by the artillery officer of the corps to 
which the battalion was attached. It was not strange that this battalion 
commander became a leading exponent of the artillery control school. 
One of the main benefits of the artillery control system was the 
efficiency with which the battalion could operate as a unit. In defensive 
situations mortar fire could be readily massed, and the unit’s fire could 
be effectively integrated with that of the artillery. In the European 
theater, however, the limited number of mortar battalions generally 
precluded the maintenance of battalion integrity.26 
Most of those concerned, CWS and otherwise, favored the close 
infantry support method. This fact was confirmed in a CWS theater 
of operations letter which stated that although applicable artillery 
techniques and practices should be used, the normal role of the chem- 
ical battalion "should be considered as part of the Infantry team . . . 
furnishing close support with a heavy and powerful mortar.” 27 
The Drive Toward Germany 
The Fall of Aachen 
After the breakout at Avranches, the Allied advance to the east 
sharply accelerated. The tactical value of the 4.2-inch mortar usually 
decreased in fast-moving situations, and such was the case during most 
25 (1) Brig. Gen. Hugh W. Rowan, "Mortars in Normandy,” Chemical Warfare Bulletin (January- 
February, 1945). (2) 92d Bn History. 
26 (1) Rowan, "Mortars in Normandy,” Chemical Warfare Bulletin (January-February, 1945). (2) 
Memo, CCmlO 12th Army Group for G-3 12th Army Group, 28 Jul 44. CWS 314.7 (3) Rowan 
Interv, 26 Sep 58. 
27 (1) CWS TofO Ltr No. 18, 14 Sep 44, p. 3. (2) This view was substantiated by a postwar 
study in chemical mortar battalions by the General Board, U.S. Forces European Theater. 472 
THE CHEMICAL WARFARE SERVICE 
of the campaign in northern France. Although there were periods of 
intense action, most of the mortar battalions enjoyed a breathing spell. 
Some battalions temporarily acted as trucking units to help ease logis- 
tical problems which accompany any army in rapid movement. Time 
was available for rest, rehabilitation, and training, as well as for the 
opportunity to enjoy the enthusiastic reception of the liberated French 
people. It was a well-deserved respite coming between two taxing 
campaigns. 
The American forces first came into contact with the Siegfried Line 
in September 1944. At that time there were still only four chemical 
battalions assigned to the 12th Army Group, an insignificant number 
for such a formidable force. And the stiffening enemy bore little re- 
semblance to the German troops who had recently fled across northern 
France. First Army, lacking the logistical support it had recently en- 
joyed, began a series of limited probes against the German defenses. 
The objective of one of these attacks was Aachen. 
The 92d and 87th Chemical Mortar Battalions supported First Army 
in this difficult operation which took the form of a double envelopment. 
The 92d Battalion fired for the 30th Division in the XIX Corps drive 
to the north, and the 87th supported elements of VII Corps in the 
southern sector. 
The attack on Aachen, set for September, was delayed by the wet, 
miserable weather until early October. During the ensuing lull the 
9 2d improved its gun positions, perfected plans for prearranged mis- 
sions, and fired a number of probing missions. Finally, on 2 October, 
the 30th Division attacked the Siegfried Line in the direction of 
Ubach, Germany. In preparation for the assault the 9 2d Battalion 
placed a destructive barrage upon wire barriers of concertinas and 
double aprons which lay in the route of advance of two infantry regi- 
ments. Over 1,200 high-explosive shells fell in these two areas whose 
combined size measured 1,700 by 300 yards, cutting broad swaths 
through the obstacles. The mortars then kept a rolling barrage 150 
yards ahead of the advancing troops. Subsequent missions included 
those of interdiction, harassment, general support, and smoke screens 
on the flanks to hamper enemy observation. Targets of opportunity 
were numerous. One forward observer used mortar fire to chase a 
German weapons platoon into a pillbox and then adjusted 8-inch 
artillery fire to bring about the destruction of the concrete fortification. THE CHEMICAL MORTAR IN THE ETO 
473 
The battalion expended 25,000 rounds of ammunition and suffered 
30 casualties in the Aachen operation, which ended with the fall of 
the city on 23 October.28 
The 87th Battalion supported the 1st and 9th Divisions in the lower 
jaw of the pincers attack against Aachen. Frequent re-emplacements 
of the mortars resulted because of the soft, wet ground, a condition 
which also contributed to the heavy breakage of parts. Missions of 
interdiction were frequent; tanks, personnel, machine guns, and mor- 
tars were targets of opportunity for the 4.2-inch weapons. White 
phosphorus effectively screened observation from the formidable enemy 
positions which protected Aachen. Later, mortar fire was placed upon 
the enemy’s vigorous counterattacks as he attempted to fight out of 
the beleaguered city. Against one counterattack on 16 October Com- 
pany B disabled 2 tanks, knocked out 1 self-propelled gun, and killed 
between 70 and 80 of the enemy. The captain of the infantry company 
thus aided declared that the mortar support prevented the enemy from 
overrunning his unit. Against another counterattack the chemical 
mortars fired white phosphorus shells behind the supporting enemy 
tanks, silhouetting them for the benefit of American tank destroyers. 
One German tank was knocked out, two others were damaged, and 
the rest withdrew. Maj. Gen. Clarence R. Huebner, commanding the 
1 st Division, praised the chemical mortars for the part they played in 
stopping these counterattacks.29 
The 81st Chemical Mortar Battalion at Metz 
While assigned to the First Army, the 81st Battalion crossed north- 
eastern France into Belgium and Luxembourg, and in September got 
its first taste of fighting among the fortifications of the Siegfried Line. 
Here it learned that while the prepared concrete and steel positions were 
impervious to mortar shell, smoke did prove effective in preventing 
observation from these strongpoints.30 
28 (i) 92c! Cml Mortar Bn, History, 1944. (2) History of 30th Inf Div Arty, 1-31 Oct 44. (3) 
Col. Ronald L. Martin, "92d Chemical Mortar Battalion History,” Armed Forces Chemical Journal 
(October, 1951). 
29 87th Cml Bn Red of Events, pp. 87, 91. 
80 (1) The Eighty-First Chemical Mortar Battalion (booklet, 1943), pp. 44-31. (2) 12th Army 
Group, Battle Experiences No. 88, 9 Nov 44. White phosphorus shell, apart from its utility as a 
screening agent, sometimes had a psychological effect when used against enemy fortifications. The 
crew of at least one enemy pillbox, for example, surrendered when one of its members, seeing the WP 
smoke, called out, "Gas!” 474 
THE CHEMICAL WARFARE SERVICE 
In mid-September the battalion was reassigned to the Third Army, 
also recently halted by logistical difficulties. Lt. Gen. George S. Patton 
ordered a series of limited operations which would place his forces in 
a more favorable position once the drive to the Rhine was resumed. 
Attached to XX Corps, the 8ist Battalion was in the vicinity of Metz, 
preparing to support the 5 th and 90th Divisions in attacks against 
Fort Driant and Maizieres-les-Metz, an industrial town located north 
of the city.31 
The first attempt against Fort Driant was made on 27 September by 
the 2d Battalion, nth Infantry, 5th Division. This hurriedly planned 
attack proved abortive, primarily because the strength of the objective 
was not fully appreciated. Located on the dominant height in the area 
south of Metz, Fort Driant was one of the most important elements 
of the fortifications which encircled the city. It consisted of four 
casemates and a central fort whose concrete walls were 7 feet thick 
and whose various components were connected by a labyrinth of un- 
derground tunnels. Wire obstacles and a dry moat, 60 feet wide and 30 
feet deep, surrounded the over-all complex. 
The infantry battalion attacked the fort under a pall of smoke which 
Company D, 81st Battalion, placed on the installation and on the 
observation posts behind it. By late afternoon the futility of the attack 
was fully revealed, and the infantry troops were ordered to withdraw. 
Plans were immediately made by the division commander for a more 
systematic attack on the fortification. 
Company D was to remain in support of the nth Infantry, but its 
attachment was changed from the regiment itself to the supporting 
19th Field Artillery Battalion. From positions two miles north of the 
town of Onville, the mortars began to register on targets in the Fort 
Driant area in preparation for the coming attack. Occasionally, other 
missions were fired. Targets of opportunity included mortar and 
machine gun positions and harassing rounds were placed on the road 
network. In turn, the mortar positions were subjected to sporadic 
but effective enemy artillery fire. 
On the evening of 2 October Capt. Arthur R. Marshall, the company 
commander, attended several conferences with artillery officers to 
settle certain details of the attack. Late that night two 2x/2-ton trucks 
31 Cole, Lorraine Campaign, pp. 257-75. This volume contains an excellent description of the Fort 
Driant action. THE CHEMICAL MORTAR IN THE ETO 
475 
brought an extra 866 rounds of white phosphorus to a forward position 
where they were met by jeeps and trailers from the company. A 
platoon from Company C was attached to Company D for the oper- 
ation. 
A great deal more planning went into the 3 October attack on Fort 
Driant, again made by the 2d Battalion, nth Regiment, than was 
given to the one a week earlier. Tankdozers were called on to fill in 
portions of the encircling moat, and "snakes”—long pipes filled with 
explosives—were brought forward to be used against the wire obstacles 
in front of the fort. Again, fighter bombers attacked the fort and 
corps and division artillery battered its concrete defenses. More mortar 
smoke was used than in the earlier attack. 
H-hour for the second Fort Driant attack was 1100. Company D 
and its attached platoon immediately began the smoke screen in order 
to prevent enemy observation of the assault. An irregular 15-mile-an- 
hour wind made this an extremely difficult mission. At times four 
distinct screens had to be maintained in order to achieve the proper 
placement of smoke. Company D continued the screen for five and 
one half hours, expending 1,600 rounds of white phosphorus ammuni- 
tion. Despite these well-laid plans the infantry had but limited success. 
One company did reach positions within the fort, but the enemy 
reacted strongly, making reinforcement impossible. Again on 11 
October Company D’s mortars maintained a 7-hour, 1,400-yard smoke 
screen, this time with 1,975 rounds of white phosphorus. Elements of 
the nth Infantry fought on and around Fort Driant until the night 
of 12-13 October, when a decision was reached to withdraw. No other 
large screens were required in the ensuing days although target of 
opportunity and harassment missions were frequent. 
The high-explosive shell fired by the mortar company proved just 
as ineffective against the fortifications around Metz as it had against 
Siegfried Line installation at Aachen. This result was not surprising; 
500 and 1,000-pound aerial bombs also bounced harmlessly off the 
concrete and steel of the fortifications.32 
One of the handicaps under which the 81st Battalion operated in 
front of Fort Driant was the high incidence of mortar breakage. Not 
only did the weaker parts of the mortar (the recoil slides and elevating 
screws) give way, but the sturdier components (the base plates and the 
82 81st Bn, Metz Campaign, 18 Sep-21 Nov 44. 476 
THE CHEMICAL WARFARE SERVICE 
standards) as well. During the afternoon of 5 October, for example, 
the breakage became so severe that only one mortar per platoon was 
available for firing. On that day 10 base plates, 6 standards, 1 barrel, 
1 elevating screw, and 1 collar were damaged. Blame for this equip- 
ment failure was attributed to the extreme range at which missions 
were fired and to the mixed rock and shale in which the base plates 
were emplaced, resulting in uneven pressures and a consequent shearing 
effect.33 
Meanwhile, Company A of the 81st Battalion supported the 35 th 
Infantry, 90th Division, in an attack on Maizieres-les-Metz. The mor- 
tars laid smoke to screen friendly attacks and to cloud enemy observa- 
tion while mine fields were being removed. Other missions included 
those of interdiction and targets of opportunity. 
The operation against the town proceeded slowly. At one point the 
infantry was content to use the situation as a realistic training ground, 
each day setting up platoon and squad attack problems against a house 
or two.34 Company A accomplished an extraordinary mission during 
the house-to-house fighting. When an infantry battalion was held 
up by a single enemy machine gun, the battalion commander, located 
in a cellar across the street from the enemy position, called for 4.2-inch 
mortar fire. Company A adjusted a single mortar on the machine gun; 
its fourth or fifth round landed directly on the sill of the second story 
window from which the enemy weapon was firing.35 
Maizieres-les-Metz fell on 30 October, and the all-out drive on the 
city of Metz began early in November. As at Aachen, the attack took 
the form of a double envelopment, each arm of which was supported 
by companies of the 81st Battalion. In this operation Company C 
found itself attached to Team Cherry of the 10th Armored Division, 
a most unusual arrangement. During the initial stages of the attach- 
ment mine fields and roadblocks kept the advance at a relatively slow 
pace, and the mortar company was able to assume its normal role. 
But as the pace quickened, the problems of the supporting unit in- 
creased. In order to insure constant support, the two mortar platoons 
leapfrogged forward, one of them ready to fire while the other advanced 
to the next appropriate position. A liaison officer stayed with the team 
commander to insure prompt response to any calls for fire. This leap- 
83 (1) Co A 81st Bn War Diary, 1-7 Oct 44. (2) 81st Bn, Hist Rpt, 24-30 Sep 44. 
34 Cole, Lorraine Campaign, p. 278. 
36 Memo for Red, Maj James H. Watts, j Mar 32. THE CHEMICAL MORTAR IN THE ETO 
477 
frogging technique was abandoned when Team Cherry split in two, 
and a platoon joined each of the new elements. 
This employment of a mortar unit in support of an armored team 
was not altogether satisfactory. The battalion commander, Lt. Col. 
Jack W. Lipphardt, questioned the practice, calling attention to the 
difficulties of replacing mortar parts and of resupplying ammunition 
in fast-moving situations and to the relative vulnerability of mortar 
equipment.36 As the battalion operations officer, who accompanied 
Company C during this attachment, put it: "The mortar is a close 
support weapon for the doughboy and is of much more value to the 
infantry regiment than to a combat command.” 37 
In support of the entire Metz operation the 8ist Chemical Battalion 
fired 51,118 rounds of ammunition. During part of the time a shortage 
of artillery shell enhanced the role of the 4.2-inch mortar.38 
Mortar Parts and Their Maintenance 
Maintenance of the 4.2-inch mortar, which became such a grave 
problem during the autumn fighting along the Siegfried Line, had 
bothered battalion commanders since the Normandy landing. In the 
early days of fighting in France the chemical mortar assumed an im- 
portant role as a primary means of heavy weapon support. Missions 
were fired from undesirable positions at ranges far in excess of the 
4,500 yards for which the mortar was designed, a circumstance which 
contributed in a large way to mortar part breakage. 
The 87th Chemical Battalion, during its first twenty days in Nor- 
mandy, for example, expended 114 complete sets of springs and bent 
100 elevating screws beyond repair.39 The failure of the springs was 
not entirely the result of equipment fatigue and firing at excessive 
ranges. According to Colonel Batte the difficulties experienced with 
the mortar springs were "due to faulty and inferior material and 
workmanship.” New springs were known to stay contracted an inch 
or so under normal length after only five or six rounds had been fired. 
This weakness compounded the over-all vulnerability of the mortar, 
30 8xst Bn, Hist Rpt, 5-11 Nov 44. 
3‘ Co C 8 1 st Cml B, Metz Campaign, 18 Sep—21 Nov 44. 
38 (1) The Eighty-First Chemical Mortar Battalion, p. 60. (2) 8xst Bn Hist Rpt, 5—it Nov 44. 
39 Ltr, Batte to CG First Army, 25 Jun 44, sub: Replacement of Parts for 4.2-inch Mortar. CWS 
314.7 Personal Ltr files, ETO. 478 
THE CHEMICAL WARFARE SERVICE 
for other parts—shock absorber slides, elevating screws, and even 
standards—suffered when springs functioned improperly.40 The situa- 
tion was greatly alleviated when the CWS devised new and stronger 
rectangular springs.41 
Mortar breakage was not confined to Normandy but continued 
through the campaigns of northern France and the Rhineland. A 
number of circumstances accounted for such breakage. For one thing, 
in the fast-moving fighting across northern France, which was more 
in the nature of pursuit than combat, mortars were almost always 
called on to perform at excessive ranges.42 Another factor was the 
emplacement of weapons in soft ground, a situation which plagued 
the 86th Battalion, in September and October. In some cases, the 
mortar crews of the 86th, after firing only two or three rounds, had 
to dig through the mud to the base plate and haul it out with a jeep.43 
A similar problem was the presence of hard shale rock in the soft clay 
which provided uneven support for the base plate and produced a 
shearing effect. The 8ist Battalion particularly experienced this diffi- 
culty. But as the damage was much less frequent with the new mortar 
than with the old, part of the weapon mortality must have resulted 
from equipment fatigue.44 
As mortar parts continued to break, battalion commanders began 
to criticize the design and construction of the weapon, claiming that 
it should be able to withstand the rigors of combat without an extraor- 
dinary amount of repairs and replacement.45 They were especially 
critical of the construction of the base plate. The standard base plate 
weighed 150 pounds, a heavy item when carried by hand. In the 
European theater where hand-carry was at a minimum (the weapons 
and ammunition were usually conveyed by jeep trailer) it would have 
been practicable to have a heavier base plate if the additional weight 
would have added to its strength. 
Upon the recommendation of Colonel Batte of the 87th Battalion 
steps were taken to devise such a base plate. One model, constructed 
40 (i) Ibid. (2) Rowan Interv, 26 Sep j8. 
41 (1) Ltr, Waitt to CCWS ETOUSA, 14 Aug 44. (2) Memo, Col Harry A. Kuhn for CG ASF, 
7 Aug 44, sub: G-4 Per Report ETO, Quarter Ending jo Jun 44. CWS 319.1. (3) 81st Cml Bn 
AAR, 4 Nov 44 (for Oct 44), p. 4. 
43 81st Cml Bn Hist Rpt, 30 Jul-5 Aug, 13-19 Aug, 10-16 Sep 44. 
43 86th Cml Bn Hist, 11 Oct 44. 
44 81st Cml Bn Hist Rpt, 1-7 Oct 44. 
45 (1) Ltr, CCmlO ETO to CCWS, 21 Feb 45, sub: Bn Comdrs’ Comments on the Cml Mortar Bn 
and Its Equip. (2) 92d Cml Bn AAR, Dec 44, Battle Lessons and Conclusions. THE CHEMICAL MORTAR IN THE ETO 
479 
in a Belgian steel mill, weighed 275 pounds and was 7 inches longer 
and broader than the standard item. Several were issued to mortar 
units of the First Army, where the reaction among the crews was 
favorable. The use of this base plate resulted in fewer re-emplacements, 
in better accuracy, and in less damage to other parts of the mortar. 
Modifications were also made in the tie rod. Instead of welding this 
part to the standard, it was secured by a loop, nut, and belt arrange- 
ment which, by allowing greater flexibility, resulted in less breakage.46 
Manufacture of the base plate in Europe resulted from a search for 
improvement, but other parts were produced there for the specific 
purpose of relieving shortages.47 Among these items were cup forks, 
elevating and traversing screws, connector rods, standards, base and 
tube caps, shock absorber and traversing slides, and spring guides. 
Unfortunately, no manufacturers could be found for the most critical 
mortar part, the spring.48 The Seventh Army also made spare parts 
for CWS equipment, preventing at one time, at least, a crisis in the 
resupply of certain items. This work took place at Epinal at an army 
maintenance installation which used the students and facilities of a 
former vocational school.49 
The shortage of mortar spare parts harassed battalion commanders 
from the early days of the Normandy fighting and remained unsolved 
throughout most of the European operations. The solution of this 
problem was a primary mission of a CWS spare parts team which 
visited the Continent during the winter of 1944—45. In its final report 
the Spare Parts Team praised the work done by the chemical mainte- 
nance companies on the component parts of the mortar. With in- 
genuity and versatility these companies improvised, cannibalized, and 
even manufactured sufficient spare parts to permit the continued 
46 (i) Ltr, CmlO First Army to CCWS, n May 43. (2) Ltr, CmlO First Army to CCmlO 
ETOUSA, 1 May 45, sub: Shipment of Strengthened ADSEC COMZ 4.2” Cml Mortar Baseplates to 
Edgewood Arsenal for Test. (3) Memo, Batte for Hist Off, 4 Apr 52. 
47 (1) Memo, Capt Robert O. Myers for CmlO Seventh Army, 17 Jan 45. (2) Ltr, Lt Col Ingalls 
S. Bradley, Deputy CWO ADSEC COMZ to CCWO ETOUSA, 9 Jan 43, sub: Procurement of Spare 
Parts for 4.2-inch Cml Mortar. (3) One of the plants at which mortars were produced was located 
about twenty-five miles north of Namur, Belgium. Full advantage was taken of local skilled labor 
and the mass production facilities of the plant. Ltr, CO 11 th Cml Maint Co to CmlO Seventh Army, 
16 Feb 43. 
48 (1) OCCWS, Final Rpt, Spare Parts Team in MTO and ETO, pp 108-09. CMLFIO. (2) 
Ltr, Bradley to CCWS ETOUSA, 9 Jan 43, sub: Procurement of Spare Parts for 4.2-inch Cml Mor- 
tars. (3) Rowan, panel comments. 
48 Seventh Army Cml Sec Hist Rpt, 1-3 1 Dec 44. 
289-149 0- 68—32 480 
THE CHEMICAL WARFARE SERVICE 
operation of the mortar battal- 
ions.50 Despite occasional criticism 
about the distance between the 
mortar battalions and the main- 
tenance companies,51 effective liai- 
son was generally maintained be- 
tween these units. Seventh Army 
insured prompt maintenance by 
the unprecedented device of at- 
taching 17-man detachments of 
the chemical maintenance com- 
panies directly to the mortar bat- 
talions under army control. The 
rest of these companies were re- 
sponsible for the maintenance of 
other chemical equipment, as well 
as of mortar carts and ammuni- 
tion, and for fourth and fifth 
echelon maintenance on the mor- 
tars themselves.52 
The German Winter Offensive 
Progress of the Allied armies, slow and costly during the fall of 1944, 
came to a complete halt on 16 December as the Germans launched 
their surprise winter offensive through the Ardennes. In one of the 
many readjustments hurriedly made to meet the threat of the Bulge, 
the 3d Chemical Battalion was shifted from the 6th to the 12th Army 
Group.53 There it fought with Third Army’s III Corps to relieve the 
Preparing a 4.2-Inch Mortar 
Shell for Firing, Ardennes counter- 
offensive. 
50 (i) OCCWS, Final Rpt, CWS Spare Parts Team in the MTO and ETO, p. n. (2) The nth 
Chemical Maintenance Company (Seventh Army) developed and manufactured a pneumatic shock 
absorber which aided in the reduction of breakage of mortar parts. Hist Rpt, Cml Sec Seventh Army, 
1-30 Dec 44. 
;>1 In November, Lt. Col. Ronald LeV. Martin of the yid Battalion requested that the maintenance 
company be moved farther forward as it took a day to take damaged parts to the rear for repair. The 
colonel also considered excessive the length of time taken to make the repairs. Ninth Army Cml Sec, 
p. 1, Notes on Visit, 28 Nov 44, by Lt Joel B. Marangella and Capt Cooney. 
Ltr, Maj J. J. Heffner, Office of CmlO Seventh Army, to CO nth Cml Maint Co and CO 12th 
Maint Co, 22 Dec 44, sub; Responsibilities of Seventh Army CWS Maintenance Cos. App. A, Hist 
Rpt Cml Sec Hqs Seventh Army, 1 Dec-31 Dec 44). 
53 The 2d, 3d, and 83d Chemical Mortar Battalions participated in the Seventh Army invasion of 
southern France and eventually were assigned to the 6th Army Group. The 99th Battalion, activated 
in Italy, joined the 6th Army Group in December 1944. THE CHEMICAL MORTAR IN THE ETO 
481 
encircled forces at Bastogne. Mortar companies initially were attached 
to 2 infantry divisions, an armored division, and a cavalry squadron. 
During December units of the battalion operated under 2 armies, 2 
corps, 6 infantry divisions, and a cavalry group. They expended 
17,499 rounds of ammunition and, surprisingly enough, suffered no 
casualties.54 
Farther to the north the 86th Chemical Battalion supported V Corps 
in the First Army sector. There it was touch and go. The enemy had 
broken through a neighboring unit and had then cut into the V Corps 
sector. German paratroopers landed in the corps rear area intent on 
the disruption of communications and the seizure of installations. 
86th Battalion headquarters organized eight patrols to comb the area 
for these enemy troops. The patrols found no paratroopers, but they 
did come across a house with a cache of enemy equipment and weapons. 
The rear area of Company D was overrun during the confusion of 
the breakthrough, and 14 of its men were listed as missing in action. 
Company C of the 86th lay in the direct path of the German drive. 
Never had the unit experienced such a critical situation; never had its 
efficiency, morale, discipline, and resourcefulness been so tested. Units 
which had protected the mortar company suddenly turned to it for 
protection. Mortar fire halted enemy advances and covered friendly 
movements; mortarmen maintained communications for and with 
isolated and threatened units and stayed at their guns while these units 
withdrew to safety. One mission fired on 19 December enabled a hard- 
pressed infantry company to withdraw safely from a position that had 
become untenable. The mortarmen placed smoke and high-explosive 
shell in a narrow gap which separated the infantry unit from the enemy 
and continued to fire while all other units passed to the rear. Then 
they, themselves, withdrew. At times during this period division artil- 
lery, armor, and infantry withdrew under Company C’s protective 
fire—fire which "was largely responsible for holding up the enemy 
advance and almost solely responsible for the safe manner in which 
these withdrawals, were effected.00 
During the first week of the Ardennes offensive the 86th Battalion 
expended 7,380 rounds of ammunition. However, the service given 
by the battalion could not be measured in rounds. Its value during 
54 (i) Hist, Hqs 3d Cml Bn, 23 Dec 44, p. 20. (2) 3d Cml Bn Rpt of Opns, 1-31 Dec 44, p. 2. 
Both in 3d Cml Bn History, Dec 44. 
Bo 86th Cml Bn Hist, 17-23 Dec 44, p. 4. 482 
THE CHEMICAL WARFARE SERVICE 
those trying days can be appreciated only with the knowledge that the 
4.2-inch mortar was an important source of artillery-type fire—fire 
which enabled the infantry in its sector to gain some order out of the 
chaos caused by the German attack. 
During December the mortar battalions began to reorganize under 
new tables of organization and equipment. Dated 29 September, the 
revised TOE triangularized the battalion by eliminating Company D. 
This change had long been advocated by CWS officers, although there 
had been a recent move to retain the fourth company as a replacement 
and training unit.56 The designation of the three companies was 
changed from "weapons” to "mortar.” Each had 3 platoons of 4 mor- 
tars, or a total of 36 for a battalion; the previous organization provided 
for 4 companies, each with 2 platoons of 6 mortars, or a total of 48. 
Battalion commanders had long complained of insufficient men; now, 
despite the reduction in the number of weapons, battalion strength rose 
from 622 to 672. What formerly had been the headquarters detach- 
ment with 63 men was changed to a headquarters company with 155. 
The inclusion of nine il/z -ton trucks in the new TOE provided a 
slight increase in the amount of organic transportation. 
All of the chemical mortar battalions (they previously had been 
designated "chemical battalions, motorized”) did not convert to the 
new organization immediately but did so throughout the winter of 
1944-45 and the following spring, as they enjoyed an infrequent relief 
from front-line activity. The 2d and 92d, for example, converted in 
December, the 91st in January, and the 87th in May. 
Mortar Shell Malfunctions 
The period of the Ardennes counteroffensive saw the start of a series 
of mortar shell malfunctions which were to plague the battalions for 
most of the winter of 1944-45. These malfunctions were of two types: 
barrel bursts, in which the round prematurely exploded within the 
barrel; and muzzle bursts, in which the round exploded after leaving 
the barrel but still within the vicinity of the mortar emplacement. 
In December 1944 ETOUSA impounded several lots of chemical 
mortar ammunition suspected of containing faulty shells. Periodically 
thereafter, as muzzle and barrel bursts occurred, other ammunition 
m (1) CM-OUT 19799, 28 Mar 44. (2) CM-OUT 8007, 19 Mar 44. (3) 12th Army Group 
Immediate Rpt 39, Batte Interv. (4) St. John, Chemical Opns in France. THE CHEMICAL MORTAR IN THE ETO 
483 
was withdrawn from supply channels. By the middle of January 1945 
a combined list of restricted ammunition included 90 percent of the 
available supply. Sometimes the pressure of the tactical situation forced 
the release of suspected ammunition. In these cases the mortar crews 
took particular precautions to minimize danger; some chemical mortar 
battalions fired their weapons with the use of lanyards and others built 
sandbag emplacements along side of the mortars.57 
A conference of mortar battalion commanders of both the 12th 
and 6th Army Groups was held in January in the office of General 
Rowan, with defective 4.2-inch mortar shell as one of the main topics 
of discussion. Consensus was that most of the blame for malfunctions 
was attributable to the mortar fuze. One solution initiated by Seventh 
Army was the substitution of an artillery fuze for the suspected CWS 
item. Test firing of shells with this alteration proved successful, and 
30,000 of these fuzes were obtained for the conversion of an equal 
number of impounded mortar shells. A difference in threads made the 
substitution of fuzes no easy job. One big advantage resulted from the 
new combination; the artillery fuze included a delayed action setting 
(not found in the CWS M3) which had long been sought by chemical 
units for use against buildings, pillboxes, and other structures.58 
Mortar shell misfires reached a peak in January 1945. In one 10-day 
period two mortar battalions attached to First Army experienced a 
total of five barrel or muzzle bursts resulting in serious injury to four 
men. These accidents happened despite careful checking and the 
observance of precautionary measures. One serious result of these 
malfunctions was that mortar crews were beginning to show fear of 
their weapon.59 
Concern for this serious situation in the theater naturally extended 
to the Office of the Chief, CWS, in Washington. The few zone of 
interior malfunctions had been thoroughly investigated and were 
found to have been caused in practically every case by a faulty fuze. 
The increase of misfires overseas prompted General Porter in January 
1943 to send to Europe an investigating mission headed by General 
Bullene. A definite correlation between extreme cold weather and 
(i) Seventh Army Cml Sec Hist Rpt, i —31 Jan 44, 25 Feb 45, p. 4. (2) OCCWS Rpt of Mal- 
function of the 4.2" Cml Mortar Ammunition, Their Cause, Effect and Measures Taken to Correct 
Deficiencies (hereafter cited as Rpt of Malfunctions), 12 Aug 46, VIII, 75. 
58 Seventh Army Cml Sec Hist Rpt, 1-3 1 Jan 45; 1-28 Feb 45. 
59 Rpt on Malfunctions, VIII, 53. 484 
THE CHEMICAL WARFARE SERVICE 
malfunctions, particularly barrel bursts, had been established by tests 
in the zone of interior. The experience in Europe substantiated these 
findings, as there were no more barrel bursts after 29 January when 
the cold spell ended. The Bullene mission attributed the muzzle bursts, 
which were not related to the temperature, to a series of weaknesses 
and defects in the mortar fuze. Corrective measures were recommended 
in all cases, some of which had been anticipated by the zone of interior 
investigations. 
Actually, the over-all malfunction record of 4.2-inch mortar ammu- 
nition during World War II was not bad. Of the approximately four 
million rounds expended both in training and in combat a total of 
63 exploded prematurely, causing the death of 38 and the injury of 
127 American soldiers. This averaged 1.58 premature rounds in every 
100,000 fired.60 
The Final Drive 
By the end of January 1943 the Allies had regained the ground lost 
during the enemy’s Ardennes offensive. In February the 12th Army 
Group prepared for attack along the Roer and Sauer Rivers, an attack 
whose impetus would carry to the Rhine. This latter obstacle, the 
last great defensive barrier for the enemy, was surmounted in March. 
After that, victory was but a matter of time. 
Much of the fighting of February and March involved river cross- 
ings. The Roer, the Erft, the Sauer, the Moselle, the Rhine—these 
were the larger rivers which blocked the American forces in their 
drive to the east. The chemical mortar battalions, by both smoke and 
high explosive missions, provided valuable support in this series of 
important operations. 
One of the most spectacular smoke operations in Europe involving 
chemical mortar battalions was staged in the Third Army sector during 
the XII Corps attack across the Sauer and Our Rivers. This attack, 
which began on 7 February 1945, was supported by the 91st Chemical 
80 Rpt of Malfunctions, Abstract, pp. I—II. (2) See Brophy, Miles, and Cochrane, From Labora- 
tory to Field, Chapter XV, for more on mortar shell malfunction. THE CHEMICAL MORTAR IN THE ETO 
485 
Mortar Battalion, commanded by Lt. Col. Roy W. Muth.61 Companies 
B and C fired for regiments of the 5 th Division; Company D supported 
the 417th Infantry, 76th Division, attached to the 5th Division for 
the operation; and the two platoons of Company A supported, respec- 
tively, the 905th and 314th Field Artillery Battalions of the 80th 
Division. 
These mortar units moved to positions to the west and south of the 
Our-Sauer Rivers line several days before the attack was to begin.62 
This movement in itself was difficult. The roads, heavy with traffic in 
support of the impending attack, were subject to enemy fire from the 
heights east of the rivers. The positions of Company D were in the 
town of Echternach on the south bank of the Sauer, an area which 
had not been occupied in strength by American forces because the 
commanding ground just across the river was studded with pillboxes 
of the Siegfried Line. This fact was driven home when the mortar 
officers who reconnoitered Echternach quickly attracted enemy ma- 
chine gun fire. The company moved into the town, two vehicles at a 
time, under the cover of darkness and with chains and reflectors re- 
moved from the jeeps and trucks. 
Company B, in support of the 10th Infantry, had less trouble getting 
to its attack position despite the traffic-clogged roads leading to the 
river. Four hours after receiving march orders on the morning of 
5 February, the platoons of the unit traveled ten miles and set up 
their mortars in the town of Berdorf. Company C supported the 
nth Infantry also from positions near Berdorf. Anticipating heavy 
enemy artillery opposition, the unit placed its switchboard and fire 
direction centers near the mortars to reduce the expected difficulty in 
keeping wire communications intact. 
The XII Corps met strong resistance along the Our and the Sauer. 
The Germans, ensconced in the strong defenses on the heights on the 
east, dominated the valley. The swift-moving rivers were additional 
81 The 91st Battalion was committed to action in December 1944, a month which saw the beginning 
of a steady influx of new mortar battalions. By the end of the war the 12th Army Group had a 
total of twelve, the number previously decided upon for the European theater. In addition to those 
units already mentioned in the text, the following chemical mortar battalions saw action with the 
12th Army Group: the 89th, commanded by Lt. Col. Donald E. Yanka; the 90th, Lt. Col. Edgar V. H. 
Bell; the 93d, Lt. Col. Jacquard Rothschild; the 94th, Lt. Col Benjamin D. Williams, Jr.; the 95th, 
Lt. Col. Earl L. Shepherd; the 96th, Lt. Col. Farleigh E. Smith; and the 97th, Lt. Col. Edwin S. S. 
Hays, Jr. The 6th Army Group had four battalions. 
62 The Our River branched off from the Sauer River about ten miles or so below the town of 
Echternach, making the two, in effect, a continuous waterway. 486 
THE CHEMICAL WARFARE SERVICE 
obstacles. Given the excellent German observation and the relative 
impregnability of his positions, it is understandable that smoke missions 
assumed a great importance in the XII Corps operation. 
All four of the companies fired screening missions for the American 
attack. The 10th Infantry found the going exceedingly rough. On 
the second day of the attack Company B maintained two major 
screens to obscure enemy observation, one parallel to the front and 
one perpendicular to it. In addition, one of the platoons successfully 
blanketed an enemy observation post and placed fire on several troop 
concentrations. In all, 2,357 rounds of WP were fired that day. Oper- 
ations were impeded by abnormal wind conditions which caused the 
smoke to rise vertically, a phenomenon called "pillaring.” On the fol- 
lowing day the company expended 2,232 rounds of white phosphorus 
on a 9-hour smoke screen. At one point the screen was lifted and the 
effectiveness of smoke was dramatically demonstrated as enemy artillery 
and machine guns opened fire on American troops. The screen was 
resumed at once, and the enemy activity abruptly ceased. During the 
two days action just described the 1st Platoon alone expended 3,287 
rounds of white phosphorus, or roughly 41% tons. 
One platoon of the smoke generator company attached to corps 
supported the Echternach crossing. After a short period of operation 
the smoke troops claimed that twelve generators were out of order 
and their unit commander sent the equipment back to a maintenance 
company for repair. There the generators were examined by Colonel 
Cottingham who found all but one to be in perfect operating condition. 
And the exception was in need of very minor adjustment. Apparently, 
the lack of training, discipline, and leadership prompted the smoke 
troops to take this action in an effort to be relieved from front-line 
duty. At Bollendorf, to the west, smoke generator troops effectively 
established a curtain between the crossing site and the high ground to 
the northwest from which the Germans had excellent observation.63 
Among the problems confronting the 91st Battalion during the 
Sauer-Our operation was the dirty ammunition with which the bat- 
talion was supplied. During the two days of intense firing reported 
above, all available officers and men, from cook to company commander, 
63 (1) Pritchard, Smoke Generator Opns in MTO and ETO, p. 140. (2) According to Colonel 
Cottingham, XII Corps, after Echternach, requested Third Army to see to it that the smoke company 
not be attached to it in future operations until the company had proper training and leadership. Cot- 
tingham Interv, 17 Dec 5 6. THE CHEMICAL MORTAR IN THE ETO 
487 
were compelled to assist in cleaning the rounds and preparing them for 
firing. Communication was likewise a problem. The wire and radio 
communication of a platoon of A Company, for example, was also 
used by two engineer units and the medical detachment and heavy 
mortar platoon of an infantry battalion. Even the matter of feeding 
the men proved difficult. The road leading into Echternach was a 
gantlet that had to be run daily by the mess personnel of Company D. 
Pfc. Richard Stubblefield had two jeep tires shot out from under him 
by shell fragments during one such mission, but continued to take 
hot food to the men. 
As evidence of the severity of fighting against the obstacles of the 
Sauer and Our Rivers and the Siegfried Line, the companies of the 91st 
fired for five days from their initial positions. During this period units 
of the battalion completed twenty-four smoke missions ranging in 
duration from thirty minutes to nine hours and requiring almost 
10,000 rounds of shell. 
In another February operation the 87th Battalion supported VII 
Corps in the First Army attack across the Roer River in the vicinity 
of Diiren. Early in the month the battalion’s four mortar companies, 
two attached to the 8 th Division and two to the 104th, moved into firing 
positions on the west side of the river. Here they waited for two weeks. 
The Germans, before relinquishing control of the area, destroyed the 
sluice valves of the Roer River dams. The raging waters of the river 
rose five feet, forcing postponement of the attack until 23 February. 
The period of waiting was not idly spent by the mortar companies. 
Some fired on targets of opportunity and others interdicted road junc- 
tions. Company D, during the last days before the attack, set up feint 
smoke screens in the hope that the enemy would be less apprehensive 
when screens appeared for the actual crossing. On the night before 
the attack the company blanketed the eastern bank of the Roer to 
cover four patrols sent out to clear mines from the far side of the river. 
Smoke was necessary because of the bright moonlight. 
Supporting fire for the First Army attack began early on the 
morning of 23 February. After the assault began the mortar companies 
laid smoke screens to cover the infantry in its drive across the river. 
One company fired four smoke screens which progressively covered 
an attacking battalion, enabling it to cross the river and an expanse 
of flat terrain with negligible casualties. Again moonlight made this 488 
THE CHEMICAL WARFARE SERVICE 
Roer River Bridge Behind a Smoke Screen 
concealment necessary. Company C for over fifteen hours maintained 
a continuous 1,500-yard screen which blocked enemy observation from 
the high ground near Diiren and allowed ferrying and bridge con- 
struction operations to continue without the hazard of observed artil- 
lery fire. On this first day alone the 87th Mortar Battalion fired over 
4,000 rounds of ammunition. 
The VII Corps, spearheading the First Army’s advance to the Rhine, 
eliminated all enemy resistance in its zone on the west side of the river 
by 9 March. On the following day the 87th Battalion received word 
that it was to be sent from the First to the Seventh Army, which on 
1 5 March was to initiate a drive through the imporant Saar-Palatinate 
triangle.64 This operation was to involve the penetration of the Sieg- 
04 The 87th Battalion made this move as a unit, the first time it had assembled or moved as a batta- 
lion entity since it had left England. The 162-vehicle convoy covered the 317 miles and was in 
position with mortars ready to fire in 33 hours. Only 3 vehicles failed to complete the move because 
of mechanical failures. (1) 87th Cml Bn Red of Events, 13-14 Mar 43. (2) Ltr, Batte to Hist Off, 
2 j Jul 60. THE CHEMICAL MORTAR IN THE ETO 
489 
fried Line and the drive to and the ultimate crossing of the Rhine. 
Twice before the 87th had supported divisions which penetrated the 
Siegfried Line—near Aachen in September 1944 and near Malmedy 
in February 1945. And, as before, the battalion supported a vanguard 
corps, this time the XV. By 23 March divisions of the corps had pene- 
trated the Siegfried Line and were ready for the Rhine crossing. All 
four companies of the 87th Battalion were in support of the 3d 
Division which was to cross in the vicinity of Worms. Intense artillery 
and mortar preparations preceded the assault across the i,ooo-foot-wide 
river. 
Companies A and B consolidated their fire in support of the 7th 
Infantry. Between 0200 and 0315 on 26 March they fired twenty-three 
concentrations entailing 1,200 rounds of ammunition. Thereafter 
various targets of opportunity—machine guns, self-propelled guns, 
mortars—were hit by the 4.2-inch mortars. At dawn the combined 
companies laid two 10-hour screens (600 and 2,200 yards) which 
concealed bridge-building operations from direct enemy observation. 
Companies A and B expended 3,615 rounds of WP and 462 rounds of 
HE during the first day of the attack.60 The effectiveness of the fire 
was made a matter of record by the operations officer of the 3d Division. 
The Ninth Army, north of First Army and still under control of 
21 Army Group, crossed the BJiine in an area just north of the Ruhr 
Valley. The army attack was concentrated on the XVI Corps front, 
with another corps poised to exploit initial successes, and a third lending 
support by fire and demonstration. In keeping with the decision 
temporarily to bypass the great Ruhr industrial area, XVI Corps 
attacked with an exposed right flank. To prevent enemy observation 
from the many potential observation posts in the Ruhr Valley, Ninth 
Army called for a 2-mile smoke screen along its exposed right flank. 
The XVI Corps attacked with two divisions abreast, the 30th on the 
left and the 79th on the right. The 89th Chemical Mortar Battalion, 
Colonel Yanka commanding, supported the 79th Division.66 Colonel 
Yanka initially divided his battalion into two parts, one for each of 
the attacking regiments of the 79th. Company A, with the 3d Platoon 
of Company B attached, supported the 313th Infantry on the division’s 
right; Company C, augmented by the other two platoons of Company 
65 Company C was not called upon for fire on 26 March and Company D expended only 457 rounds. 
Both units crossed the river on the first day. 
66 The 92d Battalion was attached to the 30th Division. 490 
THE CHEMICAL WARFARE SERVICE 
Artificial Haze Obscures Vehicles Crossing The Rhine 
B, fired for the 315th Infantry on the left. These inflated companies 
reported to their respective regiments on 12 March. As this mortar 
battalion was without experience in river crossings, forward observer 
teams, two of which were to cross with the assault elements, joined the 
infantry for specialized training. 
The 79th Division began to cross the Rhine in the Milchplatz-Orsoy 
area at 0300 on 24 March. Companies A and C of the 89th Chemical 
Mortar Battalion joined artillery units in pre-H-hour preparations and 
then, for seventy-five minutes after the attack began, fired prearranged 
concentrations. Upon completion of the preparatory fire the platoons 
of B Company reverted to company control. At 0600 Company A, 
firing from Orsoy, began its 3,500-yard screen along the division’s 
right flank. Each mortar fired a volley of fifteen rounds to establish 
the screen and then fired a round every fifteen seconds to maintain it. 
This rate was found to be excessive and was reduced to an average of 
one shell per mortar per minute. At times the screen thinned, and 
additional rounds were fired. The screen was maintained until dark. THE CHEMICAL MORTAR IN THE ETO 
491 
One mortar was reserved for any targets of opportunity reported by 
the forward observers. Late in the day Company C crossed the river 
as did the first platoon of Company B, now in support of the 314th 
Infantry. Company A remained in position.67 
Several problems arose during the first day. The soil gave way under 
rapid fire, causing frequent re-emplacement of base plates. The heavy 
rate of fire also caused considerable damage to mortar parts. Over- 
heated barrels caused premature ignitions; in one instance a barrel 
became so hot that it bent. Shock absorber mechanisms broke down, 
base cap pins sheared, and locking forks broke or bent. On the other 
hand, tie rods and standards held up well. 
On the morning of D plus 1 (25 March) heavy enemy fire from 
the right hastened the resumption of the flanking smoke screen. During 
that day the length of the screen was reduced by 700 yards because 
of the high rate of attrition of mortar parts. The next afternoon Capt. 
Clyde H. Westbrook, commander of Company A, reconnoitered the 
east bank of the Rhine for new mortar positions. That night the 
company crossed the river on Alligators and floating bridge sections 
and continued the smoke screen at dawn the next day. On 27 March 
the tactical situation was such that the use of smoke on the right flank 
was no longer required.68 
With the Rhine behind them the Allies pushed deeper into German 
territory, and although there was some bitter resistance left in the 
enemy, it was to be only sporadic. Chemical mortar battalions accom- 
panied the armies in their advance but much of the time, as in northern 
France, the rapid movement eliminated the need for their employment. 
And so, as the European war came to an end, some of these battalions 
were already serving in nonoperational and occupational capacities. 
This was as it should have been; they had done their measure of fighting 
and had acquitted themselves well. 
97 Part of the 74th Smoke Generator Company supported the 315th Infantry at Milchplatz. There 
were no generators at Orsoy until 26 March. See above, Chapter IX, for details of smoke generator 
activities during the Rhine crossing. 
68 (1) Notes of Conf Held at Hist Off, 1 March 50, sub: 89th Cml Bn and the Rhine Crossing. (2) 
89th Cml Mortar Bn History, 24 Mar 45. CHAPTER XIII 
The Chemical Mortar in the Pacific 
The employment of chemical mortar units in the Pacific differed 
considerably from that in the Mediterranean and European theaters. 
With the halt of the general Japanese advance at Guadalcanal, Allied 
forces faced the prospect of subjugating or bypassing the many island 
groups that lay between them and Japan. Because some of the islands 
were not very large certain of the campaigns were to be fought by 
small task forces, with a single mortar platoon attached to a regimental 
combat team. The islands also dictated that there would be a great 
many amphibious operations in which the 4.2-inch mortar, mounted 
on landing craft, was gradually to assume an important role. In many 
cases the advancing Allies were confronted by thick jungle growth 
which hindered the use of artillery and enhanced the value of the 
more mobile 4.2-inch mortar. This terrain, consisting of dense vege- 
tation broken only by an occasional path, created problems of observa- 
tion and transportation even for chemical mortar units. The climate 
of the Pacific added to the difficulties of mortar operations; the heavy 
rain, intense heat, and high humidity of the tropics made it difficult 
to insure effective employment of the mortar and proper maintenance 
of the weapon and its ammunition. 
South Pacific Area 
The initial combat employment of chemical mortar units in the 
war against Japan took place in September 1943 during the fight for 
New Georgia in the South Pacific Area.1 It must be re-emphasized 
that the CWS did not receive authorization for the high explosive 
mission for 4.2-inch mortars until 19 March 1943, nearly seven months 
1 The South Pacific Area lay south of the Equator, east of longitude XJ9° east, and west of longitude 
iio° west. It was a vast expanse and included more than one million square miles of ocean and 
thousands of islands, among them New Zealand, New Caledonia, the New Hebrides, and the Santa 
Cruz, Fiji, Samoan, Tongan, Cook, and Society Island. THE CHEMICAL MORTAR IN THE PACIFIC 
493 
after U.S. forces first landed on Guadalcanal. For the Allies the 
Guadalcanal operation was the beginning of the road back. More 
immediately it had the mission of blunting the Japanese advance and 
protecting the vital lifeline between Australia and the United States.2 
With Guadalcanal secured, American forces looked northwest up the 
Solomon Island chain that led to New Britain and the important 
Japanese base at Rabaul. The Russell Islands fell first; then came the 
New Georgia campaign with its focal point at Munda, the site of an 
enemy airfield. The attack on the island of New Georgia began on 
2 July 1943. 
The 82nd Mortar Battalion was the first and only battalion in the 
South Pacific Area. Under command of Lt. Col. William H. Shimonek, 
the unit arrived at New Caledonia on 19 July 1943, too late to see 
action in the Munda operation. After a few weeks of training on 
Guadalcanal, elements of the 82d Battalion entered the mopping-up 
operation on Arundel and Kolombangara Islands in the New Georgia 
group. Assigned to XIV Corps and attached to the 43d Infantry Divi- 
sion, a platoon of B Company landed on what was to be known as 
Mortar Island in the Stima Lagoon area. This platoon fired its first 
combat rounds on the morning of 10 September when, under control 
of the division artillery, it delivered harassing and interdictory fire 
against the enemy, some of it on enemy barges operating between Ko- 
lombangara and Sagekarasa Islands.3 
Meanwhile, in close support of the 27th Infantry, 25th Division, 
another platoon of the mortar battalion, moved up to Bamboe Penin- 
sula on Arundel Island. The men used jeeps, hand carry, and a variety 
of boats to negotiate the difficult terrain. Once in position the mortars 
fired at enemy barges and troops. Despite the extreme range mortar 
fire destroyed three barges, causing the loss of enemy troops and sup- 
plies. From 25 September to 4 October the mortars placed cross- 
channel fire on the airfield on Kolombangara Island and on enemy ship- 
ping in the narrow waters between the islands. 
These initial mortar operations were accompanied by certain prob- 
lems, notably those involving transportation and supply. Major Mc- 
2 For details on the Guadalcanal operation, see Miller, Guadalcanal: The First Offensive. 
3 Unless otherwise noted, material for this section was based on the after action reports and unit files 
of the 8id Chemical Mortar Battalion and supported units. The latter include XIV Corps, 43d, 37th 
and 25th Divisions, i8id and 24th RCT’s, and 133th Field Artillery Battalion. These records may be 
found in the Sixth Army Reds, CMLHO. Military Intelligence Division, War Department, World 
War II, A Chronology, and CWS Theater of Operations Letters, 7, 10, 18, 19, have also been used. 494 
THE CHEMICAL WARFARE SERVICE 
Kaig, chemical officer of the 25 th Division, improvised methods to 
provide the transportation and manpower necessary to resupply mortar 
units. Shipped from Guadalcanal to New Georgia by LST and from 
New Georgia to the northern end of Arundel Island by LCT (landing 
craft, tank), the ammunition was then transferred by LCM’s to a 
battalion dump at the west end of Sagekarasa Island. From there 
engineer ponton boats took the ammunition across a lagoon to the mor- 
tar platoon’s unloading points at the other end of the island.4 
Although infantry commanders were unfamiliar with the capabili- 
ties and limitations of the mortar, most troops recognized the satis- 
factory performance of both the mortar crews and the weapon. And it 
was the opinion of a prisoner of war that the Japanese feared mortar 
barrages more than those of the artillery. One criticism by supported 
units was the great number of tree bursts which occurred in the heavy 
jungle canopy and which resulted from a lack of a delayed action fuze.5 
The 8 2d Battalion next saw action on Bougainville, the largest of the 
Solomon group. Operations on this island began on the first day of 
November 1943 when the 3d Marine Division spearheaded the assault 
landings of the I Marine Amphibious Corps, with the 37th Infantry 
Division landing a week later. The XIV Army Corps, composed of 
the 37th and Americal Divisions, took over from the marines on 15 
December. The corps commander, Maj. Gen. Oscar W. Griswold, in- 
dicated his desire to employ chemical mortar units in place of corps 
artillery in situations where the use of the latter was impracticable. 
During and after the all-out enemy counterattacks on the American 
perimeter around Empress Augusta Bay in March 1944, infantry divi- 
sions attached mortar platoons to regiments or battalions. Control of 
the weapon varied. In the Americal Division mortar units operated 
directly under the supported infantry organizations, while in the 37th 
Division the mortarmen received firing instructions through the fire 
direction center of the artillery battalion to which they were attached. 
Both methods were satisfactory, but direct contact with the supported 
infantry seemed preferable since it allowed greater responsiveness dur- 
ing changing situations and provided closer liaison with responsible 
‘‘Ltr, Col McKaig to Hist Off, 27 Dec 50. 
5(i) Ltr, Dir Intell ASF to Distr, 21 Jan 44, sub: Opns Against Treasury Island and Munda. 
CWS j 19.1-Treasury Island. (2) Ltr, CO Co B ?2d Cml Bn to CCWS, 2 Oct 43. (3) 43d Inf Div 
Rpt of Opns During Arundel Campaign (29 Aug-23 Sep 43). THE CHEMICAL MORTAR IN THE PACIFIC 
495 
commanders.6 Heavy barrage missions were normally co-ordinated 
with corps and division artillery. 
The jungle foliage on Bougainville was so thick that forward ob- 
servers, compelled to employ sound-sensing methods of observation, 
were often located only 30 yards from the enemy and directed fire to 
within 20 yards of their own observation post and of the front lines. 
During the height of one enemy attack, the mortars placed smoke 
shell directly in front of enemy forward elements while troops of the 
18 2d Infantry, only 30 yards away, withdrew without casualties. This 
was one of the few uses of WP on Bougainville, since the smoke further 
reduced the jungle’s limited visibility. 
Infantry commanders soon recognized that the mortars could en- 
gage, with a weight of shell comparable to that of 105-mm. artillery, 
many targets which could not be reached by the 105’s and 155’s. To 
insure adequate fire coverage of the entire 13-mile perimeter, thirty 
mortar positions were established which were linked together by more 
than 150 miles of communications wire. The necessity for this unusual 
number of gun positions was well demonstrated during one 4-day 
period in March by simultaneous requests from the 129th, 145th, and 
18 2d Infantry for supporting fire from the platoons of Company A. 
Daily battalion expenditure of mortar shell on Bougainville during 
March was extremely heavy; during the last three weeks of the month 
Company A alone expended 20,250 rounds in defense of a hill held by 
elements of the Americal Division. In an 11 March mission Companies 
A and D massed fire with 75-mm. and 105-mm. howitzers and with 
6o-mm. and 81-mm. mortars in a preparation which helped repel an 
enemy attack. Twelve days later Companies C and D joined with seven 
artillery battalions and two cannon companies in the heaviest general 
supporting fire laid down in the South Pacific fighting. 
Field artillery officers were impressed by the amount of effective 
fire produced by a chemical mortar company as compared to that of 
an artillery unit. Maj. John D. Tolman, who commanded the 82d 
Chemical Mortar Battalion from 26 April until the close of the Luzon 
Campaign, disclosed that infantry commanders felt they could not 
"properly accomplish [their] mission [without] 4.2-inch mortar sup- 
6 XIV Corps, Extracts, Rpt on Lessons Learned in Bougainville Opn (hereafter cited as XIV Corps, 
Extracts, Rpt on Bougainville), p. 3. CMLHO. 
289-149 0-68—33 496 
THE CHEMICAL WARFARE SERVICE 
port.” 7 The 37th Division considered the 4.2-inch mortar "a powerful 
and devastating supplement to the division’s artillery and mortar 
fires,” and commanders of the Americal Division, while recommending 
reduction of the minimum range to increase the weapon’s flexibility, 
commented on the effectiveness of the chemical mortar in perimeter 
defense and for fire on reverse slopes.8 Captured Japanese documents 
revealed the enemy’s fear of the weapon; enemy artillery was instructed 
to concentrate on American mortars.9 
Infantry and chemical battalion commanders on Bougainville in- 
dicated that they were unfamiliar with each other’s organization, 
tactics, and procedures and recognized the need for joint unit training. 
This reciprocal unfamiliarity continued to be a problem whenever a 
mortar unit was committed for its first engagement or a division had 
a chemical mortar unit attached to it for the first time.10 
Beginning at Bougainville securing mortar crews against enemy in- 
filtrations became a serious problem, particularly during night mis- 
sions. Because of the absence of infantry perimeter guards and the 
frequency of enemy infiltrations, the battalion provided for day and 
night shifts both at the gun positions and at forward observation posts. 
Single and double apron fences surrounded emplacements. Automatic 
rifles and grenades were the chief means of repulsing Japanese attempts 
to overrun mortar positions. 
The relatively static nature of the battle for the perimeter around 
Empress Augusta Bay eased the problem of maintenance. On the coral 
rock soil of Arundel, Company B had broken five base plates, bent five 
or six tie rods, and cracked several barrel cups and base plate spades. 
On Bougainville, despite the heavy and continuous fire, the softer 
ground and the fact that time was available to construct adequate em- 
placements resulted in a minimum of damage to mortar parts. The tor- 
rential rains, high humidity, and intense heat of South Pacific islands 
created serious problems both in the maintenance of mortar shell and its 
7 (i) Ltr, CO Sad Cml Mortar Bn to ACCWS for Field Opns, 22 Apr 44, p. 4. (2) CWfi TofO 
Ltr No. 19, 24 Oct 44, p. jS. 
8 (1) Ltr, CG 37th Div to CO Sad Cml Mortar Bn, 20 Apr 44, sub: Commendation. (2) XIV 
Corps, Extracts, Rpt on Bougainville, pp. 2, 9, 
9 (1) Ltr, CO Sad Cml Mortar Bn to ACCWS for Field Opns, 22 Apr 44. (2) TofO Ltr No. ij, 
21 Jun 44, pp. 3-4. 
10 (1) 37th Div AAR Bougainville, 8 Nov 43-30 Apr 44, p. 59. (2) Lt. Col. Orbie Bostick (for- 
merly CmlO SOP AC), "Twenty-one Months in the South Pacific,” Chemical Warfare Bulletin, vol. 
29, No. 8 (December, 1943—January, 1944). THE CHEMICAL MORTAR IN THE PACIFIC 
497 
components. During the heaviest downpours, firing ceased because 
excessive water in the barrel resulted in "poop-outs.” The extreme heat 
melted the filling of white phosphorus shells, creating a lateral void 
for those rounds stored in a horizontal position. These rounds tumbled 
badly when fired. A lack of adequate waterproofing combined with 
dampness caused the malfunction of cartridges and propellants and 
corrosion of fuzes while shells were in storage. In an attempt to mini- 
mize these difficulties on Bougainville mortarmen placed their am- 
munition dump, featured by sheltered racks and a double-decked roof, 
as far inland as possible. Even then ammunition had to be checked and 
rechecked, particularly the fuzes. Although heat, rain, and dampness 
continued to be a problem throughout operations in the South and 
Southwest Pacific, the situation improved in late 1944 with the intro- 
duction of metallic containers for propellants and cartridges. 
At least one difficulty with mortar shells was not brought on by the 
weather. This was the occasional absence of the steel balls which pre- 
vented the premature arming of the fuze. Despite close inspection 
of mortar ammunition short rounds and premature bursts resulted in 
several casualties to both mortarmen and infantry.11 
Southwest Pacific Area 
New Guinea 
Early in 1943 the Chemical Warfare Service,12 the War Department, 
and Southwest Pacific Area headquarters considered the possibility of 
shipping chemical mortar units to the Southwest Pacific.13 The area’s 
demand for these units grew more insistent after a weapons demonstra- 
tion held in October 1943. At the demonstration General Krueger, 
Commanding General, Sixth Army, told Maj. Gen. William H. Gill, 
Commanding General, 3id Infantry Division, that the 4.2-inch chemi- 
cal mortar was the weapon needed to clean the enemy out of tenaciously 
11 (i) Ltr, CG USAFISPA to CCWS, 10 Apr 44, sub: Faulty 4.2 Cml Mortar Shell Fuzes. CWS 
314.7 Unit Files. CMLHO. (2) Rad CM-OUT 24933, 19 Apr 44. (3) Rad CM-IN 14685, 
20 Apr 44. (4) The Sad remained on Bougainville until December 1944, when it sailed for Luzon. 
8 2d Cml Mort Bn, Hist Data Cards. 
12 References used for this section, unless otherwise noted, include: (1) Unit Reds, 98th Cml Mortar 
Bn (CMLHO); (2) Sixth Army AAR’s (Sixth Army Reds, ORB, CMLHO). 
18 (1) Ltr, CmlO USASOS to ExecO OCCWS, 18 Jan 43. (2) Personal Ltr, CmlO I Corps to 
ACCWS for Field Opns, 26 Jan 43. (3) Ltr, ACCWS for Field Opns to Chief OPD WDGS, 11 Mar 
43, no sub. All three in CMLHO. 498 
THE CHEMICAL WARFARE SERVICE 
held positions.14 Several other high-ranking commanders who had 
participated in the Buna campaign in Papua, where mortar battalions 
had not been available, echoed this opinion. They suggested that a 
chemical mortar battalion be made a part of army troops for attach- 
ment to corps and divisions.15 
In April 1944 General Mac Arthur launched a new offensive along the 
northern coast of New Guinea in a series of operations which, in col- 
laboration with Admiral Nimitz’ drive through the Central Pacific, 
would place American forces in a position to retake the Philippine Is- 
lands. On 22 April Mac Arthur’s initial objectives, Hollandia and 
Aitape, were attacked by I Corps operating as Reckless Task Force.16 
The elements of Reckless Task Force had chemical mortar support 
for the Hollandia operation, but this support came from a rather odd 
source. Because of a shortage of mortar units in the zone of interior the 
War Department in February 1944 authorized the SWPA to convert 
a tank destroyer battalion to a chemical mortar battalion at the earliest 
practicable date. Almost immediately the theater reorganized the 641st 
Tank Destroyer Battalion which, after a brief period of training, par- 
ticipated in the Hollandia operation, under command of Lt. Col. 
Alexander Batlin. But redesignation waited until June 1944, producing 
the anomalous situation of a so-called tank destroyer unit firing 4.2- 
inch chemical mortars.17 
The mortars played an extremely minor role at Hollandia, the entire 
four companies firing less than 350 rounds during about one week in 
the line. At the request of a regimental commander one company 
dragged a single mortar and 120 shells on carts for twelve miles along 
a narrow, muddy mountain trail, across a 2,ooo-foot ridge, through 
swamps, and over three rivers—only to arrive too late to support the 
fight for Hollandia Airdome. It was fortunate that expenditures were 
low because ammunition was limited. On the night of 23 April enemy 
planes bombed the beachhead dumps at Humboldt Bay destroying 6,550 
14 Memo, ACmlO Sixth Army for CmlO Alamo Force, 8 Oct 43. 300.6—Misc Memos and Ltrs, 
Sixth Army Reds. 
15 Excerpt from AGF Bd Rpt on SWPA, No. 3 1, 25 Feb 44. CMLHO. 
16 For details of the strategic decisions and tactical aspects of these operations along New Guinea’s 
northern coast, see Smith, Approach to the Philippines. 
17 (1) Rad, CM—IN 8408, 12 Feb 44. (2) Ltr, AG to CINCSWPA, 25 Feb 44, sub: Reorgn and 
Redesignation of 641st Tank Destroyer Bn. (3) CM-TN 0238Z, Jul 44. THE CHEMICAL MORTAR IN THE PACIFIC 
499 
rounds of 4.2-inch mortar shell, or about 78 percent of the available 
supply.18 
Subsequent New Guinea operations utilized but one mortar com- 
pany at a time. Company B of the 98 th, commanded by 1st Lt. Vernon 
E. Woebbeking and attached to the 191st Field Artillery Group, suc- 
cessively supported the 163d, 158th, and 20th Infantry Regiments dur- 
ing the Wakde Islands-Maffin Bay fighting which took place in May 
1944. During the assault phase of this operation, the LCM’s carrying 
the 4.2-inch shell grounded over fifty yards from the beach and the 
mortar crews had to carry their cargo through chest-deep water.19 
During the cross-channel firing on the Wakde group the chemical 
mortars massed fires with the 81-mm. mortars and with the artillery 
from the mainland. When attached to artillery units the mortar pla- 
toons were divided into 2-gun sections with weapons placed approxi- 
mately 1,000 yards apart. Chemical officers and Sixth Army head- 
quarters vigorously criticized this practice because it prevented the units 
from massing their fires and giving close support to the infantry. They 
insisted that platoons be employed as units under direct infantry 
control.20 Later, mortar units were assigned to the infantry and re- 
mained so attached for the rest of the operation. 
In June 1944 Hurricane Task Force, principally composed of two 
of the three regiments of the 41st Division, assaulted the island of Biak, 
located west of Wakde off New Guinea’s northern coast.21 The Allied 
forces wanted the island, as they had Wakde, as a site for airfields for 
bombing operations against the enemy. Company D, 98th Battalion, 
commanded by Capt. Jalmar Gertulla, supported the attacking forces 
with missions for perimeter defense, beachhead extension, and harass- 
ment. On one occasion the 2d Platoon covered the withdrawal by 
water of a tank-led infantry battalion and then, after destroying their 
mortars and ammunition, withdrew itself. Early in June observers of 
the mortar platoon directed fire from landing craft on cave mouths 
18 (i) AGF Bd Rpt on SWPA, No. 74, 9 Jun 44, Employ of 4.2" Cml Mortars. (2) Cml Sec 41st 
Div, n.d., Hist Rpt, Letterpress Opn (22 Apr-5 May 44). AGRO-H (7945) 341-11.7. (3) 
Smith, Approach to the Philippines, p. 66. (4) Lt. Col. John E. Clarke, “The Longest 12 Miles on 
Earth,” Chemical Warfare Bulletin, vol. 31, No. 1 (January-February, 1945), pp. 47-49. 
19 Personal Ltr, CmlO Tornado TF to CmlO Sixth Army, 22 May 44. 300.6—Memos to and from 
APO 565 Unit i, Sixth Army Reds. 
30 Ltr, Cml Warfare Intell Team 4 to CmlO USASOS, 24 Jun 44, sub; Rpt on Use of Cml Warfare 
Weapons and Munitions. 
21 See Riegelman, Caves of Biak, for a personal account of the Biak operation. During World War 
II Colonel Riegleman served as I Corps chemical officer. 500 
THE CHEMICAL WARFARE SERVICE 
invisible to both air and ground observers. Unfortunately, when the 
ist Platoon fired 180 rounds of high explosive at cave mouths for an 
antitank company on 7 June, 10 out of 12 rounds with T-89 delay 
fuzes were duds, while other rounds with point-detonating fuzes ex- 
ploded as tree bursts above the caves. 
What might be considered classic examples of combined all-mortar 
preparations took place on 16 and 27 June. Chemical mortar barrages 
preceded advances of the 18 6th Infantry near the village of Mokmer 
on Biak; this fire was then lifted and was followed sucessively by the 
81-mm. and the 60-mm. mortars. On both dates, the infantry ad- 
vanced against minor resistance to objectives which, before these prep- 
arations, had been vigorously defended.22 
With the Wakde experience in mind the 20th Infantry inquired 
whether a chemical mortar company could be assigned to the 6th 
Infantry Division. After Biak, supported battalions in the i62d and 
18 6th Infantry Regiments stated that because of its greater range and 
blast effect on area targets, the 4.2-inch mortar filled the gap between 
the 81-mm. mortar and artillery. Because of the higher angle of fire, 
the infantry preferred the 4.2-inch mortar to 75-mm. and 105-mm. 
howitzers for firing on sharply defiladed and densely wooded terrain. 
In open terrain the mortar was equal in effectiveness, if not range, to 
the 105-mm. howitzer. On the other hand, two battalion commanders 
considered the 4.2-inch mortar less accurate than the 81-mm. weapon 
and complained of the slow displacement of the former over rough 
terrain during a fast-moving advance.23 
The 98 th Battalion encountered some of the same tribulations on 
New Guinea that had marked the fighting in the South Pacific Area. 
These included the unfamiliarity of infantry commanders with the 
capabilities and limitations of the weapon, the inadequate training of 
mortar personnel in infantry tactics and procedures, the excessive 
length of time firing personnel remained in the line without relief, and 
the deleterious effects of dampness on mortar shell components and their 
containers. The disadvantages of attaching mortar units to artillery 
22 Ltr, CmlO U.S. Forces to CmlO Alamo Force, 19 Jul 44, sub: Preliminary Tech Rpt 5, p. 6. 
350.05-Biak, Sixth Army Reds, ORB. 
23 (1) Ltr, CmlO Tornado TF to CmlO Sixth Army, 22 Jun 44. 472.4—4-2” Cml Mortar, Sixth 
Army Reds, ORB. (2) Ltr, CmlO 41st Inf Div to CmlO Alamo Force, 27 Jul 44, sub: Preliminary 
Tech Rpt 16, pp. 1—2. 350.05—Biak, Sixth Army Reds, ORB. THE CHEMICAL MORTAR IN THE PACIFIC 
501 
organizations, realized in the South Pacific, were emphasized in the 
Southwest Pacific.24 
Beginning with the fighting on New Guinea, one of the most per- 
sistent of the bottlenecks facing mortar units was the lack of adequate 
motor transportation. Several times the units were unable to keep up 
with supported infantry in fast-moving actions. At Hollandia and on 
Wakde ship-to-shore movement suffered seriously from a shortage of 
amphibious vehicles. In the former operation, one company failed to 
land in time to carry out its mission in support of an infantry regiment. 
The value of adequate motorized equipment from ship to shore and 
from the shore inland was again illustrated on Biak where assignment 
to the company of 4 Dukws and 3 additional il/2-ton 6x6 trucks 
insured prompt and speedy landing of men, weapons, and shell; 
facilitated leapfrogging of platoons during movement of the company 
along beach areas; and resulted in satisfactory ammunition resupply. 
Colonel Arthur, Chemical Officer, 41st Division, as well as the G—3 
of I Corps, felt that mortar units should be committed with complete 
organic transportation and urged that the companies be provided 
with either 2 LVT’s (landing vehicles, tracked) or 4 Dukws for am- 
phibious movement.25 
Leyte 
In September 1944, with the northwest coast of New Guinea in the 
hands of General MacArthur and with the Marianas Islands secured 
by Admiral Nimitz, the Joint Chiefs of Staff, deciding to skip three 
planned intermediate objectives, set their sights directly on the island of 
Leyte in the Philippines.26 In a move that speeded up the Pacific time 
24 (i) Cml Sec 41st Div, n.d., Hist Rpt, Letterpress Opn (22 Apr-5 May 44), p. 10. (2) CmlO 
41st Inf Div, n.d., Hist Red, Cml Sec 41st Inf Div, p. 4. CMLHO. (3) An. 2 to G-j I Corps, 
History of Biak Opn, ij-27 Jun 44, n.d., p. 40. (4) Ltrs, CmlO Persecution TF to CmlO Sixth 
Army, 27 Apr, 22 May 44. 300.6—Memos to and from APO 565 Unit I, Sixth Army Reds, ORB. 
(5) CM-IN 14904, 17 Aug 44. 
25 (1) An. 2 to G—3 I Corps, History of Biak Opn, 15-27 Jun 44, p. 40. (2) Ltr, CmlO 41st 
Inf Div to CmlO Alamo Force, 12 May 44, sub: Cml Phase of Letterpress Opn. (3) Sixth Army 
Cml Warfare Activities During the Biak Opn, pp. 6-7. 350.05, Sixth Army Reds, ORB. 
otherwise noted, references for the Leyte operation include: (1) Unit Histories, Rpts, and 
Reds of 85th and 88th Cml Mortar Bns, in Sixth Army Reds; (2) Sixth Army, Rpt of Leyte Opn, 
30 Nov 45, and Rpt of G-4 and Cml Sec of same headquarters; (3) CmlO X Corps, Rpt of Leyte 
Campaign, 3 Jan 45, in Sixth Army Reds; (4) Ltr, CG 24th Div to CG X Corps, 18 Dec 44, sub: 
Rpt, Chemical Warfare Activities Leyte Opn, CMLHO; (5) 19th Inf Hist Red, Leyte Campaign, 
8 Sep-22 Nov 44. 502 
THE CHEMICAL WARFARE SERVICE 
table by exactly two months, they directed Mac Arthur and Nimitz to 
assault Leyte on 20 October.27 
At the time of the Leyte invasion Sixth Army included X Corps and 
XXIV Corps. The latter had been at Pearl Harbor preparing for the 
assault on the island of Yap when the change of plans eliminated that 
particular operation. Thereupon Admiral Nimitz turned over the 
XXIV Corps to General MacArthur. Major elements of XXIV Corps 
were the 77th and 96th Divisions, having among their supporting units 
the 88th Chemical Mortar Battalion (less companies C and D), and 
the 7th Division, supported by the 91st Chemical Company. The 
latter, one of two separate mortar companies to see action in World War 
II, had been stationed for some years at Schofield Barracks on Hawaii.28 
Chemical mortar units already with Sixth Army were the 98th and 
the 85 th Battalions. The former, having participated in the Wakde 
and Biak fighting, had entered a period of rest and rehabilitation. The 
85 th Chemical Mortar Battalion, a recent arrival from the United 
States, supported X Corps in the Leyte operation, specifically the 1st 
Cavalry and 24th Infantry Divisions. 
Commanded by Lt. Col. Kenneth K. MacDonald, the 85 th Bat- 
talion landed on the beaches of Leyte with the early waves of the 20 
October assault. The battalion was divided into two groups, corres- 
ponding with its attachments—the headquarters detachment and Com- 
panies A and B with the 1st Cavalry and Companies C and D with the 
24th Division. Company C ran into immediate difficulty. Coming in 
with the fourth wave the two landing craft carrying the 3d Platoon re- 
ceived direct hits from enemy fire. One man was killed and 10 others 
were wounded. But in general, enemy resistance was light, and this 
circumstance, combined with a lack of transportation, limited initial 
activity for the companies of the 85 th Battalion. Companies C and D 
had landed without organic vehicles and were to operate under that 
handicap for the entire campaign. 
During the second and third weeks of November, Company C sup- 
ported the 21 st Infantry, 24th Division, in the extremely bitter fighting 
for Breakneck Ridge, southwest of the town of Pinamopoan located 
on the northern coast of Leyte. The Japanese defended this position 
27 See M. Hamlin Cannon, Leyte: The Return to the Philippines, UNITED STATES ARMY IN 
WORLD WAR II (Washington, 1954), for the strategy behind this decision and for an account of 
the actual operation. 
28 See Brophy and Fisher, Organizing for War, app. H. THE CHEMICAL MORTAR IN THE PACIFIC 
503 
with a tenacity that gave the hill formation its nickname. For a time 
the rugged terrain limited artillery support, a situation which enhanced 
the value of the CWS weapon. The mortar platoons fired nearly 2,800 
rounds of ammunition during the period 7-1 5 November, including 
missions against troop concentrations, entrenchments, pillboxes, mor- 
tars, machine guns, and light artillery. 
On 14 November the 3 id Division relieved the 24th Division and, 
as so often was the case, Company C of the 85 th Battalion remained 
in the line in support of a new infantry regiment, this time the 128th. 
Within four days an incident occurred which marred good relations 
between the supporting and supported units. On the morning of 18 
November the mortars of Company C, along with other supporting 
weapons, fired about 375 rounds against an enemy strongpoint. De- 
spite the testimony of the mortar forward observer, the division chemi- 
cal officer, and the regimental commander himself, Company C was 
charged with a short round burst that killed one infantryman of the 
128th and wounded seven others. The X Corps commander, Maj, Gen. 
Franklin C. Sibert, ordered the relief of the mortar company, an action 
which took place six days later with the arrival of Company B. Un- 
fortunately, this incident destroyed the confidence of the infantry in 
the chemical mortar; for quite a while thereafter the division employed 
the 4.2-inch mortar only for road interdiction.29 
Company B, 88 th Chemical Mortar Battalion, commanded by Capt. 
Henry A. Kitselman, came ashore with elements of 96th Division 
(XXIV Corps) over the beaches near Dulag.30 During the first two 
weeks of combat the platoons of the company operated separately in 
support of infantry battalions in attacks in the vicinity of the landing 
beaches, against enemy positions on Labiranan Head, Labir, and Catmon 
Hill, and inland near the villages of Tabontabon and Dagami. Initially, 
the swamp and poor transportation prevented the mortars from getting 
inland and thereafter transportation proved to be a major problem. 
During this period, which coincided with the rainy season, the vehicles 
of the mortar company became mired, while advancing infantrymen 
**(1) It was a matter of small irony that General Sibert was the son of the first Chief, Chemical 
Warfare Service, Maj. Gen. William L. Sibert. (2) Ltr, CG 32d Div to CG X Corps, 19 Dec 44, 
sub: Rpt of Cml Warfare Activities in the Leyte Opn. Sixth Army Reds, 319.1 Leyte Opn Rpts. 
(3) Lt John K. King, Rpt of Inspection of Forward Position during A+27 - A-j-31, Nov 1944. 
Sixth Army Reds, 333 Inspection Rpts. 
30 The troops of XXIV Corps also had the support of eight mortar boats. 504 
THE CHEMICAL WARFARE SERVICE 
were calling for fire now beyond mortar range. The mortars did com- 
plete some missions. On 22 October one of the mortar platoons re- 
pulsed an attack of a Japanese patrol killing 52 of the enemy and itself 
suffering 2 killed and 6 wounded. Later, on 27 and 28 October, the 
mortars silenced enemy 7 5-mm. mortars in defilade on Catmon Hill, 
burned four sniper-infested pillboxes, and screened the withdrawal of 
an infantry company pinned down on Catmon Hill. 
From 5 to 20 November Company B, firing as a unit, supported the 
3 8ad Infantry and then, until 28 November, the 381st, which was 
slowly advancing through the swamps, rice paddies, and hilly terrain 
west of Dagami. Mortarmen, with the aid of Filipinos, carried their 
weapons and ammunition by hand, or placed them on the backs of 
plodding carabao. The intense rain continued to hamper all ground 
operations. It caused base plates to sink into the soft mud and resulted 
in mortar breakage and the consequent suspension of firing. 
Company A, 88 th Chemical Mortar Battalion, landed with the 77th 
Division early in December 1944 and remained with that unit for two 
months. The 91st Chemical Mortar Company supported the 7th Divi- 
sion throughout the Leyte Campaign. Although placed under control 
of division artillery, each of its three platoons supported one of the 
three regiments of the division. During this 41-day commitment, two 
platoons used artillery forward observers and one used its own. In the 
drive on Ormoc the division artillery assumed control of the mortar 
company. Although no missions took place under this arrangement the 
platoon fired for registration every evening. In mid-December two of 
the platoons reverted to regimental attachment, a step which in the 
opinion of the company commander, Capt. Eugene F. Them, resulted 
in a far better utilization of the unit.31 
The performance of the 4.2-inch mortars on Leyte was not an un- 
qualified success. Infantrymen frequently complained that the mortar 
units could not keep pace with them in rapid advances over rough ter- 
rain, a situation resulting as much from the rainy season in which the 
operation took place as from the lack of complete organic transporta- 
tion among the mortar units. This lack stemmed directly from the in- 
fantry’s unfamiliarity with the needs of mortar units—only one of 
the six divisions which saw action had had previous chemical mortar 
support. As a result, most of them failed to allot sufficient shipping 
31Ltr, CO 91st Cml Co (Motorized) to CmlO XXIV Corps, 14 Dec 44, sub: Rpt of Mortar Co 
Activities. Sixth Army Reds, 319.1 Leyte Opn Rpts. THE CHEMICAL MORTAR IN THE PACIFIC 
505 
space for the mortar units and most organic vehicles were not taken 
aboard.3-’ Only when the supported divisions and regiments assigned 
additional transportation to the mortar companies did the latter re- 
cover their mobility.33 At the conclusion of the Leyte operation chemi- 
cal officers not only recommended the use of Dukws for mortar units in 
assault landings, but also the employment of tracked vehicles in swampy 
terrain. 
Luzon 
Turning his attention from Leyte, where he left the newly activated 
Eighth Army, to Luzon, General MacArthur directed General Krueger 
to seize a beachhead on Lingayen Gulf, drive southward and free 
Manila, and, eventually, liberate the entire island.30 The decision to 
take Luzon had come only after prolonged debate at the highest level of 
strategic planning. S-day for the operation was 9 January 1945.36 
Sixth Army operations on Luzon had the support of three mortar 
battalions.37 The 98th Chemical Mortar Battalion supported I Corps 
on the left of Sixth Army’s beachhead and the 8 2d fired for the divi- 
sions of XIV Corps on the right. The 85 th Battalion was released from 
the Eighth Army later in January and attached to XIV Corps. These 
three mortar battalions provided continuous close support throughout 
the fighting on Luzon. As on Leyte, the corps normally reattached 
mortar companies to divisions which, in turn, assigned platoons to 
assault regiments. 
Initially, XIV Corps faced but token resistance as it headed down 
the central plain of Luzon toward Manila. Enemy opposition increased 
in the last week of January, particularly in the Zambales Mountains on 
82 (1) Ltr, CG Sixth Army to Distr, 23 Nov 44, sub: Rpt on Mistakes Made and Lessons Learned in 
K-2 Opns, pp. 20-21. 314.7 Hist Rpts, Sixth Army Reds, ORB. (2) Ltr, ACmlO Sixth Army 
to CmlO I Corps, 29 Oct 44. 300.6 Memos, I Corps, Sixth Army Reds, ORB. 
38 (i)Ltr, CG Sixth Army to Distr, 23 Nov 44, sub: Rpt on Mistakes Made and Lessons Learned in 
K-2 Opns, pp. 20-21. (2) Co A 88th Cml Mortar Bn Journal, Leyte. 
34 Ltr, CmlO POA to CCWS, 4 Apr 43, sub: Observer Rpt of Action of Co B 88th Cml Mortar 
Bn on Leyte. CMLHO. 
35 Sources for this section include: Unit Histories and Rpts of 8ad, 83th, 88th, and 98th Cml 
Mortar Bns, in Sixth Army Reds ORB and CMLHO; XIV Corps M-7 and M-i Opns, Luzon; Rpts of 
25th, 32d, 33d, 37th, and 43d Divs, of 3th, 7th, and of 8th Cav Regts, and 20th and 63d Inf Regts. 
36 For details on the strategy behind the Luzon decision as well as for a comprehensive account of 
the entire campaign, see Robert Ross Smith, Triumph in the Philippines, UNITED STATES ARMY IN 
WORLD WAR II (Washington, 1963). 
37 As in the case of Leyte the assault troops of I and XIV Corps were accompanied by 4.2-inch 
mortar boats. THE CHEMICAL WARFARE SERVICE 
the right flank of the corps. After a week marked by effective mortar 
fire against personnel, weapons, tanks, and supply dumps, three com- 
panies of the 8id turned southward to join in the struggle for Manila. 
The fourth, Company B, remained behind in the hills west of Fort 
Stotsenburg, successively supporting elements of the 40th, 43 d, and 
38th Divisions from 28 January to 18 March. Mortar operations in 
support of a 40th Division attack on Snake Hill North were featured 
by some unusual action on the part of forward observers. On 7 Feb- 
ruary, after enemy fire wounded a platoon forward observer, Cpl. Ed- 
ward A. Yehle of the mortar observation party successfully directed 
chemical mortar and artillery fire against enemy opposition in front of 
a battalion of the 160th Infantry. Next morning another mortarman, 
Pvt. Herbert H. League, took charge in a similar situation, simul- 
taneously directing 4.2-inch mortar, 81-mm. mortar, and artillery fire 
in action which resulted in the destruction of at least one enemy ma- 
chine gun and which served as a screen for the evacuation of friendly 
casualties. Later, League directed similar fire which proved instru- 
mental in the death of 40 Japanese and in repulsing an enemy attack. 
Meanwhile, the main body of the 82d supported the 37th Division as 
XIV Corps pushed down Route 5 toward Manila. The approach to the 
city was uneventual in comparison to the resistance encountered once 
the American forces entered Manila. Fire missions for the mortars 
picked up immediately. The weapon screened regimental crossings 
of the Pasig River, which bisects the city, and fired support, incendiary, 
and neutralization missions, mostly in conjunction with infantry mor- 
tars and the artillery. After witnessing the chemical mortars in action 
before the High Commissioner’s residence, the Assistant Chief of Staff, 
G-3, 37th Division, declared that "direct support infantry weapons, 
particularly 4.2-inch mortars, falling close to our own lines, were found 
to neutralize the enemy where penetration took place.” 
The 85 th Battalion was triangularized just prior to landing near San 
Fabian in the Lingayen Gulf on 28 January with the 1st Cavalry Divi- 
sion.38 By early February, its mortars were in Manila supporting 
cavalrymen from emplacements on city pavements, vacant lots, lawns, 
golf courses, even tennis courts. From 22 to 25 February elements of 
Company B fought as infantry in defense of a regimental perimeter 
within the city. 
38 As in the fighting in Europe, the mortar battalions in the Pacific reorganizec} under the new 
tables of organization whenever it became convenient. THE CHEMICAL MORTAR IN THE PACIFIC 
507 
Certain supported commanders, particularly in the 7th Cavalry 
Regiment, refused to use chemical mortars for close support missions, 
claiming that the old M2 sight was inaccurate.39 But it was with this 
sight that elements of the 85 th massed fire, along with 81-mm. mortars, 
in the final assault on the Agriculture Building and brought fire to 
within 200 feet of the mortar observation post. After the cavalry took 
its objective, a regimental operations officer called the chemical mortar 
fire "the most accurate fire support we’ve ever had.” Battalion casual- 
ties, the highest for a 30-day period of any chemical mortar battalion 
on Luzon, totaled 7 men killed and 13 wounded. 
During the last part of February and before resistance had ended in 
Manila, XIV Corps gave the 1st Cavalry Division (less one brigade) 
and the 6th Infantry Division, until recently a part of I Corps, the 
mission of clearing the Manila watershed and attacking Japanese forces 
in the Sierra Madre Mountains about ten miles east of the city. These 
enemy troops, comprising the major enemy concentration in central 
Luzon, had not taken part in the Manila fighting but had withdrawn to 
the east with the approach of the American troops. Ensconced in the 
so-called Shimbu Line, Japanese forces put up fanatic resistance in the 
rugged and rocky foothills of the Sierra Madres. 
The 8 2d and 85 th Chemical Mortar Battalions fired in support of 
these operations. Company A, 85 th Battalion, saw a good deal of action 
with the 7th and 8 th Cavalry regiments west of Antipolo. Early in 
March a squadron commander refused to have one of the mortar pla- 
toons engage a target because it was within 500 yards of his troops. 
Instead, he gave the mission to his 81-mm. mortars, despite the fact 
that these weapons had a greater dispersion than did the 4.2’s. This 
show of hesitancy regarding mortar support by the 85 th Battalion was 
not the first to come from supported troops. A succession of battalion 
commanders—there were three incumbents during the first six weeks 
of 1945—provides another clue to the fact that not all was right with 
the unit. As of 16 March the firing companies of the 85 th reverted to 
battalion control and underwent an intensive 2-week training period 
under the new commander, Maj. Maurice G. Green, recently operations 
officer of the 8 2d Chemical Mortar Battalion. 
The 8 2d Chemical Mortar Battalion supported the Shimbu opera- 
39 Memo, CmlO Sixth Army for ACofS G-j Sixth Army, 12 Mar 45. S-j Rpts, 85th Cml Mortar 
Bn, Sixth Army Reds, ORB. 508 
THE CHEMICAL WARFARE SERVICE 
tions from 25 February until 30 April. In mid-March the XIV Corps 
relinquished control of this fighting to XI Corps, and the Sad utilized 
this transfer of command to reorganize under the latest table of or- 
ganization. Battalion support in the vicinity of Mount Mataba, one 
of the bastions of the Thimbu Line, resulted in some of the heaviest 4.2- 
inch mortar fire in the Pacific war. During the 2-week period between 
23 March and 5 April the Sad fired nearly 190 missions with an ex- 
penditure of over 22,000 rounds. On 6 April two platoons of Com- 
pany B and one from Company C, in support of an attack by the 63d 
Infantry, laid a 6,000-yard smoke screen southeast of Mount Mataba 
and maintained it for eight hours. The smoke masked the advance 
of the infantry from enemy observation posts on Mount Mataba and 
a lesser hill which was an immediate objective of the attack. The mor- 
tars maintained this screen by firing a total of 16 rounds a minute the 
first hour and 10 rounds a minute thereafter. Unfortunately, a short- 
age of ammunition brought a halt to the screen before the troops 
reached their objective. Three hours later ammunition requested from 
XI Corps four days earlier arrived at the mortar positions.40 
On 21 April Company B (less the 3d Platoon), while in support of 
the 145th Infantry, participated in one of the heaviest preparations fired 
on Luzon. In order to cover an infantry advance on the slopes of 
Mount Pacawagan, another of the keys to the Shimhu positions, the 
mortar company fired 2,525 rounds of white phosphorus to set up a 
7-hour screen, supplemented by two B-25 aircraft laying a 8,000-yard 
FS screen. Six days later the crest of Pacawagan fell to troops of the 
145th Infantry after a combined weapons preparation and with the 
aid of a chemical mortar screen. 
That the reputation of smoke increased on Luzon is suggested by 
the following entry in a 6th Infantry Division operational report: 
"The outstanding use for chemical warfare weapons in the Shimbu 
Line battle was the use of screening smokes. . . .” 41 One of the mortar 
battalions called attention to the high ratio of white phosphorus used on 
Luzon,42 indicative of quite a departure from previous Pacific practice. 
40 (i) zd Ind, CmlO 6th Inf Div to CmlO Sixth Army, 12 Apr 45, on Ltr, CmlO XI Corps to 
CmlO 6th Div, 8 Apr 45, sub: Smoke Opn. Sixth Army Reds, 470.6 Smoke Missions. (2) Artillery 
as well as mortar units had difficulty with ammunition supply. 
41 Digest of Staff Sectional Rpts, 6th Div, Luzon Campaign, 9 Jan-30 Jun 45, p. 126. Opns Rpts, 
AGO 306 — 0.3 (12490). 
42 82d Cml Mortar Bn Hist Rpt Luzon Opn, 9 Jan-30 Jun 43, The First 120 Days (hereafter cited 
as Sad, First 120 Days Luzon), p. 6. CWPN 82 - 0.3 (24513). THE CHEMICAL MORTAR IN THE PACIFIC 
509 
Infantry commanders had long been reluctant to request WP fire. 
Smoke as a means of concealment was often superfluous in the jungle 
fighting during the early years of the war, and casualties were produced 
by high explosives. As a consequence, white phosphorus ammunition 
remained unused while stockpiles of high explosives were bled white. 
Actually, white phosphorus ammunition was a versatile munition. 
In addition to its ability to produce screens and inflict casualties, it 
served as an incendiary agent. A fourth characteristic, really an exten- 
sion of its antipersonnel capability, was the tremendous psychological 
effect it had on the enemy. The main reason for its unpopularity was 
that infantry commanders were unfamiliar with its many attributes, 
especially the casualty and incendiary effects.43 
Several factors contributed to the increased use of smoke shell on 
Luzon. One of these was the limited supply of high explosive shell 
which served to call attention to the white phosphorus munition. In 
February 1945, for example, Col. Richard R. Danek, Chemical Officer, 
XIV Corps, declared that the supply of chemical mortar ammunition 
had "reached a critical stage.” 44 Several months later Maj. David D. 
Hulsey, 6th Division chemical officer, stated that during one period 
in April chemical mortar operations in his sector were "practically nil” 
because of the "unavailability of 4.2-inch mortar ammunition from 
XI Corps.” 45 Causes for the shortage included limited transportation 
and deterioration of shell through improper storage, but, more basically, 
the critical nature of the supply of 4.2-inch mortar ammunition on 
Luzon resulted from the fact that half of the shells received from the 
United States were on the list of ammunitions frozen by the War De- 
partment because of the possibility of defective fuzes.46 
Other reasons for the increased use of WP involved matters of terrain 
and education. In the Philippines, American forces for the first time 
in the Pacific encountered a battle area of rather extended dimensions 
and one that featured mountain and hill masses from which the enemy 
had excellent observation. The Sierra Madres east of Manila and the series 
43 85 th Cml Mortar Bn in the M-i Opns (Luzon) Hist Rpt, 9 Jan-jo Jun 45. CWBN 85 — 0.3. 
“Memo, Danek for CofS XIV Corps, 2$ Feb 45, no sub. XIV Corps File, Rpt, Cml Munitions. 
45 Ltr, CmlO 6th Div to CmlO Sixth Army, 1 May, sub: Cml Warfare Weekly Opns Rtp. 
319.1 Sixth Army Reds, Weekly Activity Rpts, Divs. 
48 (1) Ltr, CG 6th Div to CG Sixth Army through CG XIV Corps, j Mar 45, sub: Unsatisfactory 
Condition of 4.2-inch Cml Mortar Ammunition, and 1st and ad Inds thereto. XIV Corps File — Rpts, 
Cml Munitions. (2) Memo, Sixth Army CmlO to Sixth Army G-4, 6 Feb 45. Sixth Army Reds, 
400.34 Equip. 510 
THE CHEMICAL WARFARE SERVICE 
of mountains confronting I Corps in its drive to the northeast were 
typical of the Luzon terrain. A 6th Division report gave examples of 
the use of screening smokes: . . to deny the enemy observation dur- 
ing infantry attacks, to cover the construction of supply roads, and to 
screen carrying parties and evacuation of wounded.” 47 As for the 
matter of education, supported commanders, once they had seen the 
results of WP as an antipersonnel and incendiary agent, were much less 
loath to call for WP rounds in support of their operations. 
Perhaps the best barometer of the reputation of white phosphorus was 
the official HE-WP ratio for mortar ammunition which fluctuated back 
and forth between 80-20 and 60-40, in favor of high explosives. In 
August 1945 General Mac Arthur’s headquarters established the ratio 
at 60 HE-40 WP, based upon the experience of the major combat 
commands of the theater.48 
While XIV Corps landed against light resistance and faced only 
token enemy forces until the Fort Stotsenburg fighting, I Corps had a 
tough time almost from the start. The enemy had established strong 
defenses on I Corps left flank, made more formidable by the rugged 
mass of hills and mountains. The fact that the Japanese headquarters 
lay to the rear of these defenses tended to make enemy resistance all 
the more tenacious. The divisions of I Corps faced not one but a series 
of difficult missions. Elements were to drive southeast across central 
Luzon, cover the left flank of the southward advance of XIV Corps, 
and advance north and northeast in the direction of the towns of 
Damortis and Rosario and an important road junction just beyond. 
An immediate I Corps objective was the enemy position in the 
Cabaruan Hills, fifteen miles inland from the Lingayen beaches in 
the sector of the 6th Division. On 22 January Company A, 98th 
Chemical Mortar Battalion, operating as a unit for the first time on 
Luzon, supported the 2d Battalion, 20th Infantry, in what was ex- 
pected to be the culminating effort against Japanese resistance in the 
Cabaruan Hills.49 The mortar platoons went into positions about 200 
yards from one another in defiladed terrain. Each unit maintained its 
own observation post on one of the highest hills in the area. These OP’s 
48 (i) Ltr, Gen Hq USAFPAC to CG’s First, Sixth, Eighth, Tenth Armies, et al., 16 Aug 45. 
Sixth Army Reds, 471 Ammunition. (2) The ETO arrived at the same percentage although no 
ratio was definitely prescribed. Rowan comments, 19 Jan 61. 
47 Digest of Staff Sectional Rpts, 6th Div, Luzon Campaign. 
48 See Smith, Triumph in the Philippines, for a description of this action. THE CHEMICAL MORTAR IN THE PACIFIC 
511 
were located about 350 yards in front of the mortars and overlooked the 
enemy positions 600 yards to the front. Wire connected the observa- 
tion posts with the mortars, although once the platoons moved for- 
ward they would have to rely exclusively upon radio communication. 
At this stage in the fighting the forward observers of all three platoons 
fired at targets selected by the infantry battalion commander. Am- 
munition resupply was the province of the regimental supply officer 
who delivered the shells directly to the platoon positions. When the 
mortar units displaced forward the regimental supply trucks kept pace. 
After laying down a heavy barrage on an area of ten artillery squares, 
Company A placed white phosphorus on the corners of the enemy 
position to mark it for aerial bombardment. After the air strike the 
mortars blanketed the enemy area with WP as the rifle companies of 
the 2d Battalion, 20th Infantry, moved forward. Companies E and F 
advanced along opposite sides of a ridge that led into the right flank 
of the Japanese positions. Company G, located initially in front of 
the objective, used the smoke to move through a ravine and into the 
left flank of the enemy-held hill mass. The 1st and 2d Platoons of the 
mortar company displaced forward in rear of the cannon company; the 
3d remained ready to fire on any target of opportunity. The three 
mortar forward observers as well as the mortar company commander, 
Capt. G. B. Doolittle, accompanied Company G. During the advance 
radios served as the only means of communication. 
Company G experienced initial success in its flanking maneuver but 
was suddenly hit on three sides by Japanese fire. At the same time the 
enemy pinned down Companies E and F, This unexpected opposition 
came from two sources, from the enemy that survived the preattack 
bombardments and from those who had slipped into positions under 
the very smoke that concealed the American advance. 
Losing all of its officers, Company G began to scatter without regard 
for dead, wounded, and equipment. Captain Doolittle of the mortar 
company managed to halt the withdrawal. He contacted the infantry 
battalion command post with his radio, the only means of communica- 
tion left on the hill, and received orders to take charge. The support 
infantry platoon maneuvered to the left of the enemy’s position, reliev- 
ing pressure on the front. Doolittle called for fire from his three mortar 
platoons, which by this time had all withdrawn to their original firing 
positions. White phosphorus mortar rounds not only blinded the 
289-149 0-68—34 512 
THE CHEMICAL WARFARE SERVICE 
Japanese positions but set fire to brush and grass in which they had 
taken cover. As enemy opposition ceased, Captain Doolittle organized 
parties to evacuate the wounded and then led the force in an orderly 
withdrawal back to the positions from which the attack began. Sev- 
eral days later Cabaruan Hills fell to another infantry battalion.50 
During the fighting with I Corps the mortars of the 98 th Battalion 
won a fair reputation for their ability to cope with enemy armor. 
Chemical mortarmen received credit for destroying at least 25 tanks, 
some of them dug in, and shared credit with the smaller mortars for 
knocking out 15 or 20 more. On 31 January, for example, after with- 
drawing from the edge of the town of Munoz with elements of the 
20th Infantry, a mortar platoon forward observer directed fire on two 
enemy tanks. A direct hit knocked out one of the vehicles and sub- 
sequent mortar fire disabled a second. The mortar platoon observer 
crept up to this tank, jumped upon it, and hurled a grenade inside. As 
the tank burst into flames, the observer escaped unharmed. Four days 
later two Japanese tanks raced along a road directly toward a chemical 
mortar observation post, firing as they came. The observer directed his 
mortars at the first tank, setting it afire less than fifty yards from his 
position. The other tank turned and fled, only to be bracketed by mor- 
tar rounds. Stalled and with broken tracks, the enemy tank was set 
aflame by a final mortar round.51 
Infantry commanders expressed satisfaction with the support given 
by the 98th. The 6th Division stated its preference for 4.2-inch mortar 
support against emplaced tanks and field pieces. After the fall of 
Lupao, a town vigorously defended by the Japanese, the commander 
of the 35 th Infantry declared "the battle would have lasted days longer 
if the 4.2’s had not been available.” 52 
During mid-February 1945 I Corps began what proved to be a 4- 
month drive to the north to rout the enemy from the tenacious posi- 
50 (i) Entry No. i, 20th Inf Unit Journal, 21-22 Jan 45. 306 - INF(2o)-o.7 (26300) 16-25 
Jan 45. (2) Ltr, CO 98th Cml Mortar Bn to CmlO I Corps, 20 Mar 43, Rpt of Cml Warfare 
Activities. CWBN 98-0.3 (24423). This source mistakenly dates this action as 23 January 1945 
when, in fact, it took place a day earlier. (3) Battle of the Cabaruan Hills, 12-25 Jan 45- CMLHO. 
(4) Lt. Col. Alexander Batlin, "98th Chemical Mortar Battalion,” Armed Forces Chemical Journal, 
vol. VII, No. 2 (October, 1953). 
51 Another technique was the use of the fire of one mortar to drive tanks into preregistered areas, 
to be neutralized or destroyed by the weapons of the whole platoon. 
62 (1) Ltr, CG 6th Div to Distr, 17 Jul 45, sub: Rpt by Hq 6th Div, p. 32. (2) 98th Cml 
Mortar Bn, Fifth Month Luzon. THE CHEMICAL MORTAR IN THE PACIFIC 
513 
tions of his mountain fastness.58 In this slow, gruelling campaign the 
33d Division advanced toward the port of San Fernando and toward 
Baguio, summer capital of the Philippines. The 3 2d Division crept 
relentlessly along the tortuous Villa Verde Trail toward the heavily 
fortified Sante Fe-Imugan area, while the 25 th Division moved north 
along Highway 5 from San Jose to Digdig and eventually Sante Fe. 
During the second week of February the companies of the 98 th 
Battalion received assignments which were to last almost until the close 
of the Luzon operation: Company A was attached to the 32d Division, 
Company B to the 33 d, and Company C remained with the 25 th. On 
21 April Company C, 85th Chemical Mortar Battalion, joined the 
forces of I Corps, supporting the spectacular drive made by the 37th 
Division from Sante Fe to Aparri on the northern coast of Luzon. 
The 98 th Battalion had to contend not only with the enemy but with 
the terrain and weather. The mountainous region in which the enemy 
held commanding positions, many of them prepared in advance, gave 
every advantage to the defenders. These positions, often in defilade, 
provided ideal targets for the accurate, high angle fire of the 4.2-inch 
mortars. Forward observation by ground parties, the normal procedure, 
was hazardous and difficult because of the superiority of Japanese ob- 
servation posts. Sometimes the mortar platoons overcame this disad- 
vantage by using artillery observers in liaison planes to conduct registra- 
tion and to fire for effect.54 During March and early April the rain and 
muddy ground curtailed mortar shell expenditures by bogging down 
ammunition resupply and by compelling the constant re-emplacement 
of the base plates which sank out of sight after one or two rounds. 
Nonetheless the weapon proved effective. Company C fired 19,000 
rounds (the two other companies fired about the same number) and 
received credit for sealing about thirty-five caves and killing more than 
250 Japanese caught in the open. The unit marked eight targets for air 
strike with a precision that brought praise both from Fifth Air Force 
and infantry commanders. 
In fighting along the Villa Verde Trail, Company A fired several mis- 
sions to repel enemy counterattacks, most of them during hours of 
darkness. Mortarmen at one time manned infantry battalion defense 
53 Unless otherwise noted, the account of this part of the campaign has been based upon unit records 
of the 98th and 85th Chemical Mortar Battalions and on After Action Reports of the ajth, jad, 
and 33d Divisions and their components. 
54 98th Cml Mortar Bn, First 120 Days on Luzon, p. 44. 514 
THE CHEMICAL WARFARE SERVICE 
positions, at the same time maintaining uninterrupted fire support 
of the front-line companies. Smoke shell was used for screening and 
casualty effect as well as for burning off occasional grassy slopes, capable 
of concealing the enemy, which lay in the path of the advancing 
infantry. 
In situations like those found on Luzon, where the weapons com- 
panies of the mortar battalions were placed under the operational con- 
trol of the supported divisions, battalion headquarters played an 
inconspicious but important role. In the case of the 98th, for example, 
the headquarters and headquarters company established a permanent 
camp in the town of Carmen where the unit could support its weapons 
companies equally well. Here was the battalion rest area, and here 
were the battalion personnel, including weapons company clerks, an 
arrangement which permitted the battalion commander maximum 
utilization of his administrative personnel. Headquarters controlled 
the companies by radio and by liaison officers. The Signal Corps Radio 
284 served as the basis for this communications network, proving 
satisfactory at times at distances twice its normal range of thirty miles.55 
Liaison officers made daily visits to each of the weapons companies, con- 
tacting as many platoons as time and the situation allowed. During the 
course of these visits the liaison officers assisted with administrative 
problems, brought forward maintenance parts and certain supplies 
from the battalion stock, and exchanged information about the situa- 
tion as it affected operations. Battalion maintained both a motor pool 
and radio maintenance facilities which repaired company equipment. 
Repairs of 85 th Battalion equipment involving third and fourth echelon 
maintenance were turned over to ordnance maintenance organizations 
because of the lack of appropriate CWS units. Ideally, a chemical serv- 
ice platoon attached to division took care of the maintenance of am- 
munition at division dumps. 
The mortar company commander set up his command post in the 
vicinity of the division command post or occasionally with the regiment 
in reserve. The mortar platoons fired for the assault battalion in each 
of the three regiments. Displacement forward, in l/± -ton trucks and 
55 (1) 98th Cml Mortar Bn, Sixth Month Luzon. (2) Batlin, “98th Chemical Mortar Battalion,” 
Armed Forces Chemical Journal, vol. VII, No. 2 (October, 1953). (3) The 85th Battalion experienced 
difficulties with SCR-284 during the hours of darkness when its effective range was reduced to six or 
seven miles. 85 th Cml Mortar Bn in the Luzon Campaign, The First 120 Days (hereafter cited as 
8jth, First 120 Days Luzon). THE CHEMICAL MORTAR IN THE PACIFIC 
515 
trailers, came upon orders of the infantry battalion commander. As 
in the action described at Cabaruan Hills, the mortar platoons main- 
tained communications with the supported infantry during displace- 
ment by SCR-300 radios. Mortar platoons of the 98 th Battalion main- 
tained 35 rounds for each gun, while a 2%-ton truck loaded with 300 
rounds stood by at the company command post ready to be sent for- 
ward whenever the need arose. Location of the firing positions of the 
mortar platoons varied from unit to unit. In the 98th Battalion, Com- 
pany A’s platoons usually were established within the infantry battalion 
perimeter, most likely with the support infantry company. Company 
C, on the other hand, often set up its mortars within the infantry bat- 
talion CP perimeter. 
One of the difficulties faced by the chemical mortar units on Luzon 
was an almost constant shortage of manpower. The 98 th Chemical 
Mortar Battalion operated for the six months of the campaign under- 
strength by 5 officers and 130 enlisted men. The 82d Battalion, while 
possessing a surplus of enlisted men until mid-March, was below 
strength from that date until the end of the campaign. The 85 th Bat- 
talion experienced similar troubles.06 The lack of men was aggravated 
by a most inadequate number of mortar companies for the simultaneous 
support of 4 divisions in I Corps, 4 in XIV Corps, and 3 in XI Corps. 
Reciprocal familiarity between chemical mortar and combat in- 
fantry personnel continued to be less than perfect. It was often a two- 
edged situation; infantry officers were unacquainted with 4.2-inch 
mortar potentialities, and chemical personnel, from division chemical 
officers to those of the mortar company, were unfamiliar with the 
combat techniques of the infantry. All chance had passed of attaining 
the ideal solution—joint training for chemical and infantry personnel, 
or at least familiarization lectures and demonstrations, before attach- 
ment in actual combat.57 
56 (i) Sad, 83th, and 98th Cml Mortar Bns S—3 Rpts, passim. Sixth Army Reds. (2) 85th, 
First 120 Days Luzon, p. 11. (3) 98th Cml Mortar Bn, Hist Data Cards. 
B7 (1) Sad, First 120 Days Luzon, pp. 13-14. (2) 85th, First 120 Days Luzon, p. 7. (3) 98th, 
Fifth Month Luzon, pp. 17-19. (4) Personal Ltr, CmlO I Corps to ACCWS for Field Opns, 
2 Aug 43. 516 
THE CHEMICAL WARFARE SERVICE 
Central Pacific Area 
The Central Pacific Area lacked adequate mortar battalion support 
throughout the entire war.58 Despite the efforts of Colonel Unmacht, 
theater chemical officer, the only mortar unit available prior to May 
1944 was the 91st Chemical Company (Motorized) which had been 
stationed in Hawaii under various designations since 1920. This unit 
was used in field tests, demonstrations, and joint training exercises, in- 
cluding amphibious assaults with several infantry divisions. 
The over-all shortage of chemical mortar battalions and the higher 
priority of other theaters prevented shipment of these units to the Cen- 
tral Pacific Area until the arrival early in May 1944 of the 88th Chemi- 
cal Mortar Battalion. Four months later the theater activated the 189th 
Chemical Mortar Company (Separate). The only other mortar units 
in CENPAC were the 71st and 72d Chemical Mortar Battalions 
which did not reach Hawaii until mid-1945, too late to see action 
before the war ended.59 
The first chemical mortar action in the Central Pacific took place 
during the fighting on Kwajalein in the Marshall Islands when the 91st 
Company commanded by Capt. Joseph E. Atchison fired in support 
of the 7th Division. During five days in early February 1944 the unit, 
hampered by an ammunition shortage and severed communications 
lines, expended about 500 rounds while losing 1 man killed and 14 
wounded.60 The next mortar unit to see action was Company C, 88th 
Chemical Mortar Battalion, which landed on Saipan in the Marianas 
with the 27th Infantry Division. Company A of the 88th played a 
minor role in nearby Guam. In mid-September 1944 Company D of 
the same battalion fired for the 81st Infantry Division on Angaur and 
Peleliu in the Palau group. Unlike Companies A and C, rushed to 
the Marianas within a month after arriving in the theater, Company D 
received an adequate period of orientation in Hawaii. Offsetting the 
advantage of thorough and extensive training was a shortage of en- 
listed men and motor transport. The virtual certainty that mortars and 
“References used in this section consist of: Unit Reds of the 88th Cml Mortar Bn, 91st Cml 
Mortar Co (Separate), AAR’s of Tenth Army; 96th, 77th, and 7th Divs; jad and 184th Inf Regts; 
and the 5 th Marine Regt. 
“AG Hist Data Cards, 91st and 189th Cml Mortar Cos and 88th, 71st, and 72d Cml Mortar Bns. 
60 (1) Ltr, CO 91st Cml Co to CG 7th Div, 18 Feb 44. (a) MPR CWS Ammo Sup, Sec aF, 
Feb 44, p. 2 a. THE CHEMICAL MORTAR IN THE PACIFIC 
517 
ammunition would often have to be man-hauled led to the decision to 
divide the company into two 5-gun platoons. 
Company D landed in the ninth wave on Red Beach, Angaur Island, 
on 17 September and supported the 3 2 2d Infantry in the Solome Lake 
and Ramanantelo Hill areas. Attached to division artillery, the platoons 
fired under the direction of artillery air observers. Captured Japanese 
documents referred to the 4.2-inch as "that high caliber mortar,” while 
supported infantry commanders reported that the weapon caused heavy 
enemy casualties. 
Company D’s 1st Platoon moved to Peleliu on 16 October, followed 
in a week by the 2d Platoon and company headquarters. Attached to 
the 321st Infantry and later the 323d Infantry Regiments, Company D 
fired normal night missions of harassment and defense as well as four- 
teen barrages which ignited napalm from fire bombs dropped by planes 
among the innumerable enemy caves and trenches. 
The final campaign in the Central Pacific—operations in the Ryuk- 
yus group—saw the participation of the entire 88th Battalion as well 
as the 91st Company.61 In order to gain a limited fleet anchorage and 
seaplane base before the invasion, the 77th Division, with Company A 
attached, made an unopposed landing on Kerama Retto. The assault on 
the main objective, Okinawa, took place on 1 April 1945. Companies 
B and C of the 88 th, attached to the 96th Division, landed about H 
plus 1 in the ninth and eleventh waves, respectively, in the vicinity of 
Chatan. Company B, commanded by Capt. Edward L. Lockman, Jr., 
supported the 383d Infantry moving south along the west coast to 
the strong enemy defenses on Kakazu Ridge. Company C, under the 
command of Capt. Rutherford H. Spessard, Jr., supported the 3 82d 
Infantry in its advance south to Nishibaru Ridge. The 91st Company, 
Captain Them commanding, went in on the eighth wave with the 7th 
Division across Purple and Orange Beaches opposite Kadena Airfield and 
supported the division advance to the east coast and down to the eastern 
approaches of the Shuri Line. At first, chemical mortar support was not 
available for the 1st and 6th Marine Divisions.62 
Chemical mortars on Okinawa, although effective, were used almost 
entirely for little outside of normal missions fired according to standard 
methods. The only exceptions occurred when the 91st Company fired 
81 For a complete description of the campaign, see Appleman et al., Okinawa: The Last Battle. 
62 (i) Tenth Army, Rpt of Opns in the Ryukyus Campaign, Cml Warfare, pp. II-XIII-1-2. (2) 
7th Div, Opn Rpt, pp. 1-2. (3) 96th Div, Action Rpt, Ryukyus Campaign, sec. VII, pt. I, p. }. 518 
THE CHEMICAL WARFARE SERVICE 
a few times under direction of a Navy liaison observer, and when Sound 
Locator Teams Nos, 3 and 3 were attached to Companies C and D. 
From 12 April to 8 May these teams directed some firing at point tar- 
gets but the extreme ranges of these targets limited the use of the mor- 
tars. During the first week, at least five Japanese night attacks, sup- 
ported by tanks and artillery and directed against the 96th Division’s 
perimeter, were repulsed with the help of combined 4.2-inch mortar- 
artillery fire. In even lighter firing in support of the 7th Division, the 
mortars laid down small preparations by day and fired to repel Japanese 
infiltration raids at night. From the second week in April until mid- 
June, the pattern of chemical mortar support included preparations 
preceding infantry advance, followed, in many cases, by screens to 
cover U.S. troops engaged either in consolidating their positions or with- 
drawing with their casualties under murderous Japanese artillery, mor- 
tar, and machine gun fire. The 4.2-inch mortars than engaged in 
counterbattery and neutralization missions during the remaining day- 
light hours, followed by night harassing and interdictory fire. 
On 21 April a mortarman from the 91st Chemical Mortar Company 
played a prominent role in repulsing a Japanese attack on the Skyline 
Ridge positions of the 7th Division. Here is a graphic account of this 
action: 
When, east of the road cut, a man in the stalled third platoon, Company E, was 
killed, Sgt. Theodore R. MacDonnell, a 91st Chemical Mortar Company observer, was 
impelled to drastic action. MacDonnell had frequently joined men on the line and 
shown qualities of a determined infantryman. Now, infuriated, he gathered up a hand- 
ful of grenades and ran in the face of the machine-gun fire along the slope to a point 
underneath the spot where he believed the enemy gun to be located, and then started 
up the 20-foot embankment. When he looked over the crest he failed to spot the gun, 
but he did see three enemy soldiers and grenaded them. He made two trips to the 
bottom of the embankment for fresh supplies of grenades, but it was not until his third 
trip to the crest that he located the machine gun. MacDonnell then slid back to the 
bottom, grabbed a BAR, and mounted the embankment with it, only to have the 
weapon jam after the first shot. He skidded to the bottom, seized a carbine, and went 
back up for the fifth time. On reaching the crest, he stood up and fired point-blank 
into the machine-gun position, killing the gunner and two covering riflemen. MacDon- 
nell then hurled the machine gun down the slope behind him. A mortar that he found 
in the position was also sent crashing down the hillside. Sergeant MacDonnell was 
later awarded the Distinguished Service Cross for his heroism on this occasion.63 
63 Appleman et al., Okinawa: The Last Battle, p. 226. THE CHEMICAL MORTAR IN THE PACIFIC 
519 
In an average period of seventy days in the line, each mortar com- 
pany on Okinawa fired approximately 25,000 rounds, a fourth of which 
was WP shell. Even this rather limited amount of smoke shell appeared 
excessive to Tenth Army field artillery officers, particularly as in their 
opinion an "indiscriminate use of smoke, not only by artillery, but by 
other supporting weapons, obscured both air and ground observation.” 
Most of the Army and Marine divisions participating in the operation 
commented favorably on the performance of the chemical mortars and 
their crews. Both the 96th Infantry Division and the 1st Marine Divi- 
sion recommended that a chemical mortar company, and preferably a 
battalion, be attached regularly to a division. The Tenth Army sug- 
gested that each division receive the support of a mortar battalion and 
that the battalion be employed as a unit only and not fragmented by a 
series of attachments.64 
Of the problems encountered by chemical mortar units on Okinawa, 
shortage of ammunition was unquestionably the most serious. The 88th 
Battalion took in three units of fire and the 91st Company took in five 
on the basis of 100 rounds per unit of fire, at the ratio of 70-percent 
HE and 30-percent WP. After this initial supply was consumed, a 
shortage, which varied from limited to critical, prevailed for the bal- 
ance of the operation. On at least four separate occasions, mortar com- 
panies had to reduce expenditures or cease firing altogether for periods 
of from a few days to two weeks. Rain and mud, particularly after 1 
May, bogged down ammunition resupply and made it difficult for the 
chemical mortars, as well as other supporting weapons, to keep up with 
the infantry. The over-all shortage of chemical mortar shell was partly 
a result of the higher priority of the European theater. But as in the 
case on Luzon, 35,000 of the 87,400 rounds of high explosive ammuni- 
tion received from the zone of interior were in lots suspected of having 
defective fuzes. Indeed, a muzzle burst was reported by Company B of 
the 88th on 13 May, the date on which 14 men were listed as wounded 
in action. The Navy transferred 27,000 rounds of HE shell not em- 
64 (i)ioth Army, Rpt of Opns in the Ryukyus Campaign, ch. X, sec. j; ch. II, sec. 6. (2) 1st 
Marine Div, Special Action Rpt, Okinawa Nansei Shoto, ch. X, p. 13. (3) History of Cml Sec 
AFMIDPAC and Predecessor Comds, 7 Dec 41—2 Sep 45, 4 vols., IV, an. II—i, 22, 33, 49. (4) 
383d RCT S-3 Rpts, 10, 29 Apr 45. 520 
THE CHEMICAL WARFARE SERVICE 
ployed in amphibious support operations, but the use of much of this 
was "restricted to military necessity.” The average mortar company 
expenditures of approximately 335 rounds per day was made possible 
only by substitution of WP for HE shell, by the above Navy transfers, 
by dispatch of 50,000 heavy-weight M4 rounds from Hawaii, and by 
the replacement of all defective fuzes, shipped by high priority air ship- 
ment from Hawaii and the United States.65 
Amphibious Employment of the 4.2-lnch Chemical Mortar 
Before the War Department authorized the high explosive mission for 
the 4.2-inch mortar and before any chemical mortar units reached the 
theaters of operations, the CWS was developing doctrine for the use 
of the mortar in assault landings. Beginning in the summer of 1942 
this doctrine was developed at the Amphibious Training Center, Camp 
Edwards, Mass., and continued at Camp Carabelle, Fla. (later Camp 
Gordon Johnston). Overseas, the U.S. Assault Training Center in 
England advocated the use of 4.2-inch WP shell for smoke screens for 
assault landings except in the case of offshore winds, when only high 
explosives would be used.66 Elements of the 3d Chemical Mortar Bat- 
talion sailed from North Africa for Sicily prepared to support the 3d 
Division with mortars mounted on six assault craft, a measure made 
unnecessary with the attainment of tactical surprise.67 
Despite these preparations in the European theater the amphibious 
employment of the 4.2-inch mortar occurred only in the Pacific. Col- 
onel Unmacht first suggested the technique to Navy officers in July 
1943 at the Makua, Oahu, demonstrations. The Navy liked the idea 
and played around with it for almost a year. The advantage of the mor- 
tar boat plan was that it provided assault troops with heavy effective 
fire during that period in the landings when they were most vulnerable 
—the time between the lifting of the naval bombardment and the estab- 
lishment of supporting weapons on shore. 
85 (i)Tenth Army, Rpt of Opns in the Ryukyus Campaign, ch. II, sec. XIII, Chemical Warfare, 
pp. II-XIII-4, 7. (2) Tenth Army Island Comd, Action Rpt Okinawa, 30 Jun 45, pp. 8-XII-3, 4. 
(3) History CWS AFMIDPAC, II, an. I—d, 63, 69—71, 82; V, an. II i, 22. (4) Rad CM—IN 535.2, 
6 May 45. (5) Rad CM-IN 22045, 2 3 May 45. 
68 (i)Ltr, Chief Field Serv CWS to CG SOS, 27 May 42, sub: Amph Use of 4.2-inch Cml Mortar. 
(2) USATC ETO, Conf on Landing Assaults, 24 May-23 Jun 43, 2-c. See addresses by Maj Gen 
Roberts, Brigadier Wales, and Col Rowan. (3) USATC Tng Memo AMPH-4A CWS, Jan 44. 
87 History of 3d Cml Bn in Campaign of Sicily, pp. 1-2. THE CHEMICAL MORTAR IN THE PACIFIC 
521 
In a remarkable case of CWS-Navy co-operation, the kind which 
typified the activities of Colonel Unmacht on Oahu, there emerged 
a new type of craft, one armed with 4.2-inch chemical mortars. It 
was not born without difficulty. The Navy provided three LCT’s for 
the project and later several LCI’s. The latter, dubbed LCI (M) (the M 
for mortar), were to become the standard mortar-landing craft com- 
bination.68 
One of the principal mechanical difficulties in firing the 4.2-inch 
mortar from the deck of a ship was the development of a suitable 
mount. The Navy experimented with various devices including one 
which mounted the mortar solidly in the deck of an LCT. Fourteen 
rounds fired from the weapon were sufficient to shear the bolts holding 
the base cap cup to the deck. The mount finally adopted consisted 
of a wooden box reinforced with steel and filled with a mixture of sand 
and sawdust. Upon this mixture sat a wooden subbase, the top of 
which was notched to receive the spades of the base plate. These mounts 
proved adequate, although excessive firing, such as at Iwo Jima, caused 
them to break down. 
The first attempt to get the mortar boats into action proved abortive. 
Favorably impressed with these vessels during seven tests again run at 
Makua in the spring of 1944, the Navy decided to use three of the 4.2- 
inch-mortar-equipped LCT’s in the invasion of Saipan. These plans 
went awry during the assault rehearsal off Kahoolawe, one of the 
Hawaiian group. Each of the three LCT’s was lashed to the deck of 
a landing ship tank, for the decision had been made for the smaller 
vessel to make the long journey to the scene of operations in this piggy- 
back fashion. During an extremely heavy sea two of the LCT’s broke 
their lashings and were washed overboard. The third LCT escaped this 
fate only to be destroyed at Pearl Harbor when its LST suddenly ex- 
ploded. Fifty-nine people lost their lives in the resulting holocaust.69 
Before the end of the Marianas campaign, the Navy revived the 
mortar boat project. This time the weapons were to be mounted on 
landing craft, infantry (LCI), four of which were fitted out, each 
with three 4.2-inch mortars.70 One weapon was mounted forward in 
the center of the ship, the others were amidships, one on the port side 
88 Ltr, CCmlO CENPAC to ACCWS for Field Opns, 24 Apr 44, sub: Use of 4.2 Mortars in LCT’s. 
* (1) History, CWS AFMIDPAC, IV, an. Il-d, 37-38. (2) Maj. Carl W. Hoffman, Saipan: The 
Beginning of the End (Washington, 1950), pp. 32-33. 
70 Ltr, CCmlO Central Pacific Area to ACCWS for Field Opns, 24 Jul 44. 522 
THE CHEMICAL WARFARE SERVICE 
Firing 4.2-Inch Chemical Mortars From the Deck of an LST in the Pacific. 
and one on the starboard. All fired forward, over the bow. Beneath 
the mortar mounts the deck was reinforced with steel plating. The 
two forward troop compartments served as magazines for mortar am- 
munition, a normal complement being 1,200 rounds. Maj. Leland 
E. Anderson of the 88 th Chemical Mortar Battalion commanded the 
mortarmen who had come from diverse sources: 4 officers from the 
88th, 12 enlisted men from the 91st Chemical Mortar Company, and 
4 officers and 88 enlisted men from the mth Infantry Regiment. 
Designated as LCI(M) Nos. 739, 740, 741, and 742, the mortar boats 
were earmarked for the campaign in the Palaus. The four boat crews 
prepared for the operation by test runs at the Makua site in the Ha- 
waiian Islands and by participation in the invasion rehearsal at Guadal- 
canal.71 
71 (1) Maj Leland E. Anderson, Rpt on Mortar Activity Aboard USS LCI(M)’s 739, 740, 741, 742, 
30 Jul-30 Sep 44, dated 10 Oct 44. (2) History, AFMIDPAC, CWS IV, an Il-d, 39, 74-75. THE CHEMICAL MORTAR IN THE PACIFIC 
523 
Palau Islands 
The first combat employment of chemical mortar boats took place 
on 15 September 1944 in the Palau Islands.72 Led by Major Anderson, 
mortar boats 739, 740, 741, and 742 supported the III Amphibious 
Corps landings on Peleliu made by the 1st Marine Division. During 
the initial run on the island LCI (M) ’s, moving in at a speed of less than 
three knots, fired 100 rounds of high explosive ammunition from 
positions 3,000 to 1,300 yards offshore at the very slow rate of one 
round per mortar every two minutes. As the mortar boats drew closer, 
the range of the weapons was decreased by reducing the number of 
increments. This method of fire was sometimes known as Plan Baker. 
Mortar fire covered the northern flank of White Beach for a depth of 
200 to 300 yards, with only a few water bursts being observed. These 
supporting boats lifted their fire as friendly aircraft strafed the beach 
only to resume it from fixed positions 900 to 1,300 yards offshore. 
The mortars then placed harassing fire upon the dense woods, areas 
of defilade, and possible enemy observation posts and installations on 
the hill to the northwest. Good dispersion resulted from this fire, 
delivered at ranges varying between 2,100 and 2,610 yards, although 
the thick foliage and defiladed areas precluded effective observation. 
The employment of mortar boats from fixed offshore positions was 
often designated Plan Charlie. 
A second mission at Peleliu began about an hour after the end of 
the first run and consisted of the bombardment of the same hill area 
northwest of the beach area, its rocky top by now a mass of rubble. 
Firing at ranges of 3,200 yards, each mortar delivered two rounds of 
high explosive shell a minute from more or less stationary positions 
1,800 to 2,100 yards offshore. While winds and currents at Peleliu 
were not strong enough to cause excessive drift, the little movement 
which did occur made precise firing difficult. Radar ranges taken by 
LCI(M) 741, the flagship, as well as visual cross-bearings and fall of 
shot observations, helped to fix the ship positions and to determine 
ranges as the vessels drifted or maneuvered. In any event, the resulting 
dispersion was not detrimental to the general mission of laying down 
72 For a complete account of the use of mortar boats in this operation, see Maj. Leland E. Anderson, 
Employment of LCI (M) in Peleliu and Anguar Operation, Chemical Corps School Monograph, 1949— 
50 series. 
73 Mortar range is determined by elevation of the barrel and by the addition of increments, small 
rectangles of powder-impregnated paper, which serve as the propellant charge. 524 
THE CHEMICAL WARFARE SERVICE 
area harassing fire. Enemy mortar fire during the two runs proved 
ineffective, most rounds falling short. 
Firing from a moving boat had little effect upon the accuracy of 
the mortar. In rough seas lateral, but not vertical, accuracy was im- 
paired. And the latter was the more important factor because of the 
possibility of hitting friendly troops as they advanced inland.74 
Two days later, on 17 September, the same four mortar boats sup- 
ported the 81 st Division assault on the island of Angaur, also in the 
Palaus. Instead of executing Plan Baker immediately, as had been 
done at Peleliu, all craft fired on abbreviated Plan Charlie—6 to 10 
rounds per mortar per minute for 7 minutes from positions 2,400 
yards offshore. The group of gunboats then moved toward shore at 
a speed of four knots. It took 10 minutes to come within 1,000 
yards of the beach, during which time each of the mortars fired at 
the rapid rate of 20 rounds per minute. Excessive noise made the 
commands of the fire control officer virtually inaudible while smoke 
did much to hinder observation. Despite these handicaps most of 
the 2,345 rounds landed in the target area and inflicted extensive 
damage. 
On the following day infantry troops on shore, pinned down by 
rifles and machine guns, called for supporting fire. There was time 
for only 2 runs, one of 6 and the other of 8 minutes, at speeds of 4 
and 3 knots, respectively. The target area, located on the northwest 
end of the island, varied in width from 500 to 850 yards and extended 
from the shore to a depth of 900 yards. At an average firing rate of 
5 rounds per mortar per minute, 830 rounds fell in the area. Mine 
fields prevented the mortar boats from approaching closer than 1,500 
yards from shore, but the effectiveness of the mortar barrage was 
such that 3 minutes after it had been lifted the troops, previously 
pinned down by enemy fire, encountered no opposition on advancing 
into the heavy woods. 
At the end of the Palau operation CWS officers recommended that 
mortars on boats making the run toward the shore maintain a constant 
elevation of 1,000 mils with traverse dependent upon the course of 
the craft. They also suggested that mortar fire be kept within 400 
74 (1) CmlO Central Pacific Base Comd to CmlO USAFICPA, 14 Jul 44, Rpt of Tests on Use of 
4.2-inch Mortars in LCT’s. (2) Action Rpt Comdr Amphib Group 2—Iwo Jima, pt. IV, Naval 
Gunfire Support, sec. B, Comments and Recommendations on Fire Support Employ of Gunboat, 
Mortar, and j-inch Rocket LCI’s. Both in CMLHO. THE CHEMICAL MORTAR IN THE PACIFIC 
525 
yards of the assault troops and that mortar ships maintain an offshore 
range of beween 3,200 and 2,000 yards as a precaution against enemy 
fire. The latter recommendation was disregarded; subsequently, mor- 
tar ships came within 500 yards of the shore. Suggestions about the 
more effective installation of the mortars on the ships were either not 
adopted or proved to be without merit.75 
Leyte Gulf 
Two groups of mortar ships supported the landings at Leyte Gulf 
on 20 October 1944. Each group was composed of four LCI(M)’s, 
with two LCI(A)’s serving as ammunition ships. Maj. Richmond H. 
Skinner, CWS, exercised over-all command of mortar firing personnel 
of the groups. Men from the 98 th Infantry Division stationed at 
Hawaii manned all twenty-four mortars in the two groups and fired 
in support of the 7th and 96th Divisions under XXIV Corps in the 
Leyte landings made near Dulag. From the date of departure from 
Manus Island on 11 October until the objective was reached, these 
new mortar crews received training in firing methods and commands. 
One of the groups (it was known as Group 2) executed Plan Baker 
at Orange Beach 2 as mortar boats moved in at a speed of 1% knots, 
firing from 2,200 to 400 yards offshore and expending about 480 
rounds of HE in 20 minutes. A slow rate of fire of two rounds per 
gun per minute was maintained while the range was gradually decreased 
from 2,600 to 740 yards. Twelve hundred yards from the shore enemy 
mortars or howitzers straddled the mortar boats without causing casual- 
ties or damage. The weather was ideal and the sea relatively calm. 
After execution of Plan Baker these mortar boats fired from fixed 
positions (Plan Charlie) on enemy positions in the ravines and on 
reverse slopes of the Labiranan Head Ravine and Catmon Hill area, 
silencing the Japanese guns which had been plaguing the troops on 
the beaches. According to one Navy observer, this mission, completed 
without observation from computed data and fired at distances from 
1,000 to 1,900 yards offshore, proved accurate beyond expectations. 
Later, Group 2 moved back to the transport area, twelve miles to the 
75 (1) ExecO 88th Cml Mortar Bn, Rpt on Mortar Activity Aboard USS LCI(M) 739, 740, 741, 
742, 30 Jul-30 Sep 44, dated 10 Oct 44, pp. 4-6, 15-17, 21-28. (2) Comdr Admin Comd Amphib 
Forces U.S. Pac Fleet, Plans for Delivery of 4.2" Mortar Fire from LCI(M)’s Equipped With M—1 
Modified Cml Mortar Mounts, 11 Jul 45, p. 1. (3) Excerpts from Opns Div, Info Bull, vol. Ill, 
No. 7, 13 Dec 44. (4) History, CWS AFMIDPAC, IV, an Il-d, 61, 78, 79. 526 
THE CHEMICAL WARFARE SERVICE 
rear, for resupply. It received no further missions that day. There- 
after, until they withdrew on the morning of A plus 5, the mortar 
boats of this group used smoke pots to screen the large vessels from 
air raids during the hours of both morning and evening twilight. 
On the morning of the attack on the Leyte beaches the other group 
of mortar boats (known as Group 3) fired on targets south of Yellow 
Beach as far as the mouth of the Daguitan River near the town of 
Dulag. Spaced from 50 to 75 yards apart the mortar boats began firing 
1,500 yards from shore and continued as they slowly moved in to a 
position 400 yards from the beaches. This bombardment blanketed an 
area 800 yards wide and 900 yards deep. Fifteen minutes after this 
beach shelling phase, the mortars began firing on call. Within the next 
five hours infantry requests for support resulted in the expenditure of 
almost 4,500 rounds. The ships slowly drifted to the left directing 
their fire on enemy targets on the south bank of the Daguitan River 
and on the approaches of a bridge across that river, an effort which 
drove enemy tanks from the road leading to the bridge. 
Both mortar boat groups received written commendations from the 
leaders of the flotillas which they supported, as well as from the com- 
manders of Amphibious Groups 3 and 6. Admiral Forrest B. Royal, 
commander of Group 6, stated: "The performance of LCFs equipped 
with 4.2" Army mortars was excellent. The mortar fire was delivered 
in a rapid, accurate, and effective manner.” Admiral Royal compared 
the effectiveness of the mortar ships and the rocket ships.76 While 
praising the "highly successful accomplishments” of both weapons, he 
pointed out that the rocket ships were of no further use after their 
single crash concentration because they were unable to reload in time 
to continue covering the assault waves. On the other hand, the mortars 
could fire without letup.77 
Lingayen Gulf 
For a short time after the recall of the mortar boats from the Leyte 
fighting, future plans for their use were hazy because of the lack of 
78 j d Ind, Adm Forrest B. Royal, USN, Comdr Group 6 Amphib Forces U.S. Pac Fleet, to CINCPAC, 
2i Nov 44, to Ltr, CO USS LCI 66o, 31 Oct 44, sub: USS LCI(M) 660—Action Rpt of Leyete Opn. 
Cited in History, CWS AFMIDPAC, IV, an. Il-d, too. 
77 (1) Comdr Amphib Group 6 and Task Unit 79.2, Rpt of Leyte Opn, 4 Nov 44, pp. 5, 7-8. (2) 
Ltr, Comdr Task Unit 79.6.21 and Comdr Group 17 to COMINCH, 4 Nov 44, sub: Action Rpt. 
(3) Ltr, Comdr LCI(M) Group 18 Temp and Comdr Task Unit 79.7.3 to COMINCH, 23 Oct 44, 
sub: Action Rpt, Invasion of Philippines, Island of Leyte. All in CWS 314-7. THE CHEMICAL MORTAR IN THE PACIFIC 
527 
information regarding the Luzon operation.78 Both groups did proceed 
to New Guinea to pick up men from the 98 th Chemical Mortar Bat- 
talion, a step made necessary when four landing craft, infantry, which 
had served as ammunition carriers during the Leyte action, were con- 
verted to mortar boats. All mortar craft participated in the mid- 
December training exercise in Huon Gulf, which simulated the landings 
that were to take place at Lingayen Gulf, Luzon. 
As it turned out, three separate mortar boat groups supported the 
Sixth Army landings on Luzon. One of these was Task Unit 79.8.1, 
composed of six LCI(M)’s and commanded by Lt. Comdr. G. W. 
Hannett and accompanied by Maj. Richmond Skinner. A second group 
was formed from the converted ammunition carriers, with mortarmen 
from the 98 th Chemical Mortar Battalion. A third group of three 
LCI(M)’s had its mortars manned by marines, trained by and under 
the supervision of a detachment from the 98th Chemical Mortar 
Battalion.79 
The six mortar boats of Task Unit 79.8.1 supported the XIV Corps 
landings on the beaches of Lingayen Gulf and then stood ready to 
furnish fire on call of the 185th Infantry, 40th Division, in its move- 
ment inland. The mortar boats were to be ready for any special mission 
that might arise, as well as to smoke the transport areas during the 
hours of morning and evening twilight. 
The fire plans for support of the assault wave were quite elaborate, 
including time, range, and rate of fire for the period beginning thirty 
minutes before the assault until fifteen minutes after the troops had 
landed. White phosphorus ammunition was put aboard to be used 
only in case of an onshore wind. General control of the mortar ships 
was in the hands of the task group and task unit commanders, but 
individual vessels maintained the responsibility for engaging specific 
targets. Each mortar ship carried 1,200 rounds of HE, 100 rounds 
of WP, as well as an ample supply of 20-mm. ammunition. Training 
of the mortar crews continued even while en route to the objective. 
Navy men received instruction in the handling of the mortars in the 
event that casualties would bring a need for extra hands. 
S-day for Luzon, 9 January 1945, found climatic conditions favor- 
78 Unless otherwise noted, this account of the Lingayen Gulf operation is based on Hist, CWS 
AFMIDPAC, vol. IV, an. Il-d. 
98th, First 120 Days on Luzon, p. i (2) CO USS LCI(M) 3*9 to COMINCH, 15 Jan 45, 
Action Rpt, Luzon Opn. 
289-149 0-68—35 528 
THE CHEMICAL WARFARE SERVICE 
able, with a mild offshore wind and visibility ranging from fifteen to 
twenty miles. The swell of the sea caused some difficulty with landing 
operations but did not seriously affect the mortar missions. Shortly 
after 0600 the six mortar ships broke off from the main body, maneuv- 
ering in zigzag fashion through the armada of support ships to their 
initial positions 2,500 yards from shore. A few minutes later, an enemy 
suicide bomber swooped down in attack. The Japanese plane itself 
inflicted no damage, but five men from an LCI(M) received wounds 
from a 20-mm. shell fired at the enemy by another vessel in the 
formation. At 0845 the six mortar ships moved into their attack 
positions; fifteen minutes later they began their scheduled fire. 
The LCI(M)’s moved forward, blanketing the beaches to a depth 
of almost 350 yards with accurate and devastating fire. As the craft 
approached the shore the number of propellant charges on the mortar 
shells was progressively decreased. Precise ranges were determined by 
radar on several of the LCI(M)’s and passed on to the others by 
prearranged visual signals. The only return fire came from enemy 
mortars whose shells fell 600 yards offshore. Upon reaching a position 
400 yards from shore the mortar boats laid to, but continued their 
fire on the beaches as the first wave of assault troops passed through. 
It was now 0934, the time when small arms fire support on the gun- 
boats and mortar ships ceased; naval gunfire had been lifted when the 
first wave reached a position 800 yards from shore. 
The mortar crews continued their support from this close-in position. 
At one stage a radio message was misinterpreted and four LCI(M)’s 
ceased fire. Thick smoke precluded visual signals and fire was not 
resumed until several minutes later, when the noise and smoke had 
abated. During the initial phase of the assault the mortar unit expended 
3,345 rounds of high explosive ammunition. Because of an offshore 
breeze, only seven rounds of WP were fired, this for ranging in at a 
position 2,600 yards from shore. 
According to plan, the mortar ships ceased fire at 09 51 and proceeded 
obliquely to the port to take up positions some 800 yards offshore 
where they could fulfill the second part of their mission. Although 
the mortar boats stood ready to support the 185th Infantry shortly 
after 1000 on S-day, they received no calls for fire because the infantry- 
men pushing inland to the Agno River encountered no enemy oppo- 
sition. The mortar group spent the night of S-day anchored just off THE CHEMICAL MORTAR IN THE PACIFIC 
529 
the mouth of the river, and next morning placed area fire on enemy 
troops which, according to the shore fire control party, effectively 
routed the opposition. Some of the LCI(M) ’s replenished their ammu- 
nition supply from an LST standing by with a reserve of 4.2-inch 
shells. 
From S plus 1 until S plus 8 the group of mortar ships provided 
twilight smoke concealment and escort service for the Liberty and 
Victory ships in the San Fabian transport area, a mission which termi- 
nated operations of Task Unit 79.8.1 at Luzon. During this period 
its mortars fired more than 5,000 rounds of 4.2-inch ammunition; the 
20-mm. guns of the unit expended almost 7,700 rounds during anti- 
aircraft operations. 
The second group of mortar boats, the four converted from the 
ammunition detail, supported I Corps landings east of Dagupan. As 
in the case of Task Unit 79.8.1, these LCI(M)’s provided the ships 
in its vicinity with the concealment of smoke during the twilight 
hours so susceptible of enemy air attack. On S plus 3 the group went 
out of action, its mortar crews returning to their parent unit, the 
98 th Chemical Mortar Battalion. As far as casualties were concerned 
this small unit fared rather badly; on S plus 1 an enemy E-boat tor- 
pedoed the radar equipped flagship with a loss of 2 officers and 2 
enlisted men.80 
Group 78.1.8, the smallest of the three mortar boat units, also sup- 
ported the I Corps landings near Dagupan. From positions within 
3,000 yards of the beach, each of the group’s three mortar boats fired 
about 100 rounds of high explosives onto a road and railroad track 
just in from the shore. Advancing to within 1,000 yards of the beach, 
the mortar boats engaged unspecified targets on both the forward and 
reverse slopes of the low-lying hills, then retired to await call fire from 
the 98 th Battalion. No enemy fire was received from the beach. On 
S plus 3 this group shelled a group of the enemy and the railroad station 
south of Damortis.81 
Vice Adm. Thomas C. Kinkaid, in command of the Lingayen land- 
ings, was especially pleased with the work of the mortar boats, reporting 
First 120 Days on Luzon, pp. 1-2, 4. 
81 CO USS LCI(M) 359 to COMINCH, 15 Jan 45, Action Rpt, Luzon Opn, pp. 1-2. 530 
THE CHEMICAL WARFARE SERVICE 
that they were more effective for beach neutralization than were escort 
carrier-based planes.82 
Iwo ]ima 
The success of the mortar ships in Pacific assault operations prompted 
the Navy to increase the number of this type of vessel.83 Some were 
acquired and equipped in California, others at Pearl Harbor. The men 
who were to fire the mortars on these boats were exclusively Navy men, 
trained in Hawaii by a cadre from the 189th Chemical Mortar Com- 
pany under the direction of Lt. Col. Joseph E. Atchison. Naturally, 
the Navy crews had much to learn; many had never seen the mortar 
before. To some this lack of knowledge meant apprehension of the 
weapon, to others it meant incorrect employment, with damage and 
danger as a consequence. There were several examples of a second shell 
being placed in the mortar barrel on top of a misfire and one case 
where the crew attempted to jam in three rounds. The training in 
Hawaii, which included two test runs off the coast of Kahoolawe, went 
a long way in correcting these inadequacies. 
On 22 January 1945 the fourteen mortar boats left Pearl Harbor 
for Iwo Jima where they were joined by the LCI (M) ’s which had seen 
action at Lingayen Gulf. Four CWS officers from the 189th Chemical 
Mortar Company accompanied the Pearl Harbor contingent, attached 
for the operation to the mortar group—five units of six ships each. 
On the morning of 19 February 1945 the 4th and 5th Marine 
Divisions landed on the beaches of the island of Iwo Jima in the face 
of the heaviest enemy beach resistance since Tarawa.84 The bombard- 
ment of the island that preceded the attack was the heaviest of the 
Pacific war, one that benefited from the experiences of the island 
assaults that had taken place before. Three of the five mortar units, 
Numbers 1, 2, and 5, took part in the actual assault phase. 
82 (1) Cited in Smith, Triumph in the Philippines, ch. IV. (2) In his final report, General Richard- 
son commented on the "devastating mortar fire” which mortar boats placed on the beaches during 
initial stages of the assault. Final Rpt of CG AFMIDPAC to CofS USA, ij Mar 46. 
83 Unless otherwise noted, the account of operations at Iwo Jima is based on: (1) CWS TofO Ltr 
No. 25, 30 May 45, incl 4; (2) Hist, CWS AFMIDPAC, IV, an Il-d, 127, V, an III-a, 87; (3) Ltr, 
Lt Louis L. Mikolajewski, 189th Cml Mortar Co to 14th Cml Warfare Composite Bn, 10 Apr 45, 
Observations From Aboard LCI(L) Mortar Ships During Invasion of Iwo Jima. All in CMLHO. 
84 For an excellent account of the Iwo Jima operation, see Lt. Col. Whitman S. Bartley, Iwo Jima: 
Amphibious Epic (Washington, 1954). THE CHEMICAL MORTAR IN THE PACIFIC 
531 
From H-hour minus 35 until H-hour minus 10 the mortars on these 
vessels expended 3,240 rounds to bombard specific area targets on the 
slopes of Mount Suribachi, the 550-foot extinct volcano which domi- 
nated the southern end of the island. These mortar groups used a 
maneuver sometimes described as Plan Able. In this plan five LCI (M) ’s 
of a mortar group moved counterclockwise in an elliptical pattern 
around the sixth vessel, which served as the reference point. Each ship 
fired only during the period of the run when it was pointed toward 
the target area. The advantage of this maneuver was the attainment 
of the high degree of accuracy needed for interdictory fire, accuracy 
which could not be realized from the decks of sporadically moving 
ships attempting to maintain a stationary position. 
At H-hour Units 2 and 5, proceeding in columns, entered the boat 
lanes from the west, turned shoreward, formed a line parallel with 
the sixth wave, and followed it toward the beaches. Reaching a 
position 2,000 yards from shore, the mortars began firing at a rate 
of 6 rounds per minute and at a constant range of 3,200 yards. Stopping 
1,000 yards from the beaches the mortar ships, now 200 yards apart, 
maintained fire on a line 1,800 yards inland until H plus 60, when they 
joined Mortar Support Units 3 and 4 in the rear to repair the damage 
sustained by the mortar mounts and await further assignment. Group 
1, still employing the elliptical maneuver of Plan Able, resumed action 
at H plus 10 with almost four hours of neutralization fire. When this 
mission terminated Group 1 joined the other units in the rear, thus 
marking the end of mortar boat support during the assault landings 
at Iwo Jima. 
After this first day the LCI(M)’s, with but few exceptions, fired 
only night-time missions of harassment and interdiction.80 The small 
size of Iwo Jima (its surface area is only 7% square miles) and its 
triangular shape made sea support of land operations singularly appro- 
priate. Mortar Units 2 and 5 complied with requests from the forces 
on land for harassing mortar fire during the first night on shore. 
Stationed off the eastern and western side of that point of the island 
tipped by Mount Suribachi, the two mortar units placed fire on the 
area between the opposing forces to prevent large-scale counterattacks 
by the enemy. These missions saw the first significant use of white 
phosphorus shell; as an aid to observation during these hours of dark- 
88 Ibid., p. 8jn. 532 
THE CHEMICAL WARFARE SERVICE 
ness every fifth round was WP. On subsequent nights mortar units 
fired similar missions using Plan Able and also Plan Charlie. Because 
of heavy counterbattery fire received by the mortar groups they were 
sometimes directly supported by heavier vessels. The destroyer, USS 
Shannon, for example, covered Mortar Unit 2 as the LCI(M)’s de- 
livered harassing fire on the night of 23 February. 
Three mortar boat groups departed on 26 February, and the two 
that remained reorganized into 5-boat units. Thereafter this sort of 
support gradually decreased until 3 March, by which time all mortar 
boats had been recalled. During these last days individual LCI(M)’s 
provided direct daylight support to shore battalions designated by the 
Fleadquarters Landing Force. 
Ammunition expenditure of all mortar boats at Iwo Jima came to 
about 60,000 rounds, of which 20 percent was white phosphorus. The 
resupply of mortar ammunition from LST to LCI(M) in a fairly 
rough sea was not always an easy matter. Occasionally the boxes of 
shell dropped a substantial distance to the deck of the mortar boat, 
a circumstance which spoke well for the safety feature of the mortar 
shell fuze. Weapon breakage in this operation caused little alarm 
although the heavy firing frequently broke down the mortar mounts, 
taking the weapon out of action for the extent of the mission. Iron 
straps welded along the sides of the mounts eliminated some of this 
weakness. Sometimes it was necessary to place bands over the subbase 
of the mortar to keep it from jumping out of the mount. From all 
accounts, the mortar crews performed in an exemplary manner; Rear 
Adm. Ffarry W. Hill of Amphibious Group 2 termed the successful 
use of "mortar gunboats” in the early phases of the assault "one of 
the outstanding features of the operation.” 86 According to CWS 
sources, the Marine Corps expressed its enthusiasm for massed fire from 
mortar boats during the early days of the landings.87 
Operations in the Kyukyus 
CWS-trained Navy crewmen manned a total of 60 LCI (M) ’s which 
supported Tenth Army in the Ryukyus Campaign. Six days before 
the main assault of Okinawa, two 6-boat mortar groups supported the 
diversionary effort against Kerama Retto made by the 77th Infantry 
88 Quoted in CWS TofO Ltr 25, p. 16. 
87History, CWS AFMIDPAC, I, sec. 3, 34. THE CHEMICAL MORTAR IN THE PACIFIC 
533 
Division. On i April 1945 the XXIV Army Corps and the III Am- 
phibious Corps successfully carried out the main landings on the 
western coast of Okinawa. Prior to H-hour on that morning seven 
groups of LCI(M) ’s, each comprised of six boats, lined up parallel to 
the beach behind the assault troops. Each LCI(M) carried 1,000 
rounds of HE and 200 rounds of WP. Using Plan Baker, the 42 boats 
moved through a calm sea at about one knot, their 126 mortars 
opening up at a point 1,600 yards from shore at a rate of 10 rounds 
per gun per minute. Firing over the heads of advancing troops the 
mortars, in less than an hour, placed about 28,000 rounds on a beach 
area 1,000 feet deep and 5% miles wide. The mortar boats themselves 
received no enemy fire. 
Another group of LCI(M)’s supported the 2d Marine Division’s 
L-day feint against the southeast coast of Okinawa. Subsequent 77th 
Division landings at le Shima on 16 April received the support of two 
groups of mortar boats, while three days later a single group fired for 
the ruse landing made by the same division in southern Okinawa. From 
7 May until 27 June LCI (M) ’s, in support of Army and Marine troops, 
shelled the city of Naha and enemy installations in the vicinity of the 
capital.88 
The amphibious use of the 4.2-inch mortar was one of the major 
contributions of the CWS to the Pacific war. The mortar boat proved 
extremely effective for close infantry support just before, during, and 
immediately after amphibious landings. It was then that the assault 
troops, running the gantlet of enemy fire while attempting to secure 
a foothold on the beach, benefited from all the support fire that 
could be provided. The effectiveness of the mortars in this support 
is best reflected in the steady increase in the number of mortar boats 
committed to Pacific assault operations. Only four LCI(M)’s saw 
action in the Palau fighting in September 1944; seven months later a 
total of sixty supported Tenth Army operations in the Ryukyus. 
88 (1) Tenth Army, Action Rpt Ryukyus, 25 Mar-30 Jun 43, vol. I, pp. 11-V-5, 7-III-2, 
7—III—11. (2) Combat Rpt, 1st Lt John R. Ralston, CWS, 189th Cml Mort Co, sub: Use of 
LCI(M)’s During the Okinawa Campaign, quoted in History, CWS AFMIDPAC, IV, an Il-d, 
132-35. (3) 77th Inf Div Opns Rpt Iceberg, Phase I, le Shima, 1-27 Apr 45. CHAPTER XIV 
The Flame Thrower in the Pacific: 
Guadalcanal to the Marshall Islands 
The U.S. Army in World War II used two types of flame throwers, 
the portable, carried on the soldier’s back, and the mechanized, 
mounted on an armored vehicle, usually a tank. Because flame could 
penetrate ports and apertures and could be made to turn corners, 
these special-purpose weapons proved extremely useful in overcoming 
a determined enemy in strong, stubbornly held defensive positions, 
invulnerable in most cases to conventional weapons. 
The prototype for the portable flame thrower was devised by German 
engineers sometime between 1900 and 1910. Introduced in World 
War I against the French at Malencourt, it saw some service on the 
Western Front where it proved to be a startling, if unreliable, assault 
weapon. The British and French developed flame throwers of their 
own by 1916, but the weapon, because of its short range, vulnerability, 
and lack of tactical doctrine, had limited combat success. It was never 
used by American troops.1 
During the interwar period the United States devoted little attention 
to flame thrower research and development. Miliary men considered 
it the least valuable incendiary munition and regarded its World War I 
performance as a total failure, a fact which led the Chief of the 
Chemical Warfare Service to remark: "In the Chemical Warfare 
Service it has been the habit for a long while not to mention the flame 
thrower at all, unless questions were asked about it.” 2 
Other nations did not concur in this appraisal. The weapon reap- 
peared in the Abyssinian war of 1935-36, when the Italians employed 
1 Capt. Henry Sorenson, "Flame Warfare,” Canadian Army Journal, vol. 2, Nos. 5 & 6 (August 
and September, 1948), pp. 31-32. 
2 Fries and West, Chemical Warfare, p. 401. Maj. Gen. Amos A. Fries was Chief, CWS, from 
1920 to 1929. FLAME THROWERS: GUADALCANAL TO MARSHALLS 
535 
the first tank-borne flame thrower. Then in 1937 the Italians demon- 
strated the use of flame throwers mounted in combat cars and other 
armored vehicles. The civil war in Spain produced a few German 
flame tanks. By mid-1940 intelligence reports revealed that the 
Germans had employed flame throwers in Poland, in their attack on 
the Belgian fort of Eben Emael, and in their drive across the Low 
Countries and France/ As these reports were scattered, often undocu- 
mented, and usually highly colored, doubt remained as to the extent 
of Axis preparation for the employment of flame throwers. But that 
such weapons might be useful could no longer be denied by American 
planners. 
In 1940 the United States Army took steps toward the development 
of a portable flame thrower. On 12 August 1940, the Secretary of 
War charged the Chief of the Chemical Warfare with the development, 
manufacture, storage, and issue of the weapon, and during the next year 
the CWS developed two experimental models.4 The first, the Ei, was 
quickly discarded; the second, the E1R1, was tested and issued to 
troops. This model, with slight modifications, was standardized as the 
Mi portable flame thrower in August 1941. When certain basic 
deficiencies appeared in this weapon and in the M1A1, an improved 
version, CWS scientists produced an entirely new flame thrower, the 
M2-2. This was the group of portable flame weapons used by the 
U.S. Army in World War II. They were frequently ineffective and 
faulty, particularly in hands of troops ill trained in matters of opera- 
tions and tactics. But with the development of a better flame thrower, 
and with the gradual improvement in tactics and training, this CWS 
weapon came to play an important part in coping with the unique 
conditions of the war against Japan. 
3 For reports of flame thrower employment from 1935 to 1940, see: (1) Sorenson, "Flame Warfare,” 
Canadian Army Journal, vol. 2, Nos. 7 & 8 (October and November, 1948), pp. 18—19; (2) Dept 
of National Defense, Army (Canada), Cml Warfare Intell Summary, 3 Feb 42, sec. on Germany, 
pp. F1-F5; (3) British Hist Monograph, Special Weapons and Types of Warfare, pt. Ill, Flame 
Warfare Including Incendiaries, p. no. 
4 (1) Correspondence leading to the portable flame thrower directive is found in CWTC Item 221, 
10 Sep 40. (2) For a full discussion of the development and manufacture of the various portable 
flame thrower models, see Brophy, Miles, and Cochrane, From Laboratory to Field, pp. 139—47. 536 
THE CHEMICAL WARFARE SERVICE 
The Portable Flame Thrower in the South Pacific 
Guadalcanal 
The American portable flame thrower made its first successful com- 
bat appearance on 15 January 1943 at Guadalcanal, five months after 
United States forces began the assault of this South Pacific island. 
Although the weapon was not available at first, its potentiality against 
enemy bunkers encountered on the islands—defenses which defied 
ordinary weapons—soon became apparent. In speaking of the fighting 
on nearby Tulagi, Maj. Gen. Alexander A. Vandegrift, commanding 
the 1st Marine Division, stated that flame throwers would have been 
"practical and effective” against the strong Japanese defenses.5 
The fortifications encountered on Guadalcanal were typical of those 
to be found in subsequent fighting in the Pacific. These well camou- 
flaged defenses were made of indigenous material reinforced by what- 
ever metal was available. The compartment of a bunker could be 
from 4 to 5 feet high, from 6 to 30 feet long, and from 3 to 10 feet 
wide. Foot-thick coconut logs served as columns and crossbeams, the 
latter covered by several layers of logs and, later in the war, by 
quarter-inch sheets of steel. Walls were strengthened by iron or steel 
rails and sheeting, log pilings, or oil drums filled with sand. The whole 
elaborate framework was covered with earth and thoroughly camou- 
flaged. Fire trenches, connected by shallow crawl tunnels, usually 
adjoined the bunker, and entrances were placed in the rear end in 
positions capable of being covered by other bunkers. Consequently, 
Japanese bunkers were mutually supporting and practically impervious 
to the effects of artillery and mortar fire. And they were manned by 
an enemy who refused to be driven out, but who chose instead to fight 
until death.6 There was an obvious and pressing need for a weapon 
which could reduce such positions instantly and effectively. The 
flame thrower offered a possible solution to the problem. 
Late in 1942 the Americal and the 25th Infantry Divisions and the 
2d Marine Division arrived on Guadalcanal to bolster the slackened 
pace of the American offensive. Each carried a limited number of 
flame throwers. Beginning in December 1942 a CWS officer conducted 
8 (1) Ibid., pp. 243-44. (2) Milner, Victory in Papua, pp. 141-43. (3) Ltr, CmlO XIV Corps 
to CmlO USAFFE, 11 Aug 43, no sub. Sixth Army Cml Sec Reds, 470.71, Portable Flame Throwers. 
5 Miller, Guadalcanal: The First Offensive, pp. 6jn, 244, 27911. FLAME THROWERS: GUADALCANAL TO MARSHALLS 
537 
on-the-spot training of flame thrower operators, and by mid-January 
1943 the troops were ready to give the weapon its initial combat test.7 
On 1 5 January 1943 combat engineers of the 8th Marines, id Marine 
Division, attacked enemy defenses surrounding a beach installation. 
Late in the afternoon they encountered a particularly stubborn Japan- 
ese pillbox, and 2 marines equipped with a flame thrower went forward 
to silence it. Covered by automatic rifles, they crawled to within 
25 yards of the position and fired the flame thrower at the bunker. 
All resistance ceased, and the marines found 5 dead Japanese inside. 
Although 2 of the enemy had managed to get out, neither had escaped 
the effects of the flame. One lay 3 feet from the escape hatch, the 
other had run about 15 feet before collapsing. Encouraged by this 
result, Marine combat engineers went forward and within 20 minutes 
wiped out 2 more enemy strongpoints with flame throwers.8 
The 25 th Infantry Division used flame throwers on the same day 
with far less success. Employed by units of the 33 th Infantry, the 
weapons failed to wipe out enemy pillboxes or to materially aid the 
assault. Since casualties were high, and malfunctions frequent, the 
regiment decided not to employ its flame throwers in future engage- 
ments.9 Nevertheless, the weapon was used throughout the mopping- 
up phase of the campaign by other units and often proved a quick and 
effective means of reducing difficult enemy positions. 
If at the conclusion of the Guadalcanal operation the intrinsic merit 
of the flame thrower was still in doubt, this combat experience with 
the weapon did provide answers to several important tactical problems. 
Units discovered that the flame thrower, because of its limited range 
and short duration of fire, had to be used in conjunction with other 
weapons in order to be effective. A trained security detachment armed 
with rifles, automatic rifles, and smoke grenades was needed to keep the 
enemy under cover long enough for the flame thrower operator to 
approach and flame his target. Experience also showed that the engi- 
7 Lt Col Leonard L. McKinney, CmlC Hist Study 4, Portable Flame Thrower Opns in World 
War II, 1949, p. 39. 
8 (1) Lt. Col. Orbie Bostick, “Mercy Killers,” Chemical Warfare Bulletin, vol. jo, No. 1 (February— 
March, 44), 16-17. (2) Miller, Guadalcanal: The first Offensive, p. 279. 
8 (1) Miller, Guadalcanal: The First Offensive, p. 295. (2) Rpt, Opns of the 25th Inf Div on 
Guadalcanal, 17 Dec 42-5 Feb 43, p. 81. 25th Div 325-1 i.y. 538 
THE CHEMICAL WARFARE SERVICE 
neers were too busy with other jobs to handle the flame thrower; that 
the weapon would be better utilized in the hands of the infantry.10 
To take advantage of these lessons, the division on Guadalcanal, 
under the direction of the recently activated XIV Corps, set up am- 
bitious training programs. On 27 March 1943 the 25th Division pub- 
lished a training memorandum which withdrew the weapon from the 
combat engineers and gave it to the ammunition and pioneer platoon 
of the infantry battalion. The division then organized a series of one- 
day flame thrower schools to train eight men from each of these 
platoons to use the weapons.11 Other units, many of whose chemical 
and regimental gas officers had themselves been trained by the 25 th 
Division Chemical Section, organized similar training programs. By 
mid-1943 the general state of flame thrower readiness of Army units 
on Guadalcanal was relatively good. 
New Georgia 
Unfortunately, the two divisions on Guadalcanal which had received 
the least amount of flame thrower training were to employ the weapon 
on New Georgia. As elements of the 37th and 43d Divisions attacked 
the western end of the island following their 30 June 1943 landings, 
they discovered an extensive series of small enemy fortifications similar 
to those encountered on Guadalcanal. Thoroughly camouflaged, these 
pillboxes were hard to locate, and once located, even more difficult to 
neutralize. Since they were organized in depth and mutually sup- 
porting, it was almost impossible to approach them from the rear. 
On 26 July 1943 three such positions, barely visible in the deep jungle 
foliage, blocked the advance of the 103d Infantry, 43d Division, with 
deadly machine gun fire. Capt. James F. Olds, Jr., a XIV Corps CWS 
staff officer, suggested to the regimental commander the possibility of 
using flame throwers. The co-ordinated attack which followed began 
with a 30-minute artillery preparation. As this fire lifted, 6 flame 
thrower operators from Company C of the 118th Engineer Combat 
Battalion, supported by infantrymen, crawled toward the bunkers. 
Reaching a point twenty yards from their target, 2 operators opened 
fire, crisscrossing their streams of flame to burn off the covering 
10 (1) Ltr, McKaig, to Hist Off, 26 Dec 56. Colonel McKaig was 25th Division chemical officer 
on Guadalcanal. (2) McKinney, Portable Flame Thrower Opns, p. 40. 
1125th Inf Div Tng Memo No. 6, 27 Mar 43. Reproduced as App. 1 in McKinney, Portable 
Flame Thrower Opns, pp. 230-32. FLAME THROWERS: GUADALCANAL TO MARSHALLS 
539 
vegetation. The enemy positions for the first time became clearly 
visible and the 4 other operators discharged their flame directly on 
target. Resistance ceased in a matter of seconds, and the infantry 
resumed its advance.12 
News of this success reached other units and they too began to 
employ their flame throwers. Two days later, Pvt. Frank Kordeleski 
of the 145th Infantry, 37th Division, burned out three Japanese pill- 
boxes with a single flame thrower filling. The XIV Corps chemical 
officer, Col. Robert Gay, reported that during the first six weeks on 
New Georgia flame throwers had been employed against enemy posi- 
tions on no fewer than fifty-four occasions.13 
On New Georgia, as on Guadalcanal, the flame thrower’s record 
was not one of uninterrupted success. Often the inherent weaknesses 
of the Mi’s and MiAi’s were a source of considerable trouble to the 
troops who used them. Alike in basic design, these models had two 
major components, a fuel unit and a gun unit. The fuel unit, which 
was strapped to the operator’s back, consisted of two storage tanks for 
fuel and one for compressed nitrogen. The nitrogen propelled the 
fuel from the storage tanks, through the gun unit, onto the target. 
The gun unit included a fuel tube, a long bent nozzle, a trigger, and 
a valve to regulate the flow of fuel. The compact electrical system 
included a battery, spark plug, and a small hydrogen cylinder. When 
the trigger was pressed, a stream of hydrogen was released, the spark 
plug ignited the hydrogen, and the resultant flame in turn ignited the 
fuel as it passed through the gun unit. The complete flame thrower 
weighed thirty-two pounds empty and seventy pounds filled. Since it 
held only 5 gallons of fuel, its duration of fire was a mere eight to ten 
seconds. The Mi had a range of 1 5 to 20 yards while the M1A1, using 
fuel thickened with napalm, was capable of firing 40 to 50 yards.14 
The inefficiency of the ignition system was particularly bothersome. 
Operators found it expedient to carry thermite grenades for emer- 
12 (i) Opn Journal, 118th Engr Bn, 29 Jun-21 Aug 43, dated 20 Sep 43. 118th Engr Bn 20433, 
343-43.3. (2) Capt. James F. Olds, Jr., "Flame Throwers Front and Center,” Chemical Warfare 
Bulletin vol. 30, No. 3 (June-July, 1944), pp. 5-8. (3) Miller, CARTWHEEL: The Reduction of 
Rabaul, p. 148. 
13 Ltr, CmlO XIV Corps to CmlO USAFFE, 11 Aug 43. 
14 TM 3—375, May 1943, Portable Flame Throwers Mi and M1A1. 540 
THE CHEMICAL WARFARE SERVICE 
gency use, as these grenades when hurled forward on unignited flame 
thrower fuel would cause instantaneous ignition.15 
Mechanical failure was not the sole factor contributing to unsatis- 
factory performance. Of even greater significance was the fact that 
neither the 37th nor the 43d Infantry Division had been extensively 
trained in the use of the flame thrower before it was committed on 
New Georgia. The operators in the 26 July attack, albeit successful, 
had received but one hour of instruction and this a scant three hours 
before the assault! Commanders and operators had little understanding 
of the proper tactical employment of the weapon. Adequate infantry 
support was not always provided; in some cases not a single rifleman 
was assigned as protection. Often there was no satisfactory reconnais- 
sance before the mission, and operators who had been ordered to go 
forward and clean out a lone machine gun emplacement, on reaching 
a firing position, found several bunkers in front of them. In such 
situations a single flame thrower was useless. Many company com- 
manders, ignorant of flame thrower tactics, selected untrained men 
and ordered them to take a flame thrower and "burn out the Japs,” a 
mission which promised little chance of success. Chemical officers 
reported that the casualty rate among flame thrower operators was 
directly related to the inadequate infantry support and planning 
afforded flame thrower missions.16 
It was apparent that further training of operators and infantry 
commanders in the tactical uses and limitations of the weapon was 
essential. Equally obvious was the need for co-ordinated flame thrower 
teams composed of operators and supporting riflemen.17 
Bougainville 
Though divisions soon began intensified flame thrower training pro- 
grams designed to overcome the shortcomings revealed on Guadalcanal 
and New Georgia, few such projects were totally complete by 1 
November 1943, the date of the Bougainville landings. But progress 
16 (1) Ltr, CmlO XIV Corps to CmlO USAFFE 15 Sep 43, no sub. Sixth Army Cml Sec Reds, 
470.71 Portable Flame Throwers. (2) CmlO 25th Div to CCWS, 25 Apr 43, Rpt of Cml Warfare 
Activities on Guadalcanal Island. CWS 314.7 Portable Flame Thrower File. 
18 (1) Ltr, CmlO XIV Corps to CmlO USAFFE, 15 Sep 43, no sub. (2) Ltr, ACmlO XIV Corps 
to Cml XIV Corps, 30 Jul 43, sub: Rpt on Use of Flame Thrower. Sixth Army Reds, 470.71 
Portable Flame Throwers. 
17 CmlO 25th Div to CG 25th Div, 20 Nov 43, Rpt, Flame Thrower Opns During the New Georgia 
Campaign. FLAME THROWERS: GUADALCANAL TO MARSHALLS 
541 
had been made, and when Army and Marine units encountered formid- 
able Japanese defensive installations on Bougainville improvised flame 
thrower teams generally were available. 
On ii December 1943 the forward advance of the 21st Regiment, 
3d Marine Division, was halted by an enemy position on Hill 1000. 
One of the Marine Corps officers described the obstacle as follows: 
The reverse slope position was encountered here, fox-holes at the 
foot of a knoll with a ten-yard field of fire to the top of the knoll. . . . 
Interlocking lines of grazing automatic fire were integrated such that 
approach to the knoll from any direction was cleverly and effectively 
covered. Little room existed for maneuver on the ridge and due to the 
height and number of trees 60 and 81 mm. mortars were relatively 
ineffective. The hill mass likewise constituted a partial mask to the 
supporting artillery.18 
The marines hammered at this position for seven days without 
success. Finally, on 18 December 1943, Hill 1000 was hit by two 
heavy air strikes. Right after this, six flame throwers, their operators 
organized in teams, accompanied riflemen in a converging action on 
the position. The flame throwers supported the infantry advance and 
aided substantially in destroying enemy positions.19 
Less successful was the experience during November and December 
of the 19th Marine Regiment, which found the weapon incapable of 
neutralizing enemy strongpoints because of its short range. Never- 
theless, flame terrified the enemy and on several occasions caused him 
to flee from his defensive positions.20 
The 37th Infantry Division found little use for flame throwers 
during its first two months on Bougainville. The division’s 8-man 
flame thrower squads (one per battalion ammunition and pioneer 
platoon) suddenly became busy in March.21 In heavy action on Hill 
700 eleven separate flame thrower attacks took place, each resulting in 
18 Lt Col Frank M. Reinecke, USMC, MS, Hellsapoppin Ridge, 8-18 December 1943, The Bougainville 
Campaign: A Study of Offensive Principles, 1947, p. 10. Marine Corps School, MOS LOG #208-48 (c). 
19 (1) Ibid., pp. 17, 19-32. (2) CO 21 st Marines to CG 3d Marine Div, 31 Jan 44, Rpt of Opn on 
Bougainville, in 3d Marine Div Combat Rpt, 1 Nov-28 Dec 43, dated 21 Mar 44. Marine Corps 
Archives, A5-2. 
20 CO 19th Marine Regt to CG 3d Marine Div, n.d., Rpt of Opns, Nov-Dec 43. 3d Marine Div 
Combat Rpt, 1 Nov-28 Dec 43, dated 21 Mar 44. Marine Corps Archives, A5-2. 
21 (1) Ltr, CmlO 37th Div to CmlO XIV Corps, 11 Jan 44, sub: Informal Combat Rpt of Lessons 
Learned in Combined New Georgia & Bougainville Opns. XIV Corps Rpts. (2) Maj Gen Oscar W. 
Griswold, Bougainville: An Experience in Jungle Warfare, pp. 37-44. 542 
THE CHEMICAL WARFARE SERVICE 
the reduction of a pillbox. In one assault flame thrower teams reduced 
two adjacent pillboxes, killing 20 Japanese in one and 25 in the other.22 
The Americal Division, also committed on Bougainville, set up an 
extensive organization for flame thrower operations. Recalling the 
haphazard organization on Guadalcanal, the division decided to build 
within each of its regiments a provisional flame thrower platoon. Under 
the supervision of the division chemical officer, Maj. Woodson C. 
Tucker, the first of these units was formed and assigned to the 13 2d 
Regiment Headquarters Company on 18 February 1944. The platoon 
had a 5-man headquarters and six 4-man squads, each allotted two 
flame throwers. Similar units were organized within the 18 2d and 
164th Regiments, and all three underwent extensive training to develop 
squad and platoon teamwork and to familiarize individuals with all 
the weapons of the squad. Exercises stressed co-ordination of rifle 
units and flame thrower teams, since tacticians had decided that should 
flame thrower targets appear, squads from the platoon working in 
conjunction with the infantry units would be detailed to attack them.23 
Only two of the three provisional flame thrower platoons, those of 
the 13 2d and the 18 2d Regiments, saw combat action on Bougainville. 
Both units took part in the bitter fighting in March 1944 on Hill 260 
and during April in the battle of Mavavia in the eastern part of the 
island. The provisional flame thrower platoons were highly successful 
in each action. In its first commitment in combat on Hill 260 the 
13 2d Regiment’s flame unit reduced eight enemy pillboxes in one 
hundred seconds of actual firing. The platoon reduced two more on 
11 March 1944 while supporting the assault of Company B, 182d 
Regiment, on an observation post on the same hill.24 From 7 to 9 April, 
the provisional flame thrower platoon of the 182d Infantry regiment 
supported troops of the 93d Division at Mavavia. Assigned primarily 
22 XIV Corps Rpt on Lessons Learned in the Bougainville Opns, n.d., pp. 4-5. CWS 314.7 
Portable Flame Thrower File. 
23 (1) History, Flame Thrower Platoon of the 13 id Inf Regt, Apr 44. CWS 314.7, Portable 
Flame Thrower File. (2) CmlO, Americal Div to ACofS G—3 Americal Div, 7 Nov 44, Rpt, Flame 
Thrower, and Incls. CWS 314.7 Portable Flame Thrower File. 
24 History, Flame Thrower Platoon of the i3id Infantry Regiment, Apr 44. CWS 314.7 Portable 
Flame Thrower File. (2) Griswold, Bougainville: An Experience in Jungle Warfare, pp. 96—114. 
The Griswold account (pages 119—20) tells of another use of flame in the fierce fighting for Hill 260. 
Two Navy men got 200 feet of flexible pipe, connected it to a drum of gasoline, and used oxygen 
pressure to pump the liquid into Japanese pillboxes. The gasoline was ignited by white phosphorous 
grenades. See also Miller, CARTWHEEL: The Reduction of Rabaul, p. 372. For further attempts 
at this type of improvisation, see below, pp. 567-68. FLAME THROWERS: GUADALCANAL TO MARSHALLS 
543 
to mopping-up activities, flame thrower operators followed tanks and 
fired into all pillboxes and suspicious holes. Later in April the platoon 
supported its parent unit, the i8id Regiment, this time during the 
fighting in the upper Laruma Valley.25 
The portable flame thrower’s highly impressive record on Bougain- 
ville, coupled with its earlier performance on Guadalcanal and New 
Georgia, clearly demonstrated the value of the weapon in jungle fight- 
ing. Despite its shortcomings the flame thrower had made a fairly 
auspicious beginning. Work remained to be done; as late as April 1944 
the XIV Corps recognized that **. . . the tactical capabilities of this 
weapon have not yet been fully developed.” 26 In preparation for the 
move to the Philippines the XIV Corps and the four Army divisions 
in the South Pacific (the 25th, 37th, 43d, and Americal) intensified 
their training efforts and reorganized their flame thrower teams.27 
The Southwest Pacific: The First Years 
While the portable flame thrower was winning a good name in 
the South Pacific theater, it was getting a reputation of a wholly 
different sort in the Southwest Pacific. The origins of its notoriety 
go back to December 1942 and the Papua Campaign. 
Papua 
On 6 December Col. Clarence M. Tomlinson, commanding officer 
of the 126th Infantry, 3 2d Division, asked the 114th Engineer Combat 
Battalion for several flame throwers and operators to help overcome 
enemy machine gun emplacements near the village of Buna. The 
engineers, equipped with the E1R1 flame thrower, immediately set 
about testing and servicing these weapons. Although the inspections 
showed that several of the gas cylinders had developed leaks, some 
from rust, some from defective material, the flame throwers functioned 
reasonably well, if at a maximum range of only 20 yards.28 Five 
“Ltr, CO iSad Inf Regt to CmlO Americal Div, 31 Oct 44, sub; Present Status of the Flame 
Thrower Platoon. CWS 314.7 Portable Flame Thrower File. 
26 An. No. 3 to XIV Corps Tng Memo No. 8, 29 Apr 44, sub: Tng in the Use of Flame Throwers. 
Reproduced as app. 3 in McKinney, Portable Flame Thrower Opns, p. 248. 
27 (1) Ibid., pp. 251-52. (2) IncI 2 to 37th Div Tng Memo No. 7, 26 Sep 44, sub; Tng in the 
Use of Flame Throwers. Reproduced as app. 4 in McKinney, Portable Flame Thrower Opns, pp 253—57. 
28 (1) Ltr, CO 114th Engr Bn to CmlO Maple Base (Port Moresby), 19 Dec 42, sub: Malfunc- 
tioning of Flame Throwers. CWS SPECVI 470.71/92. (2) Ltr, Col Frank M. Arthur to Hist Off, 
3 Mar 59. 
289-149 0-68—36 544 
THE CHEMICAL WARFARE SERVICE 
operators with two weapons, two refill tanks, and 25 gallons of fuel, 
reported to the regiment on 7 December, and the next day the regi- 
mental operations officer ordered the flame throwers into action.29 
The target was an enemy machine gun bunker ingeniously concealed 
at the edge of a kunai grass flat. While the flame throwers were being 
brought forward, M/Sgt. John K. King, of the division chemical sec- 
tion, and one of the company officers, Lieutenant Davidson, performed 
the necessary reconnaissance. They identified the bunker in the midst 
of its natural and artificial camouflage and exposed themselves in 
order to draw fire and pinpoint the location of its ports. A partially 
demolished breastwork about 35 yards from the bunker furnished 
cover for anyone approaching the position. It was possible to advance 
a bit farther toward the bunker in comparative safety through a 
shallow trench which extended 5 yards out from the breastwork. This 
would give the operator an attack position only 30 yards from his 
target. 
After the reconnaissance Lieutenant Davidson went forward again, 
this time accompanied by Cpl. Wilber G. Tirrell, the engineer flame 
thrower operator. Once more he drew fire from the bunker so that 
the corporal could see the exact location of the ports. 
The plan of operation was practicable and uncomplicated. Corporal 
Tirrell, his weapon concealed in a burlap sack, was to advance as far 
as possible in the shallow trench, thirty yards from his objective. As a 
diversion, three men with automatic weapons were to crawl around 
on the left flank and fire at the rear of the bunker. Lieutenant David- 
son, Sergeant King, and four riflemen were to take positions behind 
the breastwork, ready to rush the bunker with rifle fire and grenades 
in the wake of the flame thrower. Corporal Tirrell was to advance 
at least five yards beyond the end of the trench before releasing the 
flame and was to keep advancing until the fuel was exhausted. 
Before the men took their stations, they checked the flame thrower’s 
ignition system. At the proper moment, the group on the left flank 
began its diverting fire. The enemy did not answer. Corporal Tirrell 
moved from his position at the end of the shallow trench and headed 
toward the bunker. Seven yards beyond the trench he released the 
initial burst of flame and immediately Lieutenant Davidson and his 
29 The following account is based on: Ltr, Actg Div CmlO 32d Div to CG 3id Div, 18 Feb 43, sub: 
Rpt on the Activities of the 3 2d Inf Div Cml Sec During the Papuan Campaign. CWS 314.7 
Portable Flame Thrower File. FLAME THROWERS: GUADALCANAL TO MARSHALLS 
545 
party rushed out from behind the breastwork, only to find themselves 
in serious trouble. Instead of a powerful burst of flame, the flame 
thrower emitted a feeble ro-foot squirt, and the Japanese inside the 
emplacement began pouring machine gun fire into the advancing 
group. One of the riflemen was hit as soon as he left the cover of the 
breastwork, Lieutenant Davidson was killed, and the others withdrew. 
Corporal Tirrell continued to advance, trying vainly to get his weapon 
to function properly. When he was less than fifteen yards from the 
bunker he was stunned by a bullet which struck the front of his helmet 
and he fell to the ground out of sight. During the night he crawled 
back to safety. 30 Two days later the infantry overcame the position 
by direct assault.31 
The cause of the Buna fiasco was never absolutely determined, but 
its effect was immediate. The infantry’s confidence in the flame 
thrower was shattered. In January 1943 Colonel Copthorne, Chief 
Chemical Officer, USAFFE, informed General Porter that "the way 
the flame throwers let the infantry down at a critical point brought 
them into such ill-repute that I am afraid that they may never want to 
use them again.” 32 In Washington Colonel Benner, chief of the CWS 
Field Requirements Branch, stated that a weapon such as the flame 
thrower with its "temperamental nature has no place in modern warfare 
where ruggedness and reliability are essential.” 33 
But if the flame thrower was too temperamental to rely on, it was 
potentially too useful to abandon. Back on New Guinea, Sergeant 
King made one last effort to make flame throwers serviceable. New 
weapons were flown in from Port Moresby, across the mountains, but 
these, too, were unfit for use. They were checked and serviced and 
80 (i) Initial reports of the action listed Corporal Tirrell as having died in the encounter. He 
actually "played dead” after regaining consciousness and waited until dusk before returning to his 
position. He did suffer a leg wound inflicted by an enemy rifleman as he escaped, but contrary to early 
reports he survived and was recommended for citation for his valiant, though unsuccessful efforts, 
(a) Ltr, Actg Div CmlO 3ad Div to CG 3ad Div, 18 Feb 43, sub: Rpt on Activities of the 3ad Inf 
Div Cml Sec During the Papuan Campaign. (3) Ltr, CO 114th Engr Bn to CmlO Maple Base APO 
9a9, 19 Dec 4a, sub: Malfunctioning of Flame Throwers. CWS SPECVI 470.7179a. (4) The 
account of the Buna flame thrower operation found in Milner, Victory in Papua, page ajo, based on 
the earliest reports of the action, gives an incomplete account of the casualties. 
81 On 13 December 194a a flame thrower was employed against another enemy bunker near Buna. 
The result was the same as at Buna the week before: the flame thrower "fizzed out and the Japanese 
shot it up.” Milner, Victory in Papua, p. 233. 
82 Ltr, CCmlO USAFFE to CCWS, 6 Jan 43, no sub. CWS 319.1/101. 
83 Ltr, Chief Field Rqmts Br to Chief War Plans and Theater Br, 18 Jan 43, sub: Malfunctioning 
of Flame Throwers. CWS SPCUR 470.71/92. 546 
THE CHEMICAL WARFARE SERVICE 
parts interchanged in an attempt to get at least one weapon that 
would function properly, but all efforts were unsuccessful.34 
Matters of Maintenance, Supply, and Training 
During the first nine months of 1943 the 10th Chemical Maintenance 
Company at Brisbane, commanded by Capt. John J. Shaffer, con- 
ducted extensive flame thrower tests in order to locate the major sources 
of trouble, a project which included the thorough overhaul of all flame 
throwers in the Southwest Pacific Area. The unit discovered that most 
malfunctions resulted from deteriorated cylinders and batteries which 
had succumbed to the deleterious temperatures and humidity of the 
tropics. All flame throwers shipped to the Southwest Pacific or carried 
as equipment by units arriving in the area were thoroughly tested, 
repaired, and waterproofed by trained technicians under the direction 
of Colonel Copthorne and his staff. Though fundamental defects 
remained, the work of the SWPA Chemical Section went a long way 
in effectively preventing a repetition of the mishaps suffered on Buna. 
Meanwhile, Sixth Army began a comprehensive analysis of the 
Papua Campaign in an attempt to discover an effective means of 
reducing Japanese bunkers. The experience of its subordinate units 
indicated that these fortifications generally could not be destroyed by 
artillery or mortar fire. Only the foot soldier armed with normal 
infantry weapons could do the job. Having located a bunker, infantry- 
men either had to outflank it or to launch repeated frontal assaults 
until the enemy was overcome. Either tactic normally resulted in 
heavy casualties. 
Although the flame thrower had performed dismally at Buna, Sixth 
Army had received reports of the successful use of the weapon on 
Guadalcanal and New Georgia.35 On the basis of these reports it 
appeared that a dependable flame thrower could be the answer to the 
problem of pillbox destruction. By October 1943 the rigorous tests 
conducted by the 10th Chemical Maintenance Company demonstrated 
that the flame thrower could be made reliable. Sixth Army therefore 
decided to include the weapon in its future combat operations and 
asked that Headquarters, U.S. Army Forces Far East, increase the 
34 Ltr, Actg Div CmlO Div to CG jzd Div, 18 Feb 43, sub: Rpt on the Activities of the jid 
Inf Div Cml Sec During the Papuan Campaign. 
85 (1) Ltr, CmlO XIV Corps to CmlO USAFFE, 11 Aug 43, no sub. (2) Ltr, CmlO XIV Corps 
to CmlO USAFFE, 15 Sep 43, no sub. Both in Sixth Army Cml Sec Reds, 470.71 Flame Thrower. FLAME THROWERS; GUADALCANAL TO MARSHALLS 
547 
allotment of flame throwers from twenty-four to sixty per infantry 
division. This request was approved on 19 October 1943.36 
Welcome as these decisions were to the CWS, they raised serious 
problems for chemical officers in the Southwest Pacific. The first diffi- 
culty was related to supply. Flame throwers, spare parts, accessory 
kits, and fuel had become exceedingly scarce at the beginning of 1943. 
Colonel Morcock, Chemical Officer, USASOS SWPA, had requisitioned 
308 M1A1 flame throwers from the United States in March 1943, 
and had repeated his plea two months later,3' In July the first shipment 
of MiAi’s arrived to replace obsolete E1R1 and Mi models and by 
August supplies of MiAi’s were sufficient to cover the authorized 
allowances of Sixth Army units.38 This balance of supply and demand 
was upset in October when, as just noted, General MacArthur’s head- 
quarters approved Sixth Army’s request for the sixty flame thrower 
allotment for each infantry division. Not until the beginning of 1944 
did enough MiAi’s again become available to meet increasing combat 
and training needs. Supplies of spare parts and accessories never did 
catch up with requirements and both continued in critical demand for 
the duration of the war.39 
Two additional factors complicated the supply picture. First, many 
of the new flame throwers were unusable because of missing or defective 
parts or because of improper packing or waterproofing.40 Upon arrival 
from the United States, these weapons had to be turned over to 
chemical units for inspection, servicing, and rewaterproofing. Second, 
it was exceedingly difficult to obtain needed quantities of compressed 
hydrogen and nitrogen. Because of the shipping shortage, these gases 
were not sent from the United States and had to be procured at great 
88 Ltr, CG Sixth Army to CG USAFFE, 4 Oct 43, sub: Portable Flame Throwers, and Inds. 
Sixth Army Reds, 470.71 Flame Thrower. 
87 Ltr, CmlO USASOS SWPA to SupO Cml Br Overseas Sup Div San Francisco Port of Embarkation, 
(Oakland, Calif.), 7 Jun 43, sub: Portable Flame Throwers, New M1A1, and Accessories. GSWC 
470.7 in CWS SPCVO 470.71 APO 501. 
88Ltr, CG USAFFE to CG Sixth Army, 21 Aug 43, sub; Flame Throwers, Portable, M1A1, Sixth 
Army Reds, 470.71 Flame Throwers. 
89 See above, ch. VI. 
40 (1) Ltr, CG 41st Inf Div to CG USASOS SWPA 27 Oct 43, sub: Condition of Flame Throwers. 
(2) Ltr, CmlO USASOS SWPA to CmlO’s Intermediate and Adv Secs USASOS and CmlO’s Bases 
A, B, D, E, and F, 15 Dec 43, sub: Flame Throwers. Both in Sixth Army Reds, 470.71 Flame Thrower. 548 
THE CHEMICAL WARFARE SERVICE 
expense and trouble either from naval or air units in the area or from 
Australian firms.41 
Even more serious than the problem of supply was that of training. 
Since the flame thrower was a comparatively new weapon, and until 
1943 one largely assigned to the engineers, few of the troops in the 
Southwest Pacific had been trained to use it. With the allotment in 
October 1943 of 12 flame throwers to each infantry regiment, it for 
the first time became necessary to extend flame thrower training to 
the infantry. The magnitude of the job can be judged by the Sixth 
Army requirement that each rifle company, cavalry troop, and ammu- 
nition and pioneer platoon have at least 4 trained flame thrower oper- 
ators; this was to be in addition to the 4 trained men for each author- 
ized flame thrower in each engineer company and battalion.42 Since 
most commanders wanted to train men in excess of these minimum re- 
quirements, the training burden on both the individual unit and the 
CWS was exceedingly heavy. 
Because the dispersal of American units throughout Australia and 
New Guinea made a single flame thrower training center impracticable, 
schools were established in several different locations. Flame thrower 
operators for I Corps’ 24th and 41st Infantry Divisions trained at a 
jungle assault school near Rockhampton, Queensland.43 The 10th 
Chemical Maintenance Company held classes for personnel of other 
units stationed in Australia at the Chemical Warfare Training Center 
at Brisbane.44 The Sixth Army Chemical Section provided several 
traveling teams to teach flame thrower operation to Marine and Army 
organizations in forward staging areas. These teams, made up of one 
officer and two enlisted men, conducted a series of three 2-day flame 
thrower schools for units in New Guinea and the Trobriand Islands. 
41 (1) Ltr, 1st Lt Robert P. Rockway to Col Carl L. Marriott, 22 Oct 43, no sub. (2) Memo, 
CmlO U.S. Adv Base A for CmlO Alamo Force, 31 Oct 43, no sub. Both in Sixth Army Reds, 
470.71 Flame Thrower. 
42 Sixth Army Tng Memo No. 8, 1 Oct 43, sub: Tng in the Use of Flame Throwers. Sixth Army 
Cml Sec Reds, 470.71 Flame Thrower; reprinted as app. 5 in McKinney, Portable Flame Thrower Opns. 
43 Under the leadership of its chemical officer, Colonel Riegelman, I Corps had taken an early 
lead in the development of flame thrower doctrine and had been the first to issue a training publication 
on the employment of the weapon in the Southwest Pacific. See: (1) Incl 1 to Ltr, CG I Corps to 
CG’s 24th, 4ist( 32d Divs, 27 Sep 43, sub; Employ of Flame Throwers, CWS 314.7 Portable Flame 
Thrower File; (2) I Corps Tng Memo No. 17, 10 Dec 43, sub: Tng in the Use of Flame Throwers, 
CWS 314.7 File; also reprinted as app. 7 in McKinney, Portable Flame Thrower Opns, pp. 263-67; 
(3) Riegelman, Caves of Biak, pp. 73-75. 
44 (1) 1st Ind on Ltr, 29 Aug 43, CG USAFFE to CG Sixth Army, 21 Aug 43, sub: Flame Thrower, 
Portable, M1A1. Sixth Army Reds, Cml Sec Reds, 470.71 Flame Thrower. (2) Shaffer Ltr, 19 Sep 56. FLAME THROWERS: GUADALCANAL TO MARSHALLS 
549 
Under the leadership of ist Lt. Robert P. Rockway, the teams had 
trained 582 flame thrower operators by February 1944.45 
The flame thrower schools stressed operation, maintenance, and 
servicing as well as tactics. Based upon past experience, current Sixth 
Army doctrine prescribed that the flame thrower be included as part 
of the arms and equipment of an organized assault party rather than 
be employed as an individual weapon. Sixth Army suggested that an 
assault party be made up of eighteen men, armed with demolition 
charges, bangalore torpedoes, rocket launchers, and signal projectors, 
in addition to regular infantry weapons. These groups were to be 
trained and readied in order to be immediately available when needed 
in combat. Three flame thrower teams, each consisting of an operator 
and assistant operator, were allotted to each assault party.46 
Improving the flame thrower and training operators to employ it 
occupied most of 1943. Achievements in both fields were substantial, 
but since the weapon had not yet performed satisfactorily in the 
Southwest Pacific, lingering doubts remained as to the ultimate value 
of such efforts. Flame thrower successes in a variety of operations in 
the theater between December 1943 and July 1944 helped dispel such 
doubts. 
New Britain and the Admiralties 
The first combat use of the flame thrower in the Southwest Pacific 
after Buna occurred on 1 5 December 1943 at Pilelo, a tiny island off 
the coast of New Britain. Troop B of the 112th Cavalry RCT had 
landed and was moving inland when the leading platoon was halted 
by fire from two caves. A bazooka quickly silenced one, but the other 
was so protected by log pilings as to be impervious to both bazooka 
and machine gun fire. The troop commander then organized an assault 
party with a flame thrower as its principal weapon. While rifle and 
automatic weapons fire covered the cave, the flame thrower operator 
worked his way up and fired his entire charge into the entrance. The 
rest of the party then rushed the position with hand grenades. When 
45 (1) Ltr, CmlO Hq Alamo Forces to ACofS G-j, Sixth Army, 9 Feb 44, sub: Trained Flame 
Thrower Pers. (2) Ltr, ACmlO Alamo Force to CmlO U.S. Forces, Unit 3, 4 Nov 43, sub: Flame 
Thrower School. (3) For detailed course of instruction at these mobile flame thrower schools, see 
114th Engineer Battalion Training Memorandum No. 14, Annex 1, 6 October 1943, Flame Thrower 
School Schedule. All in Sixth Army Cml Sec Reds, 333 Flame Thrower Tng. 
46 Sixth Army Tng Memo No. 8, 1 Oct 43, sub: Tng in the Use of Flame Throwers. 550 
THE CHEMICAL WARFARE SERVICE 
the party reached the cave, it found 5 dead and 2 wounded Japanese, 
all with their clothing ablaze.47 
Marine units had less success with the flame thrower in the Cape 
Gloucester section of New Britain. Misfires and mechanical malfunc- 
tions were frequent. The MiAi’s, despite their waterproofing, became 
damp and undependable from the incessant rain.48 The dense foliage 
and jungle growth on Cape Gloucester normally absorbed the first 
burst of flame thrower fuel, preventing the flame from reaching its 
target and further exposing an already vulnerable operator to enemy 
fire.49 
Flame throwers made an equally inauspicious beginning in the Ad- 
miralties campaign. The 2d Brigade of the 1st Cavalry Division landed 
on Manus Island on 15 March 1944 with sixteen flame throwers filled 
and ready for action. Since opposition to the landing was negligible 
and the first few days produced no suitable flame thrower targets, 
many units discarded these weapons. But on the fourth day after the 
landing, advancing troops were harassed by fire from a bunker which 
had been bypassed by assault troops. It was a perfect target for flame 
throwers, but none was available. They were found scattered along 
the route from the beach, and hydrogen and nitrogen cylinders were 
located near the airstrip, even farther from the front.50 
The brigade commander, Brig. Gen. Verne D. Mudge, corrected the 
situation by ordering his chemical officer, Lt. Charles Land, to collect 
all flame throwers and equipment and take personal charge of flame 
thrower operations. From then on, the weapons were carried imme- 
diately behind the attacking troops. Lieutenant Land accompanied 
the forward elements, ready to organize and direct flame thrower 
assault groups against suitable targets. Such targets did not appear until 
the closing days of the Manus Island operation. It was discovered in 
47 (1) Ltr, CmlO Task Force (93d Cml Composite Co) to CmlO Sixth Army, 30 Dec 43, sub: 
Official Rpt on Tactical Use of Flame Thrower. Reprinted in CWS 314.7 Observers Rpts (Grothaus- 
Brady Rpt), SWPA, SOP AC, CENPAC, 29 Mar 44, as an. 4, sec. 5. (2) Miller, CARTWHEEL; 
The Reduction of Rabaul, p. 285. 
48 (1) Lt. Col. Frank O. Hough, USMCR, and Maj. John A. Crown, USMC, The Campaign on 
New Britain (Washington, 1952), p. 34. (2) 93d Cml Composite Co, 30 Dec 43, Official Rpt on 
Tactical Use of Flame Thrower. CWS SPCWS 5205 8-6. 1605/44. 
40 (1) Ltr, Cml Warfare SupO Backhander Force to Cml Warfare IntellO USASOS SWPA, 1 Jan 
44, sub: Cml Intell. CWS 314.7 Portable Flame Thrower File. (2) Memo, ACmlO Alamo Force 
for G-3, G-4, 16 Feb 44, no sub. Sixth Army Reds, 333 Inspection Rpts. 
50 Rpt, CmlO 1st Cavalry Div, 3 Jul 44, sub: Use of Flame Throwers in the Admiralty Campaign. 
CWS 314.7 Portable Flame Thrower File. FLAME THROWERS: GUADALCANAL TO MARSHALLS 
551 
mopping up the island that numerous Japanese had quietly remained 
in their bunkers and allowed the leading elements of the attack to 
bypass them. Flame thrower teams and demolition squads eliminated 
these pockets by flaming and blasting every bunker they encountered.51 
Wakde, Muffin Bay, and Biak 
The flame thrower proved its effectiveness anew in May 1944 on 
Wakde Island, of the Wakde group, off the New Guinea coast. There, 
after two days of intense fighting, the 163d Infantry, 41st Division, 
managed to clear out most of the enemy forces. The remaining Japan- 
ese took refuge in a network of connecting tunnels and caves in a 
coral shelf which sloped up sharply from the northeast shore line. 
Company A of the 27th Engineer Combat Battalion was ordered to 
clean them out. To do the job the company used dynamite, bazookas, 
white phosphorus grenades, and flame throwers, but only the flame 
thrower proved successful against both caves and tunnels. On at 
least eight separate occasions flame thrower assaults either killed the 
Japanese defenders outright or drove them from their hiding places into 
the open, where they became easy targets for riflemen.52 
Company B of the 27th Engineer Combat Battalion, attached to the 
158th Infantry, did equally well with flame throwers in the Maffin 
Bay area of the New Guinea mainland, across from Wakde Island. 
On 24 May the engineers, supported by two tanks, destroyed a machine 
gun emplacement, which had pinned down an infantry company for 
over three hours.53 This was the first recorded instance of a co-ordi- 
nated tank-flame thrower attack in the Southwest Pacific. A month 
later, farther to the east at Lone Tree Hill, the pattern was repeated. 
On 18 June 2d Lt. Theodore Frankel, antitank platoon leader, 1st 
Infantry, 6th Division, supported by two tanks, knocked out three 
n (1) Ibid. (2) Lt. Col. Kenneth W. Haas, "The Pacific Is Another War,” Chemical Warfare 
Bulletin, vol. 30, No. 5 (November-December, 1944), p. 17. 
52 (1) Ltr, CW Tech Intell Team 4 to Chief CmlO USASOS SWPA, 24 Jun 44, sub: Rpt on Use of 
Cml Warfare Weapons and Munitions. CWS 314.7 Portable Flame Thrower File. (2) McKinney, 
Portable Flame Thrower Opns, pp. 69-70. 
53 (1) Smith, Approach to the Philippines, p. 239. (2) Ltr, Cml Warfare Tech Intell Team 4 to 
Chief CmlO USASOS SWPA, 24 Jun 44, sub: Rpt on Use of Cml Warfare Weapons and Munitions. 
CWS 314.7 Portable Flame Thrower File. (3) Ltr, CG Sixth Army to Corps and Divs et al., 6 Sep 44, 
sub: Cml Warfare Activities During Wakde-Maffin Bay Opns. CWS 314.7 Portable Flame Thrower 
File. 552 
THE CHEMICAL WARFARE SERVICE 
enemy bunkers with a single flame thrower.54 Six days later Frankel 
used the flame thrower in an entirely different kind of attack. The 
target was an enemy 70-mm. artillery piece emplaced in a cave high 
on Rocky Point. Frankel organized an assault party consisting of 
an antitank grenadier, a TNT-armed demolitions man, and several 
riflemen; he himself carried a flame thrower. The party crawled to 
a shell hole about twenty yards in front of the cave, from which point 
Frankel fired several bursts from the weapon. Next the demolition 
man placed his charge, which knocked out the enemy field piece and 
buried its crew under the resulting debris. In a 2-day period, Lieutenant 
Frankel took part in nearly two dozen flame thrower assaults.55 But 
the lieutenant’s record in this regard was not unique, since engineers 
of the 6th Engineer Combat Battalion and infantrymen of the 1st 
and 20th Infantry regiments of the 6th Division carried out scores 
of successful flame attacks in June 1944, especially in the Lone Tree 
Flill and Rocky Point sections of the front.56 
While the battle for Maffin Bay was still in progress, elements of the 
41st Infantry Division invaded Biak Island. This island, about 100 
miles from New Guinea, was a mass of coral with a veneer of dense 
jungle vegetation. It abounded with caves ranging in size from shallow 
cavities just large enough to contain two or three men to networks 
of caverns capable of accommodating eight or nine hundred. Japanese 
ingenuity had turned this maze of natural cave and connecting tunnels 
into an extensive and formidable defensive installation, relatively im- 
pervious to the effects of air, naval, and artillery bombardment.57 The 
flame thrower played a vital role in the destruction of these powerful 
defenses. From 27 May to 19 August 1944 it was fired more often 
than in any other previous campaign in the Southwest Pacific. Fifty- 
nine flame throwers sprayed 236 gallons of fuel against enemy positions. 
64 (1) Ltr, Task Force CmlO U.S. Forces Unit i to CmlO Sixth Army, 21 Jun 44, no sub. Sixth 
Army Reds, 470.7 Flame Throwers. (2) Frankel and 2d Lt James J. Harnes, ij Jul 44, Rpt on Use 
of Flame Throwers in Maffin Bay Area, Dutch New Guinea. Sixth Army Reds, 3 50.05—Wakde. 
55 Frankel and Harnes, Rpt on Use of Flame Throwers in Maffin Bay Area, Dutch New Guinea. 
58 Ltr, CG Sixth Army to Distr, 6 Sep 44, sub: Cml Warfare Activities During the Wakde Island- 
Maffin Bay Opns. Sixth Army Reds, 415.}. 
67 (1) Ltr, CG Sixth Army to Distr, 3 Sept 44, sub: Cml Warfare Activities During the Biak Opn. 
Sixth Army Reds, 41J.3. (2) Riegelman, Caves of Biak, pp. 145-47. FLAME THROWERS: GUADALCANAL TO MARSHALLS 
553 
They were used to burn combustible Japanese stores and against a 
variety of other targets.58 
Introduction of the Portable Flame Throiver in the 
Central Pacific Area 
Although it was in the South and Southwest Pacific that flame 
throwers were first employed, it remained for troops in the Central 
Pacific to demonstrate the full potential of the weapon. This they pro- 
ceeded to do in a long series of amphibious assaults that, paralleling 
MacArthur’s drive in the Southwest Pacific, carried Army and Marine 
units from the Gilberts and Marshalls to the very doorstep of Japan. 
From the start commanders in the Central Pacific, especially Marine 
leaders, showed an interest in and an enthusiasm for the flame thrower 
unmatched in other theaters. Forces in the area were also blessed with 
an adequate and sometimes overabundant supply of the weapon, a 
relative absence of technical problems that plagued the Southwest 
Pacific, and sufficient time between engagements to train operators and 
assault teams. These factors helped to produce the success achieved by 
the flame thrower in the Central Pacific. 
During the last week in July 1943 the Hawaiian Department59 pre- 
sented a portable flame thrower demonstration, based on an analysis 
of operations in the South Pacific, to approximately 1,400 Army, Navy, 
and Marine officers and enlisted men. The display, demonstrating how 
Japanese fortified defenses might be attacked and destroyed by assault 
parties armed with the flame thrower, generated considerable interest.60 
Later, when plans were being made for the invasion of the Gilbert 
Islands, the Hawaiian Department chemical office prepared detailed 
studies of types of Japanese defenses- that might be encountered. An 
examination of these studies convinced planners that the flame thrower 
would be a desirable weapon in the coming operations; accordingly, the 
27th Infantry Division received twenty-four and the 2d Marine Divi- 
68 (1) CmlO 41st Inf Div, n.d., Rpt, Cml Phase and Sec Hist Red of Horlicks Opn. CWS 314.7 
Portable Flame Thrower File. (2) CmlO 41st Inf Div to CmlO Alamo Force, 11 Aug 44, Preliminary 
Tech Rpt—Rpt No. 9. Sixth Army Reds, 350.05 Biak. 
69 The Hawaiian Department soon became U.S. Army Forces, Central Pacific Area, and later U.S. 
Army Forces, Pacific Ocean Areas, and U.S. Army Forces, Middle Pacific. Colonel Unmacht served 
as chemical officer of these headquarters throughout the war. 
“Memo, Quigley, OACofS G-3 Hawaiian Dept, for Keliher, ACofS G-3, 4 Aug 43, sub; Rpt on 
Dept Cml Field Exercise. History, CWS AFMIDPAC, vol. II, an. I—c. 554 
THE CHEMICAL WARFARE SERVICE 
Marines Using CWS Flame Thrower on a Tarawa Beach 
sion sixty.61 Members of the engineer battalion of each division under- 
went training in flame thrower operations, although even at this time 
there was some feeling that it might be wiser to assign the weapons to 
infantry rather than to engineer troops. 
Portable throwers went into action on 20 November 1943 when the 
165th RCT, 27th Division, landed on Makin Atoll and the 2d Marine 
Division attacked Betio Island of the Tarawa Atoll. On the former, 
enemy opposition was fortunately limited, for flame throwers, drenched 
in the landings, failed to function.62 On Betio marines faced strong 
Japanese positions. Here, enemy beach fortifications consisted of nu- 
merous concrete, steel, and sand and coconut log pillboxes, plus a num- 
ber of excellent bombproof shelters. These emplacements were con- 
61 (1) History CWS AFMIDPAC, II, an. Il-b, 3-5. (2) Ltr, Unmacht to Hist Off, 27 Jun 51. 
CWS 314.7. 
“Growl and Love, Seizure of the Gilberts and Marshalls, p. 93. FLAME THROWERS: GUADALCANAL TO MARSHALLS 
555 
nected by means of an intricate and highly developed trench and tunnel 
system.63 
Flame throwers proved invaluable against these defenses. During the 
first three days of fighting, the weapon burned out a score of enemy 
pillboxes, and, surprisingly, permitted marines to take a number of 
frightened Japanese prisoners. On 22 November a large concrete bomb- 
proof shelter was assaulted by men of the 2d Battalion, 8 th Marines. 
The marines, using flame throwers, overran the top of the shelter but 
the Japanese counterattacked within minutes. Flame throwers quickly 
drove back the enemy and inflicted heavy casualties.64 As at least two 
historians of the Pacific fighting have commented: "Perhaps the most 
valuable weapon on Tarawa proved to be the flame thrower.” 65 
Although other units used these weapons with equal effectiveness, 
there were, unfortunately, far too few flame throwers available. The 
1 st Battalion, 6th Marines, which had been assigned six flame throwers, 
used two in close support of tanks and attached the remaining four to 
the rifle platoon engaged in mopping-up activities. The battalion 
recommended that it be allotted twelve for future engagements, a de- 
sire reflected in the reports of several other units.66 
As a result of the Gilbert experience, the 7th Infantry Division’s 
allotment of portable flame throwers for the Marshall operations was 
increased to 192; the 4th Marine Division’s to 72.6‘ The 7th Division 
immediately began an intensive training program in these weapons. 
A squad of combat engineers armed with flame throwers, demolitions, 
wire cutters, and bangalore torpedoes was assigned to each rifle platoon. 
Realistic exercises were conducted in assaulting replicas of fortifications 
likely to be encountered in the Marshalls. The engineers soon learned 
to move freely under friendly fire and to depend on the infantrymen’s 
68 CO 2d Marine Regt to CG zd Marine Div, 17 Dec 43, Rpt of Opns Galvanic. Combat Team 
2 in zd Marine Regt, Rpt of Opn—Tarawa, Marine Archives A8-1. 
64 (1) CO zd Bn 8th Marines zd Marine Div to CO Combat Team 2, 13 Dec 43, Rpt of Tarawa Opns, 
zd Marine Regt—Rpt of Opns Tarawa. Marine Corps Archives A8-1. (2) Stockman, Battle for 
Tarawa, p. 47. 
86 Crow 1 and Love, Seizure of the Gilberts and Marshalls, p. 163. 
68 (1) CO 1st Bn 6th Marines to CO 6th Marine Regt, 3 Dec 43, Special Action Rpt, 6th Marine 
Regt—Special Action Report—Tarawa. Marine Corps Archives A9-1. (2) CO 8th Marine Regt to 
CG 2d Mar Div, 1 Dec 43, Special Action Report—Tarawa. Marine Archives A10-1. (3) CO LT 
3/2 3d Bn 2d Marine to CG V Amphib Corps, 20 Dec 43, Rpt of Opns Galvanic. 2d Marine Regt— 
Rpt of Opns—Tarawa. Marine Archives A8-1. 
87 (1) History, CWS AFMIDPAC, II, an. I-d, 30. (2) CG 4th Marine Div to CG V Amphib Corps, 
17 Mar 44, Final Rpt on Flintlock Opn, incl J, p. 17, Final Rpt, Roi. Marine Corps Archives 
A22-1. 556 
THE CHEMICAL WARFARE SERVICE 
ability to cover them. The latter, in turn, acquired confidence in the 
engineer’s competence in using flame throwers and in placing demoli- 
tions rapidly and effectively.68 
The 4th Marine Division, also readying itself for the Marshall Islands 
campaign, placed emphasis on assault team training. Equipped with 
seventy-two portable flame throwers, the division faced the almost 
impossible task, suggested by higher headquarters, of training two men 
per infantry platoon,69 as well as the engineer personnel who normally 
operated the weapon.'0 The division trained as many individuals as it 
could, but put its greatest emphasis on organizing assault parties within 
its combat teams. Typical of these units was the 19-man party or- 
ganized by the 24th Marines. This team was led by an officer and con- 
sisted of a flame thrower group including a flame thrower operator, an 
assistant operator, and a fuel carrier; a 5-man demolition group; a 3- 
man bazooka group; and a support group of 7 riflemen and BAR men. 
Engineer troops comprised the flame thrower and bazooka groups.71 
The inclusion of a fuel carrier in the assault team was an innovation. 
Formerly, a flame thrower operator had to leave the forward area and 
return to a servicing point to refill his weapon. This extra man in the 
assault team made it possible to insure more rapid weapon refueling. 
Chemical officers in the Marshalls also adopted the system of supplying 
additional flame thrower fuel in 5-gallon cans, with an extra pressure 
cylinder attached, instead of the normal 5 5-gallon drums, thus ex- 
pediting the handling of fuel from transports to refilling points and 
permitting the weapons to be serviced much nearer the front lines. 
The actual combat employment of the flame thrower in the Marshall 
Islands failed to justify fully the extensive preliminary training pro- 
gram. Happily, Japanese defenses on Roi, Namur, Kwajalein, and 
Eniwetok, pounded by a 3-day preinvasion bombardment, proved less 
formidable and Japanese resistance less stubborn than had been antici- 
pated. As a consequence, the flame thrower was not needed in the as- 
sault phases of the amphibious landings, but was confined to mopping- 
68 (1) Sixth Army Combat Notes No. 2 15 Aug 44, 106-11.6 (7076). (2) Rpt of the 7th Inf 
Div Participation in Flintlock Opn, 8 Feb 44. 7th Inf Div, 307-0.3 (1037). 
69V Amphib Corps Tng Memo No. 13-43, 21 Dec 43> Demolition and Flame Thrower Tng. 
Reprinted as app. 13 in McKinney, Portable Flame Thrower Opns, pp. 284-85. 
70 V Amphib Corps Tng Order No. 17-43, 21 Dec 43, Flame Throwers. Marine Corps School, Log 
60-27, reprinted as app. 14 in McKinney, Portable Flame Thrower Opns, pp. 286-92. 
71 CG 4th Marine Div to CG V Amphib Corps, 17 Mar 44, Final Rpt on Flintlock Opn, Incl E, 
Rpt of Combat Team 24. Marine Corps Archives, A22-1. FLAME THROWERS: GUADALCANAL TO MARSHALLS 
557 
up operations and to the elimination of enemy personnel from under- 
ground shelters and fortifications.'2 The 4th Marine Division reported 
the weapon most effective in this work when used in combination with 
explosives. Flame was hurled at the embrasures and slits of the fortifica- 
tion forcing the occupants to take cover. Next, pole or shaped charges 
were used to breach the side of the structure, after which grenades, 
satchel charges, or more flame was used to destroy the occupants.73 
Because operations in the Marshalls demonstrated that 192 flame 
throwers were more than an infantry division needed or could ade- 
quately handle, Army divisions slated for the Marianas campaign re- 
ceived 141 flame throwers and Marine divisions 81.74 An analysis of 
the Marshall campaign also indicated to Army and Marine leaders that 
trained infantrymen as well as engineer troops were required to operate 
the flame thrower. This conclusion, similar to that reached indepen- 
dently by commanders in the South and Southwest Pacific, was based 
on the realization that engineers were normally too busy with other 
essential duties to devote their full attention to the flame thrower. 
After the Marshall Islands operation infantrymen became the primary 
users of the weapon in the Central Pacific. 
72 (1) Rpt, Marshall Islands Japanese Defenses and Battle Damage, prepared by WD Mission for CG 
CENPAC, 1 Mar 44. 98-USF3-0.3. (2) Maj. Leonard D. Frescoln, “Post-Mortem on the Marshalls,” 
Chemical Warfare Bulletin, vol. 30, No. 2 (April-May, 1944), pp. 33—34. , 
73 CG 4th Mar Div to CG V Amphib Corps, 17 Mar 44, Final Rpt on Flintlock Opn. Marine 
Corps Archives A22-1, inch 1, p. 17. 
74 (1) History CWS AFMIDPAC, II, an. i-D, 40. (2) CG 3d Marine Div to Comdt of the 
Marine Corps, 21 Aug 44, Special Action Rpt, Forager Opn (Guam), an. B to D-3 Rpt, Marine 
Corps Archives, A17— 1. CHAPTER XV 
The Flame Thrower in the Pacific: 
Marianas to Okinawa 
The Need for a Mechanized Flame Thrower 
The stimulus for the development of the mechanized flame thrower, 
as for the portable, came from the war against Japan where the enemy’s 
excellent defenses and stubborn resistance called attention to the utility 
of flame. Although the portable flame thrower gradually proved to be 
an effective weapon against the Japanese, one of its inherent disadvant- 
ages, the vulnerability of the operator, suggested the portable’s installa- 
tion in an armored vehicle. It is not to be inferred that CWS engineers 
in the United States had been unmindful of the possibilities of a ma- 
chanized flame thrower; the Chemical Warfare Technical Committee 
had advocated the development of such a weapon in May 1940. But 
for various reasons, work on the mechanized models in the zone of 
interior proceeded slowly and fitfully throughout the entire war.1 
There were several attempts in the Pacific to mount portable flame 
throwers in some sort of armored vehicle, a combination made the more 
appealing by the lack thus far of cannon or other antitank weapons in 
the enemy bunkers. In the South Pacific Area, for example, the com- 
mander of a tank battalion in New Caledonia installed a flame gun in 
the pistol port of a tank, and a chemical officer on New Georgia modi- 
fied the flame gun so that it could be fitted into the aperture for the 
tank’s bow machine gun. The 1st Marine Tank Battalion, serving in 
the Southwest Pacific, mounted several portable flame throwers on its 
tanks in preparation for the New Britain operation. None of these 
improvisions could have been called successful. The portable flame 
thrower was not constructed to withstand the vibrations and jarrings 
1 For a discussion of the research and development of mechanized flame throwers, see Brophy, Miles, 
Cochrane, From Laboratory to Field. FLAME THROWERS: MARIANAS TO OKINAWA 
559 
of a moving tank, and its fuel capacity was much too limited.2 Word 
came from Washingon pointing out the disadvantages of range and fire 
hazards from such modifications and counseling patience until the ar- 
rival of perfected mechanized flame throwers from the zone of interior.3 
After the bloody battle of Tarawa, which opened Allied offensive 
operations in the Central Pacific Area, an even greater clamor arose 
for a mechanized flame weapon. The portable flame thrower had done 
its part in that battle, but new weapons and techniques were urgently 
needed to help prevent the repetition of such staggering casualties. In 
preparation for the Marshall Islands operation scheduled for February 
1944 both the 4th Marine Division and the 7th Infantry Division in- 
stalled Mi A1 portable flame throwers, modified by the chemical section 
of the 7th Division, in light tanks and LVT’s, an amphibious tractor. 
Included in the 7th Division’s version were special fuel containers 
manufactured in Honolulu. But the attempts to waterproof the guns 
on the LVT’s were unsuccessful, and the electrical systems of those 
flame weapons, drenched on landing, failed completely. The tank- 
mounted versions, plagued with the basic weaknesses of fragility and 
low fuel capacity, had but modest success.4 
The poor results of flame thrower improvisation in the Pacific 
theaters was no cause for criticism of the responsible chemical officers 
and tank commanders; the portable flame thrower was basically un- 
suited for tank adaption. If nothing else, these efforts clearly indicated 
that improvisation was not the answer and underlined the real need 
for a mechanized flame thrower in the Pacific fighting. 
The Marianas 
After the experience at Tarawa, General Richardson, Commanding 
General, U.S. Army Forces in Central Pacific Area, asked the War De- 
partment if mechanized flame throwers were available in the zone of 
interior. Upon receiving a favorable reply, Richardson requisitioned 
2 (i) CWS TofO Ltr No. 6, 8 Oct 43, p. 10. (2) Ltr, CmlO XIV Corps to CCWS, 26 Aug 43, 
sub: Rpt of Mounting Flame Throwers in Tanks. CWS 314.7 Mechanized Flame Throwers File. 
(3) Maj John N. Rentz, Marines in the Central Solomons (Washington, 1932), P- 156. (4) Ltr, 
CmlO Alamo Force to Cml SupO APO 323, 24 Jan 44, no sub. Sixth Army Reds, 470.71 Flame 
Throwers. 
3 CWS TofO Ltr No. 16, 12 Jul 44, p. 12. 
4 (i) History, CWS AFMIDPAC, II, an. II-c-i, 2-3; I, sec. 3, pp. 21-22. (2) Growl and Love, 
Seizure of the Gilberts and Marshalls, p. 233. (3) USAFICPA, Participation in the Kwajalein and 
Eniwetok Opns, p. 194. 
289-149 0-68—37 560 
THE CHEMICAL WARFARE SERVICE 
forty auxiliary bow gun flame throwers (E4— 5) for use in the Marianas 
operation.5 When these failed to arrive, he utilized local resources 
to fashion substitutes.6 It was fortunate that this need arose in the 
Central Pacific, for Hawaii had factories and machine shops and an 
eager and able chemical officer—Colonel Unmacht, who approached 
the problem of the mechanized flame thrower with the same efficiency 
he had shown for the portable. 
At this time the marines in the theater were perhaps even more 
interested in flame weapons than were the Army troops. Late in Jan- 
uary 1944 the V Amphibious Corps, preparing for the Marianas, ob- 
tained twenty Ronson vehicular flame throwers from Canada. The 
development work involved in adapting these British-designed weap- 
ons for installation in M3A1 light tanks was to fall primarily upon 
Colonel Unmacht, who utilized CWS, Ordnance Department, Naval, 
and private facilities for this undertaking. The resulting main arma- 
ment flame thrower, dubbed Satan, had a range of from 40 to 80 yards, 
a fuel capacity of 170 gallons, and a duration of fire of 2 minutes, 
enough, according to Unmacht, to reduce 40 or 50 pillboxes based 
on 2-second bursts.7 At a demonstration held for interested officers on 
15 April 1944, the marines fully recognized the potential of the mech- 
anized flame thrower. The V Amphibious Corps managed to get ten 
more Ronson units from Canada, and its commander, Lt. Gen. Holland 
M. Smith, asked the Army authorities in Hawaii to install the Ronson 
units in M3A1 light tanks in time for the Marianas operation.8 Al- 
though medium tanks would have had advantages of better protection 
and more space and mobility, none could be made available in time 
to meet the required deadline.9 The Chemical Section, CENPAC, with 
the co-operation of the 14th Naval District, the V Amphibious Corps, 
and the Seabees, equipped twenty-four light tanks with the flame 
5 In an auxiliary mechanized flame thrower the flame weapon supplemented the normal armament 
of the vehicle; in a main armament mechanized flame thrower, as the name implies, the flame thrower 
was the principal armament. 
6 History, CWS AFMIDPAC, II, an. II-c-i, 70. 
7 (1) History, CWS AFMIDPAC, II, an. II-c-i, ref 14, 4-12. (2) See Brophy, Miles, and Cochrane, 
From Laboratory to Field, for details of the development work in Hawaii. (}) In his brief 8-page 
final report to the Chief of Staff, U.S. Army, General Richardson paid tribute to this "resourceful 
and inventive” CWS group which developed a flame-throwing tank that was of "incalculable value.” 
Final Rpt of CG AFMIDPAC to CofS USA, 15 Mar 46. 
* Memo, CmlO CENPAC for G-j DCofS and CofS CENPAC, 17 Apr 44, sub: Installation of 
Ronson Flame Thrower in Light Tank. History, CWS AFMIDPAC, vol. Ill, ref. 6. 
e4jd Cml Lab Co, 16 Aug 44, Demonstration of Ronson and Navy Mark I Vehicular Mounted 
Flame Thrower and Mobile Mechanical Servicing Equip. History, CWS AFMIDPAC, vol. Ill, ref. 14. FLAME THROWERS: MARIANAS TO OKINAWA 
561 
thrower units. As the Satans were being produced Colonel Unmacht 
conducted a series of 40-hour classes on flame tank operation which 
were attended by Marine Corps and Army officers and men. By mid- 
May the weapons were tested, waterproofed, and loaded on ships. 
The invasion of the Marianas began early on 15 June 1944 when the 
V Amphibious Corps, known as the Northern Landing Force and con- 
sisting of the 2d and 4th Marine Divisions, invaded Saipan.10 Each 
division had 12 Satan tanks. These 12 plus 3 conventional tanks 
formed a company of three platoons. Each platoon (4 Satans and 1 
light tank) was attached to a company of medium tanks—the organic 
armored support of a marine regiment. Landing on D plus 2(17 June) 
the flame tanks saw infrequent use during their first day of battle and 
then only for the purpose of mopping up. Next day the tanks took 
part in front-line action and thereafter, as tankers and infantrymen 
alike quickly learned flame tank techniques, the Satan proved to be an 
effective weapon. 
Targets were varied—pillboxes, brush, canefields, buildings, and 
caves. Typical action against stiff opposition saw flame tanks neutraliz- 
ing targets under cover of medium tanks. A tank commander, inter- 
viewed shortly after the end of the operation, told of one such action 
in which the Satan, supported by conventional tanks, came forward 
to flame a well defended pillbox. As the target started burning, two 
Japanese sprang out, only to be cut down by rifle fire. Resistance ceased. 
An examination of the bunker revealed ten other Japanese, grotesquely 
dead at their firing positions. The tank commander added that the 
mechanized flame thrower proved to be the only effective weapon 
against caves.11 
After the fall of Saipan the 2d and 4th Marine Divisions immediately 
started preparations for the invasion of Tinian which was to begin on 
24 July. In this attack the M3A1 light flame tanks, loaded aboard 
LCT’s and LCM’s, followed hard on the heels of the first assault wave. 
The composition and attachment of flame tank units during the fight- 
10 Admiral Turner’s Joint Expeditionary Force was composed of the Northern Landing Force (V 
Amphibious Corps) scheduled for Saipan and Tinian, the Southern Landing Force (III Amphibious 
Corps) earmarked for Guam, and a Reserve Force, consisting of the 27th Infantry Division afloat and 
the 77th Division in Hawaii. 
u (1) CmlO POA, 21 Aug 44, Rpt, Opns of Armored Flame Throwers by the 4th Marine Div on 
Saipan and Tinian. History CWS AFMIDPAC, vol. IV, an. II-c-j, ref. 1. (2) Intervs of 4th 
Marine Div Pers by Tenth Army officers, 4 Sep 44. History CWS MIDP AC, vol. IV, an. II-c-}, 
refs. 1 and 3. THE CHEMICAL WARFARE SERVICE 
ing were just as they had been on Saipan.12 The terrain on Tinian 
proved much more favorable to tank employment, and this, combined 
with the recently acquired combat experience, resulted in a profitable 
use of flame vehicles. The Satans again combined with the medium 
tanks against the more tenacious points of resistance. They also were 
successful against caves and when used to burn vegetation concealing 
enemy positions.13 
The Southern Landing Force, as the III Amphibious Corps was desig- 
nated for the Marianas campaign, assaulted Guam on 21 July with the 
3d Marine Division, the 1st Provisional Marine Brigade, and the 77th 
Infantry Division as its principal combat elements. The 3d Tank Bat- 
talion, which landed on the first day, had among its armament six 
M4A2 medium tanks equipped with E4-5 auxiliary bow gun flame 
throwers. These weapons had arrived from the zone of interior for 
service tests shortly before the operation began. One of the flame tanks 
met the enemy at Assan Point on the second day of the battle. Sup- 
ported by a conventional tank the flame vehicle approached an enemy 
cave and fired half of its 2 5-gallon charge into the mouth. Seventeen 
Japanese soldiers were incinerated. A similar attack near Chonito Cliff 
resulted in 30 enemy dead. During the next five days the auxiliary 
flame tanks continued to burn out resistance on Guam.14 
A few logistical difficulties arose during these flame operations in 
the Marianas. Planners for the invasion had estimated that the daily 
expenditure of each flame tank would be one load of fuel; actually, 
two loads were required. A shortage of napalm meant that most of 
the flame fuel was either diesel oil mixed with Bunker C fuel obtained 
from the vessels, or, at times, straight Bunker C. A postcampaign 
recommendation called for adequate amounts of thickened fuel for 
future operations to insure a longer, more effective range for the mech- 
anized flame thrower.15 
Flame tank crews, contrary to some pessimistic predictions, suffered 
no casualties as a result of actual flame operations, although two men 
were injured when a vehicle struck an enemy land mine. Fatigue be- 
12 Maj. Carl W. Hoffman, USMC, The Seizure of Tinian (Washington, 1951), p. 53. 
13 Ibid., pp. 60, 96. (2) Philip A. Growl, The Campaign in the Marianas, UNITED STATES 
ARMY IN WORLD WAR II (Washington, i960), p. 298. 
14 Ltr, CO 3d Tank Bn to CG 3d Marine Div, 12 Nov 44, sub: Rpt and Recommendations on 
Flame Thrower £4-5 in M4A2 Tanks by This Battalion in Guam Opn. CWS 314.7 Mechanized 
Flame Thrower File. 
15 (1) Hoffman, Seizure of Tinian, p. 131. (2) Interv, 4th Marine Div Pers, 4 Sep 44. FLAME THROWERS: MARIANAS TO OKINAWA 
563 
came a problem because of the extremely cramped positions within the 
light tanks. While the marines were generally impressed by the flame 
tank performance, they were critical of the range of the flame gun, the 
limited visibility and light armor of the tanks, the lack of special tools 
and spare parts, and the manner in which the Ronson was installed in 
the tank. And experience in the Marianas substantiated the preinvasion 
opinion that flame throwers should be mounted in medium tanks.16 
The successful debut of the mechanized flame thrower in the Mari- 
anas campaign generally overshadowed the accomplishments of the 
portable model. The truth was that the two types of flame throwers 
supplemented one another; the mechanized afforded greater protection 
to the operator and delivered larger amounts of flame for longer dis- 
tances, while the portable, capable of quicker and more flexible employ- 
ment, attacked targets inaccessible to the tank-mounted type. Port- 
able flame throwers saw action on Saipan on D-day before the tanks 
were landed and proved invaluable during the street fighting in the 
village of Garapan. Later, these weapons helped overcome stubborn 
resistance of cave defenses located in Saipan’s cliff formations, defenses 
which the tank-mounted flame throwers could not reach. On Guam 
the portable flame throwers were committed against the cave defenses 
of Chonito Cliff within an hour of the actual landings, and they re- 
mained busy during the entire three weeks of fighting.1' 
On at least one occasion the two types of flame thrower were em- 
ployed in the same action. During the battle for Tinian, marines first 
used the cannon of a medium tank to blast defended caves, then the light 
flame tanks to spray the openings, and finally assault teams with demoli- 
tions and portable flame weapons to actually reduce the positions.18 
Of the two Army divisions in the operation the 27th continued to 
assign the weapons to the combat engineers while the 77th gave them to 
16 (1) Interv, 4th Marine Div Pers, 4 Sep 44. (2) CG 4th Marine Div to Comdt Marine Corps, 18 
Sep 44, Opn Rpt—Saipan, an. E, p. 11. Marine Corps Archives A14-1 (S&C 48430). (3) Hoffman, 
Saipan; The beginning of the End, p. 254. 
17 (1) CO 8 th Marine Regt to CG 2d Marine Div, 20 Jul 44, Special Action Rpt, Forager. 
Marine Archives A20-1. (2) Growl, Campaign in the Marianas, chs. V, IX. (3) Hoffman, Saipan: 
The Beginning of the End, p. 196. (4) CG 3d Marine Div to Comdt Marine Corps, 21 Aug 44, 
Special Action Rpt, Forager Opn, D-3 Rpt, Narrative of the Campaign. 
18 (1) Lt Col B. A. Hockmuth, USMC, n.d., Rpt, Flame Throwers at Saipan. CWS 314-7- (2) 
CG 4th Marine Div to CINCPAC and CINCPOA, 25 Sep 44, Opn Rpt—Tinian, an. C, p. 20. Marine 
Archives, A14-3. (3) HoSman, Seizure of Tinian, p. 96. 564 
THE CHEMICAL WARFARE SERVICE 
the infantry. The marines, prompted by previous experience, assigned 
the portable flame throwers to the infantry.19 
Although the portable weapon stood up well under hard usage in the 
Marianas, weather conditions caused innumerable problems. Many 
flame throwers were deadlined through battery and spark plug failure 
and because of inadequate waterproofing. The former difficulty was 
greatly relieved with the introduction of the new M2-2 flame thrower 
(flown from the zone of interior) and its improved ignition system.20 
There was a good supply of flame throwers present, but no provision had 
been made for transporting them or the heavy service equipment needed 
for their maintenance.21 
Peleliu 
Tarawa had called the Navy’s attention to the possible use during 
the initial stages of an assault landing of a mechanized flame thrower 
mounted in some sort of landing craft. The National Defense Research 
Committee provided a speedy solution to this problem. The organiza- 
tion had recently developed the Q model flame thrower for light tanks 
only to find that vehicle out of favor. It now adapted the Q flame unit 
to fill the Navy’s needs. Newly christened the Navy Mark I, five units 
of the flame thrower reached Hawaii in April 1944. The Army in- 
herited these units when Navy authorities turned down the model as 
unsuitable for amphibious operations because of its excessive weight. 
The 43d Chemical Laboratory also found that this flame unit, with a 
fuel capacity of 200 gallons, a firing time of 74 seconds, and a maxi- 
mum range of over 100 yards, was too bulky and heavy for installation 
in tanks.22 
Interest in the Mark I flame thrower then arose in another quarter. 
Early in June 1944 a Navy flame thrower detachment from the United 
States joined the 1st Marine Division on Guadalcanal which was pre- 
paring for the invasion of the Palau Islands. This detachment, con- 
10 McKinney, Portable Flame Thrower Opns, pp. 150-54. 
20 The ignition system of the M2—2 consisted of a plastic cylinder with five patches of incendiary 
material. A trigger on the front handle activated a match-mixture-coated pin which ignited one of the 
incendiary patches. The entire system was waterproof. The M2-2 weighed seventy pounds when filled 
and had a capacity of four gallons. 
21 McKinney, Portable Flame Thrower Opns, pp. 150-54. 
22 (1) Memo 2, CmlO CENPAC to TankO G-j DCofS CENPAC, 6 May 44. (2) 43d Lab Co, 19 
May 44, Rpt Demonstration U.S. Navy Flame Thrower Mark I. Both in History, CWS, AFMIDPAQ 
vol. Ill, refs. 11, 13. FLAME THROWERS: MARIANAS TO OKINAWA 
565 
Flame Thrower on an Amphibious Tractor Blasts Cave on Peleliu Island. 
sisting of one officer and three enlisted men and attached to the divi- 
sion’s amphibian tractor battalion, mounted its three Mark I flame 
units on LVT (4) ’s, the armored amphibian tractor. Tests soon re- 
vealed that there were certain drawbacks to this combination. The 
severe vibrations of the vehicle operating on land shook loose the gun- 
ner’s protective shield and cracked the porcelain of the spark plugs, 
failures which were only partially remedied by improvisation and sub- 
stitution. The naval detachment began to instruct the marines in the 
operation and maintenance of the flame tractors but, unfortunately, 
a shortage of napalm prevented adequate training of men and testing of 
weapons. Three flame units which arrived from Hawaii shortly before 
embarkation were held in reserve.23 
28 (1) Rpt on Activities of the Navy Flame Thrower Detachment in the Palaus Opn, n.d. History, 
CWS AFMIDPAC, IV, an. II-c-j, 6-7. (2) Maj. Frank O. Hough, USMCR, The Assault on Peleliu 
(Washington, i<)jo),p. 32. 566 
THE CHEMICAL WARFARE SERVICE 
The island of Peleliu was the principal objective of the ist Marine 
Division attack in the Palaus. Each of the three assault regiments was to 
have a flame tractor in support. Crews of these flame vehicles received 
briefings on the over-all operation and detailed instructions in their 
own particular mission. The flame tractor with the ist Marine Regi- 
ment would advance just behind the initial wave of landing craft. 
Upon reaching the beach it was to fire on targets of opportunity, fol- 
lowing the infantry as it pushed inland. Any infantry officer could 
commandeer the flame tractor if an appropriate target appeared. The 
flame vehicle with the 5 th Regiment would land and advance with the 
first wave of assault troops, and the 7th Regiment’s flame support 
would accompany a flanking group of landing craft. 
The three flame tractors, plus two service tractors carrying an air 
compressor and extra fuel, were loaded in a landing craft, tank, which 
in turn made the 2,000-mile journey from Guadalcanal to Peleliu on 
the deck of a landing ship, tank. 
On the day of attack, 15 September 1944, the elaborate plan for 
using the flame tractors completely broke down. The ist Marine Regi- 
ment was stopped by stiff resistance just beyond the beach, and its flame 
tractor waited five hours for some kind of order. The flame vehicles 
with the other regiments were told to stand offshore out of danger. 
When the three flame tractors eventually landed they stood idle on the 
beaches, a result no doubt of extreme confusion and the unfamiliarity 
of the marines with the weapon. Inactivity on the second day was 
caused by the fact that the air compressor had not yet landed. The 
flame vehicles saw action on the third day, and from then on their com- 
mitment was regular.24 
The troops used the flame tractor principally to neutralize caves, 
pillboxes, and dugouts and to burn the cover from the battleground. 
Japanese, hidden in defiladed positions, were often caught by arching 
rodlike streams of burning, thickened fuel which hit the reverse slopes. 
The marines controlled this type of fire by radio from observation posts. 
In the first phase of the fighting the flame tractors usually worked 
ahead of the infantry, even ahead of the tanks. As the attack slackened 
upon reaching the hills, the tanks and infantry provided support for 
the flame weapons. The latter could have been more effective, par- 
ticularly from commanding positions on hills and cliffs, but for their 
24 Rpt on Activities of the Navy Flame Thrower Detachment in the Palaus Opn. FLAME THROWERS: MARIANAS TO OKINAWA 
567 
light armor plate and their lack of all around protection. After the 
first few days on Peleliu the employment of the six flame tractors was 
steady until about D plus 40 and then sporadic until D plus 75. The 
flame weapons attacked about 100 caves and twenty-five pillboxes and 
dugouts. They burned off some forty acres of cover, expending fifty 
loads of fuel in the process. 
The over-all usefulness of this mechanized flame thrower suffered 
from the inadequacies of the tractors. Damage to the flame units them- 
selves was negligible and usually repairable within several hours. But 
the amphibious tractors could not withstand the rugged terrain and 
were constantly out of action with engine troubles, torn tracks, and 
broken final drives. The 6 flame throwers were employed for 61 days 
(or a total of 366 flame thrower days), and almost one-third of the 
time was spent on tractor maintenance. This unfortunate situation 
occurred despite the fact that the detachment had a total of 19 tractors 
in which to mount the 6 flame units. In addition to these frequent 
breakdowns, insufficient training of the crews hampered efficient opera- 
tions. Gunners sometimes were unable to estimate the range of the 
target, and incomplete knowledge of the flame gun prevented the crew 
from taking care of small malfunctions in the field. All in all, ex- 
perience on Peleliu demonstrated that the LVT was not a suitable ve- 
hicle for flame throwers; this was the conclusion of the Navy flame 
thrower detachment. But despite the failure of the mount, the marines 
were impressed by the Navy Mark I flame thrower. In some respects 
they considered it superior to the Ronson flame gun used in the Mari- 
anas, especially in length of range.25 
An interesting sidelight to the Peleliu operation was the use of a 
high pressure hose to carry flame to targets beyond the range of mech- 
anized flame weapons. During the fighting at Umurbrogol Pocket, 
engineers attached a 300-yard hose to a fuel tank and, with pressure 
provided by booster pumps, operators sprayed Japanese positions with 
flame much as firemen direct water on burning buildings.26 So im- 
pressed was General Richardson with this weapon that he asked Colonel 
Unmacht to continue the investigation of its combat potential. In 
subsequent tests the chemical section attached a 400-foot length of 
25 (1) Ibid. (2) Hough, Assault on Peleliu, pp. 32, 143, 148, 180-81. (3) Hoffman, Saipan: 
The Beginning of the End, p. 254. (4) See also Robert Ross Smith, Approach to the Philippines, 
PP- 539, 545, 5<53, 5/1-72- 
28 Hough, Assault on Peleliu, p. 175. 568 
THE CHEMICAL WARFARE SERVICE 
standard i l/z -inch rubber fire hose to a flame thrower tank and attained 
a range of 60 yards. Following a demonstration of the device in Feb- 
ruary 1945 Tenth Army ordered three sets of these hoses, all of which 
were to see service on Okinawa.27 
The Philippines 
Preparations for the Portable Flame Thrower 
In May 1944 Sixth Army’s commander, General Krueger, expressed 
to his staff chemical officer some misgivings about the past performances 
of the portable flame thrower.28 As a consequence, a study was made 
under the aegis of Sixth Army’s G-3 to determine what revisions 
should be made in the Army’s official flame thrower doctrine.29 This 
study revealed several reasons why the flame thrower had been used 
with less than maximum effectiveness. Commanders had incomplete 
understanding of the capabilities and limitations of the weapon; as a 
result, it was often committed to action without any chance of success 
or, conversely, was not introduced into situations where it might have 
been helpful. A corollary to this was the failure of unit commanders 
to comply with Sixth Army doctrine requiring the employment of 
portable flame throwers as an integral part of the assault party.30 A 
commander, upon brief reconnaissance, would send forward a poorly 
protected flame thrower on a mission that would have been difficult 
for a much larger force. Or flame thrower operators would be ac- 
companied by a security detachment which had been hastily formed for 
the emergency. These improvised groups seldom jelled into the efficient 
teams envisioned by the writers of Sixth Army’s training memo on 
flame thrower operations. 
Commanders had difficulties even when they tried to adhere to the 
established doctrine. During training, an assault party working as a 
unit might attain a high standard of proficiency. But in the interval 
27 (1) History, AFMIDPAC, II, an I-d, 66; an. II-c-i, 46-48. (2) See below, p. 587. 
28 Ltr, CmlO Alamo Forces to CmlO I Corps, 17 May 44, no sub. Cited in McKinney, Portable 
Flame Thrower Opns, p. 91. 
29 This doctrine was expressed in Sixth Army Training Memorandum No. 8, 1 October 1943, sub: 
Training in the Use of Flame Throwers, reprinted as Appendix 5 in McKinney, Portable Flame 
Thrower Operations, pages 258-60. 
30 (1) Memo, CmlO Alamo Force for ACofS G-3 Sixth Army, 8 Jun 44, no sub. Sixth Army 
353 Cml Warfare Tng. (2) Memo, CmlO Sixth Army for ACofS G-3 Sixth Army, 21 May 44, no 
sub. Cml Warfare Sixth Army 353 Flame Thrower Tng. FLAME THROWERS: MARIANAS TO OKINAWA 
569 
between the completion of training and the test of battle, the group 
normally was so broken up by promotions, transfers, and casualties 
that the maintenance of organizational integrity was impossible. To 
complicate the situation still more, the flame thrower was officially 
classified as a secondary weapon. This meant that with the close of the 
training period flame throwers were returned to unit supply. There- 
after, whenever an attacking force unexpectedly encountered a forti- 
fied defensive installation, an assault party could not be sent forward 
at once. Instead, flame thrower operators first had to go back to the 
unit supply point to pick up and fill their weapons. Such delays were 
often costly.31 
Chemical and other officers concerned with flame thrower operations 
recognized the inadequacies of Sixth Army flame thrower doctrine, 
especially as it applied to assault parties. As a remedy they suggested the 
establishment of permanent units whose principal mission would be 
attacks on fortifications and to whom the flame thrower would be as- 
signed as a primary weapon. Specifically, some recommended the con- 
version of chemical processing, 4.2-inch mortar, or antitank units into 
chemical flame thrower companies or platoons attached to regimental 
headquarters.32 Although flame thrower platoons of this type had al- 
ready been organized with success by regiments of the Americal Divi- 
sion on Bougainville, Sixth Army rejected this idea for its own units. 
It issued instead, on 22 June 1944, new instructions which emphasized 
the technical and tactical training of assault teams.33 Each infantry 
battalion and cavalry squadron was to form and maintain on a perma- 
nent basis at least one assault party, to include a leader, an assistant 
leader, 4 flame thrower operators, 2 demolitions men, 2 rocket launcher 
men, 2 BAR operators, and 4 riflemen. Trained to reduce fortified 
enemy positions, the assault party was to be held in reserve during com- 
bat until appropriate targets appeared. Company and battalion com- 
manders and executive officers were expected to familiarize themselves 
n (1) Ltr, CmlO ist Cav Div to CmlO Alamo Force, 6 Dec 43, no sub. Sixth Army, AG 300.6 
Misc Memos (ist Cav). (2) Ltr, CG I Corps to CG Sixth Army, 23 Jun 44, sub: Flame Throwers. 
CWS 314.7 Portable Flame Thrower File. (3) CmlO 41st Div to CmlO Alamo Force, 30 Jun 44, 
Preliminary Tech Rpt-Ltr, Rpt 2. Sixth Army 350.05 Biak. 
83 (1) Ltr, CmlO I Corps to CmlO Sixth Army, 13 Jun 44, no sub. CWS 314.7 Portable Flame 
Thrower File. (2) Ltr, CmlO XIV Corps to CmlO Sixth Army, 9 Jun 44, no sub. Sixth Army 
Reds, 353 Flame Thrower Tng. (j) Ltr, CG I Corps to CG Sixth Army, 23 Jun 44, sub: Flame 
Throwers. 
33 Sixth Army Tng Memo No. 18, 22 Jun 44, no sub. Reprinted as app. 9 in McKinney, Portable 
Flame Thrower Opns, pp. 273—75. 570 
THE CHEMICAL WARFARE SERVICE 
with the capabilities, limitations, and tactical employment of these 
assault parties, so that they would be committed with maximum ef- 
fectiveness.34 
Having resolved the question of tactical employment, Sixth Army 
turned to flame thrower servicing problems. It had always been diffi- 
cult to refill fuel tanks, replace empty gas cylinders, and test and repair 
flame throwers rapidly and efficiently near the front lines. But as long 
as demands for the weapon were infrequent, speedy servicing had been 
a minor consideration. The difficulty reached critical proportions only 
on Biak, where for the first time flame throwers were in almost daily 
use. 
As an interim measure, Lt. Col. Frank M. Arthur, 41st Division 
chemical officer, devised a plan for mounting two charging sets, each 
consisting of two hydrogen and five nitrogen cylinders and a fuel mix- 
ing kit, on jeeps and trailers. Teams of technicians from the 94th 
Chemical Composite Company operated these sets and serviced flame 
throwers down to the regimental level. Experience proved this system 
inadequate, since it was at the battalion and the company level that 
servicing was found to be most desirable.35 
Although Sixth Army agreed that the assignment of CWS personnel 
to lower combat units was the most likely solution to the servicing prob- 
lem, the limited number of chemical troops prevented such dispersal. 
In planning for the Leyte operation Sixth Army therefore decided that 
battalion and company personnel would service the flame throwers 
and perform first echelon maintenance. The task of second and third 
echelon maintenance and the preparation of proper fuel mixtures was 
assigned to chemical service platoons attached to corps and divisions. 
This arrangement was to work even more successfully on Luzon than 
it did on Leyte, primarily because of the presence on Luzon of a greater 
number of chemical service platoons.36 
Employment of the Portable Flame Thrower 
The return to the Philippines took place on 20 October with the as- 
sault on Leyte by Sixth Army’s X and XXIV Corps. The portable 
84 ibid. 
35CmlO 41st Inf Div to CmlO Alamo Force, jo Jun 44, Preliminary Tech Rpt-Ltr, Rpt No. 2. 
38 (1) Sixth U.S. Army Rpt of the Luzon Campaign, 9 Jan-30 Jun 45, III, Rpt of the Cml Warfare 
Officer, 87, 91. (2) CG Sixth Army to Distr, 10 Apr 45, Rpt Cml Warfare Activities During the 
Leyte Opn. FLAME THROWERS: MARIANAS TO OKINAWA 
571 
flame thrower saw action the first day and continued to play a signifi- 
cant role throughout the operation. In all, 229 weapons were on hand 
and, except for the 11 th Airborne, each of the divisions on Leyte used 
the flame thrower in combat.37 
The campaign demonstrated the validity of the new Sixth Army 
policy on tactical doctrine and servicing. Flame thrower operator 
casualties were light, malfunctions rare, and assault teams successful in 
the large majority of their missions.38 Japanese bunker, cave, and dug- 
out defenses on Leyte were elaborate and often ingenious. The success 
of the flame thrower pointed up the merits of the weapon and the train- 
ing and skill of the operators. 
On 29 October a battalion of the 17th Infantry, 7th Division, en- 
countered the strangest defensive position of the campaign. During the 
fight for Dagami, Company L came upon a cemetery south of the town 
which was overgrown with weeds and filled with stone crypts built 
above the ground. Encountering no resistance the leading elements of 
the company passed through the graveyard. The support platoon fol- 
lowed. When the platoon was halfway through, a headstone tilted 
back revealing four Japanese in the grave, armed with rifles and an 
American BAR. The enemy troops could not be dislodged until a 
flame thrower came forward and burned them out. The platoon broke 
up into small details and pushed its way through the rest of the ceme- 
tery, eliminating enemy fighters as they were located. Company K, 
following Company L, also received fire from the stone crypts. It 
became evident that the enemy had removed the bodies from their 
tombs, punched holes through the stone, and had thus established a 
series of small pillboxes. The company commander withdrew to a path 
in the cemetery and, lining up his men shoulder to shoulder, sent them 
through the cemetery behind a battery of six flame throwers. This 
effective, albeit unorthodox, formation burned its way through the 
macabre defenses, destroying about 30 of the enemy in the process.39 
Flame thrower assaults by other units on Leyte, though less bizarre, 
were no less successful. Regiments of the 96th Division, equipped with 
the new M2-2 flame thrower, found it useful in burning off kunai 
grass which hid Japanese emplacements. On one occasion a flame 
87 CG Sixth Army to Distr, Cml Warfare Activities During the Leyte Opn. 
88 Ibid. 
88 (1) 17th Inf, 1 Jan 45, Rpt of King II Opn. 7th Inf Div 307-Inf (i7)-o.j (15035). (2) 
Cannon, Leyte, The Return to the P-hilippines, pp. 143-44. 572 
THE CHEMICAL WARFARE SERVICE 
thrower was used at close quarters to repel an enemy attack on Ameri- 
can tanks.40 The division reported that Japanese troops were reluctant 
to stay in positions attacked by flame throwers and that the weapon 
was "a very important factor in overcoming the enemy’s inherent will 
to resist.” 41 
Reports from the ist Cavalry Division and the 3 2d Infantry Division 
substantiated this estimate of the portable flame thrower. In mid- 
December an element of the ist Cavalry Division encountered an en- 
emy emplacement on a narrow ridge in the Mount Minoro sector which 
commanded the approach along the mountain trail. Repulsed in sev- 
eral frontal attacks cavalrymen, supported by an assault team, circled 
wide and approached the position from the rear. The flame thrower 
sprayed the emplacement, and the defenders were cut down by small 
arms fire as they fled from their position.42 
On 15 December troops of the 126th Infantry, 3 2d Division, were 
halted in the Ormoc corridor by strong resistance from a pillbox and 
riflemen situated about twenty yards below the crest of a hill. After 
one attempt to overcome these defenses had failed, the regiment formed 
an assault party of fifteen riflemen, a bazooka team, and two flame 
thrower operators. The party crept around the enemy and opened fire 
simultaneously with grenades, bazookas, and flame throwers. One flame 
thrower operator directed his fire on the pillbox, while the other sprayed 
the rifle positions. The attacking riflemen found that the badly burned 
and demoralized Japanese offered little resistance.43 
Units on Leyte for the most part adhered closely to Sixth Army 
flame thrower doctrine. Those who did not soon came to grief. Some 
unit commanders, for example, continued to use but one flame thrower 
in an assault party. By thus failing to allow for possible misfires or 
casualties they endangered the success of their mission. Moreover, de- 
spite repeated warnings, weapons were occasionally committed to action 
without sufficient servicing. The 3 2d Division, which arrived on Leyte 
on 14 November 1944, unloaded its flame throwers and sent them di- 
rectly to the front line without a check. Misfires and malfunctions 
40 382c! RCT AAR, 7 Nov 44, King II (Leyte) Opns. 296-Inf (j82)-o.j (15465). 
41 96th Div AAR, n.d., King II, Oct-Dec 44, p. 85. 396-0.3 (11816). 
43 CG X Corps to CG Sixth Army, 13 Jan 45, Rpt of Cml Warfare Activities. 
43 Ltr, CG 32d Div to CG Sixth Army', 27 Feb 45, sub: Cml Warfare Activities in the Leyte Opn. 
319.1 Sixth Army Reds, Leyte. FLAME THROWERS: MARIANAS TO OKINAWA 
573 
resulted. Not until the weapons were called back and properly serviced 
did they function satisfactorily.44 
The Leyte Campaign was followed in January 1945 by the invasion 
of Luzon, the largest and most populous island in the Philippines. Al- 
though suitable flame thrower targets did not develop during the 9 
January landing at Lingayen Gulf, they began to appear a week later 
in I Corps sectors north and east of the beachhead. Three units of I 
Corps had particular success with the weapon. On the 26th a company 
of the 158th RCT, operating in mountainous terrain, encountered a 
series of long, curved, and defended tunnels which ran about thirty 
feet into a slope. An assault team moved toward the entrances under 
cover of smoke from white phosphorus grenades. The flame thrower 
operator fired a long burst of fuel into the opening of the first tunnel 
and flushed a number of burning Japanese, who were killed by small 
arms fire as they fled from the entrance. The other openings were 
treated in a like manner. Japanese bodies, victims of burns and suffoca- 
tion, were found along the smouldering corridors in the most remote 
parts of the tunnels.46 
Although other units reported similar success with the portable 
flame thrower, the weapon was not ideally suited for combat in many 
parts of Luzon. The 43d Division, for example, reported that in the 
open terrain which featured much of the island, flame thrower opera- 
tors found their approach much more hazardous than in the under- 
growth of the jungle. As a consequence, weapons with longer ranges 
had to be used in the reduction of enemy fortifications.47 
The flame thrower proved more effective against urban targets. The 
bitter battle for Manila marked the first extensive city fighting in the 
Southwest Pacific, and flame throwers, although untested in this kind of 
combat, saw much use in the street-to-street struggle. The weapon 
proved particularly valuable in routing the enemy from the intricate 
positions of the Intramuros, the old walled city of Manila.48 The port- 
able flame thrower also played a part in the fighting in the Philippine 
44 (i) Ibid. (2) CG X Corps to CG Sixth Army, 13 Jan 45, Rpt of Cml Warfare Activities. 
45 For a general account of the Luzon campaign, see Smith, Triumph in the Philippines. 
48 Cml Sec 158th RCT, Cml Intell Rpt, 28 Jan 45. Sixth Army Reds, Luzon Intell Rpts, 350.05. 
47 43d Div Hist Rpt, Luzon Campaign, 9 Jan-30 Jun 45, pp. 102-03. 43d Inf Div 343-33.4 
(12281), 
48 (t) AAR, Opns of the 37th Inf Div, Luzon, P.I., 1 Nov 44-30 Jun 45. 37th Inf Div 337-3 
(22871). (2) AAR, XIV Corps, M-i Opn (Luzon), pp. 130-32. XIV Corps 214-33.4 (3469). 
(3) See Smith, Triumph in the Philippines, chs. XV, XL 574 
THE CHEMICAL WARFARE SERVICE 
General Hospital, the Legislative Building, and the General Post Office 
—fighting which often turned into a series of fierce room-to-room and 
floor-to-floor battles. American troops blasted holes in walls with ex- 
plosives and then used flame throwers against the enemy in the next 
room. The 37th Division reported that it used over three hundred 
fillings during the Manila operation, or an average of more than four 
fillings for every flame weapon in the division.49 
The capture of Manila did not end the fighting on Luzon. There 
remained the task of clearing out the more remote mountainous regions 
of the island. In this type of action flame throwers were infrequently 
used. Units reported that the flame thrower was too heavy, making it 
difficult for one man to carry for prolonged periods, and, since few 
extra men were available to haul the weapons, they often were left 
behind. On several occasions I Corps resorted to Filipino carriers to 
transport the weapons from the service point to the line of departure, 
a distance of several thousand yards and at times over steep mountain 
trails. Under such conditions flame thrower employment was limited 
to reasonably accessible targets.50 
The policy of using flame thrower assault parties worked out suc- 
cessfully as long as infantry casualties were low. But when casualty 
rates mounted and every available man was wanted for the immediate 
needs of combat, it became impossible to hold these organized teams in 
permanent reserve. Commanders broke up these groups and sent their 
personnel to line companies. Missions for which assault parties had been 
organized fell to the rifle squad or platoon closest to the action.51 
Sixth Army, disturbed by this situation and desirous of avoiding 
similar difficulties in its forthcoming campaign on the Japanese main- 
land, changed its training doctrine somewhat. Representing the ac- 
cumulated experience of several years of combat, a new directive was 
issued which differed in only one significant respect from its predeces- 
sors—it rejected the concept of "organized assault parties in permanent 
reserve.” Instead, it stipulated that at least three squads from each rifle 
49 (1) CG XIV Corps to CG Sixth Army, i Jul 45, Rpt, Japanese Defense of Cities as Exemplified 
by the Battle of Manila, p. 21. Sixth Army G-2 files. (2) AAR, Opns of the 37th Inf Div Luzon, 
P.I., 1 Nov 44-30 Jun 4j. 
501 Corps, History of the Luzon Campaign, Philippine Islands, 1945, an B-i. I Corps 201-33.4 
(21700). 
61 (1) Hist Rpt, 38th Inf Div, Avengers of Bataan, 19 Jan-30 Jun 45, pp. 189-90. 38th Inf Div 
files 338-33.4 (17806). (2) Hist Rpt, A History of the 63d Inf Opns on Luzon, P.I., 9 Jan-30 Jun 
4j. 306 Inf (63)-o-3 (26302). FLAME THROWERS: MARIANAS TO OKINAWA 
575 
company be trained to use special assault weapons and that four men 
in each of these squads be flame thrower operators. These trained 
groups were to operate as normal rifle squads until a situation arose in 
which they were needed to perform their specialty.52 This change did 
not alter the basic concept of using flame throwers solely as component 
elements of an assault team. What was attempted was a further inte- 
gration of the flexible assault team within the organizational framework 
of the normal infantry unit. The war ended before this new system 
could be tested in combat. 
American forces began the Philippine campaign only partially 
equipped with the new M2-2 flame thrower. As these weapons became 
available, and as stocks of the M1A1 model were exhausted, the new 
weapons were issued to combat troops. ’3 Supplies of the M2—2 flame 
thrower never were sufficient to enable the MiATs to be completely 
withdrawn from service, but by V-J Day the newer type was in the 
hands of the majority of units operating in the Philippines. 
Those who were obliged to carry the M1A1 had to maintain a 
vigilant servicing policy, especially during the rainy season, for despite 
waterproofing the ignition system of the weapon was still unreliable. 
Those equipped with the M2-2 also had problems. The pressure regu- 
lator proved to be entirely unsatisfactory and before the end of the 
Philippine operations had been replaced by an entirely new type.54 
Flame thrower operators complained that the M2-2 could not maintain 
pressure long enough, a result of inherent deficiencies in the weapon as 
well as of poor maintenance procedures. Troops who filled the flame 
thrower forgot that heat was generated when a cylinder was charged 
and the subsequent cooling-off process could result in a drop of as much 
as 200 pounds in pressure. Conversely, pressure built up in the fuel 
tank when the tank was exposed to the direct rays of the sun, blowing 
out the safety discs in extreme cases.55 
52 Sixth Army Tng Memo No. jo, 6 Aug 45, reprinted as app. 12 in McKinney, Portable Flame 
Thrower Opns, pp. 281-83. 
58 (1) Ltr, CG USAFFE to CG’s Sixth Army, XIV Corps, and USASOS SWPA, 2 Sep 44, sub: 
Portable Flame Throwers. (2) Ltr, CG USAFFE to CG’s Sixth and Eighth Armies, 21 Sep 44, sub: 
Flame Throwers. Both in Sixth Army 470.71, Flame Throwers. 
64 Ltr, CmlO Sixth Army to CmlO I Corps et al., 6 Apr 45, sub: Regulators, Pressure Assembly 
B81-1-778, Grove Type. Sixth Army Reds, Cml Warfare 470.71. 
:’5 Ltr, CG Eighth Army to CofS War Dept, 3 Jan 46, sub: Employ of Flame Throwers in the 
Visaya Campaign, with incls. Eighth Army AG 470.71 (Far East). 
289-149 0-68—38 576 
THE CHEMICAL WARFARE SERVICE 
The Mechanized Flame Throiver 
Not counting a limited use of improvised models, the first employ- 
ment of the mechanized flame thrower in the Southwest Pacific took 
place in the Philippines. The XXIV Corps had been slated for the 
assault on Yap, in the Central Pacific Area, when the Joint Chiefs 
of Staff canceled the Yap operation and ordered General Mac Arthur 
and Admiral Nimitz to invade Leyte on 20 October 1944, two months 
to the day before the planned date of the operation. The XXIV Corps, 
which was now to take part in the assault on Leyte, had already em- 
barked for Yap, when this change took place. A terrain study of that 
island had recommended the utility of the mechanized flame thrower 
particularly during the assault, and ten Ronson flame throwers, nine 
on light tanks and one in an amphibious tractor, were in the convoy.56 
Not only was Leyte’s terrain far less suitable for tracked vehicles 
than that of Yap, but the invasion of Leyte took place during the 
rainy season, a circumstance which all but immobilized the mechanized 
vehicles. During the landing one resisting enemy bunker was quickly 
neutralized by the lone flame tractor, and during the first few days on 
Leyte the light tank flame throwers burned off the foliage from a num- 
ber of concealed enemy positions. But the fighting soon reached the 
mountains, which put the tanks at further disadvantage.57 
The Luzon fighting saw the arrival of both auxiliary and main arma- 
ment flame throwers from the zone of interior. The XIV Corps in- 
cluded a tank battalion, equipped with bow gun flame throwers, that 
was employed in the house-to-house fighting in Manila. In one instance 
a flame tank neutralized in a few minutes a barricaded building which 
had defied the infantry for two days. Twenty-five more bow gun 
flame throwers reached the Sixth Army in mid-April.58 
On 3 April 1945 the first and only main armament flame throwers 
from the United States to see action with Army troops overseas arrived 
on Luzon. These were four NDRC Q model (E7-7) flame throwers 
mounted in M5A1 light tanks and scheduled for service testing. The 
flame throwers and a service truck were assigned to the 13 th Armored 
68 (1) History, CWS AFMIDPAC, II, an. II-c-i, 21-22. (2) Cannon, Leyte: The Return to 
the Philippines, pp. 8-9. 
57 Tech Intell Rpt 271, 3 Feb 45, p. 2, cited in McKinney, Mechanized Flame Thrower Opns, p. 9J. 
68 (1) Rpt of CmlO Sixth Army, Luzon Campaign, 9 Jan-i Jul 45, pp. 13-ij. (2) McKinney, 
Portable Flame Thrower Opns, p. 24. (3) These bow gun auxiliary flame throwers were of the E4-5 
series, standardized as the M3-4-3 in 1945. FLAME THROWERS: MARIANAS TO OKINAWA 
577 
Group. 9 By this time the fighting on Luzon had reached its final 
stages, and the combat activity at Ipo Dam, Balete Pass, Villa Verde 
Trail, and Baguio took place in mountainous terrain, which made even 
the maneuvering of light tanks difficult. Moreover, the enemy artillery 
and mortar fire limited the activity of the thin-skinned In 
mid-April these main armament tanks were attached to I Corps for 
25 th Division operations at Balete Pass. Following a demonstration 
before officers of the division, the tanks, which were assigned to the 
27th Regiment, saw action almost at once. The objective was an enemy 
position located on the reverse slope of a ridge. One of the flame tanks 
moved along the narrow ridge which provided the only avenue of ap- 
proach and, when even with the target, turned down the slope and 
attempted to flame the Japanese. Thwarted by the limited maximum 
depression of the gun, the tankmen fired two quick bursts and with- 
drew.60 
Mechanized flame throwers experienced the usual difficulties of tank- 
infantry communications. Close contact between the two was par- 
ticularly important because of the limited visibility in the mountains 
where infanrymen often had to guide the tank to its objective. A 
power telephone on the rear deck of the tank was rigged to the turret, 
allowing the turret operator to communicate with the infantry but 
only at the cost of cutting off turret traversing power whenever he 
spoke.61 
The four main armament flame tanks advanced to the front lines 
several times during the next twelve days, but remained uncommitted. 
On 27 April the advance of Company K, 27th Infantry, was stalled 
for more than twenty-four hours by deadly machine gun and 47-mm. 
fire from enemy emplacements on the ridge’s forward slope and the 
valley beyond. Thick underbrush, which made friendly grenades in- 
effective, covered the entire defensive position, while fire from U.S. 
tanks and artillery was unable to reach the enemy’s defiladed position. 
In this situation the commanding officer of the flame detachment 
suggested the use of his tanks. The heavy underbrush made the ap- 
proach exceedingly difficult and a medium tank and then an armored 
59 (1) Ltr, CmlO Hq AFMIDPAC to Chief Info Br OCCWS, 10 Aug 45. (2) Rpt of CmlO 
Sixth Army, Luzon Campaign, pp. 13-14. 
60 USAFFE Bd Rpt No. 296, 17 May 45, Rpt of Opns of Flame Throwers E7-7 in Light Tanks 
MjAi. CWS 314.7 Mechanized Flame Thrower File. 
81 (1) Ibid. (2) Rpt of First Combat Mission Fired by E7-7 Flame Gun on M5A1 Light Tank, 
16 Apr 45. CWS 314.7 Mechanized Flame Thrower File. 578 
THE CHEMICAL WARFARE SERVICE 
bulldozer were pressed into service to clear a way. Two flame tanks 
were at the assembly point 200 to 300 yards from the principal target— 
a pillbox across a ravine at the foot of a large tree. Because of the nar- 
row approach, only one flame tank could advance at a time and, as 
there was no room for armored support by the medium tanks, two rifle 
platoons from Company K furnished protection. An infantryman, 
walking behind the tank, guided it over the crest of the ridge. When the 
enemy resisted with hand grenades, the bow gunner sprayed the sus- 
pected areas with machine gun fire. Approximately fifty yards from 
the target the tank ran on a log twelve inches in diameter. The driver 
carefully maneuvered the vehicle until it balanced just forward, thus 
permitting direct aim down toward the target. The first burst of 
flame flushed eight Japanese who were killed by supporting infantry- 
men. Several short bursts, fired across the target, caused the entire area 
to burn briskly for about five minutes. When the smoke cleared, an- 
other dugout became visible and received what was left of the flame 
fuel. The infantry advanced promptly, and by dusk Company K had 
taken its objective of Lone Tree Ridge, 200 yards beyond. There were 
53 enemy dead in the area, 6 dying in the flame attack and the rest 
killed by the infantry as they ran from cover. Friendly forces suffered 
no casualties.62 
The flame tanks had varying success in the subsequent fighting on 
Luzon. Sometimes they burned out the enemy; other times they were 
stymied by their vulnerability to the heavier Japanese weapons. There 
were few mechanical difficulties and, in spite of heavy rains, no ignition 
failures. Although infantrymen and tankers were enthusiastic about 
the flame tanks’ ability to rout the enemy from strong positions, these 
combat tests indicated that the thinly armored light tank was not a 
satisfactory mount for the flame thrower.63 
Iwo ]ima 
The V Amphibious Corps invaded Iwo Jima in February 1945. It 
was a costly campaign waged against an enemy entrenched in a super- 
lative defensive system. But as one Marine Corps historian has stated: 
82 (1) Ltr, CmlO 25th Inf Div to CmlO I Corps, 2 May 45, sub: Rpt on Use of Flame Thrower. 
CWS 314.7 Mechanized Flame Thrower File. (2) USAFFE Bd Rpt 296, 17 May 45. 
83 (1) USAFFE Bd Rpt 296, 17 May 45. (2) Ltr, CO ijth Armored Co to CG Sixth Army, 31 
May 45, sub: Combat Testing of Flame Throwers E7-7 in Light Tanks. Cited in McKinney, 
Mechanized Flame Thrower Opns, p. 149. FLAME THROWERS: MARIANAS TO OKINAWA 
579 
"Never before in the Pacific War had troops engaged in amphibious 
assault been able to see so clearly the immediate importance of the ob- 
jective.” 64 The tiny island would provide an intermediate base for 
fighter escorts for the bombers headed toward Japan. It would also be 
a haven for crippled 6-29’$ unable to make it to airfields in the Mari- 
anas. 
The preinvasion preparations of the three Marine divisions earmarked 
for Iwo included work with both the portable and the mechanized 
flame throwers. For the smaller weapon this preparation consisted 
mostly of integrating the flame throwers with the assault teams. It was 
3d Marine Division policy to have in each of its battalions an assault 
platoon made up of 6 men from each rifle company and 2 men from 
the battalion headquarters company. These 20 men, specially trained 
in the use of flame throwers, rocket launchers, and demolitions, were 
placed under the immediate control of the battalion commander. The 
commander in turn could attach the whole platoon, or a part of it, 
to his assault companies as the situation required.6'* Other Marine divi- 
sions devised similar platoons. Regiments of the 4th Marine Division 
organized 39-man platoons which were attached to each battalion land- 
ing team. Squads from these platoons were then assigned to companies 
for specific missions.66 
A plentiful supply of M2-2 portable flame throwers made possible 
these elaborate preparations—the battalion had 27 weapons or 243 for 
the division. A battalion usually assigned 1 flame thrower to each of its 
9 rifle platoons, 9 to the battalion supply section, and the remaining 9 
to the regimental service platoon. This arrangement insured the rapid 
replacement of lost or damaged weapons. It also made possible a reserve 
flame thrower for every one in use, a justifiable ratio because of the 
weapon’s vulnerability to enemy fire and the fact that it was difficult 
to service.67 
The 4th and 5 th Marine Divisions each received four Hawaiian- 
made main armament mechanized flame throwers. The development 
and procurement of these flame throwers was undertaken by the 
84 Bartley, Iwo Jima: Amphibious Epic, p. 2}. 
66 jd Marine Div Tng Order, No. 45-44, 16 Dec 44, Orgn for Employ of Flame Throwers, Rocket 
Launchers and Demolition in the Inf Bn, reprinted as app. 16 in McKinney, Portable Flame Thrower, 
pp. 304-06. 
88 CG 4th Marine Div to Comdt Marine Corps, 18 May 45, Opns Rpt, Iwo Jima, an. G (24th RCT). 
Marine Corps Archives. 
67 Ibid., an. C and an. F (23d RCT). 580 
THE CHEMICAL WARFARE SERVICE 
Neutralizing a Cave, Iwo Jima 
Chemical Section, Pacific Base Command, with help from the Navy, 
the Marine Corps, other Army elements, and civilians. Briefly, the 
flame unit, designated the POA CWS Hi, consisted of a Ronson flame 
thrower installed in a salvaged 7 5-mm. gun tube and mounted in a 
medium tank. It had a maximum effective range of about 100 yards 
(with thickened fuel), a capacity of nearly 300 gallons, and a firing 
time of 150 seconds.68 
Meanwhile, the Japanese defenders of Iwo Jima had been busy 
strengthening their defenses. Engineers well versed in fortifications 
came from Japan to supervise the work. They added a series of trenches 
and pillboxes to the natural caves which formed the backbone of the 
island’s defenses. Whenever possible these features were integrated 
68 (i) History, CWS AFMIDPAC vol. Ill, refs. 29, 45-47, and vol. IV, ans. II-c-2 and U-c-3. 
(2) Ltr Rpt, CO 3d Bn 21st Marines to CO 21st Marines 3d Marine Div, 11 Apr 45, sub; Action 
Rpt. Marine Corps Archives. FLAME THROWERS: MARIANAS TO OKINAWA 
581 
into a single network permitting troops to move from one place to 
another without exposure. Some of the strongpoints had multiple en- 
trances and apertures which were invulnerable to artillery fire. 
The Japanese did their work well. Not only did it take a month to 
capture this tiny island, but during the course of the operation marines 
actually saw very few of the enemy. The Japanese commander ex- 
pressly forbade banzai charges and other mass heroics, ordering his 
troops to stick to their positions to the last. Moreover, once a position 
had been silenced, it was by no means safe to assume that it would give 
no further trouble. The Japanese infiltrated at night, both above and 
below ground, and re-occupied defenses which previously had been 
neutralized.69 
On 19 February 1945 the 4th and 5th Marine Divisions landed on 
the south coast of Iwo Jima with the 3d Marine Division in reserve. 
From the beginning, portable flame throwers were a big help in cleaning 
out caves and pillboxes. A battalion in the 3d Division described the 
usual employment of the portable weapon. Covered by rifle and BAR 
fire, the flame operator moved to a firing position on the flank of a 
target. He then fired across the face of the cave or embrasure, advanc- 
ing quickly under his own fire until he could shoot directly into the 
opening. This tactic consistently silenced the position, which was then 
destroyed by demolition charges.70 
At the end of the campaign some units commented on the superiority 
of the M2-2 model over its M1A1 predecessor, particularly in regard 
to its ignition system. The familiar cry for greater range continued to 
be heard. As far as maintenance was concerned, experience varied— 
one battalion reported no difficulty or malfunctions, while others 
lamented the complete absence of spare parts.71 
Because enemy emplacements were difficult to approach, flame 
thrower operator casualties shot upward. The casualty rate on Iwo 
Jima was probably higher than in any other campaign in the Pacific. 
“ (i) "The Jap Holes In,” Intelligence Bulletin, III, No. 12 (August, 1945), 60-62. (2) McKinney, 
Portable Flame Thrower Opns, pp. 159-60. 
70 (1) 1st Bn 2ist Marines jd Marine Div AAR, Iwo Jima, 6 Apr 45. (2) CO 9th Marines to 
CG 3d Marine Div, AAR, Iwo Jima, 20 Apr 45. (j) Ltr Rpt, CG 4th Marine Div to Comdt Marine 
Corps, 18 Mar 45, sub: Opns Rpt, Iwo Jima, an. F (23d RCT) and an. G (ist Bn 24th RCT). All 
in Marine Corps Archives. 
71 Ltr Rpt, CG 4th Marine Div to Comdt Marine Corps, 18 Mar 45, sub: Opns Rpt, Iwo Jima, 19 
Feb—16 Mar, an. G (24th RCT), an. H (25th RCT), apps. Ill, IV. Marine Corps Archives. 582 
THE CHEMICAL WARFARE SERVICE 
One battalion reported 92-percent losses.72 As a result, there was a scar- 
city of competent and experienced operators, particularly as the battle 
reached its final stages. By way of correction, commanders recom- 
mended greater emphasis on flame thrower training and suggested that 
all enlisted men be given at least a working knowledge of the weapon.73 
The eight main armament flame throwers were lightly used during 
the first few days of the operation, largely because of the rough terrain. 
But within the week the marines became dependent upon flame tank 
support and constantly requested its use.74 Typical tactics were as fol- 
lows: the Marine infantrymen advanced, drawing fire from enemy 
positions; armored dozers then pushed ahead and, protected by tank 
and small arms fire, prepared a road to points within range of enemy 
positions; flame-throwing tanks moved forward and neutralized the 
enemy positions with flame and machine gun fire so that the infantry 
could advance; engineers followed closely behind with demolitions 
and destroyed the enemy caves and pillboxes to prevent their further 
use. This was a slow and laborious process, but any attempt on the 
part of the marines to continue the advance before bypassed positions 
had been destroyed resulted in heavy casualties, and no real gain could 
be made as long as the Japanese could fire on American troops from 
the rear.75 
The northern area of the island was featured by deep gullies, saw- 
toothed ridges, sheer cliffs, and eroded, boulder-strewn plateaus, and 
here the Japanese holed up for their last desperate stand. A liberal use 
of portable and mechanized flame throwers helped to eradicate this 
kind of resistance, although the formidable terrain made it hard to get 
the flame tanks within effective range of enemy targets. Generally, a 
tank dozer nudged out a few yards of roadway and moved aside. The 
flame tanks then advanced, sometimes two or three in rapid succession, 
and fired while regular tanks stood back and provided cover. This 
operation was repeated so often that on some days the 5 th Marine Tank 
72 Co 2d Bn to CO 21 s£ Marines, 12 Apr 45, Action Rpt, two Jima Opn, 3d Marine Div Rpt, Iwo 
Jima, incl D. Marine Corps Archives. 
73 (1) Ibid. (2) CO 21 st Marines to CG 3d Marine Div, 10 Apr 45, Action Rpt, Iwo Jima Opn. 
Marine Corps Archives. 
74 Armored Force Bd, Rpt of Conf on Mechanized Flame Thrower, E12—7R1, 23 Mar 45. CWS 
314.7 Mechanized Flame Thrower File. 
75 (i) 26th RCT jth Marine Div, AAR, Iwo Jima, an. Queen. (2) Bartley, Iwo Jima: Amphibious 
Epic, p. 187. FLAME THROWERS: MARIANAS TO OKINAWA 
583 
Battalion used between 5,000 and 10,000 gallons of thickened gasoline 
in its three or four flame tanks. The limited supply of flame tanks and 
tank dozers was a big handicap. And despite the intricate procedure 
outlined above the rugged terrain often defied all attempts at penetra- 
tion.76 
The fixed assignment of flame tanks to tank companies proved to be 
impracticable on Iwo. Placed in a battalion pool and stationed at the 
refueling area, flame tanks were made available by the battalion 
wherever needed. Tank companies or platoons sent requests through 
battalion, the infantry companies through liaison personnel. As soon 
as a flame thrower exhausted its fuel, it returned to the refill station 
for a new load and possibly a new assignment. In spite of all these 
measures, troop advances were frequently held up because all flame 
tanks were engaged elsewhere.77 
The 4th and 5 th Marine Divisions emphasized the greater effective- 
ness of the main armament type as opposed to the auxiliary flame 
thrower, of which the 4th Division had twenty-four. These divisions 
recommended more large capacity flame throwers and their incorpora- 
tion as organic equipment in all tank battalions.78 Although the 3d 
Marine Division entered the Iwo Jima operation without main arma- 
ment flame throwers, it was later on able to borrow some from the other 
divisions. In its opinion this type was better against enemy defenses 
than the auxiliary bow gun flame throwers with their shorter range 
and limited traverse.79 
After-action reports for the Iwo Jima operation attested to the value 
of the flame weapons. Of the two types, the mechanized flame thrower 
seemed to have come out on top. One battalion commander called it 
the "best single weapon of the operation.” 80 The V Amphibious Corps 
report referred to the mechanized weapon as the "only effective means” 
76 jth Marne Div, Action Rpt, Iwo Jima, 19 Feb-24 Mar 45, an. Love. Marine Corps Archives. 
77 (1) Ibid. (2) For a day-by-day log of flame thrower operations on Iwo Jima, see: (1) History, 
CWS AFMIDPAC, IV, an. II-c-3, 5-32, and McKinney, Mechanized Flame Thrower Opns, app. 4, 
pp. 286-300. 
78 Comments, 4th Marine Div, Iwo Jima, and 5th Marine Div, Iwo Jima Opns. History CWS 
AFMIDPAC, IV, an II-c-3, 27-32- 
79 3d Marine Div, AAR, Iwo Jima. History, CWS AFMIDPAC, vol. IV, an. II-c-3. 
s°Ct_28, Action Rpt, Iwo Jima Opn, an. Charlie (Opn), see VIII LT-328 Action Rpt, p. 40. 
Marine Corps Archives. 584 
THE CHEMICAL WARFARE SERVICE 
of reducing many of the concrete pillboxes and blockhouses encount- 
ered on the island.81 
Okinawa 
Okinawa was the last battle of the war and one of the hardest. Con- 
ducted by Tenth Army on the very doorstep of Japan, it was to involve 
more CWS equipment than any other Pacific campaign. Each of the 
four Army divisions of XXIV Corps had 141 portable flame throwers; 
each of the three Marine divisions of III Amphibious Corps had 243, 
the same number as had been taken to Iwo Jima. The 713th Tank 
Battalion, converted to a provisional flame thrower unit for the opera- 
tion, received a complement of 54 PDA main armament flame 
throwers.82 
All seven of the divisions to see action on Okinawa were combat 
tested and experienced in portable flame thrower operations. Employ- 
ment of the portable weapon closely paralleled that of earlier actions. 
Especially significant was the fighting in the southern portion of the 
island where enemy positions most closely resembled those which had 
been found on Iwo Jima.88 Despite these successes the portable flame 
thrower was overshadowed on Okinawa by its mechanized counterpart. 
The 713 th Tank Battalion changed over to a flame battalion in Ha- 
waii, and its own troops had assisted in the installation of the POA 
flame throwers in the medium tanks. Tank crews test fired and ad- 
justed their flame weapons, while others of the battalion received in- 
struction in mixing the fuel. A tentative table of organization and 
equipment was drawn up to reflect the differences inherent in a flame 
tank unit.84 
In general, each of the three companies of the 713th was attached 
to a standard tank battalion in support of a division. In turn, flame 
platoons joined tank companies, and sections joined standard platoons. 
81 Hq V Amphib Corps Landing Force, Iwo Jima, General Staff Sec Rpt, app. 3, G—} Rpt, pp. 
56—57. Marine Corps Archives. 
82 (1) Ltr, CG Tenth Army to CG USAFPOA, 6 Oct 44, sub: Tank Bn Flame Thrower Primary 
Armament, and 1st Ind, n.d. History, CWS AFMIDPAC, vol. Ill, ref. 51. (2) History CWS 
AFMIDPAC, vol. II, an. Il-b. 
88 XXIV Corps Action Rpt, Ryukyus, 1 Apr-30 Jun 45, ch. 7, p. 88. XXIV Corps File 224-0.3 
(48295). 
84 (1) This TOE is reproduced in History, CWS AFMIDPAC, volume III, Reference 53. (2) For a 
popular account of the growing pains of the 713 th and its combat experience, see Joseph Morschauser 
III, "Blowtorch Battalion,” Armor, LXIX, No. 2 (March-April, i960), pages 30-33. FLAME THROWERS: MARIANAS TO OKINAWA 
585 
Flame-Throwing Tank Attacks Enemy Infantrymen dug in along an old 
road on Okinawa. 
A tank platoon, including a section of three flame tanks, was placed 
in support of an infantry battalion. Flame tank deployment differed 
within these tank-infantry teams. Sometimes they operated alone with 
the infantry; sometimes they formed an integral part of the tank 
platoon; most frequently they waited at forward positions until called 
upon for particular missions by the tank platoon. When the latter 
tactic was used the flame tanks, supported by conventional tanks, 
operated ahead of the infantry until an area had been cleared for the 
latter’s advance. The troops followed closely, protecting the tanks 
and occupying the ground before the enemy could recover. This sup- 
port was extended to both Army and Marine divisions.85 
(i) 713th Tank Bn Armored Flame Thrower (Provisional) AAR Phase I-Nansei Shoto. This 
70-page report is reproduced in toto in McKinney, Mechanized Flame Thrower Opns, pp. 307-77. 
(2) Appleman, Burns, Gugeler, and Stevens, Okinawa, The Last Battle, p. 436. 586 
THE CHEMICAL WARFARE SERVICE 
Japanese troops defending Okinawa first faced mechanized flame 
throwers on D plus 18 (19 April 1945), when thirty-one flame tanks 
expended 3,500 gallons of napalm in the attack on a hill known as 
Rocky Crags. Conventional tanks led the assault, with flame tanks and 
infantry from the 7th Infantry Division close behind. The flame 
throwers continued in support throughout the 6-day battle for the 
Crags, which extended from the northwest and covered the approaches 
to Hill 178 and the high ground west to Tanabaru, the division objective. 
From 20 to 29 April 1945 other main armament flame throwers, in 
support of various units of the 7th, 27th, and 96th Infantry Divisions, 
continued to fire on rocky ridges, fortified caves, dugouts, pillboxes, 
machine gun nests, and villages. When the Japanese withdrew, they did 
so in many cases only because of the devastating effect of the flame. 
American forces appreciated the psychological value of flame; the 
commanding officer of one tank battalion reported that the infantry in 
many cases preferred to advance behind a flame tank rather than behind 
a standard one.86 
During May the fighting took place along the defensive position in 
the high ground north of Shuri, the ancient capital of Okinawa. For 
the first ten days flame tanks supported divisions in the battles for Kochi 
Ridge, Flattop, Dick Hills, Hill 60, and Nan Hill. Meanwhile, other 
flame tanks neutralized the network of caves on the reverse slopes of 
the Maeda escarpment. Still others supported the marines in the savage 
fire fight for Shuri Heights. The last ten days of May saw torrential 
rains turn the ground into a quagmire of soft clay that immobilized 
tanks and other vehicles, while the Japanese }2d Army executed a suc- 
cessful withdrawal to the high ground on the southern tip of Okinawa. 
Until the rains came, the flame tanks had used about 75,000 gallons of 
flame fuel. Only 28 of the 54 original main armaments flame tanks 
were still in operating condition. 
The weather cleared in June and on its ninth day a battle began 
in which mechanized flame throwers played a significant role. Facing 
the XXIV Corps on its 6,000-yard front was a strong rocky line run- 
ning from Yuza-Dake on the west to its eastern anchor, Hill 95. On 
this end vertical cliffs 250 to 300 feet high rose to a plateau topped by 
knobs, coral buttresses, and pinnacles. The 7th and 96th Infantry 
60 McKinney, Mechanized Flame Thrower Opns, p. 115. FLAME THROWERS: MARIANAS TO OKINAWA 
587 
Divisions made little progress in their first attack against the 11,000 
troops of the 3 2d Army which defended this line. 
On 10 June naval gunfire, artillery, and tanks pounded the cliffs, but 
the 7th Infantry Division advancing upon Hill 95 met accurate ma- 
chine gun and sniper fire from at least 500 Japanese deployed in depth 
in that section of the escarpment. Five flame tanks then maneuvered 
into position and burned off the cover to the approaches to Hill 95. 
Finally, two skeleton companies of infantry struggled to the top only 
to be pinned down by enemy fire from farther up the ridge. The com- 
manding officer and two men of Company C, 713th Tank Battalion, 
scaled the ridge to within thirty yards of the enemy position, pulling 
a 200-foot fire hose after them. From this point they burned out the 
defenders who were then slain by the infantry.87 
The next day the attack was resumed. At one point a section of tanks 
and flame tanks attacked a 500-yard frontage of the escarpment, driv- 
ing the Japanese from their position and cutting them down with ma- 
chine gun fire. Several days later two flame tanks came to the front 
lines and an extension hose was hauled up a 50-foot high section of the 
escarpment by means of a rope. The flame, hurled over the far edge, 
was blown by the wind into the caves on the reverse slope. By moving 
the hose from one flame tank to another the men destroyed ammuni- 
tion dumps, fortified positions, and a large number of Japanese troops. 
That same afternoon five flame throwers lined up at the base of the 
cliff and fired on caves in its face. The infantry pushed forward slowly 
and by 1600 hours Hill 95 was wholly in American hands. On the right 
flank the 17th Infantry advanced with support from flame tanks to 
capture the village of Azato before nightfall on 13 June 1945 and to 
tie in with units of the 3 2d Infantry. Although some mopping up re- 
mained to be done, the battle for Hill 95 was over, a typical struggle 
on Okinawa in which flame tanks helped turn the tide of battle.88 
Hill 89, the last major strongpoint of southern Okinawa and head- 
quarters of the Japanese Army, was attacked by the 7th Division 
on 20 June 1945. Here again was almost unbelievably difficult terrain 
cut up by natural caves, tunnels, and crevices. For weeks the area had 
been systematically pounded by naval gunfire, long-range artillery, 
rockets, and aerial bombing. A number of Japanese surrendered but 
many others fought to the bitter end. 
87 Ibid., p. 119. 
88 History, CWS AFMIDPAC, IV, an. II-c-j, 66-70. 588 
THE CHEMICAL WARFARE SERVICE 
Before the infantry attack the flame thrower and conventional tanks 
moved out to burn off the remainder of the foliage from Hill 89 and 
its approaches, which they left an ugly blackened mass of jagged coral. 
On the second day the flame-throwing tanks advanced in increasing 
numbers to pour thousands of gallons of burning fuel into caves and 
crevices. Then the infantry, supported by flame tanks, medium tanks, 
and artillery, successfully stormed the hill. 
Between 22 and 24 June the infantry continued to mop up the 
top of Hill 89. Flame thrower tanks, used in conjunction with loud- 
speaker tanks, encouraged soldiers and civilians to surrender. As a 
team, infantry and flame tanks killed over 100 Japanese and persuaded 
three times as many to surrender. From the top of the cliff flame tanks 
repeated the technique of firing toward the sea so that the wind could 
blow the flaming napalm back into caves too high to be reached from 
the beach. Concealed ammunition dumps blew up in loud explosions. 
Load after load of fuel was fired into a huge cavern in which over 
1,000 Japanese soldiers were thought to be hiding. Thus the remnants 
of the Japanese Army were destroyed, although some mopping 
up remained in the rest of the island. The battle for Okinawa was 
over.89 
During the Ryukyus Campaign the 713th Tank Battalion saw almost 
continuous action for seventy days and officially received credit for 
the death of 4,788 Japanese and the capture of 49. At the same time 
the battalion lost 7 men killed and no men wounded, injured, or 
missing. No one was killed inside a main armament flame tank as a 
result of enemy action, although 41 tanks were knocked out during 
the 630 flame tank sorties.90 
The XXIV Corps reported that the main armament flame tank was 
one of the most effective weapons used on Okinawa and that the 
Japanese fear of flame was greatly exploited by the flame tanks. The 
7th Infantry Division spoke of the outstanding success of the flame 
tanks.91 The periscope mounted flame thrower found little use in the 
fighting on Okinawa as the large-capacity flame tanks were available. 
89 Combat Opns Rpt, Ryukyus Campaign, 3 ad Inf Regt (7th Inf Div), n.d. Quoted in History, 
CWS AFMIDPAC, IV, an. II-c-3, 87-91. 
90 713th Tank Bn Armored Flame Thrower (Provisional) ARR Phase I—Nansei Shoto, 30 Jun 45. 
CWS 314.7 Mechanized Flame Thrower File. 
91 (1) XXIV Corps AAR, Ryukyus Campaign. History CWS AFMIDPAC, IV, an. II-c-3, 101. 
(2) 7th Inf Div Opns Rpt, Ryukyus Campaign. Both in History, CWS AFMIDPAC, IV, an. 
II-c-3, P- 97- FLAME THROWERS: MARIANAS TO OKINAWA 
589 
Tank crews developed a fear of the periscope type after the fuel con- 
tainer of one burst and ignited upon being struck by an enemy shell, 
burning the tank crew to death. This type of auxiliary flame thrower, 
therefore, was never fully tested in battle.92 Nor was the bow gun 
type, with which the III Amphibious Corps was equipped, put to much 
use, for main armament flame tanks of the 713th Tank Battalion were 
preferred by Marine as well as Army units.93 
The 713 th Tank Battalion suggested that, instead of having separate 
armored flame thrower battalions, commanders should replace the light 
tank company in each standard tank battalion with a flame thrower 
tank company or else that the latter be added to each battalion. This 
system, it was thought, would simplify administration and supply, 
since a flame thrower tank company was normally attached to standard 
tank battalions for operations. Some general mishandling of the 
weapon brought forth the recommendation that infantry commanders 
familiarize themselves with the use and limitations of armored flame 
throwers and learn how to co-ordinate these weapons with other sup- 
porting weapons and infantry.94 
The Tenth Army and the 713th Tank Battalion agreed that the 
7 5-mm. gun should be retained in flame tanks and mounted coaxially 
with the flame thrower, but that there should be no reduction in fuel 
capacity and no decrease in the effectiveness of the flame gun.95 
Preparations for the Invasion of Japan 
During the summer of 1945 United States planners were concerned 
with the problem of holding down casualties in the invasion of the 
main Japanese islands. Such battles as Tarawa, Iwo Jima, and Okinawa 
had illustrated how costly victory in the Pacific could be. The assault 
on Japan could be expected to exact a heavy toll of American lives 
unless some means were found for reducing casualties. One of these 
92Ltr, CmlO Tenth Army to CmlO CPBC, 9 Jun 45, sub: Mechanized Flame Throwers. History, 
CWS, AFMIDPAC, III, ref. 114, 3~4- 
"Each of the four Army tank battalions had eighteen periscope flame throwers; each Marine tank 
battalion carried sixteen E4R2-5RTS. Tenth Army Action Rpt, Ryukyus, 26 Mar—30 June 43, p. 4, 
“713th Tank Bn Armored Flame Thrower (Provisional) AAR ch. IX, in McKinney, Mechanized 
Flame Thrower Opns, app. 6, p. 374. 
96 Ltr, CofS Tenth Army to CG POA, 27 May 45, sub: Recommended Changes in Construction of 
POA CWS-Hi Mechanized Flame Thrower. Tenth Army 400 Cml. 590 
THE CHEMICAL WARFARE SERVICE 
was the full utilization of the main armament mechanized flame 
thrower. 
According to U.S. intelligence reports the terrain of the next 
objective, the island of Kyushu, was well suited to the type of defense 
which the Japanese had used so advantageously on Iwo Jima and Oki- 
nawa—caves, crevices, fortified reverse slopes, pillboxes, and inter- 
locking fields of fire from mutually supporting positions. Information 
gleaned from enemy prisoners taken on Okinawa revealed that many 
positions on Kyushu would be difficult or impossible to reduce with 
conventional weapons. But flame throwers, particularly mechanized 
flame throwers, could rout the Japanese from these otherwise impreg- 
nable fortifications with a minimum of casualties. Experimental use 
of extension hoses showed that positions hitherto inaccessible to armor 
could now be attacked. A large number of flame tanks might burn 
the Japanese from their well-prepared positions and keep the battle 
from dragging on interminably. 
On 1 July 1945 the Sixth Army, relieved of all combat operations 
in the Philippines, received directions to prepare four corps, consisting 
of twelve divisions, and two additional divisions as army troops, for 
an assault on southern Kyushu on i November 1945. 
For the Kyushu operation (Olympic) over twice as many main 
armament flame tanks per division were to be used as had been employed 
on Okinawa. A tank battalion was to be attached to each assault 
division and Sixth Army requested sufficient main armament flame 
throwers to equip one company in each of these battalions.96 At this 
time the Sixth Army understood that some 600 main armament flame 
throwers were being manufactured in the zone of interior, but that 
only 40 of these would be available in time for Olympic.97 Therefore, 
the plan called for the distribution of armored flame throwers in equal 
lots to each tank battalion as soon as the weapons arrived in the theater. 
Some 56 additional main armament flame throwers of the POA model 
were to be obtained from Hawaii.98 Thus a total of 96 main armament 
Ba (i) Rpt of Official Travel, Maull to CCWS, 28 Sep 45, sec. Ill, p. 21. CWS 314.7. (2) Each 
flame tank company was to have seventeen tanks. 
97 (1) TWX, ASF to CG WESPAC, 10 Jul 45. (2) Ltr, CG USAFPAC to CG Tenth Army, 4 Aug 
43, sub: Replacement Tank Mounted Flame Throwers for 713th Tank Bn. Hist CWS AFMIDPAC, 
vol. Ill, an. II-c-i, ref. 143. (3) Rpt of Official Travel, Maull to CCWS, 28 Sep 45, sec. Ill, p. 34. 
(4) The main armament model from the zone of interior was the E12—7R1. 
08 CM-IN 439, CG Fleet Marine Force Pacific to CINCPOA, 3 Jan 45, and Ltr, CmlO POA to 
G—3 POA, 4 Jan 45, sub: Flame Thrower Tanks for Fleet Marine Forces. Hist CWS AFMIDPAC, 
vol. Ill, an. II—c— 1, refs. 94-95. FLAME THROWERS; MARIANAS TO OKINAWA 
591 
flame throwers would be used in the initial assault. Since this number 
was considered insufficient to meet the expected needs for flame, the 
Sixth Army also decided to equip each medium tank platoon with two 
auxiliary flame throwers of the bow gun type. The conclusion of 
hostilities on i 5 August 1945 negated the need for these plans. 
In the trial of battle the Army and Marine Corps in the Pacific 
discovered that the value of the flame thrower lay in its ability to reach 
the enemy in his prepared positions, which were for the most part 
impervious to conventional weapons. The excessive infantry casualties 
ordinarily incurred in rooting the Japanese from their defenses were 
thereby reduced. It appears certain that had the war not come to a 
sudden close the mechanized flame thrower would have demonstrated 
its ability to cut these losses to an even greater degree—not to mention 
the casualties which would be inflicted upon the enemy. 
289-149 0-68—39 CHAPTER XVI 
The Flame Thrower in the War 
Against Germany 
The Portable Flame Thrower in the MTO 
Although the combat engineer battalion of each U.S. division in- 
vading Northwest Africa carried ashore twenty-four portable flame 
throwers, American troops did not use the weapon in that campaign. 
For one thing, no positive need existed for the portable flame thrower 
in Northwest Africa where much of the fighting was characterized 
by fast-moving tactics. As the enemy rarely made use of pillboxes or 
other fixed fortifications and house-to-house combat was negligible, 
the combat situations in which flame throwers were most valuable did 
not arise.1 
Even had conditions been favorable, it is unlikely that flame throwers 
would have been effectively employed. The campaign took place at a 
time when the tactical doctrine for the flame thrower was nascent and 
its supply and maintenance procedures but poorly conceived. If a 
situation favoring the use of the weapon had suddenly come up, the 
flame thrower, usually back with the organizational equipment, would 
not have been readily available.2 
The inherent technical deficiency of the portable flame thrower 
itself also stood in the way of effective employment. The models taken 
to Africa were the EiRi and the Mi, neither of which, it will be 
recalled, was capable of firing thickened fuel. Not until the spring 
and early summer of 1943 did the longer ranged M1A1 portable flame 
thrower become available in the theater as a replacement for the early 
models.3 And flame thrower training for the African landings, gen- 
1 Ltr, CmlO WTF to CCWS, 21 Dec 42, no sub. CWS 319.1/88. 
2 Ltr, CmlO WTF to CCWS, 2 Dec 42. CWS 320.2/100. 
3 Informal Routing Slip, Maj Perry M. Moore, CWS ExecO NATOUSA, to Engr, G—4 AG, 14 
Nov 43, sub: Flame Throwers. 470.71—Apparatus for Using. FLAME THROWERS IN THE WAR AGAINST GERMANY 
593 
erally superficial, was, nonetheless, extensive enough to reveal the 
deficiencies of the weapon. Although it is difficult to assess the im- 
portance of any one of these conditions there can be no doubt about 
their cumulative effect.4 
The napalm-firing MiAi arrived in the theater in time for the 
preparations which were being conducted for the invasion of Sicily. 
Although demonstrations revealed a weapon with a range of forty or 
fifty yards, some Seventh Army units remained unconvinced of any 
appreciable improvement in the new model. The engineer battalions 
of two divisions returned their flame throwers to the base depot before 
embarking for Sicily.5 
There was only one recorded use of the portable flame thrower by 
American troops in Sicily. In an action reminiscent of the burning 
of the Philistine grain fields by Samson, ist Division engineers burned 
a Sicilian wheat field in which enemy infantry had taken position.6 
American troops in Sicily soon learned that white phosphorus and high 
explosives could neutralize the fortifications encountered on the island; 
flame throwers were not used again throughout the operations.7 At a 
2-day critique after the fighting, division chemical officers expressed 
doubts about the value of the flame thrower and recommended it be 
declared an item of Class IV supply, or, in other words, be relegated 
to the classification of a special-purpose weapon.8 
Flame thrower training given to Fifth Army units before the Salerno 
landings consisted of demonstrations and enough technical training 
to familiarize operators with the weapon. Some units did not even 
consider it worthwhile to exchange the Mi flame thrower for the 
newly arrived MiAi, although Salerno-bound engineer battalions did 
carry their full quota of the weapon.9 The series of extremely strong 
German defensive positions across the Italian peninsula aroused enough 
* McKinney, Portable Flame Thrower Opns, p. 181. 
6 (i) Status of Equip Rpt, MTOUSA, 30 Jun 43. (2) McKinney, Portable Flame Thrower Opns, 
p. 182. (3) 1st Ind, 3 Dec 43, to Ltr, CmlO ETOUSA to CmlO AFHQ, 18 Nov 43, sub; Use 
of Flame Throwers in Sicilian Campaign. Seventh Army Cml Sec Reds, 470.71, No. i, Jan-Feb 43. 
(4) Status of Class II, IV, and V Supplies, MTOUSA, 31 Jul 43. 
8 CmlO Seventh Army, Rpt of Cml Warfare Opns, Opn Husky, n.d. MTOUSA Cml Reds, 370, 
Employ, Opns, and Mvmt of Troops, 1942-44. 
1 McKinney, Portable Flame Thrower Opns, p. 183. 
8 Conf of Army, Corps, and Div CmlO’s and CO’s of all CWS Units in the Seventh Army, 28, 29 
Aug 43. 
9 Informal Routing Slip, Cml NATOUSA to Engr G~4, 14 Nov 43, sub: Flame Throwers. MTOUSA 
Cml Sec Reds, 470.71—Apparatus for Using. 594 
THE CHEMICAL WARFARE SERVICE 
interest in the portable flame thrower to cause VI Corps in December 
1943 to ask the chemical officer of the Fifth Army, for a 2-day school 
to familiarize troops with the operation and tactical employment of 
the weapon.10 
Units engaged in the difficult fighting at Cassino and at Anzio used 
the weapon with some success against fixed fortifications, particularly 
when other means had failed to overcome this type of defense.11 An 
experience of the 85 th division in the Gustav Line helps to illustrate 
this use. In May 1944 a platoon of Company G, 339th Infantry, had 
been held up for two days near Tremensuoli by a series of enemy pill- 
boxes which stretched across a dominant ridge two hundred yards 
away. Finally, Lt. Robert T. Waugh, the platoon leader, secured a 
portable flame thrower from regimental headquarters. Under the 
covering fire of small arms and automatic weapons, Sgt. Fred Juliano, 
an assistant squad leader, crawled with the flame thrower to within 
fifteen yards of the key pillbox. Three short bursts killed all of its 
defenders, and the platoon swiftly overcame the other positions with 
the help of white phosphorus grenades.12 
The portable flame thrower, for various reasons, saw little use in 
Italy.15 To begin with, the reputation of the early models was not 
such as to commend the weapon to combat commanders, and there 
had been little experience of any kind in Africa and Sicily to recom- 
mend its use in Italy. Moreover, there was hardly any need for the 
weapon in Italy. The Italian terrain and climate contributed additional 
problems for the employment of the flame throwers. The rugged 
mountains encountered throughout most of Italy made it difficult, if 
not impossible, to man-carry the cumbersome weapon to the front line 
10 (i) Daily Journal Fifth Army Cml Sec, 21 Dec 43. (2) Other flame thrower training stemmed 
from special situations. Before the invasion of southern France, for example, the }6th Division 
Chemical Section trained over 200 men in portable flame thrower operations. There is no evidence 
that any of these weapons were used against the enemy, who had put up but token opposition. Ltr, 
Col Claude J. Merrill, formerly CmlO }6tb Div, to Brig Gen James A. Norrell, Chief of Mil History, 
5 Jan 61. 
11 A Mil Encyclopedia Based on Opns in the Italian Campaigns, 1943-45 (hereafter cited as A Mil 
Encyclopedia), prepared by G-3 Sec Hq 15th Army Group, sec. 23, p. 187. 
12 (i) Memo, Lt Col Houston C. Joyner, former CmlO 85th Div, for Hist Off, 2 Aug 48. (2) 
Sergeant Juliano received the Distinguished Service Cross for his part in the action; Lieutenant Waugh 
that day began a series of heroic exploits for which he was awarded the Medal of Honor. 
13 (1) Rpt 359, AGE Bd MTOUSA, 27 Mar 45, sub: Current Questions Regarding Inf Opns. 
Theater Cml Sec Files NATO-MTO, 319.1 AGE Rpts. (2) A Mil Encyclopedia, p. 529. (3) 
OCCWS, Final Rpt, CWS Spare Parts Team in MTO and ETO, p. 43. FLAME THROWERS IN THE WAR AGAINST GERMANY 
595 
or to keep it apace of the advancing troops once it got there.14 The 
cold, wet climate had almost the same deleterious effect as the heat 
and moisture of the tropics; and, despite numerous reports of misfires, 
no means was ever devised to waterproof the electrical ignition system 
as had been done in the Southwest Pacific.15 
Probably because of the limited opportunity for employing the 
flame thrower, matters of doctrine and training were somewhat neg- 
lected. Although in April 1944 the Fifth Army published a training 
memorandum 16 which recommended an integrated 8-man team for 
the deployment of the portable flame thrower (illustrated with ex- 
amples of successful use on Guadalcanal), there seemed to be as many 
schemes for employing the weapon as there were divisions. A survey 
conducted early in 1945 concluded that there was no theater standard 
for organizing and equipping flame thrower teams.17 
Assault teams, usually armed with rifles, automatic rifles, bazookas, 
and antitank grenades, saw a great deal of action against dugouts and 
fortified houses. Flame throwers were seldom added to this armament 
because a bazooka shell or antitank grenade fired through a window 
or door usually sufficed. Pillbox-type fortifications impervious to more 
conventional weapons, however, were considered appropriate targets 
for flame throwers.18 
Closely related to the problem of doctrine was the status of flame 
thrower training. Despite several 2-day flame thrower schools spon- 
sored by Fifth Army, the lack of adequately trained operators remained 
a problem throughout the campaign. These shortcomings in doctrine 
and training occasionally added up to situations wherein untrained 
operators received poor support from improperly oriented assault teams 
with the consequent failure of the mission.19 
14 McKinney, Portable Flame Thrower Opns, pp. 186-87, I9°* 
“ (1) Ibid., (2) Fifth Army Cml Sec, Hist Rpt, 1 Mar 43. 
18 Fifth Army Tng Memo No. 8, 5 Apr 44, sub: Technique and Tactical Use of Flame Thrower, 
reprinted as app. 18, McKinney, Portable Flame Thrower Opns, pp. 312-16. 
17Rpt 283, AGF BD MTOUSA, 31 Jan 45, sub: CWS. This report and Report 359, cited above, 
included the policies for flame thrower teams promulgated by IV Corps, the 34th, 88th, and 92d 
Divisions, and the 1st Armored Division. All differed. 
18 A Mil Encyclopedia, p. 187. 
19 Ibid., pp. 189, 329. 596 
THE CHEMICAL WARFARE SERVICE 
The Portable Flame Thrower in the ETO 
Normandy 
Pre-Normandy preparations included more effort directed toward 
the training of flame thrower operators and the preparation of tactical 
and logistical procedures for the weapon than had been attempted 
before the invasion of Italy. In October 1943 Headquarters, ETOUSA, 
published detailed instructions for all units under its control in the 
tactical use of the portable flame thrower. This training memorandum 
suggested the assignment of three men—operator, assistant operator, 
and refill carrier—to each weapon and urged that twice that number 
be trained. This document stressed the tactical necessity of covering 
the flame thrower operator with small arms and smoke, but it did not 
specify the exact composition of the assault party.20 
As the date of the invasion approached, ETOUSA increased the 
tempo of its flame thrower preparations. New instructions, in the 
form of another training memorandum, did little more than reiterate 
the memo which it superseded.21 Of more help was the allocation of 
150 portable flame throwers to each of the assault divisions of First 
Army,22 a number far in excess of the 24 flame throwers which the 
theater suggested for an infantry division in normal operations.23 
The assignment of such a large number of flame throwers to the 
assault regiments naturally increased the problem of training. In 
general, the status of flame thrower training within the divisions in 
England was poor. Engineer battalions had received limited doses, but 
infantry division troops, even of the veteran units, were generally 
unfamiliar with both the technical and tactical aspects of the weapon. 
Divisions of the First U.S. Army conducted schools in an effort to 
correct this deficiency. Third Army units, slated for commitment 
later than those of First Army, suffered from a lack of flame throwers 
20 ETOUSA, Tng Memo No. 33, 6 Oct 43, sub: Portable Flame Thrower, sec. II, reprinted as app. 
19 in McKinney, Portable Flame Thrower Opns. 
21ETOUSA, Tng Memo No. 10, 5 Apr 44, sub: Portable Flame Thrower, sec. I, reprinted as app. 20 
in McKinney, Portable Flame Thrower Opns. 
22 FUSA Rpt of Opns, 20 Oct 43-1 Aug 44, bk. VII, p. 190. 
23 (1) Ltr, CmlO SOS ETO to CmlO FUSAG, 5 Jun 44, sub: Flame Throwers. 12th Army Group 
Reds, 470.71—Apparatus. (2) The theater made this recommendation after the portable flame 
thrower became an item of Class IV issue. VD Cir No. 204, 23 May 44. Other support bases of 
issue were: airborne division, ij; armored division, 18; Ranger battalion, 6; and engineer combat 
battalion, 24. FLAME THROWERS IN THE WAR AGAINST GERMANY 
597 
(in August 1944 Third Army’s supply of the weapon was described 
as "practically nil”) ,24 and a consequent lack of trained operators.25 
These preparations went for nought; there is no record that the 
flame thrower was used during the Normandy landings. Many of the 
weapons were lost in the rough surf, and infantrymen perforce aban- 
doned others in the struggle to get across the beaches in the face of 
heavy enemy fire. The 14th Chemical Maintenance Company, which 
landed in Normandy at the end of June, repaired and returned to 
depot stock over 100 portable flame throwers which it had picked up 
from salvage piles on the beaches. In any event, German positions 
encountered on the beachheads usually were not suitable flame thrower 
targets.26 
As the initial weeks of the campaign wore on and units moved 
inland, some flame thrower targets did appear. Cities and towns pre- 
sented obstacles which occasionally called for flame thrower action, 
although the 1st and 2d Infantry Divisions reported that the weapon 
was not particularly useful in ordinary street fighting. The V Corps 
stated that the limited range of the portable flame thrower restricted 
its usefulness in fighting in the hedgerows, that ubiquitous feature of 
the Normandy terrain.27 
Brittany 
The flame thrower was used more in the August and September 
fighting on the Brittany peninsula, particularly in and around the port 
of Brest, than at any other time in France. On one occasion the 1st 
Battalion, 121st Infantry, 8 th Division, was held up near Brest by a 
series of three concrete positions within a two-acre area. Although 
artillery had failed to reduce the strongpoint, it had left many large 
shell holes in the vicinity. Using the cover afforded by these craters 
24 Ltr, CG 12th Army Group to CG COMZ ETOUSA, 16 Aug 44, sub: Request for Flame Throwers. 
12th Army Group Reds, 470.71—Apparatus. 
28 (1) McKinney, Portable Flame Thrower Opns, pp. 192-93. (2) Interv, Hist Off with Col 
W. H. Greene, 12 Jul 48. During World War II Colonel Greene served successively as chemical 
officer of the 26th Division and the XX Corps. 
28 (i) McKinney, Portable Flame Thrower Opns, pp. 195-96. (2) FUSA Rpt of Opns, 20 Oct 43— 
1 Aug 44, bk. VII, p. 197. (3) Informal comments of CWSO 21 Jun 44. CWS 317.4, Portable 
Flame Thrower. 
27 Observer’s Rpt 1, Flame Thrower E4-5, Incl to Ltr, CmlO 12th Army Group to Comdt Cml 
Warfare School, 14 Nov 44, sub: Flame Thrower Rpts. This report consists of a series of replies 
by First Army units to a questionnaire on flame thrower operations submitted by Colonel St. John, 
Chemical Adviser, G-3, SHAEF. 598 
THE CHEMICAL WARFARE SERVICE 
two flame thrower operators, covered by the small arms fire of ten 
men, were able to crawl within thirty yards of the fortifications. A 
short burst of flame directed at each pillbox in turn resulted in the 
hasty surrender of the occupants. The psychological effect of the 
flame throwers was the determining factor in the success of the 
operation. Not one enemy soldier had been burned.28 
A platoon of the 116th Infantry, 29th Division, had a similar ex- 
perience in the same area. Halted by opposition from a pillbox, the 
men brought up a portable flame thrower to help cope with the 
situation. Although the fuel tanks were only partly filled, the operator 
fired three good bursts into the doorways. The five occupants imme- 
diately panicked but were prevented from coming out by the intense 
heat engulfing the strongpoint. It was a full ten minutes before the 
fire and heat subsided enough to allow the enemy to emerge, hands in 
the air. None of them was seriously burned but their nerves were 
shattered; as the bewildered men passed the flame thrower they shook 
their heads.29 
The introduction of the flame thrower did not always spell success. 
On 27 August 1944, 38th Infantry, 2d Division, encountered 
strong enemy positions which dominated an area near Brest. The 
majority of the strongpoints consisted of heavy reinforced concrete 
pillboxes, well protected, as German defensive positions usually were, 
by bands of interlocking fire. The positions seemed impervious to 
artillery fire. In this extremity three flame thrower teams came for- 
ward, each consisting of an operator, assistant operator, and two BAR 
men. The first team reached its contact point only to have the 
operator killed and the fuel tanks of the weapon punctured by enemy 
machine gun fire. The second team reached its firing position but had 
to withdraw when it found that the weapon’s hydrogen line had been 
torn loose. The third team alone accomplished its mission, eliminating 
one of the enemy positions.30 
Lest it be thought that these examples were typical of the fighting 
in France, the 8 th Division action described was one of three times the 
unit used the flame thrower between 6 June and 25 September 1944 
CG 8th Div to CG VIII Corps, 2} Sep 44, sub: Employ of Vehicular and Portable Flame 
Throwers. CWS 314.7 Portable Flame Thrower. 
CmlO 29th Div to CmlO Ninth Army, 21 Oct 44, sub; AAR on Portable Flame Thrower. 
T-17, B, Portable Flame Thrower (Tactical) 9th Army. 
30 Ltr, CmlO 2d Div to CmlO VIII Corps, 25 Sep 44, sub: Use of Flame Throwers During Brest 
Campaign. T-17, ®> Portable Flame Thrower (Tactical) 9th Army. FLAME THROWERS IN THE WAR AGAINST GERMANY 
599 
and the id Division employment was one of two such instances during 
the entire Brest campaign.31 
The Siegfried Line 
Fast-moving situations did not favor the employment of the flame 
thrower, and this was the type of operations experienced by the Allied 
forces once they broke out of Normandy. Matters of logistics, terrain, 
and stiffening enemy resistance caused this advance to grind to a halt 
in September 1944. In large part, the stiffening German resistance 
resulted from the strength of the Siegfried Line, or West Wall, posi- 
tions which stretched from the southeastern corner of the Netherlands 
to the Swiss frontier. New techniques and special weapons had to be 
employed against this maze of dragon tooth obstructions and the 
intricate complex of concrete and steel and pillbox fortifications. One 
of these special weapons was the portable flame thrower. 
The V Corps, in anticipation of the assault on the Siegfried Line 
fortifications, investigated the availability of portable flame throwers 
and found that Army depots had enough to provide each division of 
the corps with fifty weapons.32 In XIX Corps, the 30th Division 
chemical officer secured ninety-nine M1A1 portable flame throwers 
for the same purpose. He also found that the men who had been 
trained as operators while the division was still in England were no 
longer available. Consequently, the division’s chemical section and 
engineer battalion trained enough infantrymen to operate the twenty- 
five flame throwers allotted to each of the regiments.33 Some divisions 
conducted training in assault tactics before moving against the Siegfried 
Line. This training usually included the employment of the portable 
flame thrower. Third Army’s XX Corps realistically used captured 
Maginot Line fortifications to work out techniques for overcoming 
the German defenses.34 
The actual technique employed to neutralize strongpoints by means 
of flame throwers varied somewhat among the divisions, but in most 
cases flame thrower teams went to work after the infantry had ad- 
w (i)lbid. (a) Ltr, CG 8th Div to CG VIII Corps, 23 Sep 44, sub: Employ of Vehicular and 
Portable Flame Throwers. CWS 314.7 Portable Flame Thrower. 
82 V Corps AAR Sep 44. 207.03 V Corps. 
33 CmlO 30th Div, 30 Oct 44, Rpt on Use of Flame Throwers on the Siegfried Line. T—17, B, 
Portable Flame Thrower (Tactical) 9th Army. 
84 Greene Interv, 1 Dec 47. 600 
THE CHEMICAL WARFARE SERVICE 
Men Training With Flame Thrower against a captured German pillbox. 
vanced to within about twenty-five yards of its objective. At this 
point the flame thrower operator, accompanied by men armed with 
bazookas, white phosphorus grenades, and pole charges, and supported 
by small arms fire, made the final assault against the fortified position. 
The flame thrower was capable of penetrating certain embrasures or 
causing the enemy to close gun ports and other openings, thus allowing 
the placement of explosives at the vulnerable points of the fortifica- 
tions.35 
The 2 id Infantry, 4th Division, found an early opportunity to use 
the flame thrower in operations against West Wall defenses in the 
area of the Schnee Eifel, just within the German border. During the 
third week in September, the regiments encountered a series of pill- 
boxes at 100-yard intervals which were either unmanned or had poor 
35 (1) Rpt on Breaching of the Siegfried Line, prepared by Engr Sec, XVIII Corps (Airborne), 28 
Jan 4s, p. 3- Documents of the Siegfried Line, ORB, First Army. (2) Rpt, Lt Thomas W. Leland, 
CWS, to CmlO First Army, n.d., no sub. Misc Rpts E4-5R1 Flame Thrower, 12th Army Group. 
This report served as an unofficial manual on flame thrower operations for First Army units. FLAME THROWERS IN THE WAR AGAINST GERMANY 
601 
fields of fire. Flame thrower operators moved to within effective range 
without too much difficulty. Despite these circumstances, the division 
reported only one successful flame thrower operation; other attempts 
failed because of weapon malfunction.36 
One regiment of the 9th Division reported that flame throwers were 
of little value against the Siegfried Line positions; and the 30th Division 
chemical officer stated in November 1944 that he had heard of only 
one successful use of the flame thrower. The 117th Infantry, 30th 
Division, reported that the portable weapons were of no value against 
large bunkers, a judgment affirmed by the engineer battalion of the 
9th Division. The engineers of VII Corps stated that although they 
were equipped with flame throwers and pole charges, these weapons 
were unnecessary once the neutralizing fire of armored vehicles was 
brought upon the target. In October 1944 the 1st Division reported 
that while extra pole charges and flame throwers were kept accessible 
at all times, the flame thrower was too heavy for use by assault troops.37 
On the other hand, there were some notable examples of the success- 
ful use of portable flame throwers against Siegfried Line fortifications. 
Despite the adverse comment on the weapon made by the 1st Division, 
the 26th Infantry reported on 12 October that Company L had 
"cleaned up” three pillboxes, after they had "worked on them with 
flame throwers.” 38 The same regiment reported further successes with 
the portable flame thrower in February 1945. On the third of the 
month the regiment reported that it had "cleaned up a pillbox with 
flame throwers,” flushing out twenty men and three officers in the 
process. During the next several days the 26th Infantry went on to 
neutralize a number of additional pillboxes guarding the high ground 
near Hollerath, Germany, in operations which featured the successful 
use of portable flame throwers.39 
** (i) Combat Intervs, 4th Inf Div, Schnee Eifel Ridge, 14-20 Sep 44. HRS-CI 33. (2) Charles 
B. MacDonald describes the Schnee Eifel engagement in The Siegfried Line Campaign, UNITED 
STATES ARMY IN WORLD WAR II (Washington, 1963). 
m (1) Immediate Rpt 61 (Combat Observations), 12th Army Group, 22 Sep 44. 99/120-0.4, 
12th Army Group, Nov 44. (2) Ltr, S-3 2d Bn 117th Inf to ACofS G—2 30th Inf Div, 14 Oct 44, 
sub: Documentation of Siegfried Line. First Army Reds, Documents of Siefried Line. (3) Memo, 
S-3 15th Engr Combat Bn for ACofS G-3 9th Inf Div, 23 Oct 44, sub: Assault Methods Employed 
by Engrs on Siegfried Line. First Army Reds, Documents of Siegfried Line. (4) Engr Sec XVIII 
Corps (Airborne) Rpt on Breaching of the Siegfried Line, 28 Jan 45. (5) 1st Inf Div G—3 Rpt of 
Opns, 1-31 Oct 44. 301-3 (22345) G-3 Opns Rpt, European Campaign, 1st Inf Div, Oct 44. 
88 1 st Inf Div G-3 Rpt of Opns, 1-31 Oct 44. 
89 26th Inf AAR, Feb 45. 301-Inf (i6)-o.3 Opns Rpt 26th Inf Regt 1st Inf Div (European 
Campaign). 602 
THE CHEMICAL WARFARE SERVICE 
In a February action in the Seventh Army sector near Bitche, Com- 
pany B, 399th Infantry, 100th Division, used a flame thrower team 
as the nucleus of a combination raiding-assault party. This party, led 
by Lt. Harry G. Flanagan, consisted of the flame thrower operator and 
assistant, two automatic rifle teams, two men armed with Mi5 white 
phosphorus grenades, and riflemen. Its target was a German outpost 
in a Maginot Line blockhouse. Although enemy sentries detected the 
approach of the patrol and fired flares in an attempt to pinpoint it, 
the flame thrower operator, Cpl. Boyd R. Pike, was able to crawl to a 
position within fifteen yards of the open rear door of the emplacement. 
From this vantage point Pike fired three bursts at the enemy position, 
killing a sentry standing in the doorway. Enemy machine guns opened 
up at once on the patrol. Pike attempted to fire on the source of some 
of the enemy opposition, the steel turret surmounting the blockhouse, 
but he ran out of fuel and withdrew. The grenadiers lobbed their white 
phosphorus grenades against the blockhouse before retiring. On the 
way back Pike, exhausted by the ordeal, abandoned his flame thrower. 
All patrol members returned without injury, and even the flame 
thrower was eventually recovered.40 
Actually, the number of fortifications against which flame throwers 
were used was few as compared to the total number assaulted. The 
incident just cited represented the first use of a portable flame thrower 
which came to the attention of the chemical officer of Seventh Army. 
By way of explanation for the limited use of the weapon consider the 
number of portable flame throwers carried by the units with Seventh 
Army in February 1945: of the 8 U.S. infantry divisions so assigned, 
2 had no flame throwers on hand whatsoever, 1 division had 4, 3 
divisions had 6, and 2 others had totals of 12 and 34.41 It should be 
remembered that at the beginning of operations the theater had recom- 
mended a complement of 24 portable flame throwers. 
Evaluation 
Portable flame throwers contributed as little to the success of opera- 
tions in the European theater as they had in the Mediterranean. The 
weapon was infrequently used, and not always successfully. Some 
40 (i) Ltr, CG 100th Div to CG Seventh Army, 14 Feb 45, sub: Use of Flame Thrower With 
Raiding Party. 470.71-3 AG Reds, Sixth Army Group. (2) Seventh Army Cml Sec, Hist Rpt, 
Feb 45. CWS 314.7. 
41IOM, CmlO to G-4 Seventh Army, 22 Feb 45, sub: M2-2 Portable Flame Throwers. FLAME THROWERS IN THE WAR AGAINST GERMANY 
603 
infantry divisions never used the flame thrower; few considered it 
valuable. Reasons for this situation, which was in decided contrast 
to the successful role played by the portable flame thrower in the 
Pacific campaigns, are not difficult to find. 
Foremost was the fact that the fighting in Europe never developed 
the need for the portable flame thrower, particularly when compared 
with operations in the Pacific. The latter theaters saw a fanatical enemy 
determined to resist to the last in defensive positions which were almost 
impregnable to the normal complement of infantry weapons, even to 
artillery fire and air action. Moreover, the jungle terrain in which 
much of the Pacific fighting took place permitted the flame thrower 
operator to advance to within effective range if he was protected by 
adequate supporting weapons. The situation was different on the 
European battlefields. As German defenses featured interlocking bands 
of fire and long, uninterrupted fields of vision, the utilization of 
weapons with limited range was difficult. The absence of concealment 
along the approaches drew attention to the size of the portable flame 
thrower and particularly to the unique silhouette of an operator with 
his weapon strapped to his back.42 The small size of the fuel load was 
another handicap, particularly when the flame thrower was used against 
the Siegfried Line fortifications where the enemy might avoid the flame 
by moving to another room of the emplacement.43 
The makeup of the German soldier, as contrasted with that of his 
Axis ally in the Pacific, had an effect upon flame thrower operations. 
The Japanese infantryman often fought until death, and flame weapons 
were needed to insure that he was dead. The German soldier, on the 
other hand, skilled and valorous as he was, surrendered when conditions 
provided no alternative.44 
In addition to, and sometimes because of, the factors just related, 
matters of training, supply, and maintenance conspired against the 
successful use of the portable flame thrower. Although the assault 
divisions of the First U.S. Army did receive some training in England 
42 (i) 12th Army Group Immediate Rpt 91 (Combat Observations). 99/12-0.4 Immediate Rpts 
12-32, 34-92, 12th Army Group, Jul-Nov 44. (2) 76th Div AAR, 10 Oct 44. (3) Notes of 
Flame Throwers (Portable), Incl 3 to Rpt on Tour, 26-30 Dec 44 (hereafter cited as Roos Rpt), by 
2d Lt Edwin G. Roos, 31 Dec 44. (4) CmlO 30th Div, 30 Oct 44, Rpt on Use of Flame Throwers 
on the Siegfried Line. 
43 (1) 76th Div AAR, 10 Oct 44. (2) 12th Army Group Immediate Rpt 61 (Combat Observations), 
22 Sep 44. 
44 (1) CmlO 30th Inf Div, 30 Oct 44, Rpt on Use of Flame Throwers on the Siegfried Line. (2) 
Immediate Rpt 91 (Combat Observations). (3) Roos Rpt. (4) 76th Div AAR, 10 Oct 44. 604 
THE CHEMICAL WARFARE SERVICE 
before the Normandy landings, the supply of flame throwers was 
critical during this period and none was available for other units, the 
divisions of Third Army, for example. Even when Third Army depots 
received stocks of portables in anticipation of operations against the 
Siegfried Line, troops received little training in the weapon.45 As 
late as October 1944 some divisions of II Corps had not been furnished 
with this item, and its low status in Seventh Army units early in 1945, 
as mentioned above, was not a reflection of extensive use.46 Seventh 
Army also reported that use of the weapon was at times limited by the 
lack of batteries and ignition assemblies; in October 1944 approximately 
80 percent of its depot stock of flame throwers was deadlined because 
of these shortages. In December a shipment of twenty of the M1A1 
models included three with defective fuel tanks and others with de- 
fective spark generator assemblies.47 The 5 th Division reported the 
receipt from depots of flame throwers with loose electrical connections 
and with paint-filled discharge ports.48 
Commanders and troops in Europe never had the same confidence 
in the portable flame thrower exhibited by their Pacific counterparts.49 
Infrequent use of the weapon meant not only the neglect of doctrine 
and training, but that supply and maintenance practices would not 
be tested and improved. Employment of the weapon often ended 
disastrously, a circumstance which only added to its shaky reputation. 
In cases where it might have been effectively used it was sometimes 
discarded in favor of another weapon. 
The Mechanized Flame Thrower 
The Requirement for an Auxiliary Model 
The role played by the U.S. mechanized flame thrower in the war 
against Germany was of even less consequence than was that of its 
portable counterpart. American-made flame throwers were not used 
at all in the Mediterranean theater. After the Sicily Campaign General 
48 (i) Greene Interv, 12 Jul 48. (2) Cole, Lorraine Campaign, p. i8on. 
CmlO III Corp to CmlO Ninth Army, 10 Oct 44, sub: Rpt of Flame Thrower Activities. 
Ninth Army Cml Sec Files. 
47 Seventh Army Cml Hist Rpt, 1-3 x Dec 44. 
48 7th Engr Combat Bn jth Div AAR, 21 Oct 44. 305-Engr—0.3 (6618) Master, Jul-Dec 44. 
49 (1) OCCWS Final Rpt, CWS Spare Parts Team in MTO and ETO, pp. 43-44. (2) Conf of 
Army, Corps, and Div CmlO’s and CO’s of all CWS units in the Seventh Army, 28 and 29 Aug 43. 
(3) Cole, Lorraine Campaign, p. 18on. FLAME THROWERS IN THE WAR AGAINST GERMANY 
605 
Patton expressed doubt about the tactical value of a mechanized flame 
thrower. A September 1944 demonstration of two models of the newly 
developed auxiliary flame thrower for the medium tank elicited no 
requirement for the weapon. A series of conferences on the mechanized 
flame thrower led Allied Force Headquarters in December 1944 also 
to report that no requirement existed for the auxiliary model. One of 
the major factors in this conclusion was the fact that the Italian terrain 
was most unfavorable for the use of tanks.50 
U.S. armored units used the mechanized flame thrower in France 
and Germany but only in a modest degree. Because the United States 
had not as yet produced a mechanized flame thrower, American plan- 
ners for the Normandy invasion turned to the possibility of adapting 
the British flame thrower unit, then under development, to the U.S. 
medium tank. The British mounted the flame assembly in the hull of 
a Churchill Mark VII tank, retaining the 7 5-mm. gun of the armored 
vehicle. This flame weapon had a range of something around 120 yards. 
Called the Crocodile, it featured an armored trailer which held 400 
imperial gallons of fuel. In 1943, the Commanding General, ETOUSA, 
submitted a request for 100 of the British flame throwers for installa- 
tion in U.S. Sherman tanks. Development and testing of the Sherman- 
Crocodile proceeded slowly, and the first production model did not 
appear until March 1944.51 
In the zone of interior the Armored Force Board had never been 
enthusiastic about any flame-throwing tank that was a special-purpose 
weapon, that is, if it had the flame thrower as its main armament, or 
if it had a distinguishing silhouette. The British Crocodile met the 
first requirement, but its fuel-carrying trailer certainly made it readily 
identifiable. In any event, the board urged the Chemical Warfare 
Service to concentrate its efforts on the auxiliary model, one that main- 
tained the normal armament of the vehicle, which was then under 
development.52 The result was an auxiliary flame thrower which was 
interchangeable with the bow machine gun of either the light or 
medium tank. 
On 9 March 1944 General Eisenhower requested that one of these 
“McKinney, Mechanized Flame Thrower Opns, pp. 30-ji. 
61 (1) History of the "Crocodile,” 4 Mar 44. ETO Reds, 470.71—Flame Thrower, ORB. (2) 
Colonel Magness, project officer of the Sherman-Crocodile flame thrower tank, states that the range 
was between 175 and 200 yards. 
52 Ltr, Armored Force Bd to CG Armored Comd, 3 Feb 44, no sub. CMLHO. 606 
THE CHEMICAL WARFARE SERVICE 
new bow gun flame throwers be sent to England for testing, inquiring 
at the same time when 100 more units could be made available. The 
War Department replied that the ETOUSA could have the single 
unit by mid-April and 200 flame throwers by 1 June 1944, 100 units 
for medium tanks, the E4-5, and 100 designed for light tanks, the 
E5-5.53 This was heartening news, especially as the requirements of 
the British Army precluded the delivery of the complete order of 
Sherman-Crocodiles until sometime in October.54 
The theater chemical section quickly installed the first auxiliary 
unit in a medium tank and demonstrated it to interested officers from 
General Eisenhower’s headquarters in late June.55 In contrast to the 
long-range Crocodile the auxiliary flame thrower gave a poor per- 
formance. Perhaps the strongest point in favor of the American model 
was its availability. First Army, planning on nine flame throwers per 
medium tank battalion, asked for 200 auxiliary flame throwers and 
canceled its requirement for Sherman-Crocodiles.56 Meanwhile, because 
of the lack of trained personnel and its somewhat limited mobility, the 
British Crocodile flame thrower had not lived up to expectations in 
the first month on the Continent, and General Eisenhower soon can- 
celed the American requirement for the flame tank. The fact that 
E4-5: s were understood to be available and that they had no identify- 
ing, mobility-hampering trailer, were doubtless other considerations in 
the decision.57 
On 23 August 1944 Lt. Col. G. C. White, OCCWS, conducted a 
second demonstration of the E4-5 auxiliary flame thrower before high 
ranking officers of the First and Third Armies. This time the latest 
model with a capacity of fifty gallons was shown, and the equipment 
“ (i) Rads, CM-IN 7411, 9 Mar 44, and CM-OUT 6014, 15 Mar 44. (2) Memo, CCmlO ETOUSA 
for CmlO FUSAG, jo Mar 44, sub: Small Flame Throwers for Installation in Tanks. USFET CWS 
470.71—Apparatus for Using Smoke and Gas (1942-44). 
54 (1) Memo, CCmlO ETOUSA for CmlO FUSAG, jo Mar 44, sub: Small Flame Throwers for 
Installation in Tanks. (2) Rad, CM-IN 7231, 9 Jun 44. (3) Magness Interv, 5 May 59. 
65 There was no theater interest in the auxiliary unit for the light tank. 
MLtr, CG First Army to CG ETOUSA, 11 Jul 44, sub: Tank Mounted Flame Throwers. 470.71— 
Flame Throwers (1944-45) Hi USFET Armored Sec. 
67 (1) Ltr, CG SHAEF to British Under Secy of State (Dir Special Weapons and Vehicles), 13 Aug 
44, sub: Crocodile Flame Throwers. 12th Army Group Reds, 470.71—Apparatus. (2) Ltr, Ctnl 
Adviser G-3 SHAEF to ACCWS for Field Opns, 22 Jul 44, no sub. ETO Personal files, Feb 44-Dec 44. 
(3) Memo, Cml Adviser G-3 SHAEF for CmlO’s in ETO, 16 Sep 44. CWS 314.7 Mechanized Flame 
Thrower. (4) Ltr, CCmlO ETOUSA to CCWS, 28 Aug 44, sub: Flame Thrower Tank Development. 
CWO 470.71/303. FLAME THROWERS IN THE WAR AGAINST GERMANY 
607 
British Crocodile With Fuel Trailer, firing at a target 200 yards away dur- 
ing a test in England. 
functioned perfectly at an effective range of fifty yards.58 The in- 
creased capacity came from the addition of a 2 5-gallon flame fuel tank 
located over the transmission of the vehicle. The original tank of the 
same size was situated on the right sponson.59 The 12th Army Group 
soon established a requirement for 3 3 3 of these auxiliary flame throwers, 
of which 150 were understood to be immediately available in the zone 
of interior. First Army, about to assault the Siegfried Line in the 
vicinity of Aachen, Germany, requested the prompt delivery of the 
weapons.60 One hundred and fifty of the E4-5 flame throwers reached 
the ETO in October 1944 but they were equipped with only one of 
the two 2 5-gallon fuel tanks. This caused some concern as the 50- 
68 (i) Interv, Hist Off with White. (2) Memo, CmlO 12th Army Group for ACofS G-3 12th 
Army Group, 25 Aug 44, sub: Flame Thrower Demonstration. 12th Army Group Reds, 470.71— 
Apparatus. This was the E4R2-4R3-JR1 model with two 25-gallon fuel containers. 
58 For the history of the development of this and other mechanized flame weapons, see Brophy, Miles, 
and Cochrane, From Laboratory to Field. 
60 (1) Ltr, AG Central Group of Armies to CG COM2 (Forward), 6 Sep 44, sub: Flame Throwers 
E4-5. AGRO-H, 12th Army Group 470.71—Apparatus. (2) Ltr, Asst AG ETOUSA to CG First 
Army, 22 Sep 44, sub: Tank Mounted Flame Throwers. AGRO-H, 12th Army Group 470.71— 
Apparatus. 
289-149 0-68—40 608 
THE CHEMICAL WARFARE SERVICE 
gallon fuel capacity was a popular feature of the flame throwers. The 
missing transmission fuel tanks finally arrived in November.61 
The Main Armament Flame Thrower 
If the theater’s interest in the auxiliary flame thrower could have 
been called mild, its concern for the main armament version was 
almost nonexistent. Army commanders indicated their reluctance to 
give up standard tanks for main armament flame throwers not only 
because of the reduced fire power but also because of the additional 
tanks needed to protect the vulnerable special weapon. And, as Gen- 
eral Rowan pointed out, matters were all the worse because tanks and 
other armored vehicles remained in short supply. 
It was not until January 1945 that General Bradley, 12th Army 
Group commander, requested twelve main armament flame throwers 
(E12-7R1) for operational testing.62 The armored forces in the 6th 
Army Group declined to give up voluntarily any of the regular tanks 
in order to provide for piain armament flame throwers. The Army 
Group Commander, General Devers, stated that any value gained in 
the use of the flame thrower would be more than offset by the conse- 
quent shortage of regular tanks and personnel.63 
Word came in late February that ten, not twelve, of General Brad- 
ley’s flame throwers would be shipped to Europe on the first convoy 
in May.64 They were on shipboard ready to sail when the Germans 
surrendered at Reims on 7 May 1945. 
Mechanized Flame Thrower Operations 
The American forces did not have mechanized flame throwers when 
they were first committed to action in France, nor did they have them 
in any numbers for almost five months after the Normandy landings. 
This initial lack of experience and training with flame-throwing tanks 
probably did as much as anything to set the pattern for the insignificant 
role the weapon was to have in Europe, a role in decided contrast to 
61 Red of Telephone Conv, Gen Rowan and Col Norman Gillet, 5 Nov 44. CWS 3 14.7 Mechanized 
Flame Thrower. 
62 Ltr, CG 12th Army Group to CG ETOUSA, 14 Jan 45, sub: Mechanized Flame Thrower. 12th 
Army Group Reds, 470-71—Apparatus. 
63 1st Ind, 1 Feb 45, to Ltr, CCmlO ETOUSA to Cml Adviser G—j 6th Army Group, j Jan 45, 
no sub. Seventh Army Cml Sec Reds, 470.71—Flame Thrower Fuels, Jan 43-Feb 45. 
64 Rad, CG COM2 to CG 12th Army Group, 22 Feb 45, sub: Flame Throwers, Mechanized, E12-7R1. 
12th Army Group Reds, 470.71—Apparatus. FLAME THROWERS IN THE WAR AGAINST GERMANY 
609 
that in the British and the Canadian Armies, which used the mecha- 
nized flame thrower successfully and on a fairly large scale.65 
Initially without flame tanks of their own, American forces in 
France received occasional support of British Crocodile squadrons. In 
September 1944 Squadron B, 141st Regiment, Royal Armoured Corps, 
consisting of a headquarters troop and four flame thrower troops, each 
with three Crocodile flame tanks, reported to Ninth Army’s VIII 
Corps. Three of these flame tanks supported elements of the 29th 
Division in operations against Fort Montbarey, a key enemy stronghold 
in Brest. On 14 September these flame tanks participated in the attack 
on a series of pillboxes near the fort. Although two were knocked out 
by mines before reaching the objective, the third flamed the pillboxes, 
which capitulated with a yield of 60 prisoners. Two days later, in the 
assault on Fort Montbarey itself, Crocodiles fired against the moat and 
the wall until their fuel was exhausted. Even then the tanks remained 
in position, their crews throwing white phosphorus hand grenades to 
cover the final infantry assault. The fort capitulated that evening. 
Prisoners indicated that the use of flame materially reduced the will to 
resist.66 
Favorably impressed by the work of the Crocodiles in the Brest 
operation, the commanding general of Ninth Army, Lt. Gen. William 
H. Simpson, on 31 October urged General Bradley to make one squad- 
ron available to Ninth Army for the impending operations against the 
Siegfried Line.67 At this time the British flame tank squadrons were 
in great demand by 21 Army Group and Ninth Army received only 
four Sherman-Crocodile flame throwers, with well-trained crews. 
These four tanks, issued to a platoon of the 739th Tank Battalion, 
Special (Mine Exploder), were the only large capacity flame throwers 
used by American forces in the European Theater of Operations. In 
support of the 29th Division, which had also worked with flame tanks 
at Brest, the Sherman-Crocodile platoon crossed the Roer River on 
24 February 1945. It then received orders to join in the assault on 
the citadel at Julich where enemy small arms fire had impeded the 
“For a description of British and Canadian flame tank operations, see McKinney, Mechanized Flame 
Thrower Opns. 
“ (i) Col Claude A. Black, Chief Armored Sec Ninth Army, 20 Sep 44, Rpt on Employ of Churchill 
“Crocodiles” at Brest, 20 Sep 44. (2) Roos to CmlO Ninth Army, 31 Dec 44, Reds Incl 2, Notes on 
Churchill Flame Thrower Tanks (Crocodiles). Both in CWS 314.7 Mechanized Flame Thrower. 
8TLtr, CG Ninth Army to CG 12th Army Group, 31 Oct 44, sub: Special Equip (Flame Throwing 
Tanks). 12th Army Group Reds, 470.71—Apparatus. 610 
THE CHEMICAL WARFARE SERVICE 
advance for several days. In the plan of attack, the four Crocodiles 
were to flame the south wall of the sixteenth century citadel from 
across the moat and fire 75-mm. shells to demolish the gate. Two of 
the tanks developed trouble before reaching the target, but the re- 
maining two lumbered to within seventy-five yards of the citadel 
and fired flame over the wall, forcing the defenders underground. 
Twenty rounds from the /j’s sufficed to smash the steel door and 
permit the tanks to flame the opening. The last German defenders 
fled just as infantrymen from the 29th Division poured over the moat 
into the burning citadel.68 
The only American-made, mechanized flame thrower used by U.S. 
troops in the European theater was the E4-5, later standardized as the 
M3-4-3, the auxiliary model which initially had arrived without the 
transmission fuel tanks. Four of these flame thrower units arrived in 
the summer of 1944 and saw action with First Army in September. 
In November, 12th Army Group allotted the 150 E4-5 units on hand 
as follows: First Army, 75; Third Army, 30; Ninth Army, 43. Third 
Army had never established a requirement for the flame-throwing 
tank and held its 30 E4-5 flame throwers in an Army depot.69 
As a matter of fact, comparatively little use was made of the E4-5 
in France and Germany. Unfortunately, the first reported action was 
a complete failure, a circumstance which may have helped discourage 
wider use of the weapon. Two medium tanks with E4-5 flame throwers 
reported to the 741st Tank Battalion, First Army, on 15 September 
1944. At the time, both tanks were improperly equipped and one had 
a defective engine. The 741st Tank Battalion repaired and equipped 
the vehicles and attached them to Company C. When further trouble 
developed, one of the tanks was evacuated to an ordnance repair shop. 
On 18 September, the remaining E4-5 flame tank supported an infantry 
attack on an enemy pillbox. Because of inadequate pressure the tank 
had to get within twenty-five yards of the fortification before the 
flame could reach the embrasure. This action failed to reduce the pill- 
box, and the infantry did not take the position. In fact, there was 
doubt whether or not the enemy suffered any casualties from the attack. 
"Ltr, Adjutant 739th Tank Bn, Special (Mine Exploder) to CmlO Ninth Army, 22 Mar 45:, 
sub: Flame Throwers. ARBN-/}9-o.i (7763) History, 739th Tractor Bn, 1 Mar 43—21 Nov 45. 
99 (1) Rad, CG Third Army to CG 12th Army Group, 22 Nov 44, sub: E4-5 Flame Throwers. (2) 
Memo, Chief Armored Sec 12 Army Group for CWS, G-4, G-3, 12 Oct 44, sub: Flame Throwers 
E4-5. 12th Army Group Reds, 470.71—Apparatus. FLAME THROWERS IN THE WAR AGAINST GERMANY 
611 
The tank battalion commander was decidedly unimpressed with the 
possibilities of the flame tank, although he admitted that the lack of 
training experience of the crew (it had had one day of preparatory 
training) might have contributed to the inefficiency of the weapon. 
Another factor was the distinct, if unwarranted, reluctance of the 
crews to enter combat with the flame tanks, a reluctance also attribu- 
table to a lack of training and indoctrination.70 
In December, Company B, 709th Tank Battalion, with Ninth Army, 
attacked hasty entrenchments near the town of Vossenack, Germany. 
The battalion had received and installed the two flame units just before 
the action. Unfortunately, there was no time for training the bow 
gunner-operators; they merely received verbal instructions on how 
to operate the weapon. The enemy fortifications were in a V-shaped 
position in a woods near the town. The plan of attack called for 
clearing the left half of the wedge, followed by a tank and flame tank 
attack on the right side. The vehicles, with infantrymen clinging to 
them, approached the objective in a line. As the flame tanks came 
within range of the positions they opened fire; when the flame fuel 
was exhausted the infantrymen dismounted and quickly took the 
positions. Though the operation was a success and the flame tanks 
achieved the expected result, their performance was nonetheless some- 
thing less than spectacular. The ignition system worked well, but the 
range—only twenty yards—was extremely short. The officer in charge 
blamed this poor performance not so much on the E4-5 as upon the 
inexperience of the gunners.71 
Seventh Army issued nine E4-5 flame throwers to the 14th Armored 
Division but only one had been installed by January 1945. When this 
flame tank and three standard tanks advanced abreast against a wooded 
area north of Strasbourg, they encountered an enemy machine gun nest 
holding up the infantry on the flank. The flame gunner fired his 
weapon even though the German position was well out of range. The 
flame traveled only halfway to the position but the defending enemy 
immediately surrendered. The division promptly installed the eight 
remaining flame throwers.72 
70 Combat Observer with V Corps to CG 12th Army Group, 13 Oct 44, Observers Rpt 4. CWS 
314.7 Mechanized Flame Thrower. 
71 Roos to CmlO Ninth Army Rpt, Mechanized Flame Thrower Activities (E4R2—5R1). CWS 
314.7 Mechanized Flame Thrower. 
72 Ltr, CmlO Seventh Army to Cml Adviser G—3 6th Army Group, 1 Feb 45, sub: Use of E4—5 
Flame Thrower. Seventh Army Cml Sec Reds, 470.71—Flame Thrower, Jan 43—Feb 45. 612 
THE CHEMICAL WARFARE SERVICE 
Another example of the psychological impact of a flame attack took 
place during the advance of the 743d Tank Battalion from the Roer 
River to the Rhine. One tank fired several high explosive shells at a 
German antitank gun, closed in, and poured flame on the position. 
The defending Germans immediately fled into the shelter of a nearby 
woods. Flame against troops in the open or in hasty entrenchments 
usually was extremely successful.73 
Despite the advantages which resulted from the employment of 
flame, tank battalions and armored divisions remained unconvinced 
of the merits of the flame throwing tank. As a consequence, the few 
examples just cited represent a fairly substantial proportion of the 
reported flame actions. First Army, realizing that the weapon was 
seeing little use, acknowledged to its tank battalion commanders the 
"considerable difficulties . . . encountered with ignition, fuel and first 
echelon maintenance.” Admitting that the shortcomings in the flame 
thrower had no immediate solution, the Army left the way open for 
the tank battalion commanders to store the flame throwers. The re- 
sponse to this frankly worded communication was significant. Six tank 
battalions requested permission to store most of their flame units; only 
two desired to keep the equipment until a tactical situation afforded 
the chance of a combat test.74 
In summary, American forces in Europe used flame-throwing tanks 
very sparingly. Flame would have been more successful had there been 
adequate tactical and technical training in the proper use of mechanized 
flame throwers. Within the tank battalions the constant strain of 
combat, as contrasted with the intermittent battles in the Pacific, 
hindered the proper installation of flame-throwing equipment. Units 
often had to be committed to combat during the period of installation 
and training, and therefore training in flame thrower maintenance 
and tactics was often inadequate or entirely lacking. Moreover, the 
continuing shortage of medium tanks made armored commanders very 
reluctant to remove tanks from battle for the installation of the flame 
throwers. 
For these reasons, the armored forces made but sporadic gestures at 
73Ltr, CmlO Ninth Army to CmlO 12th Army Group, 30 Apr 45, sub: Mechanized Flame Thrower 
Activities (E4R2-5R1). CWS 314.7 Mechanized Flame Thrower. 
74 Ltr, First Army Armored Sec to CO Tank Bns, 3 Jan 45, sub: E4-J Flame Throwers. CWS 
314.7 Mechanized Flame Thrower. FLAME THROWERS IN THE WAR AGAINST GERMANY 
613 
establishing a requirement for a mechanized flame thrower, a fact 
which did little to expedite the development of an acceptable flame 
unit in the zone of interior. The late arrival of flame units caused little 
stir among the using forces, and defects of equipment and problems 
of maintenance did not help the reputation of the weapon. The end 
result was understandable. Caught in a vicious circle the mechanized 
flame thrower, much like the portable model, was able to contribute 
but little support to American forces in Europe. CHAPTER XVII 
Fire From the Air 
Aerial incendiaries probably caused as much death and destruction 
as any other weapon used in World War II. Certainly they were the 
most important chemical munitions employed, considering their con- 
tribution in bringing the war to a successful conclusion. The record 
of these munitions is all the more remarkable because most of them 
were investigated, designed, and developed after the United States 
had entered World War II. Aerial incendiaries, for practical purposes, 
may be divided into two categories: the incendiary bomb, usually 
dropped by bomber aircraft on targets far behind enemy lines, and 
the fire bomb, a type which fighter-bombers used against targets at 
or near the front. Of the two, the incendiary bomb was by far the 
most important.1 
The Incendiary Bomb: The Strategic Weapon 
Pre-World War II Developments 
The aerial incendiary was used for the first time in World War I. 
The earliest German incendiaries, dropped on England from zeppelins 
and airplanes, were shaped like buckets and consisted of a core of 
thermite wrapped with tarred cotton waste and tarred rope. These 
crude bombs were unsatisfactory both in incendiary action and bal- 
listic quality. A torpedo-shaped bomb filled with gasoline and paraffin 
replaced the bucketlike munition, and before the end of the war 
German scientists had perfected the electron bomb. This 2-pound 
bomb was composed of a magnesium-thermite filler in a magnesium 
alloy casing. Though not used in World War I, it is nonetheless im- 
1 For details of the research, development, and production of aerial incendiaries, see Brophy, Miles, 
and Cochrane, From Laboratory to Field. FIRE FROM THE AIR 
615 
portant as the prototype of a very effective group of World War II 
incendiaries.2 
Great Britain’s principal incendiary bomb, the Baby Incendiary, 
weighed but two-fifths of a pound. Filled with a special thermite mix- 
ture these small bombs were carried in containers capable of holding 
either 272 or 144 units. Great Britain used few of its Baby Incendiaries 
during World War I, although these bombs were in production and 
were found to be effective. 
The United States developed several types of incendiary bombs 
during World War I. Two bombs, the Mark II and Mark III, were 
of the intensive type, that is, munitions with a high degree of pene- 
trability and an intensive incendiary action. Both bombs contained 
a thermite charge which ignited the main incendiary, solidified oil. 
They differed mainly in size, and hence penetrability; the former 
weighed approximately forty pounds and the latter about 100. The 
Mark I, a scatter-type bomb, was intended for use against very in- 
flammable targets. In outward appearance the Mark I resembled the 
Mark II bomb, but, whereas the latter was filled with solid oil, the 
Mark I contained a number of waste balls saturated with an inflam- 
mable mixture. Two explosive charges ignited these pellets and cast 
them for a radius of twenty feet. 
The United States also developed two incendiary darts, the impetus 
for which came from the success of the British with their Baby 
Incendiaries. The first American dart, the Mark I, consisted of an 
elongated 12-gauge shotgun shell filled with an incendiary material. 
This munition, which ignited on impact, was designed for use against 
grain fields and forests. The heavier Mark II dart, composed of a zinc 
body, a thermite and solid oil filler, and a steel nose, possessed the pene- 
trability needed in a munition to be used against buildings. 
Neither the incendiary darts nor the other three American aerial 
incendiaries saw use in combat. United States air units in France used 
a French munition, the Chenard, reported to be the most efficient of 
all Allied incendiary bombs.3 
2 (i) George J. B. Fisher, Incendiary Warfare (New York: McGraw-Hill, 1946), pp. 119—21. (2) 
Memo, Col Zanetti for Maj Gen Claude E. Brigham, n.d., sub: Thermite Incendiary Bombs. 
3 (1) Cml Warfare Monographs, Incendiaries (vol. 43), pts. I, II, June 19. CMLHO. (2) Fries and 
West, Chemical Warfare, pp. 336-47. (3) “Chemical Warfare Service Materials Used by the Air 
Service,” Chemical Warfare, VIII, No. 1 (January iy, 1922), 3~4- (4) Aviation Material, Lecture 
by Gen W. L. Sibert, General Staff College, rx Mar 20, p. 44. 616 
THE CHEMICAL WARFARE SERVICE 
There was little interest in the United States in an incendiary bomb 
program during the period between the two World Wars. This 
neglect resulted largely from an overly optimistic evaluation of the 
capabilities of high explosive (HE) bombs. In 1934 an Ordnance 
Department study on the relative effectiveness of incendiary and demo- 
lition bombs concluded that "everything that can be accomplished 
by an incendiary bomb can, in most cases at least, be accomplished as 
well or better by either a smoke bomb loaded with white phosphorus 
(WP) or a demolition bomb loaded with a high explosive.” 4 
There was one authoritative voice which did call attention to the 
possibilities of the incendiary bomb. Colonel Zanetti, a CWS Reserve 
officer on the faculty of Columbia University, insisted several times 
in the 1930*5 that the incendiary bomb had a great potential. Colonel 
Zanetti had worked with these munitions in World War I and had 
become perhaps the greatest American technical expert in the field. 
In 1936, when some people were dwelling on the horrors of aerial gas 
attacks in cities, he graphically pointed out that fire, not gas, was the 
greatest danger: 
The small size of these [incendiary] bombs may appear almost ridiculous, particularly 
after considering the tons' of gas that are required to produce lethal concentrations; 
but here comes the essential difference between gas and incendiaries that makes fire 
far more dangerous to a large city. Gas dissipates while fire propagates. Each of these 
small bombs held within itself the devastating possibilities of Mrs. O’Leary’s cow.6 
Moreover, the Army Air Corps was becoming increasingly interested 
in the potentialities of the incendiary bomb. As early as November 
1934 the commandant of the Air Corps Tactical School at Maxwell 
Field, Ala., recommended to the Chief of Air Corps a project aimed 
at developing a filling for an incendiary bomb, and one month later 
he sent the Chief, CWS, the military characteristics for such a munition. 
By April 1936 the CWS Book of Standards showed a military require- 
ment for an incendiary filling for the 2 5-pound chemical bomb, and 
on 30 December 1936 the CWS established a project to find an incen- 
4 Memo Study by Maj Hermann H. Zornig, Ord Dept, 17 Jan 34, quoted in Brief Review of Work 
Done to Date on Incendiaries, by Alton L. Kibler, 10 Apr .34. 
5 J. Enrique Zanetti, “The Forgotten Enemy,” The Independent Journal of Columbia University, vol. 
3, No. 6 (January 10, 1936). FIRE FROM THE AIR 
617 
diary bomb filling.6 Despite these preparations, the eve of the United 
States’ entry into World War II found it with only one standardized 
incendiary bomb, the gasoline filled, 100-pound M47. This situation 
existed because of the continuing belief in the superiority of high ex- 
plosives over incendiaries.7 
The outbreak of war in Europe called attention as never before to 
the possibilities of aerial incendiaries. German planes began to shower 
London with magnesium electron bombs and no-kilo oil bombs, and 
the English replied with their 4-pound magnesium munition. The 
United States Army could no longer afford to neglect the development 
and production of incendiary bombs.8 
In July 1941 General Porter, Chief, CWS, recalled Colonel Zanetti 
to active duty and sent him to London to obtain firsthand information 
on the research, development, and production of the British 4-pound 
incendiary bomb. Colonel Zanetti returned with formulas for fillings, 
blueprints for casings, and procedures for manufacturing, and a period 
of extensive work on aerial incendiaries ensued.8 But there was still a 
roadblock to be overcome. Since 1920 the responsibility for incendiary 
munitions had been divided between the Ordnance Department and 
the Chemical Warfare Service. The former had charge of the procure- 
ment of the containers and the storage and issue of the complete in- 
cendiary bomb whereas the latter developed the incendiary material 
and filled the munition.10 General Porter strove to consolidate the 
incendiary mission under the CWS. His last two assignments, before 
he became Chief, CWS, had been with the Army Air Corps so that 
he was fully aware not only of the value of aerial incendiaries but also 
of the necessity for their undivided control. The argument for a unified 
responsibility was especially strong in the case of the magnesium bomb 
for the container and incendiary material were one and the same.11 
8 CRL Corresp File, Proj A8.5—i, Incendiary, FE (formerly Incendiary Filling for Bombs and 
Incendiary, Thermite Type), Nov 32-Jun }8. KCRC. 
7 Rpt of Activities of the Tech Div During World War II, 1 Jan 46, p. 88. 
8 Memo, Chief Plans Div Air Corps for DCofS for Air, 8 Apr 41, sub: Incendiary Aircraft Munitions. 
9 Activities of Tech Div, WWII, pp. 88-90. 
10 WD GO 54, 28 Aug 20. 
11 Notes of Conf in Office of Maj Gen Richard C. Moore, DCofS, 15 Jul 41. TAGO G—4 File 32748. 618 
THE CHEMICAL WARFARE SERVICE 
In September 1941 the CWS received the complete responsibility for 
the entire incendiary bomb program.12 
Experiences of the Eighth Air Force 
Most new weapons and munitions initially experience difficulty in 
gaining the confidence of the using arm, and the incendiary bomb 
proved no exception. Moreover, the early bombs produced by the 
CWS were far from perfect, an understandable situation when it is 
realized that most of the work was done in the hurry and bustle after 
the United States entered World War II. Factors favoring the muni- 
tion, among which were Germany’s success with and Great Britain’s 
respect for aerial incendiaries, did little to lessen the Air Corps’ initial 
apathy, particularly at operational levels. 
The British realized the merits of incendiary bombs much sooner 
than did the United States, for not only had they entered the war 
earlier but their cities had been targets for bombing raids of the German 
Luftwaffe. Almost immediately Great Britain established an opera- 
tional research organization, known as RE/8 (Research and Experiment 
Station, Section 8), under the Ministry of Home Security. Gathered 
together there were scientists, statisticians, photo interpreters, and other 
experts whose duty it was to study the effects of bombing. American 
personnel, military and civilian, were soon attached to this division 
whose findings were available to both British and American air com- 
manders.13 
RE/8 scientists soon found that, in attacks against the industrial 
cities of Germany, properly employed incendiaries were more efficient 
12 As a matter of fact War Department General Order No. 10, to September 1941, which provided 
for this change neglected to transfer the procurement responsibility for "incendiary munitions which 
are in general consumed in the incendiary process, and substitutes therefor” from Ordnance to the 
CWS. War Department General Order No. 13, 24 November 1941, corrected this. More on the 
question of responsibility for incendiaries may be found in Brophy and Fisher, Organizing for War, 
pp. 4J-4«. 
“Later, when the utility of RE/8 had been proven, operational research sections were established 
within the U.S. Army Air Forces. The impetus for this action came in the summer of 1942 when the 
Joint Chiefs of Staff directed that a study be made of the British experience with operational research 
activities. General Arnold approved the resultant report and recommended that the commanding gen- 
erals of the Army Air Forces establish operational research sections within their commands. The Eighth 
Air Force set up such a section in the VIII Bomber Command in October 1942. (1) Rpt, Lt Bradley 
Dewey, Jr., to Chief Tech Div CWS, 14 Sep 44. (2) Col John M. Harlan, The Opnl Research Sec 
at the Eighth AF, 18 Jul 44. Both in CMLHO. FIRE FROM THE AIR 
619 
than high explosives.14 The Royal Air Force in a series of raids against 
Hamburg in the summer of 1943 went a long way in establishing the 
validity of this conclusion. Between 24 July and 3 August the RAF, 
at times supplemented by American bombers, attacked that German 
city seven times, proving beyond all doubt the destructive power of 
the incendiary bomb. Almost 1 l/z million bombs were dropped on 
Hamburg, the large majority (1 1/3 million) being 4-pound incen- 
diaries.10 German officials stated that 45,000 people lost their lives, 
although this number was admittedly inaccurate: "Exact figures could 
not be obtained out of a layer of human ashes.”16 Of the 122,000 
houses standing before the raids, 35,719 were demolished and 4,660 
were heavily damaged.17 
Despite the British success with incendiaries, the Eighth Air Force 
remained unconvinced of their efficacy. Colonel Kellogg, the first 
chemical officer of the Eighth Air Force, played an important part in 
convincing his organization of the usefulness of incendiary bombs. A 
group of RAF officers who had extensive and successful operational 
experience with incendiaries vigorously supported his cause. These 
same RAF officers sparked the organization of an informal American- 
British discussion group, known as the Zoroastrian Society, which 
materially aided the Eighth Air Force in defining the nature and char- 
acteristics of incendiaries possessing the greatest potential. Mean- 
while, both the RAF and the Eighth Air Force carried on an extensive 
program of munitions trials. As a result of these trials, the U.S. 6- 
pound incendiary oil bomb, the M69, was rejected and the British 30- 
and 250-pound incendiaries were accepted as interim weapons pending 
u Final Rpt on Proj AN—23, Effectiveness of U.S, Incendiary and High-Explosive Bombs, Div 2, 
NDRC of OSRD, 914 NDRC Rpt A-386 and OSRD Rpt 6445. Air University Lib Maxwell Air 
Force Base, Ala. 
15 RAF and Eighth AF Statistical Rpt, Bombs Dropped on Hamburg, 24 Jul—3 Aug 43, IncI x to 
Ltr, Armament Officer, U.S. Strategic AF in Europe to Air CmlO AAF, 6 Aug 43, sub: Air Attacks 
on the City of Hamburg. Tech Lib ACmlC, Md. 
18 Rpt, Hamburg Civil Defense, p. 29., Incl 3 to Ltr cited in n. ij, above. 
17 Rpt of "Fire Storm” Air Raids (Office, Chief of Fire Brigade, Hamburg), pp. 1-3, Incl. 2 to 
Ltr cited in n. 15, above. (2) The most devastating raid (the night of 27-28 July) produced a fire 
storm. This phenomenon is born of a great mass of fire combined with little or no surface winds. 
A huge pillar of heated air and gases rises vertically over the inferno, and cold air rushes in from all 
sides of the base of the pillar to replace the hot ascending blast. The velocity of these newly created 
surface winds can tear the clothes from a person’s back and uproot trees three feet in diameter. 
Casualties are great because death comes not only from the flames, but from asphyxiation, the inhalation 
of the intense heat, and carbon monoxide poisoning. Horatio Bond, "The Fire Attacks German Cities,” 
pp. 84-83, and Anthony J. Mullaney, "German Fire Departments Under Air Attack,” p. 100, in Fire 
and the Air 'War (Boston: National Fire Protection Assn., 1931), edited by Horatio Bond. 620 
THE CHEMICAL WARFARE SERVICE 
the availability of more suitable American bombs and clusters. The 
most desired U.S. munitions in the early period were the 100-pound 
cluster of 4-pound magnesium bombs and the 100-pound M47 bomb 
with an oil and crepe rubber filling. But these desires could not readily 
be translated into supply since much of the process of development 
and manufacture had yet to take place in the United States.18 
The first ioo-pound clusters of the M50 bombs arrived in England 
in 1942. This triumph of adequate supply was short-lived; chemical 
officers found a great many defective in these early shipments 
and started a testing program to determine the bad lots. Defective 
bombs were only part of the problem. The ioo-pound incendiary bomb 
adapter, which clustered the Mjo’s into a convenient package, was 
operationally unusable because of the danger of released adapter parts 
striking other planes in the formation or even, in some cases, the tail 
of the plane that carried it. This was dramatically revealed during the 
Eighth Air Force’s first use of incendiary bombs on 14 May 1943, when 
falling cluster parts damaged other planes in the formation. Moreover, 
it was impossible to obtain any degree of accuracy with bombs released 
from their clusters at such high altitudes. Because of these deficiencies 
Eighth Air Force suspended the use of the M50 pending receipt of aim- 
able clusters.19 
Until the adequate clustering device for the Mjo’s appeared, the 
Eighth Air Force relied to a great degree on the M47. This versatile 
ioo-pound bomb (it actually weighed only sixty-nine pounds) was the 
sole American aerial incendiary available when the United States 
entered World War II. In a desperate attempt to provide incendiaries, 
Colonel Kellogg late in 1942 located a supply of empty M47 bomb 
casings in Iceland, managed to get them shipped to the United Kingdom, 
and had 10,000 filled and assembled by air chemical units. At first the 
M47 contained unthickened gasoline or oil, but later a thickener was 
added. The outstanding features of the munition were its aimability, 
penetrability, and its sizable load (forty pounds) of incendiary ma- 
terial. But the M47 also had its problems. While the munition itself was 
effective, bomb bay suspension arrangements were such that one bomb 
“History, Cml Sec, Eighth AF. (2) Memo, CmlO Eighth AF for CG Eighth AF, 27 Nov 42, 
sub: Use of Incendiary and HE Bombs. App. G, History, Cml Sec Eighth AF. (j) Interv, Hist Off 
with Col J. A. Martin, formerly OpnsO Cml Sec Eighth AF, 28 Aug ji. (4) See above, ch. IV, for 
more logistical details on incendiaries. 
18 (1) History, Cml Sec Eighth AF. (2) History, Cml Warfare Sec 1st Bomb Div. (j) Martin 
Interv, 28 Aug 51. FIRE FROM THE AIR 
621 
occupied a space which could carry a much heavier bomb. By July of 
r943 the air chemical sections provided a field expedient to solve this 
loading difficulty. They paired the bombs by the use of a cable loop- 
sling. The loop-sling method permitted the suspension of forty-two 
M47*s in a B-17 bomb bay. This was an economical load, and the 
number of bombs falling together improved the bombing pattern. 
Furthermore, clustering supplies were readily obtained since the Eighth 
Air Force prepared slings in the great air repair depot at Burtonwood. 
Subsequently, Colonel Baum, who succeeded Colonel Kellogg as Eighth 
Air Force chemical officer in 1943, modified the loop-sling into a short 
cable toggling device which permitted the suspension of fifty-two 
bombs in a bomb bay and in effect made an enormous cluster of Mqy’s 
which was more aimable and made a better bombing pattern.20 
In the spring of 1943 Eighth Air Force headquarters requested 
mixed loadings of incendiary and high explosive bombs in a single 
aircraft on operational missions. The VIII Bomber Command declared 
this request unfeasible because uneconomical loads would result and be- 
cause of the danger of mixing the two munitions in the same aircraft. 
The chemical officers agreed with the bomber command on mixed 
loadings but renewed their proposals of incendiary loads in view of the 
new development with respect to the M47. During the summer, Col- 
onel Kellogg persuaded Col. Curtis E. LeMay to authorize M47 in- 
cendiary loadings for missions against industrial targets in occupied 
France. These missions conclusively demonstrated the effectiveness of 
incendiary bombing in general and the M47 incendiary in particular. 
Although a lack of fuzes caused the suspension of the employment of 
Mqy’s for a month during this critical period, the Eighth Air Force 
was now firmly committed to the use of incendiaries, and the outstand- 
ing success of the first major incendiary raid in October, against a 
factory at Heddernheim, Germany, reinforced that decision. The 
Eighth Air Force analysis of the Heddernheim mission indicated that 
the incendiaries were far more effective, weight for weight, than high 
explosives.21 For the next three months, the M47 was the favored in- 
cendiary, and keeping a supply on hand became a major problem as all 
20 (i) Ibid. (2) Ltr, Lt Col Robert N. Isbell, ExecO Cml Sec USSTAF, to Air CmlO AAF VD, 
15 Sep 44, sub: Correction to the Rpt of the AAF Bd, Proj (M-j) 261. Eighth AF j19.22j. 
21 (1) Ltr, CG Eighth AF to CG VIII Bomb Comd, 10 Mar 43, sub: Use of Incendiary Bombs, and 
1st Ind, CG VIII Bomb Comd to CG Eighth AF, n.d. Eighth AF 471.6 in Eighth AF 519.223-4. (2) 
History, Cml Sec Eighth AF. (3) Martin Interv, 28 Aug 51. 622 
THE CHEMICAL WARFARE SERVICE 
incendiary expenditures mounted from 408.2 tons in September 1943, 
to 1,292.6 tons in October, 2,382.9 tons in November, and 4,189.6 tons, 
40 percent of the total bomb load, in December.22 
The Mi7 500-pound cluster for the M50 bomb was first put into 
operational use in January 1944. This aimable cluster eliminated most 
of the difficulties inherent in those clusters which were quick opening 
and made the M50 one of the most effective incendiary bombs of World 
War II.23 An M50 (technically the AN-M50A1 and later the AN- 
M50A2) was a 4-pound bomb based on the plans brought back from 
England by Colonel Zanetti. Consisting of a core of thermate and a 
casing of magnesium alloy, the M50 had a high degree of penetrability 
and an intensive burning action. These qualities made it particularly 
suitable for use against construction in Germany, 9 5 percent of which 
consisted of brick and stone.24 Because of this construction, fire divi- 
sions (that area which will be burned out by an unchecked fire) could 
be not only buildings but their individual rooms. The M50 had to have 
great penetrating power in order to pierce the heavy roofs, and the 
fact that it was small meant that a bomber, in seeking out the numerous 
fire divisions, could carry many more than if the bomb were larger. 
In direct contrast with the M50 was America’s largest incendiary 
bomb, the 500-pound M76, popularly known as the Block Burner. 
The M76 resulted from an Army Air Forces request for a large, highly 
aimable incendiary bomb for use against industrial targets. It con- 
tained incendiary gel (PT) which, upon the detonation of an explosive 
charge, was scattered in large gobs over a 100-foot radius. The M76 
was used against Berlin on 6 March 1944 with moderate success, enough 
at least to warrant a request from the Eighth Air Force to the zone 
of interior for a priority shipment of these heavy incendiaries. Sub- 
sequent operations, however, proved that the efficiency of the bomb did 
not warrant its employment. Because of its size, there were relatively 
few targets against which it could be used. Moreover, there was a low 
percentage of incendiary fuel as contrasted with the total weight of the 
bomb. By September, because no future operational use of the M76 
22 Statistical Summary of Eighth AF Opns, European Theater, 17 Aug 42-8 May 45. 
23 Cml Warfare Sec Eighth AF, Jan 44-Jul 45. 
24 (1) Memo,, C. W. Tyson, 28 Nov 41, sub: Info Gained from Messrs H. F. Allen and H. Austin 
on Building Construction Abroad. CRL Corres File Proj A8.6-1—Incendiaries, Solid Oil, FY 1942. 
KCRC. (2) Thermate was a mixture of 80 percent thermite and 20 percent of the Ordnance De- 
partment’s M8 flare mixture. FIRE FROM THE AIR 
623 
Loading 500-Pound Clusters of Magnesium Bombs Into a B-24 of the 
Eighth Air Force, somewhere in England. 
was anticipated, the stations of the Eighth Air Force had returned most 
of their M76 bombs to Air Forces depots.25 
All together the Eighth Air Force dropped 97,046 tons of incendiary 
bombs on German targets compared with 569,751 tons of high explo- 
sives and 20,352 tons of fragmentation bombs. The large majority of 
the incendiaries were M5o’s, in Mi7 clusters, and M47’s.26 Taken as a 
reflection of the role of the incendiary bomb in the Eighth Air Force’s 
campaigns against Germany, this figure is little more than modest. 
The RAF expended many more aerial incendiaries than did the Ameri- 
can air unit. To explain this, the essential difference between the two 
air forces must be borne in mind. The RAF was devoted to a policy of 
night, area raids against the cities of Germany. The Eighth Air Force, 
“Cml Warfare Sec Eighth AF, Jan 44-Jul 4J. 
28 Statistical Summary of Eighth AF Opns, European Theater 17 Aug 42-8 May 45. 
289-149 0-68—41 624 
THE CHEMICAL WARFARE SERVICE 
on the other hand, confident in its bomb sight and in the protection de- 
rived from fighter escort and formation flying, pursued a policy of 
daylight raids against specific industrial targets. Urban areas were more 
susceptible to incendiary bombs than were the individual plants and 
factories. And while the Eighth Air Force only gradually realized that 
incendiaries had a part in industrial bombing, the RAF quickly saw 
the efficacy of the incendiary against larger area urban targets. The 
Eighth Air Force’s use of aerial incendiaries was effective, but not 
spectacular, and most of the damage to German cities resulted from 
RAF operations. This relative lack of success cannot be construed as 
a criticism of the American air unit, whose mission was different from 
that of the RAF. 
The Incendiary Bombing of Japan 
The war in the Pacific was marked by the most spectacular and ef- 
fective use of the aerial incendiary bomb. After March 1945, General 
LeMay’s all-out incendiary attacks against the vulnerable Japanese 
cities brought to a culmination the recognition which the incendiary 
bomb had gradually been winning throughout the war. It was air 
power which played a very important part in Japan’s decision to 
capitulate, and it was the incendiary bomb which helped to make air 
power such a decisive force. 
The use of aerial incendiaries against Japan varied considerably from 
that against Germany and German occupied Europe. For one thing, 
air fields for the bombardment of Japanese cities were not immediately 
available as in the case of the Eighth Air Force, which had English bases 
well within range of German cities. It was not until the Mariana Is- 
lands, located some 1,500 miles south of Tokyo, had been taken that 
American bombers found themselves within bombing range of the 
Japanese capital and the other important cities on the island of Honshu. 
Up till that time, the targets throughout the island chains on the road 
back, and even in Japanese-held China, were not particularly ap- 
propriate for incendiary bombing missions. 
Another great difference between the air war against Japan and 
that against Germany was the extreme vulnerability of the Japanese 
cities to fire. Although fire destruction could be and was wrought 
on many German cities, they were less likely targets for the incendiary 
bomb than those of Japan. Ninety-five percent of German construe- FIRE FROM THE AIR 
625 
tion, as noted earlier, was brick and stone, and the roofing material, a 
very vital consideration in starting fires, usually consisted of tile or 
slate. In contrast, 80 percent of the construction in Japan made use of 
wood and paper. There was a nucleus of modern fireproofed buildings 
in the business areas of most Japanese cities, but, generally speaking, 
the structures of urban areas were made of very inflammable materials. 
These areas were so compact, so devoid of fire barriers, that an un- 
controlled fire could spread very quickly. 
The Twentieth Air Force supervised the incendiary blow against 
Japan. This unusual organization was activated in Washington on 4 
April 1944, with General Henry H. Arnold, Commanding General, 
AAF, as its commander or "executive agent.” The Joint Chiefs of Staff 
were to make all major decisions about the deployment, missions, and 
target objectives of the Twentieth Air Force. Its weapon was the 
very long range bomber, the B-29, and its two principal subordinate 
units (the actual operating units) were the XX and XXI Bomber 
Commands.27 
Oddly, the XX Bomber Command saw the light of day and in fact 
delivered its first bombs against Japanese targets before the activation 
of the Twentieth Air Force. The first major contingent of the (Com- 
mand left the United States on 5 January 1944 and arrived at New 
Delhi, India, eight days later. Permanent bases for the XX Bomber 
Command were in India and the advanced bases were located in the 
vicinity of Chengtu, in western China. Plagued by logistical difficulties 
and hindered by the fact that the advanced bases were within range of 
only the cities of Kyushu, among the Japanese targets, the operations 
of the command were not particularly effective. In fact, it was soon 
realized that these missions would be little more than "shakedown” 
training preparatory to the time that B-29 bases could be constructed 
in the Mariana Islands. 
The summer of 1944 saw the American conquest of the greater part 
of the Marianas, including the islands of Saipan, Guam, and Tinian. 
This meant that B-29 bases could be located within range of the im- 
portant cities of Honshu. Even as the three islands were being mop- 
ped up, the XXI Bomber Command began constructing airfields for its 
27 Craven and Cate, eds.. The Pacific: Matterhorn to Nagasaki, pp. 38-39. Unless otherwise noted, 
the background material concerning the Twentieth Air Force is based on this excellent volume. 626 
THE CHEMICAL WARFARE SERVICE 
five wings. The first strategic mission was flown from Saipan on 
24 November 1944. 
From November 1944 until the early days of the following March, 
the XXI Bomber Command used conventional strategic bombing 
tactics against the cities of Japan. In Europe the Eighth Air Force had 
developed the concept of precision bombing and to some it seemed 
to be the solution for the air war against Japan. With a large percentage 
of the bomb load consisting of high explosives, planes flew high altitude 
daylight missions against individual industrial targets. For example, 
on 14 January 1945 6-29*5 dropped ninety-four tons of FIE on the 
Mitsubishi Aircraft Plant in Nagoya with only fair results. That this 
industrial target was attacked seven more times in a period of several 
months is some indication of the comparative ineffectiveness of these 
raids.28 European experience was being translated to Pacific use, and 
not too successfully. 
Precision bombing was not the solution for Japanese targets. The 
physical construction of Japan’s industrial and urban areas was much 
more combustible than that of Germany. Japanese cities frequently 
experienced peacetime conflagrations; German cities did not. Industry 
and labor in Japan were far more concentrated than in Germany. 
Moreover, area incendiary attacks against Japan would give its "house- 
hold” industries, upon whose products the larger plants depended, a 
tremendous setback.29 
In December 1944 General Arnold’s headquarters, aware of the 
vulnerability to fire of Japanese cities, requested that the XXI Bomber 
Command mount a full-scale incendiary attack against Nagoya. Brig. 
Gen. Haywood S. Hansell, commanding general of the air unit and a 
firm believer in daylight, precision bombing, protested but nevertheless 
ordered incendiary missions against that city, the first being directed 
against the Mitsubishi Aircraft Engine Works. Encountering bad 
weather, the force of forty-eight planes bombed the target using radar 
and inflicted little damage. Early in January 1945, fifty-seven 6-29*5, 
with an incendiary-fragmentation bomb load, struck urban Nagoya, 
but smoke from the fires made observation and hence evaluation of the 
results impossible, the Japanese, probably the most unfortunate 
28Col Theodore P. Gahan, The Status of Incendiaries in the Army Air Forces ''Thesis prepared at 
the Air Command and Staff School, Air University, Maxwell Field, Ala.), May 1947, pp. 6-7. 
29 "Fire Blitz,” Impact (August, 1945), p. 14. FIRE FROM THE AIR 
627 
effect of this rather mediocre mission was the development of an overly 
optimistic opinion of their inefficient fire-fighting system.30 
General LeMay replaced General Hansell on 20 January 1945. At 
first this move brought little change in the tactics and results of the 
missions of the XXI Bomber Command. Some success resulted from 
the high altitude precision bombardment of particular Japanese in- 
dustries, but this success fell far below the expectations almost everyone 
had for the VLR bomber, the B-29. In an effort to achieve better re- 
sults, General LeMay made radical changes in his bombing techniques. 
First, he planned to send his planes not against individual plants and 
factories, but against Japan’s combustible cities, filled with home in- 
dustries as well as with various military installations. Although this 
plan was itself a departure from the established routine, the courage 
LeMay needed in making his decision came not from changing targets 
but from his faith in new methods by which the targets would be at- 
tacked. The innovations in tactics all were based on the idea of drop- 
ping the most damaging payload on the crowded, inflammable enemy 
cities. 
The planes were to attack at altitudes of from 6,000 to 7,000 feet 
instead of the usual 20,000 and 30,000, a change partly prompted by the 
weather encountered over the island of Honshu. At the higher altitude 
strong winds buffeted the aircraft causing not only an unduly large 
consumption of gasoline but inflicting punishment on men and planes 
as well. Moreover, cloud formations over Honshu prevented the visual 
bombardment of targets on all but a very few occasions. In another 
change, the planes were to make individual runs against the target in- 
stead of attacking in formation. Formation flying was the established 
practice of the Eighth Air Force, and it provided an all-around defense 
against attacks by enemy fighter planes. But it also involved ren- 
dezvous points for the planes and hence a greater consumption of 
gasoline. In still another innovation. LeMay ordered the 6-29’$ to at- 
tack under the cover of darkness, a tactic expected to achieve surprise 
and take advantage of the enemy’s weak defensive weapons, night 
fighters and radar gun-laying devices. Finally, the aircraft were to 
be stripped of all armament. The savings in weight resulting from the 
absence of armament and the lesser demands for gasoline meant that a 
“Craven and Cate, eds., The Pacific: Matterhorn to "Nagasaki, pp. 563-65. 628 
THE CHEMICAL WARFARE SERVICE 
greater amount of payload could be carried. And this payload was to 
consist exclusively of incendiary bombs.31 
The XXI Bomber Command first used these tactics on its historic mis- 
sion No. 40 flown against Tokyo on the night of 9-10 March 1945. 
The planes carried two types of incendiary bombs, the M47A2 and the 
M69.32 The Pathfinder units, one squadron of each of the three partici- 
pating wings, carried the M4/’s which served not only as aiming points 
but which also started appliance fires—those fires large enough to be 
controlled only by special fire-fighting apparatus. The M69’s used by 
the rest of the force started a multitude of small fires that soon joined 
to form large ones.33 The M47 had been used extensively in Europe, 
but the M69, because of its poor penetrating power, had proved un- 
suitable for German targets. This very characteristic made it par- 
ticularly appropriate for use against the flimsy construction of Japanese 
buildings. 
The ingenious M69, unlike most other American incendiaries, was 
not based on a European prototype but was strictly an American de- 
velopment. The over-all weight of this hexagonal shaped, light-cased 
munition was six pounds; its incendiary filling, napalm, weighed 
three pounds. The bomb, having a terminal velocity of 225 feet per 
second, was stabilized in flight by cloth streamers rather than by fins. 
A delay fuze, activated by the impact, ignited an ejection charge which 
expelled the incendiary material through the tail of the bomb. Thus 
when the bomb came to rest it functioned like a small mortar; when 
flat on the floor it could eject flaming napalm as far as 100 feet until 
it struck an object in its path.34 
The first B-29’s left Guam at 1735 on 9 March, and by 2020 the 
entire attacking force was airborne. Although the planes encountered 
some bad weather on the way to Tokyo, they identified the coast initial 
point and target without difficulty. The first bombs landed on Tokyo 
at 0015 on the following morning. It took but thirty minutes for the 
31 (i) “The B-29ers,” Impact (September-October 1945), pp. 78-79. (2) Twentieth AF, Special 
Rpt on the Incendiary Attacks Against Japanese Urban Industrial Areas (hereafter cited as Twentieth 
AF Special Rpt on Incendiary Attacks) n.d., pp. j-6. 
“The M47 bombs were toggled together, six to a joo-pound bomb station by the T19 cluster 
adapter, developed by the Chemical Section of the XXI Bomber Command. Twentieth AF Special 
Rpt on Incendiary Attacks, p. 6. 
33 (1) Twentieth AF Special Rpt on Incendiary Attacks, p. 6. (2) USSBS, Effects of Incendiary 
Bomb Attacks on Japan, Apr 47, p. 117. 
M NDRC (Div 11), 3 Oct 45, Comparative Effectiveness of Small Incendiary Bombs on Industrial 
Targets, pp. 9-10. FIRE FROM THE AIR 
629 
Tokyo, After the Incendiary Bombing of 9-10 March, 1945 
development of fires of conflagration size, and by that time the situa- 
tion was so far out of hand that efforts to combat the flames were fruit- 
less. The multitude of bombs (1,665 tons were dropped on Tokyo), 
the combustible nature of the structures, and the high winds all con- 
tributed to the creation of the inferno. 
Some people were able to escape through the wide fire lanes, but 
many others were encircled by the flames and died of suffocation and 
burns. Those who fled to the canals faced death in the scalding water 
or were crushed by the terrified mob which crowded in on top of them. 
This raid alone caused the death of an estimated 83,793 people and al- 
most 41,000 more received injuries. Over one million people lost their 
homes. 
The fire destroyed 15.8 square miles in the center of Tokyo. All 
buildings in the area were entirely destroyed or seriously damaged. Al- 630 
THE CHEMICAL WARFARE SERVICE 
though some of the modern, fire-resistant structures were not totally 
destroyed, the majority of even this type was left as sagging skeletons. 
Glass, steel bars, and concrete melted in the intense heat; wooden 
buildings went up in flames before the fire front had reached them. 
Such was the havoc wrought by the first of the "blitz” raids against 
the cities of Japan. 
The results achieved by the XXI Bomber Command left no doubt 
as to the validity of the revolutionary tactics of General LeMay. Tokyo 
had been surprised by both the low altitude and the magnitude of the 
attack. The command suffered but moderate losses; 14 of the 279 
planes over Tokyo failed to return. These losses came not from enemy 
fighter opposition, which failed to damage a single B-29, but from flak. 
The combination of bombs used was excellent. 
Following the Tokyo raid at about 2-day intervals, Nagoya, Osaka, 
Kobe, and again Nagoya received the terrible punishment of incendiary 
bombing. Throughout the rest of the Pacific war a total of sixty-nine 
Japanese cities were subjected to these "blitz” attacks.35 
The Fire Bomb: The Tactical Weapon 
Incendiary munitions were useful in tactical air missions—those 
flown in the combat zone for the purpose of influencing the local tacti- 
cal situation. Enemy strongholds, motorized vehicles, troop concentra- 
tions, and military stores were targets particularly vulnerable to fire. 
Sometimes tactical aircraft used M47 and M50 bombs against these 
targets, and occasionally they dropped an M76, but another type of 
incendiary munition, the fire bomb (often called the napalm or blaze 
bomb), proved most effective against tactical targets. 
Employment in Europe 
A fire bomb was simply a large capacity container filled in the field 
with napalm gel.36 It began as a field improvisation. Fighter planes 
carried jettisonable fuel tanks for long missions, and it became custom- 
ary for the pilots, on the trip homeward, to drop these tanks on targets 
35 (i) Twentieth AF Special Rpt on Incendiary Attacks, pp. 6-9. (2) USSBS, Effects of Incendiary 
Bomb Attacks on Japan, pp. 94, 97, 102. (j) USSBS, Final Rpt Covering Air-Raid Protection and 
Allied Subjects in Japan, Feb 47, p. 70 (4) "B-29ers” and "The Z-29 Payoff,” Impact (September- 
October, 1945) > PP- 78, 79, 85. 
38 Fire bombs were of a variety of sizes, depending upon the kind of containers on hand. The bombs 
which saw the most use were of 165-, 75-, 1O0-, 108-, and no-gallon capacity. FIRE FROM THE AIR 
631 
Attaching an Empty 108-Gallon Fire Bomb Tank to the Fuselage of 
a P-47. 
of opportunity, igniting the gasoline with tracer ammunition. It was 
only a small step to provide these tanks with igniters more convenient 
and reliable than tracer ammunition. The CWS devised an igniter from 
an all-ways fuze and a shortened section of a 2-pound magnesium bomb 
which was clamped on the side of the gasoline tank. It was soon realized 
that thickened fuel would provide a more satisfactory fire than ordi- 
nary gasoline, so air and chemical officers in Europe began thickening 
gasoline in spare tanks with oil, or rosin oil and lime, or when they 
were available, with the approved thickeners, British perspex and 
American napalm. Because the thickened fuel required a better igniter, 
chemical officers adapted the white phosphorus grenade for the purpose. 
One of the most favorable features of the bomb was the ease with which 
it could be constructed from materials which were relatively abundant, 
since the spare tanks, often made of process paper, were stocked in 
quantity. The ratio of filling to the over-all weight of the munition was 
high. The extreme accuracy with which the fire bomb could be placed 
on small targets was another major advantage, although this precision 632 
THE CHEMICAL WARFARE SERVICE 
was possible only when the bombs were released from a low altitude, 
something pilots under heavy antiaircraft attack could not always do.37 
An example of the effectiveness of the fire bomb against point targets 
took place on 25 August 1964 when sixteen fighter planes, carrying 
twenty-four 165-gallon napalm bombs and eight 500-pound HE 
bombs, attacked the headquarters of Generalfeldmarschall Guenther 
von Kluge, German Army Group commander, at Verzy, France. 
Twenty-two of the napalm tanks made direct hits on the buildings 
comprising the headquarters; eight houses were completely destroyed.38 
Although men were more vulnerable than material to the fire bomb, 
motorized vehicles, marshaling yards, warehouses, and other com- 
bustible buildings made excellent napalm bomb targets. Fighter planes 
carrying this munition flew frequent missions against the Germans 
while the latter were attempting to escape encirclement at Falaise. 
During this period twelve P-38 fighters, each carrying two 165-gallon 
fire bombs, attacked a concentration of enemy trucks and armor, de- 
stroying or damaging an estimated thirty or forty vehicles. At the 
time of the Ardennes counteroffensive American planes used fire bombs 
effectively against German motor transportation and armored con- 
centrations in the wooded sections of the area. When fighter planes 
dropped seventy-two fire bombs on the marshaling yards at St. Quentin, 
France, 400 of the 500 railway cars in the yards were destroyed.30 
The munition was sometimes used in conjunction with artillery or 
high explosive bombs in attacks against fortified towns or strongpoints 
consisting of open emplacements and earth and log fortifications. In 
one approved sequence, these positions first were subjected to artillery 
fire or high explosive bombing. Then planes dropped fire bombs on 
the rubble forcing the enemy into the open. Just before the infantry 
assault, the artillery placed its fire on the exposed enemy troops.40 The 
fire bomb, however, had little or no effect against heavy fortifications 
such as the pillboxes of the Siegfried Line. And, reports to the contrary, 
87 (i) Broughton Weekly News Letter No. 26A, 7 Dec 44, and No. 40A, 12 Apr 45. (2) Msg MF 
01268, CG USSTAF to CG Eighth AF, 11 Oct 44. Eighth AF 519.225.1. (2) Craven and Cate, eds., 
Europe: TORCH to POINTBLANK, pp. 654-55. 
88 (1) Cml Warfare Munitions Used by Ninth Air Force, Incl 3, CWS TofO Ltr No. 26, 30 Jun 45. 
(2) Fire Bomb Opns, Incl 5, CWS TofO Ltr No. 19, 3 Nov 44. 
39 (1) Cml Warfare Munitions Used by Ninth Air Force, Incl 3, CWS TofC Ltr No. 26, 30 Jun 45. 
(2) Ninth AF, Use and Effectiveness of Napalm Fire Bombs, 9 Feb 45, Incl 4, CWS TofO Ltr No. 23, 
3 Apr 44. (3) Broughton Weekly News Ltr No. 26A, 7 Dec 44. 
40 (1) Ninth AF, Use and Effectiveness of Napalm Fire Bombs, 9 Feb 45, Incl 4, CWS TofO Ltr 
No. 23, 3 Apr 44. (2) CWS TofO Ltr No. 28, 31 Aug 45, p. 20. FIRE FROM THE AIR 
633 
the Operational Research Section of the IX Bomber Command found 
that the fire bomb was not instrumental in the surrender of the fortress 
of St. Malo on the French coast.41 
Use in the Pacific 
In the war against Japan, the fire bomb saw use from the mainland 
of Asia to the many small islands of the Pacific. As in Europe, the 
munition gave best results when used to produce casualties. Some 
observers in the Pacific went as far as to say that materiel destruction 
should be but a secondary mission for the fire bomb and then only if the 
target were highly combustible. Apart from its casualty potential the 
fire bomb had definite psychological effect on enemy troops; ground 
commanders agreed that enemy morale suffered an obvious decrease 
after a fire bomb attack. The Japanese on Tinian, after experiencing 
several fire bomb attacks, broke from their positions upon the approach 
of fighter planes with belly tanks and ran in a direction that was at right 
angles to the flight of the planes. But whether used against troops or 
other targets, fire bombs to be effective had to be dropped in adequate 
numbers. Prisoners of war stated that widely dispersed fire bomb hits 
had little or no effect on the morale of a unit.42 
When used against emplacements the fire bomb performed the addi- 
tional service of burning off the dense foliage and camouflage which 
so often surrounded Japanese positions. The Commanding General, 
81st Infantry Division, stated, "Napalm bombing serves as an excellent 
means of uncovering hostile strong points in jungle and cave warfare. 
Unless the enemy is prepared to meet it by special provisions in his 
caves, this fire will drive him into the open where he can be reached with 
HE shells.” 43 
Used in collaboration with regular incendiary and HE bombs, the 
napalm bomb burned cities and towns in Burma and China whose 
wooden buildings housed supplies for Japanese operations. For example, 
the Fourteenth Air Force struck Paoching with M$o and M69 in- 
cendiary bombs and demolition and napalm bombs. In this particular 
41 (i) Broughton Weekly News Ltr No. 26A, 7 Dec 44; No. 15, 16 Sep 44. (2) Craven and Cate 
state that although the fire bomb strike at St. Malo was "spectacular, and much photographed,” the 
napalm "though burning out one surface shelter, produced little effect on the garrison.” Craven and 
Cate, eds., Europe: ARGUMENT to V-E Day, p. 262. 
42 Fire Bomb Opns, Incl 5, CWS TofO Ltr No. 19, 3 Nov 44. 
43 Quoted in Use of Napalm (Fire) Bombs in the Palaus Opn, Incl j, CWS TofO Ltr No. 23, 3 Apr 43. 634 
THE CHEMICAL WARFARE SERVICE 
case the results (the destruction of 20 percent of the city) were sub- 
standard because of the mud and brick walls of the buildings and be- 
cause many of the bombs fell on previously burned areas. In Burma, 
fire bombs alone received credit for the evacuation of one Japanese- 
held city.44 
During the Luzon campaign American air units dropped on the 
enemy a total of 1,054,200 gallons of napalm-thickened gasoline, of 
which an estimated 989,000 gallons were effectively placed on targets. 
The failures were the result of defective igniters and of faulty release 
mechanisms. While on certain missions there may have been an un- 
usually high percentage of duds (these, likely as not, were ignited by 
strafing), in the over-all picture the fire bomb performed efficiently.45 
The most effective use of the fire bomb took place during the fight 
for Ipo Dam, north of the city of Manila.46 After the fall of the Philip- 
pine capital the Japanese forces withdrew to this area and augmented 
the natural defensive features of the terrain with a network of trenches 
and fortified caves. The low supply of water in Manila made the re- 
capture of the dam imperative, and fighter-bombers of the Fifth Air 
Force supported troops of XI Corps as they attacked to take this im- 
portant facility. During the initial stage of the operation (3-5 May 
1945), 238 planes dropped demolition and fire bombs on the outlying 
defenses of the dam with good results. The final all-out effort to seize 
the dam took place on 17 May. On the day before, fighter planes again 
struck the Ipo defenses, this time with 50,000 gallons of napalm. On 
the day of the attack 240 fighter-bombers dropped 62,500 gallons of 
napalm. A Fifth Air Force report described the technique: 
Five enemy strong points were selected as target areas, each one consisting of about 
3,000,000 square yards. Obviously, in a target of this size, the term saturation bomb- 
ing is used in a tactical rather than physical sense, meaning that sufficient bomb cover- 
age was provided to negate enemy opposition. To administer the blanket of fire treat- 
44 (i) Incendiary and Fire Bomb Attack on Paoching, China, CWS TofO Ltr No. 26, jo Jan 45, p. 11. 
(2) CWS Munitions Used Operationally by First Tactical Air Force, CWS TofO Ltr No. 25, 30 
May 4j, p. 17. 
45 (1) Rpt, CmlO Sixth Army, Luzon Campaign (9 Jan-i Jul 45), pp. 15-16. (2) An. to Cml 
Opns and Tech Per Rpt 8, CmlO I Corps, 21 Jun 45, sub: Rpt of Napalm Bombings, (j) An. I to 
Cml Opns and Tech Per Rpt No. 7, CmlO I Corps, 13 Jun 45, sub: Rpt on Napalm Bombings. All 
in CMLHO. 
48 (1) Craven and Cate, eds., The Pacific: Matterhorn to Nagasaki, p. 436. (2) Smith, Triumph in 
the Philippines, ch. XXL FIRE FROM THE AIR 
635 
ment, 200 to 250 5th AF fighters came in low, wave after wave, four to eight 
abreast, with air and ground controllers giving target information and regulating 
traffic. At first, the closely spaced fighters found that smoke from preceding waves 
obscured the target. The problem was overcome by directing the bombing runs down- 
wind, with each successive wave dropping its bombs on the near side of the bursts 
from the wave which preceded it. The fighter bombers followed each other at 10- to 
15-second intervals. A-20’s then came in, showering the area with parafrags and 
winding up with a thorough strafing.47 
Positions in the area which had withstood infantry attacks for almost 
a week, were taken after only feeble resistance and minimum casualties. 
Whether these results were entirely due to the use of napalm is not 
certain. One chemical officer, for example, viewing one of the attacks 
from the air, concluded that its effect was little more than harassing. 
But most observers were inclined to place greater emphasis on the 
effectiveness of the fire bomb, and General Krueger, Sixth Army com- 
mander, went so far as to say that these attacks "made possible the early 
capture of the vital Ipo Dam.” 48 
All together during World War II the American Army Air Force 
dropped about 37,000 CWS fire bombs (14,000 tons) on German and 
Japanese targets. Two-thirds of the bombs and an even higher per- 
centage of the tonnage were used in the Pacific war. No matter where 
the fire bombs were used reaction to their method of employment 
seemed to be the same. To insure the best results they had to be dropped 
in adequate numbers and from altitudes ranging from 50 to 100 feet; 
the efficiency of a napalm strike was increased when co-ordinated with 
HE bombs, artillery fire, or strafing; the most effective targets for 
the munition were enemy strongholds and troop concentrations, ex- 
tremely inflammable material, and motorized vehicles.49 
47 Quoted in "Napalm—Fire Bombs Turn Trick Against Holed-Up Nips in Luzon,” Impact (August, 
1945), PP- 48-53- 
48 (1) Ibid. (2) Memo, CmlO, I Corps for CofS I Corps, 18 May 45, no sub. Sixth Army File, 
471.6. (3) After the war, General Yamashito, Japanese commander on Luzon, stated that napalm 
had little effect against the rain-soaked terrain of the island. Quoted in Craven and Cate, eds., The 
Pacific: Prom Matterhorn to Nagasaki, p. 443. 
49 (1) CWS Munitions Used Operationally by First Tactical Air Force, CWS TofO Ltr No. 25, 
30 May 43, p. 18. (2) Ninth AF, Use and Effectiveness of Napalm Fire Bomb, 3 Apr 45, IncI 4, CWS 
TofO Ltr 23. (3) Broughton Weekly News Ltr No. 40A, 12 Apr 45. CHAPTER XVIII 
CWS Overseas—An Evaluation 
The CWS had much to learn in World War II. The service entered 
the war as the custodian of one of the most awesome weapons to come 
out of World War I. Even while experiencing the diplomatic, political, 
and military antipathy to gas that was manifest during the years be- 
tween the wars, many CWS officers, military analysts, and strategists 
(and many pacifists) believed that gas and air power would rule the 
next global conflict. When war broke out in Europe gas was not used 
in spite of the fact that England must have presented a tempting target. 
This state of affairs affected the CWS in the United States in two ways: 
the service had to adjust to the idea of preparing for a gas war which 
might never be fought and for a nongas war which involved missions 
hitherto either secondary or nonexistent. 
The problems of a nongas war, such as was fought in World War II, 
centered about use of smoke, flame, and incendiaries, natural appendages 
to the mission of a technical service which dealt largely with the prod- 
ucts of the science of chemistry. 
The CWS did in fact prepare for both kinds of war. Its staff officers 
and combat and service units performed usefully, even while fulfilling 
their insurance roles. To do this, to achieve the goal of effective par- 
ticipation in the war effort, involved ingenuity, resourcefulness, and 
adaptability of the highest order. 
Attendant upon both of these differing objectives was the matter 
of meeting demands for a rapid expansion, for the activation of new 
organizations and units, and for the mass production and distribution of 
new weapons and materials. The CWS, like other elements of the 
Armed Forces, received resources of men and money undreamed of in 
the difficult years through which it had just passed. In 1940 the CWS 
had an active strength of 93 officers and 1,035 enlisted men; in 1943 
these figures were 8,103 and 61,688. Within the space of these three 
years the civilian rolls increased twentyfold. Appropriations for 1940 
were just over two million dollars; two years later they exceeded one CWS OVERSEAS—AN EVALUATION 
637 
billion. This transition from famine to feast was not an easy one to 
make. The development and efficient management of programs to pro- 
vide for the greatly expanded mission of the CWS involved many prob- 
lems, not the least of which, according to General Porter, was the 
effective use of all the money allotted to the service. It was necessary 
to balance funds against priority schedules and limited allocations of 
men, materials, storage space, and transportation. 
The CWS branches established by the Army in each of the overseas 
areas of war operations also dealt with problems of priorities and al- 
locations. But the CWS overseas, perhaps even more than the CWS 
at home, felt the full impact of preparing for a kind of war which 
was not being fought while contributing significantly to the war which 
was being fought. 
Administration and Manpower 
Among other things the CWS in World War II had to learn about 
the character, structure, and channels of overseas organizations. In 
spite of between-the-wars planning and training, the CWS on the eve 
of conflict was essentially as unprepared to form its overseas branches as 
it was for waging gas warfare. Part of this difficulty was the lack of 
manpower—there were not enough senior officers even to form the 
nuclei of several theater of operations staff sections. So it was that 
Colonel Copthorne went to SWPA without the support of even one 
other Regular officer. Only two other Regulars supported Colonel 
Unmacht in the Hawaiian Department. The European theater was de- 
prived of all but three of its senior CWS officers to make their ex- 
perience available for the North African forces. While nearly all of 
the leading CWS officers in the United States and overseas—Porter, 
Waitt, Rowan, Copthorne, and Shadle—highly praised the energy, 
resourcefulness, and intelligence of Reserve and temporary officers, 
most of these emergency officers, during the critical phase of the form- 
ulation of overseas organizations, were inexperienced and they lacked 
a knowledge of current policies and plans. It is a tribute to the Reserve 
and temporary officers that they learned so quickly and performed so 
well. 
A part of CWS unpreparedness to establish overseas branches 
stemmed from the changes imposed upon the Army by global warfare. 
It became impossible to have the direct communication with the 638 
THE CHEMICAL WARFARE SERVICE 
OCCWS which many officers had expected. It became necessary to deal 
with the Allies, to act within the framework of international policy. 
Although acting within this framework, most overseas chemical officers, 
with the notable exception of Shadle, found themselves set apart from 
the Allied agencies, operating even below the joint Army-Navy-Army 
Air Forces level, at the level of the Army supply services. Even in 
Shadle’s case, his presence in an Allied headquarters isolated him to 
some extent from the field agencies and to a greater extent from the 
War Department. Furthermore, there was the necessary but neverthe- 
less restrictive requirement for OCCWS to deal formally with its over- 
seas branches through ASF and OPD. 
The lack of administrative preparedness was also due in part to the 
fact that the CWS did not "fit” into the organizational patterns of 
World War II. The service was in the anomalous position of being 
both a supply and technical service; an organization which furnished 
staff advice, conceivably even in tactical and strategic fields; a service 
legally responsible for 'firing-line units; and a service equipped to do 
research in the field. Most of the other technical services had a similar 
range of responsibilities, but none was spread so thin, none had combat 
units primarily equipped with their own weapons; moreover, all other 
services had supply and service support as a primary mission. World 
War II organizational doctrine tended to categorize activities into 
those of "service” or those of "combat.” The CWS overseas never 
succeeded in persuading some field commanders that its activities and 
units, even front-line smoke generator units, were not in the supply 
and service category. 
In the face of such determined categorization, most CWS overseas 
branches worked outside or on the fringes of the official organization. 
The CWS in each area or theater became highly individualistic. In 
the European theater Rowan used his personal persuasion with com- 
mand and staff elements and his close personal ties with other CWS 
officers to maintain a unity of service and accomplish his mission. He 
and his subordinates, insofar as they were able, operated their own ad- 
ministrative system, their own intelligence activity, their own technical 
and liaison organization, and their own supply service. Such indepen- 
dence was possible only because the European theater and theater Com- 
munications Zone headquarters permitted and even encouraged it. The CWS OVERSEAS—AN EVALUATION 
639 
ASF inspectors did not approve of this independence, but without it the 
CWS ETO could not have accomplished its missions. 
The CWS administrative effort overseas most nearly like that in the 
European theater was in the Central Pacific Area. There Colonel Un- 
macht vigorously asserted CWS independence with the active concur- 
rence and support of first the senior Army headquarters and later the 
combined and joint Pacific Ocean Areas headquarters. Unmacht was 
the only overseas chief chemical officer who also commanded CWS 
troops other than the theater or area laboratory company. Unmacht 
was also the only overseas chief chemical officer who was specifically 
designated to co-ordinate and compile a joint Army, Army Air Forces, 
and Navy gas warfare plan although Rowan, as Porter’s representative, 
and Copthorne, on temporary duty in GFfQ SWPA, participated in 
both combined and joint planning while Shadle, as a staff officer in a 
combined headquarters, had advisory functions in the joint and com- 
bined field. Unmacht and his subordinates certainly maintained a very 
close connection between research and development and the firing line 
even to the extent of carrying on research, development, and manu- 
facture in the theater of operations. 
Colonel Copthorne in SWPA likewise saw that new developments 
reached combat chemical officers, but he did so in a different manner 
from that of either Rowan or Unmacht. Copthorne and his CWS 
colleagues had far fewer resources than did the CWS branches in Europe 
or the Central Pacific; they did not have as close a relationship with 
the combined and joint headquarters; and they had to contend with 
the considerable problems of enormous distances and a tropical en- 
vironment. Copthorne could not, therefore, unify his service and assert 
its independence in the same way that Rowan and Unmacht did, but 
he could co-ordinate his services by providing the mechanisms for 
understanding and common effort among field and rear area chemical 
officers. These mechanisms were area and even theaterwide confer- 
ences, the creation of a centralized area training facility, the provision 
of centralized technical intelligence activities, and a continued emphasis 
on the problems of chemical warfare in the tropics. Copthorne and 
the field chemical officers in SWPA operated in greater isolation from 
the CWS in the United States and even from their colleagues in their 
own area than did other chemical officers overseas. Their solutions 
to problems, except for the determination of tropical gas warfare doc- 
289 149 0-68—42 640 
THE CHEMICAL WARFARE SERVICE 
trine in which they co-operated with the CWS in the United States, 
were ordinarily their own. Consequently, field army, corps, and divi- 
sion chemical officers in SWPA acted as independently as did their 
colleagues anywhere else in the world, and, with one exception, they 
operated through a wider range of chemical responsibilities. This is not 
to say that they did more and better work than their colleagues else- 
where, but that they did have a more varied experience in the chemical 
field. 
The only elements having just as great a variety of chemical experi- 
ence were to be found in the field armies in North Africa, Sicily, and 
Italy. Since Shadle preferred to emphasize his own staff role and to give 
field elements their head, Colonels Barker and Guild in Fifth Army 
and Colonel Humphreville in Seventh Army found themselves, again 
by their own preference, operating a CWS of their own. Barker and 
Coblentz, in a unique partnership, carried on development and manu- 
facture and operated their own supply system. As a result, there was 
less co-ordination and unity in the CWS in the North African and 
Mediterranean theater than elsewhere in the world, but again the re- 
quired job was done. The much lesser threat of gas warfare in the 
Mediterranean area made it particularly appropriate to accomplish 
the CWS administrative task differently there. 
In summary of the worldwide CWS administrative experience, it 
can be said that every overseas branch of the CWS surveyed found some 
means of creating a service that accorded with the concepts held by 
Fries and Porter. The lot of the chemical technician in what was sup- 
posed to be a technician’s war was not an easy one, but the chemical 
technician managed to do what he was called on to do by dint of much 
improvisation and ingenuity. 
Logistics 
In logistics, as in administration, the CWS branches overseas dealt 
with the two problems of gas warfare supply and nongas warfare sup- 
ply. Also as in administration, each CWS overseas branch created its 
own supply system according to geographical environment and ac- 
cording to the kind of combat forces to be supported in its area. In 
the European theater, where the build-up of forces and materials went 
on for nearly two years before the attack, there was time to develop CWS OVERSEAS—AN EVALUATION 
641 
for chemical supply a system of centralized CWS control over a 
decentralized operation. 
The sophisticated CWS ETO credit system of distribution, while 
by no means original with the CWS, was admirably suited to a small 
service handling only a small number of fast-moving items. Since a 
combat commander using this system could ask for materials credited 
to his organization when and where convenient, the system gave the 
combat commander control over the forward movement of supplies. 
The big stumbling block was in having supplies ready for call. The 
CWS ETO distribution system, through no basic fault of the system 
itself, tended to break down when supplies were unavailable or when 
depots and dumps could not be organized and stocked as desired. When 
strains were put on the system, General Rowan and all of his subordin- 
ates, often acting informally, jumped in to make the system function 
by obtaining and moving supplies. Aided by such application of energy 
at all levels, the CWS ETO supply system for the most part did manage 
to carry on. Supply failures or near failures arose in connection with 
mortar shells, incendiary bombs, and spare parts, but in each case the 
trouble was that materials were unavailable in the United States. And 
in each case of failure or near failure the CWS ETO was able to make 
adjustments which at least eased matters. 
CWS ETO supply problems were slightly easier to handle because 
that theater had the most men and facilities. Distances were shorter 
and transportation, while nearly always in critical demand, was more 
plentiful than elsewhere in the world. North Africa was quite an- 
other story in this respect. Distances were great and existing road and 
rail nets were few and poor. These natural drawbacks, the inexperience 
of the Army in global supply at this early stage, and enemy submarine 
and air warfare helped shape the CWS NATOUSA supply system. The 
independence and isolation of CWS elements in the theater also had an 
effect. Base sections and combat organization chemical officers created 
their own supply system which eventually became the "impetus from 
the front” system. What materials Colonels Barker and Coblentz could 
not get from the theater SOS or from the United States, they manu- 
factured or reclaimed. When necessary the combat organization chemi- 
cal officers reinforced their requests for materials through command 
channels. General Shadle meanwhile handled the "impetus from the 
rear” supply system and did his part in fighting the battles of overages 642 
THE CHEMICAL WARFARE SERVICE 
and shortages. Both CWS NATOUSA-MTOUSA supply systems 
worked, but only because the chemical officers made them work against 
considerable odds. 
CWS SWPA officers were able to make their supply system work in 
the face of even greater odds. Enormous distances, chronic shortages 
of transportation and communications facilities, and the almost un- 
believable deterioration of materials in the tropical environment 
plagued them from the time combat began. For at least the first 
half of the war they could rely on the economy of neither the United 
States nor Australia to furnish enough materials in usable condition. 
They were hampered by low priorities and force-level allocations 
which did not permit building up area reserves. Again, improvisation 
and ingenuity provided the answers. Again, items were built, reclaimed, 
and rebuilt through area efforts. In SWPA the area SOS and even GHQ 
stepped in to provide procedures for forward organization and trans- 
portation. Eventually, as more ships and more equipment became avail- 
able all over the globe, the United States provided ships block-loaded for 
balanced resupply of combat forces. Area supply problems, while still 
difficult, became a simple matter of computing necessary block loads, 
of receiving, handling, and maintaining the materials in these loads. 
The War Department policy restricting the build-up of area reserves 
threatened to become a CWS problem in POA just as in SWPA, but 
shortages did not become critical because anticipated demands were 
larger than actual demands and because Hawaiian Department resources 
were large enough to allow for improvisations and substitutions. In 
POA combat supply, transport space allocation and loading were care- 
fully controlled by the area joint headquarters. The POA CWS soon 
learned to work within the joint system, and the result, admittedly 
under relatively ideal circumstances, was the smoothest CWS supply 
operation of World War II. 
Excepting the supply of toxics, which was a preparedness matter, the 
CWS managed to accomplish its major logistics mission. The overseas 
branches displayed enough ingenuity to prevent any of the supply 
shortages, except for spare parts, from becoming more than temporarily 
critical. Yet, there is little doubt that more supplies would have been 
used had the CWS been able to furnish them sooner and in greater 
quantities. For example, no area anywhere in the world was ever pro- 
vided with enough chemical mortar shells. More mortars could have CWS OVERSEAS—AN EVALUATION 
643 
been employed in most cases. Demands for white phosphorus grenades 
were frequently not met, and probably many more power-driven 
decontaminating apparatus could have been used for carrying water, 
providing showers, and the like. POA experience indicates that a flame- 
throwing tank could have been extensively employed if it had been pos- 
sible to provide an adequate model at an early date. 
Many more CWS service units could also have been employed. The 
CWS overseas could have used more maintenance units in the field, and 
experience demonstrates that chemical laboratories could easily have 
become general-purpose overseas research and development agencies. 
More decontaminating units could have been used in general services 
work, and more processing companies could have been doing laundry 
and dry cleaning. 
The use of CWS units and materials in secondary missions raised the 
question of whether it was indeed a CWS function to furnish equip- 
ment and units for these missions and whether it would have been 
practical and reasonable to provide them had they been available. 
World War II experience does not give definite answers to these 
questions or to the corollary and perhaps overriding question of 
whether the CWS should have had any logistics functions overseas. 
All the other technical services were larger and all had established 
logistics procedures. The Quartermaster Corps handled impregnated 
clothing and protective covers: why should it not handle all protective 
items? Quartermaster provided bath and laundry units: why should it 
not provide all such services? Ordnance stored and issued vast quan- 
tities of ammunition including, in some areas, chemical toxics: why 
should that service not handle all ammunition items? The Corps of 
Engineers provided and employed heavy equipment, like the chemical 
decontaminating apparatus and commercial gases: why should it not 
provide all such equipment and the attendant services? 
The tentative answer, based on World War II experience is, as Fries 
found in World War I, that these services were already overburdened 
with their responsibilities and were unable or unwilling to handle 
the detailed problems connected with chemical supply and service. 
The antigas impregnation of clothing is a highly technical and even 
hazardous process. The Quartermaster Corps in all areas was willing to 
work out a co-operative arrangement with the CWS for handling pro- 
tective clothing, but it was unwilling to undertake the impregnating 644 
THE CHEMICAL WARFARE SERVICE 
task. Since the CWS had the impregnating units, it would have been 
grossly wasteful not to use them, in the absence of gas warfare, to help 
Quartermaster with its laundry and dry cleaning. It would likewise 
have been wasteful not to use the decontaminating units and apparatus, 
which the other services would have been hard pressed to employ in 
event of gas warfare, in any way possible to improve the comfort or 
well-being of troops in the field. Ammunition supply was a thorny 
problem which at least some CWS officers felt should have been handled 
by Ordnance, particularly since the CWS frequently found gas warfare 
preparedness and planning a full time mission, and some chemical of- 
ficers did persuade their Ordnance colleagues to handle it. In most 
cases, however, Ordnance had enough to do in supplying the artillery 
and the infantry without also handling a relatively few grenades and 
smoke and mortar shells. The chemical items also posed technical prob- 
lems. Potentially explosive smoke pots could not be safely stored with 
other ordnance items, and leaking toxic munitions required expert 
attention. In the European theater, in SWPA, and in the Mediter- 
ranean area, these technical problems led Ordnance to turn over much 
of its toxic storage responsibility to CWS. In POA the toxic storage 
mission was officially transferred to CWS. In sum, the answer to the 
question of functions and responsibilities seemed to be that, since the 
CWS had to be overseas to guide preparations for gas warfare, there 
was no reason why it should not perform related secondary tasks, par- 
ticularly when training and equipment permitted CWS units to ac- 
complish certain of these tasks more expeditiously than units of its 
sister services. 
The Weapons 
The development of the large area smoke mission during World 
War II can be traced with greater precision than can that of most 
munitions. The need for concealment of extensive targets in rear areas 
arose in World War I with the introduction of bomber aircraft. In 
the period between the wars Chemical Warfare Service attempts to 
develop a way to conceal vulnerable rear area targets were made mean- 
ingful by the growing increase in the range of airplanes and by the 
development of the air arm of the Navy. But the CWS was generally 
unsuccessful in these attempts—means were not on hand for the pro- 
duction of smoke in needed amounts. And covering a target with too CWS OVERSEAS—AN EVALUATION 
645 
little smoke did nothing more, of course, than attract an enemy 
bombardier’s attention. 
Early in 1942 the CWS produced smoke apparatus which met the 
necessary requirements, the Mi mechanical generator which created 
an artificial fog not by combustion but by the condensation of water 
and oil. Its principal drawback was its 3,000-pound weight and its 
awkward size. The small, compact M2 model, which appeared in 1944, 
overcame both of these handicaps. 
Smoke generator companies first saw overseas action in Northwest 
Africa, providing screens for the ports through which flowed the men 
and material for the fight against Rommel’s and other German forces. 
In this capacity, there still prevailed the basic mission of the large area 
screen—concealment of rear area targets from observation. The smoke 
installation at Naples, the largest of the war, also concealed a vital 
harbor from the bombers of the Luftwaffe. But at about this point 
in the conflict the smoke units were given a new mission, which, by 
the end of the war, was to assume paramount importance. There were 
two reasons for this change in emphasis. As the war progressed the 
Allies gradually won control of the air, a circumstance which dimin- 
ished the need for rear area concealment. At the same time American 
troops were fighting up the boot of Italy, always, it seemed, in the 
face of superior German observation. As a consequence, smoke units 
freed from rear area duty were shifted to the forward zones. 
An effective employment of this kind of smoke screen in Italy was 
somewhat hampered by bulk and weight of the Mi generator. Smoke 
troops in France and Germany were spared this difficulty for they had 
the compact M2 generator in time to use it in support of the crossings 
of the many rivers which lay between the Americans and eventual 
victory. 
This is not to imply that the transition from rear area to forward 
area operation was easy and uncomplicated. There were lessons to be 
learned by both the supporting and the supported units and tactics 
and techniques had to be developed for the rather radical change of 
arenas. Not the least challenge was the need for smoke troops, whose 
duties changed almost overnight from rear support to action in the 
foremost areas of the combat zone, to adapt themselves to their new 
role. 
The 4.2-inch mortar brought the World War II infantryman into 646 
THE CHEMICAL WARFARE SERVICE 
closer contact with the CWS than did perhaps anything else. The 
splendid reputation of this weapon depended on a mission change 
dictated by uncertainty over the possibility of gas warfare. Originally 
designed to fire toxic chemicals and smokes, the mortar would have 
been rather expensive insurance in a gasless war. The logical step, of 
course, was the addition of the high explosive mission. Chemical 
mortar battalions thereby filled a dual capacity: they stood ready in 
the event of the introduction of gas warfare by the enemy, and they 
supported infantry units with smoke and high explosive. Although 
the gas warfare readiness of the mortar units never received the test 
of battle, there can be no doubt about the successful accomplishment 
of the second mission. Few in number and greatly overworked, the 
chemical mortar battalions served as the infantry commander’s hip 
pocket artillery, capable of placing accurate and heavy fire upon 
targets within a range of 4,000-5,000 yards. The limited number of 
units (as late as December 1944 there were only four with the 12th 
Army Group), meant that they continued in the line while a succession 
of supported units was relieved. Infantry divisions would come and 
go but the mortar units seemed part of the terrain. 
The CWS in World War II had mixed success with flame throwers, 
the portable as well as the mechanized. With regard to the mechanized 
model there was some indecision on the part of the using arm as to the 
characteristics, indeed as to the very necessity, for such a specialized 
vehicle. Moreover, in no other field of CWS endeavor was there so 
little liaison between the users in the field and the developers in the 
zone of interior. Because of this lack of liaison and because of available 
facilities and vigorous CWS people in Hawaii, the mechanized flame 
thrower support in at least one Pacific area came principally from local 
sources, not from the United States. And this support resulted in the 
most effective combat employment of the mechanized flame thrower 
in the war. 
The war against Japan also saw the most effective use of the portable 
flame thrower. Reasons for the usefulness of flame weapons in the 
Pacific are not hard to find. American forces found themselves con- 
fronted by a stubborn enemy who was taught to believe that death for 
the Emperor was something worthy of aspiration. This kind of enemy 
ensconced in skillfully constructed fortifications would not be routed 
by artillery and mortar fire. Quite often the flame thrower, capable CWS OVERSEAS—AN EVALUATION 
647 
of delivering a lethal stream of fire through narrow apertures, was 
the only effective weapon for use against these formidable defenses. 
It must also be remembered that much of the fighting in the early 
days of the Pacific war took place in jungle terrain, and the resulting 
concealment enabled the operator to carry his bulky, easily recognized 
portable flame thrower much closer to the enemy without being 
observed. Credit must be given to CWS staff officers and service 
troops who, by the formulation of tactical doctrine and by the appli- 
cation of maintenance procedures, were instrumental in making the 
portable model the effective munition it was. 
The war against Germany was a different story, for neither the 
mechanized nor the portable flame throwers contributed much to that 
phase of the conflict. European battlefields and German defenses were 
often typified by excellent fields of fire which boded ill for the rela- 
tively short range of both types of flame weapon. In Europe, unlike 
in the Pacific, no situation ever arose wherein the flame weapon provided 
a vital key in overcoming the enemy. Consequently, there was no 
impetus for overcoming the weapon’s initial drawbacks—short range, 
lack of tactical doctrine, problems of maintenance, and the lack of 
knowledge on the part of the using arms. 
The incendiary bomb had the distinction of being one of the most 
effective munitions employed strategically by United States forces in 
World War II. Ranging from a compact 4-pound, metallic model to 
an oil-filled 500-pounder, these bombs, developed and procured by 
the CWS and employed by the Army Air Forces, wrought almost un- 
paralleled destruction. The fire bomb, the tactical corollary of the 
incendiary, proved effective when dropped by fighter-bomber aircraft 
on a variety of targets in the forward areas. 
The Army Air Forces expended nearly a quarter-million incendiary 
and fire bombs on German and Japanese targets. The accounts of the 
devastation resulting from incendiary missions leave no doubt as to 
the important part played by these munitions in achieving Allied 
victory. Because of a long-standing faith in high explosives and 
because of defects in some of the early bombs, the Air Forces was slow 
to accept the new munition. Indeed, it was not until the last six 
months of the war that the aerial incendiary really came into its own. 
Back of this record were two important factors. First, the stress of 
war eliminated certain peacetime lethargies and led to the development 648 
THE CHEMICAL WARFARE SERVICE 
of some good, even ingenious, incendiary bombs. And second, coura- 
geous operational leadership, exemplified by the role of General LeMay, 
proved beyond all doubt the importance of the aerial incendiary. 
To attempt to select the most important reason for Japan’s capitu- 
lation is to tread uncertain ground. Many factors were involved, the 
atomic explosions over Hiroshima and Nagasaki being by far the most 
spectacular. Yet, the testimony of Japanese leaders and the mute 
evidence of her burned-out cities certainly point to the incendiary 
campaign of the XXI Bomber Command as an important element in 
the defeat of Japan. 
Readiness for Gas Warfare 
There is no easy measurement for CWS overseas accomplishments 
in gas warfare preparedness since plans, men, and materials were not 
put to the test. It is possible to assess the factors upon which chemical 
officers during World War II believed preparedness depended. The 
first of these factors was an administrative and organizational pattern 
which would have permitted chemical officers to function in all their 
areas of interest from tactical and strategic advice to decontamination 
service in the field. 
Administratively and organizationally the CWS was only partially 
prepared for gas warfare. In Europe, while the chief chemical officer 
held a staff position under the theater commander, he did not have 
a position in the supreme tactical and strategic headquarters, SHAEF. 
Colonel St. John’s presence in SHAEF would have helped so far as 
the function of providing advice is concerned, but his lack of a direct 
and formal channel to the chief chemical officer might have proved a 
handicap. The informal relationship which existed between Rowan 
and the air chemical officers and between Rowan and the United States 
Navy officers with interests in the chemical field would probably have 
served as a basis for co-operative effort among the U.S. forces. 
General Shadle, from his position in the combined headquarters, 
AFHQ, would have been able to co-ordinate both Allied and American 
gas warfare activities in the Mediterranean area. Colonel Copthorne 
in SWPA would undoubtedly have had a tough problem in making the 
necessary expansion into USAFFE and GHQ since he lacked the 
required staff and since his relationships with the Allies and even CWS OVERSEAS—AN EVALUATION 
649 
the Army Air Forces and the U.S. Navy were informal and tenuous 
at the best. 
Colonel Unmacht, enjoying the confidence and support of his Army 
commander, and from 1943 as official co-ordinator of POA chemical 
planning for all forces, would have been in as good a position as Shadle’s. 
Unmacht’s drawback would have been his lack of staff officers. 
In all areas, army group, army, corps, and division, chemical officers 
would in most cases have been ready for the administrative load of gas 
warfare. Only the advent of such warfare could have tested Rowan’s 
contention that the secondary and unrelated tasks performed in the 
absence of gas warfare would in most instances lessen the readiness and 
effectiveness of the chemical staff officers. It would probably have 
been necessary to augment chemical sections at all levels, but it seems 
likely that officers and men of other arms and services could have 
been diverted from tasks of lower priority in the case of gas warfare. 
Below the division level the inauguration of gas warfare would likely 
have resulted in a wild scramble to select, train, and retrain unit gas 
officers and unit gas noncommissioned officers, but, in view of the 
fact that nearly every soldier received some gas warfare training, the 
roster should soon have been filled. More chemical mortar battalions 
and chemical service units would certainly have been required, but, 
assuming a high priority for gas warfare activities and the availability 
of equipment, other units could have been converted, possibly in a 
matter of days, probably in a matter of weeks. Areas having a lesser 
variety of units and a smaller total strength would have been hard 
put to find units for conversion since the advent of gas warfare would 
probably have intensified rather than lessened other forms of combat. 
The second factor regarded by chemical officers as basic in gas war- 
fare preparedness—training—was from the CWS point of view the 
least difficult preparedness activity to handle. The theater school in 
Europe, the area CWS school in SWPA, the army schools in the 
Mediterranean area, and Unmacht’s series of courses in POA provided 
chemical training for thousands of soldiers. Most of these trainees 
would have required refresher courses were it not for the fact that, 
as a senior technical services officer told a chemical officer in Europe, 
soldiers learn fast and remember well when their lives depend on 
learning. These area schools and combat and service organization 
schools could have been quickly expanded with a minimum of effort, 650 
THE CHEMICAL WARFARE SERVICE 
because most CWS officers and men, at least in the combat organiza- 
tion chemical sections, had some experience in conducting chemical 
training. Since few chemical officers ever believed they had been 
allotted enough training time, most had prepared short courses which 
they were ready to present in almost any location on almost no notice. 
The third factor in preparedness—intelligence—was one which pre- 
sented many difficulties. There had been no active Army intelligence 
agency in the United States before World War II. The Office of the 
Assistant Chief, WDGS, G-z, was so restricted that it could not even 
begin to meet the demands for all sorts of technical intelligence until 
late in the war. By that time the technical services had trained and 
sent out their own teams or had, like Colonel Copthorne, activated teams 
overseas. These teams and combat chemical officers did an outstanding 
job of collecting enemy equipment, and the various theater and area 
laboratories produced complete analyses. The indications were that 
the enemy, both Germans and Japanese, were defensively well prepared. 
Direct evidence of German or Japanese intentions on use of gas was 
lacking. 
While technical intelligence was well done, it was not enough. Only 
the British and the U.S. Office of Strategic Services were able to gather 
more direct information. Their reports were useful but fragmentary, 
incomplete, and misleading. There were rumors of a new German 
gas, but neither British or Americans even guessed at the composition, 
toxicity, and possible means of employment of the German organo- 
phosphate compounds, the so-called G or nerve agents, until some 
toxic munitions were captured at the close of the war. The intelligence 
agencies reported stocks of German toxics in France before the invasion, 
but none were found until Allied troops reached the German homeland. 
In sum, the enemy never discovered Allied intentions and the Allies 
never discovered enemy intentions. It was cold comfort to CWS 
officers to know at the end of the war that enemy intelligence was no 
better than American. 
Planning was the fourth factor bearing on gas warfare preparedness. 
The early theater gas warfare plans, required by the War Department 
in December 1942, were poor because not enough was then known 
about the character of World War II fighting to make adequate plans, 
and because materials and chemical units had not yet been provided in 
sufficient quantity to form a basis for planning. In the next two years CWS OVERSEAS—AN EVALUATION 
651 
the plans became detailed and specific, and in most areas they originated 
in or were approved by the highest Allied headquarters. Plans were 
therefore comprehensive. These theater plans almost never reached 
or were known to chemical officers in the field. It is consequently not 
possible to judge whether field chemical officers believed the plans could 
be carried out in event of gas warfare. Since some plans, like those in 
POA, actually identified target areas and since the logistics and oper- 
ational requirements were carefully checked by overseas staffs and 
OCCWS, it seems probable that plans were both realistic and feasible. 
But, however good the plans were, they were only as good as the 
supply of gas munitions for retaliation. 
Supply was the fifth and probably most important factor in gas 
warfare preparedness. After the first year of the war the supply of 
gas masks was ample in all areas of the world. That supply improved 
further with the provision of the new lightweight mask late in 1943 
and early in 1944. The CWS produced enough protective clothing 
in the United States or overseas to furnish reasonable protection by 
late 1943. Protective clothing resupply, especially in SWPA, could 
have been delivered by air only through high priority, but such priority 
could probably have been obtained. Even had delivery been slow in 
coming, all units could have reimpregnated their own clothing in the 
field in an emergency. Collective protection and decontamination 
would probably have been inadequate according to World War II 
standards, but some CWS officers, including General Porter, maintained 
that the standard was unrealistically high. In the opinion of these 
officers, it would have been necessary to bypass areas heavily contami- 
nated with persistent gases in any case, so that the need for decontami- 
nation would be confined to strategic roads, airfields, and supply points. 
The supply of toxic agents overseas admittedly amounted only to 
token quantities. At the time of President Roosevelt’s 1942 pronounce- 
ment, his threatened swift retaliation for enemy initiation of gas war- 
fare would have been impossible. The fourteen days of aerial toxic 
munitions in Europe after the fall of 1943 represented a substantial 
first-strike capability, but for resupply, air delivery on high priority 
would have been necessary. By the time of the Rapido and Winter 
Line operations in Italy early in 1944, the U.S. forces possessed enough 
toxic munitions to lay alternate bands of persistent and nonpersistent 
gases most of the way across the Italian peninsula. Again, resupply 652 
THE CHEMICAL WARFARE SERVICE 
would have been by air. In the Pacific areas first-strike capabilities 
were even lower—with toxic munitions supplies in POA equal to an 
attack on an area the size of Iwo Jima and in SWPA to but five days’ 
operation. Porter and Waitt, along with USCWS officers, were confi- 
dent that these token amounts would have served for initial retaliation 
and that aircraft and fast ships could have created a resupply pipeline. 
Under their plan, stocks in the United States would have sustained the 
overseas offensive until new stocks could have been built up. They 
calculated that U.S. enemies would not have been able to initiate gas 
warfare on all fronts at the same time, and that gas warfare initiated 
in the Pacific could have been confined to a small area for a considerable 
period. 
Why Gas Was Not Used 
Why was gas not used in World War II? To pin down all the 
reasons is difficult if not impossible. Some of the factors were not 
constant; they underwent alterations as the war progressed and situa- 
tions changed. Different factors affected different nations. 
The principal factor deterring the United States from initiating 
gas warfare was clearly national policy. Although the United States 
was not a party to any international agreement outlawing gas warfare, 
its policy throughout World War II was set in precise terms. Twice 
during the early years of the conflict President Roosevelt categorically 
stated that the United States would use gas only in retaliation against 
an enemy nation using it. This statement by the President and Com- 
mander in Chief became the official United States position throughout 
the war. The United States policy on gas was, in fact, largely deter- 
mined by the deep feeling of its President about that particular kind 
of warfare.1 
But other elements enter the picture. Notwithstanding the tre- 
mendous influence of President Roosevelt and his predominant place 
in policy and decision making, military leaders would have presented 
arguments in rebuttal had they entertained any deep-seated doubt as 
to the wisdom of the Presidential point of view. But, with the excep- 
1 Roosevelt, in vetoing a 1937 bill aimed at changing the name of the Chemical Warfare Service 
to Chemical Corps, wrote: "It has been and is the policy of this government to do everything in its 
power to outlaw the use of chemicals in warfare. Such use is inhuman and contrary to what modern 
civilization should stand for. . . .” See Brophy and Fisher, Organizing for War, pp. 21-22. CWS OVERSEAS—AN EVALUATION 
653 
tion of minor stirrings near the end of the war, gas warfare had no 
advocates in high places. 
Military reluctance began with the experience of the AEF in World 
War I. Despite the excellent leadership of General Fries, it would 
appear that many of the higher unit staffs and commanders placed 
little reliance on the gas arm, in sharp contrast to their German, 
British, and French counterparts. Incidents demonstrating the reluc- 
tance of some unit commanders to employ gas for fear of retaliation 
and the possible injury to friendly troops have already been related. 
A survey of the records of First Army indicate that a real under- 
standing of the use of gas, particularly persistent, did not occur until 
late in the war. For example, the initial First Army field order for 
the St. Mihiel operation included no gas plan whatsoever. And although 
First Army used gas effectively in the Meuse-Argonne fighting, there 
is nothing in the records to indicate that its corps and divisions were 
aware of an over-all plan.2 
It will be remembered that in the fight for a permanent CWS, 
General Fries found support in Congress, industry, and civil servants— 
not in the Army. Generals Pershing and March both opposed the 
creation of a chemical service. There is no evidence to suggest that 
top commanders ever acquired much faith in gas warfare. In fact, 
it is hard to believe that the War Department in the period between 
the wars would have reduced CWS activities to those of a primarily 
defensive nature had it had faith in gas warfare. 
Another factor to be considered in reviewing American gas warfare 
policy is the part played by public opinion. There can be no doubt that 
gas warfare emerged from World War I with the reputation of a 
horror weapon even when field experience did not substantiate this 
view. Although reasons for this reputation are varied, one source of 
opprobrium could very well have been the Allied propaganda program 
waged against the German introduction of large-scale gas warfare. 
The pros and cons on gas were also debated at the time of the two 
international conventions of the 1920’s which considered its status in 
the realm of international law. While that status was not officially 
determined as far as the United States was concerned, the deliberations 
2 Rexmond C. Cochrane, The 78th Div at the Kriemhilde Stellung, Oct x8, Study 2, U.S. Army 
CmlC Hist Studies, Gas Warfare in World War I, Jul 57, pp. 76-78. Cochrane states that no Army, 
corps, or division record examined makes mention of the most important Army gas decision—the use 
of mustard on the flanks and drive through the center. 654 
THE CHEMICAL WARFARE SERVICE 
within these conventions could hardly have been without influence in 
a world turning toward pacifism. Little evidence has yet been produced 
to show that public opinion actually was a positive force contrary to 
gas warfare, but the important thing is that public opinion was 
believed to be contrary to gas warfare. President Roosevelt, usually 
an astute judge of the public temper and a leader of public opinion, 
certainly encountered no widespread opposition to his pronouncements 
on gas warfare. 
Whatever the reasons, American military leaders paid little attention 
to gas in World War II. In the early years of the war, it would have 
been an unwise risk because the enemy had been on a wartime footing 
much longer and had a trump card in air superiority. Besides, two 
decades of neglect could not be undone overnight, and the American 
wherewithal for offensive gas warfare was slim, indeed. Later, when 
the tide turned in favor of the Allies, it seemed unnecessary to intro- 
duce gas. The war was being won without it. The greatest pause for 
reflection on the employment of gas took place after the series of 
costly American victories in the war against Japan. Use of gas was 
contemplated to overcome stubborn Japanese defenses and thus reduce 
American assault casualties, but the war ended before any positive 
action arose.3 
The British gas policy during the war was based on the same principle 
as that of the United States—retaliation. In the early days of the 
conflict, the lack of an offensive capability and the predominance of 
the Luftwaffe (and consequent vulnerability of British cities) per- 
mitted no alternative to this policy. Britain would have been unlikely 
to change her policy as long as German air attacks continued on 
England. These attacks were followed, after the Luftwaffe became 
ineffective, by German missile bombardment nearly to the end of 
1944. By this time the Allies had long been on the offensive. Apparently 
many British military leaders shared the idea common among the 
belligerents that gas was a weapon to be used only in defensive or 
static operations. Even had commanders welcomed the employment 
of gas in the assault, its use would have brought further strains upon 
the overburdened British economy. While gas defensive preparations 
improved in the United Kingdom throughout the war and while she 
maintained a small retaliatory capacity to complement that of the 
8 See Brophy and Fisher, Organizing for War, pp. 86-88. CWS OVERSEAS—AN EVALUATION 
655 
United States, all-out gas warfare would have required significantly 
increased effort. Furthermore, the British, who had ratified the Geneva 
Protocol and had reaffirmed this stand in 1939, felt that international 
agreement prohibited their initiation of gas warfare. 
Although Germany had no policy prohibiting the employment of 
gas warfare during World War II, there was a strong trend of official 
opinion against German initiation of gas warfare. This trend was 
based on several constant factors and a series of factors which arose 
from appraisals of Germany’s situation during various periods of the 
war. 
The constant factors were: (1) Hitler had a personal antipathy to 
gas warfare; (2) the military High Command and the field com- 
manders devoted their attention to strategy, tactics, and weapons which 
excluded gas warfare; (3) the High Command believed that inter- 
national public opinion would be outraged should Germany become 
a gas warfare aggressor in contravention of international agreements. 
Given the Axis record, it is doubtful that the public opinion factor 
would have had much weight in a decision not to wage gas warfare 
had the military situation been favorable to its use. 
At no time during World War II, in the opinion of the German 
military leaders, was the situation favorable for the initiation of gas 
warfare. In the early period of the war when both ground and aerial 
blitzkrieg tactics were so successful, gas warfare either would have 
hampered the German advance or would have posed technical and 
logistical problems which Germany was not then prepared to face. 
Later, when Germany was forced into the defensive, the use of gas 
would have been decidedly to Germany’s advantage, especially in the 
defense of the continental coast. But by this time (1944-45) the Allies 
had air superiority, and German leaders feared decisive retaliation in 
kind against the German homeland. The Germans estimated correctly, 
as a captured German general told General Shadle, that Allied, and 
particularly American, defensive equipment was far superior to the 
German (Germany had no large stock of protective clothing, for 
example). The Germans apparently overestimated Allied offensive 
capabilities, and they apparently believed that the Allies, like them- 
selves, had discovered new gases. In both stages of the conflict, logistics 
played an important part in the German decision not to wage gas 
warfare. Early in the war, Germany had neither gases nor gas troops 
289-149 0-68—43 656 
THE CHEMICAL WARFARE SERVICE 
in any appreciable quantities. Later in the war, the toxic stockpile 
was adequate for defensive action, but the transportation and com- 
munications systems were strained to the point of collapse, and on 
some occasions did break down. Also, it was questionable whether 
overburdened German industry could manufacture gases rapidly 
enough and in sufficient quantity to sustain gas warfare both offen- 
sively and defensively on all fronts. 
As in the case of Germany, the reasons for the failure of Japan to 
initiate gas warfare in World War II are varied and complex. There 
was no moral compunction on the part of the Japanese for not using 
gas; they had used it in isolated cases against the Chinese. Early in the 
war, forging ahead against little resistance, the Japanese had no reason 
to use gas. When the Japanese began to experience reverses, they did 
so in areas which could well have called for gas warfare; mustard gas 
would have been appropriate for use by troops retreating through a 
jungle terrain. But by this time the Japanese faced enormous shipping 
problems. A logistical system which failed to provide food for 
Japanese troops in New Guinea could hardly have supported gas 
warfare. Later, the predominance of American air power must have 
been another factor in Japan’s decision not to resort to gas. Japanese 
civilians were ill prepared to defend themselves against gas attacks, 
and B-29’s on the Marianas were within easy range of the homeland. 
Although early in the conflict the Japanese had the resources and 
facilities for producing war gases, these diminished as the years wore on. 
After the war U.S. investigators found that the Japanese were poorly 
prepared for modern large-scale chemical warfare, offensive or de- 
fensive. Rather limited amounts of war gases were on hand. 
Had Allied intelligence been able to divine the intentions of the 
Germans and Japanese, a large portion of Allied preparations for gas 
warfare might have been abandoned. On the other hand, if the Allies 
had been any less prepared than they were, the Germans might have 
used—and General Bradley felt that this would have been decisive—a 
light sprinkling of persistent gas on Omaha Beach. Although lacking 
sustained offensive capability, the Japanese could have put an equally 
decisive sprinkling of mustard on the approaches to Buna and Gona 
or on the Lingayen beaches. If the Japanese had not believed their 
homeland vulnerable to gas, they might have launched a kamikaze gas 
attack on the storm-battered U.S. Navy force off Okinawa. It is CWS OVERSEAS—AN EVALUATION 
657 
therefore probable that United States gas warfare preparedness in 
World War II was worth the effort. Certainly the nongas warfare 
efforts of the CWS justified the activities of the service. The incendiary 
bomb was the mainstay of the aerial assault on the Japanese homeland. 
In acknowledgment of its contribution, the chemical mortar became 
an infantry weapon following the war. Artificial smoke often proved 
a great boon in Korea, and the Marine Corps entered the Korean 
battles with World War II CWS flame tanks assembled in Hawaii. 
General Porter sums up the World War II CWS experience by saying 
that the CWS maintained a strong service which contributed to the war 
effort everywhere—from the laboratory to the fighting line. The 
"Chemicals in Combat” did their job so well that in 1946 the service 
was redesignated the United States Army Chemical Corps and fully 
accepted by the Military Establishment. Bibliographical Note 
Despite a measure of War Department standardization during World 
War II, little consistency was found in the zone of interior or theater 
of operations records relating to the Chemical Warfare Service in 
World War II. Sources of great importance for one overseas area 
would prove useless or nonexistent for another. Consequently, while 
administration and organization records proved most fruitful, portions 
of this work depend heavily on historical reports, monographs, studies, 
secondary works, and interviews. 
The following is a listing of the archives with an indication of the 
collections used: 
Military Branch, Federal Records Center, General Services Adminis- 
tration, Region No. 3, Alexandria, Virginia—Files of the Office, Chief 
of the Chemical Warfare Service. These files are cited by using the 
prefix CWS in the file number. CWS 314.7 and CWS 319.1, properly 
a part of this collection, are temporarily in the custody of the Office 
of the Historian, U.S. Army Edgewood Arsenal (formerly U.S. Army 
Chemical Corps Historical Office), and will be transferred to official 
archives. 
Office of Military Archives, National Archives and Records Service— 
Files of Operations Division and G—4 Division, WDGS; files of Army 
Service Forces; overseas unit and organization historical files. File 
number citations for WDGS records are prefixed by the abbreviated 
designation of the specific staff division; those for Army Service Forces 
by the letters, SOS or ASF. Although the War Department Adjutant 
General’s Office was a part of the ASF organization, references to the 
files for that office are cited with the prefix AG. Overseas unit and 
organization historical files are not arranged by the normal Army 
decimal file system, but are cited by the abbreviated unit or organiza- 
tion designation. 
Kansas City Records Center—Unit and organization administrative, 
decimal files. These records are identified in citations by abbreviated 
unit or organization designation and the decimal file number. They 
can be distinguished from unit and organization historical files in 
Office of Military Archives, National Archives, by the presence of the 660 
THE CHEMICAL WARFARE SERVICE 
decimal file number. Several forays were made into the Kansas City 
collection; the most notable find there were the records of the Chemical 
Section, Headquarters, North African-Mediterranean Theater of 
Operations. 
Archives of the Air University—Army Air Forces unit and organi- 
zation records, including administrative, decimal files, and draft his- 
tories. Citation is in the same form as those for ground, service, and 
headquarters organizations and units. 
The Marine Corps Archives—Marine Corps unit and organization 
reports. Citation is in same form as Air Forces and ground units and 
organizations. 
A number of monographs, studies, technical reports, draft histories, 
and published histories proved to be invaluable for background ma- 
terial, for basic information, and for clues to the location of archival 
sources. Some of these monographs and studies were prepared by the 
U.S. Army Chemical Corps Historical Office and are now available 
in the Office, Chief of Military History. Among these, particular note 
should be made of the World War II series, especially Dr. Paul W. 
Pritchard’s Smoke Generator Operations in Mediterranean and Euro- 
pean Theaters of Operations (Study No. i); History of German 
Chemical Warfare in World War II, Part I, Military Aspects, by 
Generalleutnant Herman Ochsner (Study No. 2) ; and Lt. Col. Leonard 
L. McKinney’s two studies, Portable Flame Thrower Operations in 
World War II (Study No. 4) and Mechanized Flame Thrower Oper- 
ations in World War II (Study No. 5). Particularly useful among the 
draft or partially completed Chemical Corps studies are: Paul W. 
Pritchard, Ben R. Baldwin, and Alfred J. Bingham, Readiness for Gas 
Warfare in Theaters of Operations, and Ben R. Baldwin, Operational 
History of the Chemical Battalions and the 4.2-inch Mortar in World 
War II, Parts I and II, the Sicilian and Italian campaigns. Rexmond C. 
Cochrane’s series of monographs on gas warfare in World War I were 
also used. 
The Office, Chief of Military History, provided several other groups 
of studies and histories. The Army Service Forces monographs on 
logistical problems were of great assistance as was the History of Allied 
Force Headquarters. The histories and after action reports of a 
number of organizations and units from army groups to chemical 
mortar battalions and even service units were extensively used. In the BIBLIOGRAPHICAL NOTE 
661 
group was also the Logistical History of the North African Theater 
of Operations-Mediterranean Theater of Operations. The unpub- 
lished group included draft histories of communications zone, base 
section, and base organization, especially for the North African-Medi- 
terranean theater and the Southwest Pacific area. The prize of the 
unpublished group, from the CWS point of view, is the History of the 
Chemical Section, U.S. Army Forces Middle Pacific and Predecessor 
Commands. This history provides considerably more information on 
that area than does any other source, and, except for gaps in treating 
preparedness, it is amazingly comprehensive. 
The CWS technical reports, along with many evaluations of muni- 
tions and plans, both for the United States and its Allies, were deposited 
in the Technical Library, Army Chemical Center, Md., and have been 
identified and described in From Laboratory to Field.1 The best World 
War I source, pending the preparation of an official volume on gas 
warfare in World War I, is the draft History of the Chemical Warfare 
Service, American Expeditionary Forces. Copies of this study are 
available in the Technical Library and in the Office of the Historian, 
U.S. Army Edgewood Arsenal. Finally, as regards monographs and 
studies, special note should be made of the excellent Marine Corps series 
on operations in the Pacific. Also worthy of special note is the American 
Forces in Action series, which has been useful although documented 
and more complete accounts have in most instances appeared in the 
series UNITED STATES ARMY IN WORLD WAR II. The volumes 
published in this series have proved invaluable, and the following have 
been particularly important: 
Roy E. Appleman, James M. Burns, Russell A. Gugelar, and John 
Stevens, Okinawa: The Last Battle (Washington, 1948). 
Martin Blumenson, Breakout and Pursuit (Washington, 1961). 
Joseph Bykofsky and Harold Larson, The Transportation Corps: 
Operations Overseas (Washington, 1957). 
Ray S. Cline, Wdshington Command Post: The Operations Division 
(Washington, 1951). 
Philip A. Crowl, Campaign in the Marianas (Washington, i960). 
and Edmund G. Love, Seizure of the Gilberts and Marshalls 
(Washington, 1955). 
1 Brophy, Miles, Cochrane, From Laboratory to Field, pp. 455-58. 662 
THE CHEMICAL WARFARE SERVICE 
Gordon A. Harrison, Cross-Channel Attack (Washington, 1951). 
George F. Howe, Northwest Africa: Seizing the Initiative in the 
West (Washington, 1957). 
Richard M. Leighton and Robert W. Coakley, Global Logistics and 
Strategy, 1940-1943 (Washington, 1955). 
Charles B. MacDonald, The Siegfried Line Campaign (Washington, 
1963). 
Maurice Matloff and Edwin M. Snell, Strategic Planning for Coali- 
tion Warfare, 1942—194} (Washington, 1953). 
Maurice Matloff, Strategic Planning for Coalition Warfare, 1943- 
1944 (Washington, 1959). 
John Miller, jr., CARTWHEEL: The Reduction of Rahaul (Wash- 
ington, 1959). 
, Guadalcanal: The First Offensive (Washington, 1949). 
John D. Millett, The Organization and Role of the Army Service 
Forces (Washington, 1934). 
Samuel Milner, Victory in Papua (Washington, 1957). 
Louis Morton, The Fall of the Philippines (Washington, 1953). 
Forrest C. Pogue, The Supreme Command (Washington, 1954). 
Roland G. Ruppenthal, Logistical Support of the Armies, Volume I 
(Washington, 1953). 
, Logistical Support of the Armies, Volume II (Washington, 
1959)- 
Robert Ross Smith, The Approach to the Philippines (Washington, 
1953)- 
, Triumph in the Philippines (Washington, 1963). 
Alvin P. Stauffer, The Quartermaster Corps: Operations in the War 
Against Japan (Washington, 1956). 
In addition to these published works, the authors also consulted 
Robert W. Coakley and Richard M. Leighton, Global Logistics and 
Strategy, 1944-1945, a volume in preparation for the series UNITED 
STATES ARMY IN WORLD WAR II. 
Other secondary works consulted were: 
Horatio Bond, ed., Fire and the Air War (Boston: National Fire 
Protection Assn., 1951). 
General Omar N. Bradley, A Soldier’s Story (New York: Henry 
Holt and Company, Inc., 1951). 
1959). BIBLIOGRAPHICAL NOTE 
663 
Wesley Frank Craven and James L. Cate, eds., "The Army Air 
Forces in World War II,” especially vol. II, Europe: TORCH to 
POINTBLANK, August 1942 to December 1943 (Chicago: Univer- 
sity of Chicago Press, 1949); vol. Ill, Europe: ARGUMENT to V-E 
Day, January 1944 to May 1943 (Chicago: University of Chicago 
Press, 1951); vol. V, The Pacific: MATTERHORN to Nagasaki, 
June 1944 to August 1943 (Chicago: University of Chicago Press, 
1953)• 
General Walter Krueger, From Down Under to Nippon (Washing- 
ton: Combat Forces Press, 1953). 
Harold Riegelman, Caves of Biak (New York: Dial, 1955). 
C. H. Foulkes, "Gas!” The Story of the Special Brigade (Edinburgh 
and London: W. Blackwood & Sons, 1934). 
Amos A. Fries and Clarence J. West, Chemical Warfare (New York: 
McGraw-Hill, 1921). 
Rudolph Hanslian et al., Der Chemische Krieg (3d ed., Berlin: 
Mittler, 1939). 
Victor Lefebure, The Riddle of the Rhine (New York: The Chem- 
ical Foundation, 1923). 
Alden H. Waitt, Gas Warfare (New York: Duell, Sloan and Pearce, 
1942). 
Henri le Wita, Autour de la Guerre Chimique (Paris: Tallandier, 
1928). 
The authors, with the assistance of other members of the U.S. Army 
Chemical Corps Historical Office staff, interviewed or corresponded 
with as many overseas CWS officers as could be contacted. While the 
quality of these interviews varied greatly from individual to individual, 
most were very helpful. Those which have been cited, and many others 
used to provide general background material, are presently filed in the 
Office of the Historian, U.S. Army Edgewood Arsenal. Copies will be 
included in the permanent historical files when those files are trans- 
ferred to official archives. List of Abbreviations 
AA Antiaircraft 
AAR After action report 
ACCWS Assistant Chief, Chemical War Service 
ACmlC Army Chemical Center 
ACofS Assistant Chief of Staff 
ADSEC Advance Section, Communications Zone 
ADSOS Advance Services of Supply 
Adv Advance 
AEAF Allied Expeditionary Air Forces 
AEF American Expeditionary Forces 
AF Air Force 
AFFIQ Allied Force Headquarters 
AFMIDPAC U.S. Army Forces, Middle Pacific 
AFPAC U.S. Army Forces, Pacific 
AFSC Air Force Service Command 
AG Adjutant General 
AGF Army Ground Forces 
AGWAR Adjutant General, War Department 
Amphib Amphibian; amphibious 
AO Air officer 
ASC Air Support Command 
ASF Army Service Forces 
ASP Ammunition supply point 
BADA Base Air Depot Area 
BAR Browning automatic rifle 
Bomb Bombardment 
BW Biological warfare 
ca. circa 
CCWS Chief, Chemical Warfare Service 
CENPAC Central Pacific Area 
CG Commanding general 
CinC Commander in Chief 
CINCPAC Commander in Chief, Pacific Fleet 
CINCSWPA Commander in Chief, Southwest Pacific Area 
CCmlO Chief chemical officer 
CM-IN Classified message, incoming 
Cml Chemical LIST OF ABBREVIATIONS 
665 
CmlC Chemical Corps 
CMLHO Chemical Corps Historical Office 
CmlO Chemical officer 
CM-OUT Classified message, outgoing 
CPBS Central Pacific Base Command 
CO Commanding officer 
Co Company 
CofOrd Chief of Ordnance 
CofS Chief of Staff 
CofT Chief of Transportation 
Comdr Commander 
COMINCH Commander in Chief, U.S. Fleet 
COM2 Communications Zone 
CON AD Continental Advance Section 
Conti Control 
Corresp Correspondence 
COSSAC Chief of Staff to the Supreme Allied Commander 
CP Command post 
CPBC Central Pacific Base Command 
CTF Center Task Force 
CWS Chemical Warfare Service 
CWSO Chemical Warfare Service Officer 
CWTC Chemical Warfare Technical Committee 
DA Department of the Army 
DANC Decontaminating agent, noncorrosive 
DCCWS Deputy Chief, Chemical Warfare Service 
DF Disposition form 
Dir Director 
Dist District 
Distr Distribution 
EBS Eastern Base Section 
EEIST Enemy equipment intelligence service team 
ETO European Theater of Operations 
ETOUSA European Theater of Operations, U.S. Army 
ExO Executive officer 
FEC French Expeditionary Corps 
FECOMZ Forward Echelon, Communications Zone 
FETU Far Eastern Technical Unit 
FM Field manual 
FS CWS symbol for a solution of sulphur trioxide in chlorosulfonic 
acid, a smoke mixture 
FUSA First U.S. Army 666 
THE CHEMICAL WARFARE SERVICE 
FUSAG First U.S. Army Group 
G—1 Personnel section of divisional or higher staff 
G—2 Intelligence section of divisional or higher staff 
G-3 Operations section of divisional or higher staff 
G-4 Supply section of divisional or higher staff 
GHQ General Headquarters 
GO General Orders 
Gp Group 
HC Symbol for hexachlorethane, a smoke mixture 
HE High explosive 
Hist Historical 
Hq Headquarters 
Incl Inclosure 
Ind Indorsement 
Instr Instruction 
Intell Intelligence 
Interv Interview 
IOM Interoffice memo 
Lab Laboratory 
LCI Landing craft, infantry 
LCI(A) Landing craft, infantry (ammunition) 
LCM Landing craft, mechanized 
LCT Landing craft, tank 
LCVP Landing craft, vehicle and personnel 
Lib Library 
LST Landing ship, tank 
LVT Landing vehicle, tracked 
LVT(4) Landing vehicle, tracked, unarmored 
Maint Maintenance 
MBS Mediterranean Base Section 
Mil Military 
Min Minutes 
MPR Monthly progress report 
MSR Material status report 
MTOUSA Mediterranean Theater of Operations, U.S. Army 
NATO North African Theater of Operations 
NATOUSA North African Theater of Operations, U.S. Army 
NCO Noncommissioned officer 
NDRC Nation Defense Research Committee 
NYPE New York Port of Embarkation 
OCCWS Office of the Chief of the Chemical Warfare Service 
OCS Officer candidate school LIST OF ABBREVIATIONS 
667 
Off Office 
OP Observation post 
OPD Operations Division 
Opn Operation 
Ord Ordnance 
Orgn Organization 
OSRD Office of Scientific Research and Development 
PBS Peninsular Base Section 
PCD Panama Canal Department 
Per Periodic 
Pers Personal; Personnel 
Phila Philadelphia 
POA Pacific Ocean Areas 
POW Prisoner of war 
PROCO Projects for continental operation 
Proj Project 
PT Patrol boat, motor torpedo boat 
RAF Royal Air Force 
Red Record 
RCT Regimental combat team 
Rpt Report 
Rqmts Requirements 
S-3 Operations officer or section of regimental or lower staff 
Sec Section 
Serv Service 
SG Smoke generator 
SHAEF Supreme Headquarters, Allied Expeditionary Forces 
SOLOC Southern Line of Communications 
SOPAC South Pacific Area 
SPEC South Pacific Base Command 
SPOBS Special Observer Group 
SOS Services of Supply 
Sup Supply 
SWPA Southwest Pacific Area 
T/A Table of allowances 
TAG The Adjutant General 
TBA Table of basic allowances 
TDMR Technical Division Memo Report 
Tech Technical 
TF Task Force 
TM Technical manual 
Tng Training 668 
THE CHEMICAL WARFARE SERVICE 
TOE Table of organization and equipment 
TofO Theater of Operations 
TUSA Third U.S. Army 
UGNCO Unit gas noncommissioned officer 
UGO Unit gas officer 
USAFBI U.S. Army Forces in the British Isles 
USAFFE U.S. Army Forces in the Far East 
USAFIA U.S. Army Forces in Australia 
USAFICPA U.S. Army Forces, Central Pacific Area 
USAFISPA U.S. Army Forces in the South Pacific Area 
USAFMIDPAC U.S. Army Forces, Middle Pacific 
USAFPOA U.S. Army Forces, Pacific Ocean Areas 
USAR U.S. Army Reserve 
USATC U.S. Assault Training Center 
USASOS U.S. Army Services of Supply 
USCWC U.S, Chemical Warfare Committee 
USFET U.S. Forces in the European Theater 
USSBS U.S. Strategic Bombing Survey 
USSTAF U.S. Strategic Air Forces 
VLR Very long range 
WD War Department 
WDGS War Department General Staff 
WP White phosphorus 
WPD War Plans Division 
WTF Western Task Force 
ZI Zone of interior Code Names 
Alamo Force Code for U.S. Sixth Army while operating as a special ground 
task force headquarters directly under GHQ SWPA. 
Anvil Early plan for invasion of southern France. 
Avalanche Invasion of Italy at Salerno. 
Backhander Task force for operations on Cape Gloucester, New Britain. 
Blackstone Unit of Western Task Force which landed at Safi, French 
Morocco. 
Bolero Build-up of U.S. forces and supplies in United Kingdom for 
cross-Channel attack. 
Cobra U.S, First Army operation designated to penetrate the German 
defenses west of St. L6 and secure Coutances, France. 
Dragoon The plan for the Allied invasion of southern France, code name 
that replaced Anvil. 
Flintlock The Marshall Islands operations. 
Forager Operations for the capture of the Mariana Islands. 
Horlicks Allied operation against Biak Island, 27 May—30 August 1944. 
Hurricane Assault force for Biak, New Guinea. 
Husky Allied invasion of Sicily, July 1943. 
Iceberg Invasion of the Ryukyu Islands. 
Maple Base Port Moresby. 
Olympic Plan for March 1946 invasion of Kyushu, Japan. 
Omaha Normandy beach assaulted by troops of U.S. V Corps, 6 June 
1944. 
Overlord Allied cross-Channel invasion of northwest Europe, June 1944. 
Persecution Assault force for Aitape operations, New Guinea. 
Plum Code name for the Philippines. 
Queen 12th Army Group operation on Roer Plain between Wurm and 
Roer Rivers, 
Rainbow Various plans prepared between 1939 and 1941 to meet Axis 
aggression involving more than one enemy. 
Raincoat Assault on Camino hill mass, Italy. 
Reckless Assault force for Hollandia operation. 
Roundup The name by which plans for cross-Channel invasion were known 
until the summer of 1943. 670 
THE CHEMICAL WARFARE SERVICE 
Shingle Amphibious operation at Anzio, Italy. 
Torch The Allied invasion operation in North Africa, November 1942. 
Trade wind Task force for Morotai. 
Utah The Normandy beach assaulted by the U.S. VII Corps on 6 
June 1944. UNITED STATES ARMY IN WORLD WAR II 
The multivolume series, UNITED STATES ARMY IN WORLD 
WAR II, consists of a number of subseries which are planned as 
follows: The War Department, The Army Air Forces, The Army 
Ground Forces, The Army Service Forces, The Western Hemisphere, 
The War in the Pacific, The Mediterranean Theater of Operations, 
The European Theater of Operations, The Middle East Theater, The 
China-Burma-India Theater, The Technical Services, Special Studies, 
and Pictorial Record. 
The following volumes have been published or are in press :* 
The War Department 
Chief of Staff-.Prewar Plans and Preparations 
Washington Command Post: The Operations Division 
Strategic Planning for Coalition Warfare: 1941-1942 
Strategic Planning for Coalition Warfare: 1943-1944 
Global Logistics and Strategy: 1940-1943 
The Army and Economic Mobilization 
The Army and Industrial Manpower 
The Army Ground Forces 
The Organization of Ground Combat Troops 
The Procurement and Training of Ground Combat Troops 
The Army Service Forces 
The Organization and Role of the Army Service Forces 
The Western Hemisphere 
The Framework, of Hemisphere Defense 
Guarding the United States and Its Outposts 
The War in the Pacific 
The Fall of the Philippines 
Guadalcanal: The First Offensive 
Victory in Papua 
CARTWHEEL: The Reduction of Rabaul 
Seizure of the Gilberts and Marshalls 
Campaign in the Marianas 
The Approach to the Philippines 
* The volumes on the Army Air Forces, published by the University of Chicago Press, are not 
included in this list. 
289-149 0-68—44 672 
THE CHEMICAL WARFARE SERVICE 
Leyte: The Return to the Philippines 
Triumph in the Philippines 
Okinawa: The Last Battle 
Strategy and Command: the First Two Years 
The Mediterranean Theater of Operations 
Northwest Africa: Seizing the Initiative in the West 
Sicily and the Surrender of Italy 
The European Theater of Operations 
Cross-Channel Attack 
Breakout and Pursuit 
The Lorraine Campaign 
The Siegfried Line Campaign 
The Ardennes: Battle of the Bulge 
The Supreme Command 
Logistical Support of the Armies, Volume I 
Logistical Support of the Armies, Volume II 
The Middle East Theater 
The Persian Corridor and Aid to Russia 
The China—Burma-India Theater 
Stilwell’s Mission to China 
StilweWs Command Problems 
Time Runs out in CBI 
The Technical Services 
The Chemical Warfare Service: Organizing for War 
The Chemical Warfare Service: From Laboratory to Field 
The Chemical Warfare Service: Chemicals in Combat 
The Corps of Engineers: Troops and Equipment 
The Medical Department: Hospitalization and Evacuation, Xone of 
Interior 
The Medical Department: Medical Service in the Mediterranean and 
Minor Theaters 
The Ordnance Department: Planning Munitions for War 
The Ordnance Department: Procurement and Supply 
The Quartermaster Corps: Organization, Supply, and Services, Vol- 
ume I 
The Quartermaster Corps: Organization, Supply, and Services, Vol- 
ume II 
The Quartermaster Corps: Operations in the War Against Japan UNITED STATES ARMY IN WORLD WAR II 
673 
The Quartermaster Corps: Operations in the War Against Germany 
The Signal Corps: The Emergency 
The Signal Corps: The Test 
The Signal Corps: The Outcome 
The Transportation Corps: Responsibilities, Organization, and Oper- 
ations 
The Transportation Corps: Movements, Training, and Supply 
The Transportation Corps: Operations Overseas 
Special Studies 
Chronology: 1941-1945 
Military Relations Between the United States and Canada: 1939- 
1945 
Rearming the Trench 
Three Battles: Arnaville, Altuzzo, and Schmidt 
The Women’s Army Corps 
Civil Affairs: Soldiers Become Governors 
Buying Aircraft: Materiel Procurement for the Army Air Forces 
Pictorial Record 
The War Against Germany and Italy: Mediterranean and Adjacent 
Areas 
The War Against Germany: Europe and Adjacent Areas 
The War Against Japan Index 
Aachen, 472-73, 475, 476, 489, 607 
Abaneta Farm, 448—49 
Abyssinian war, 534 
Acetylene tetrachloride, 247, 248, 305 
Acker, Col. Lewis F., 37, 102 
Adelaide, 190 
Admiralties, the, 315, 5 50 
Admiralty Fuel Experimental Station, 323 
Advance Section, Communications Zone (ADSEC), 64, 
65, 69, 71, 164, 175, 177, 178, 179, 185, 256 
Aerial incendiaries, 614, 648. See also Bombs; Fire bombs; 
Incendiary bombs. 
Aerial observation, 369, 390 
Agno River, 52 8—29 
Air Force Service Commands 
V, 206, 416 
VIII, 42, 153, 157, 318 
IX, 159 
XII, 96, 98, 106, 130 
Air Forces 
Fifth, 190n, 202, 206, 216, 414, 416, 513, 634 
Seventh, 229 
Eighth, 37, 38, 42, 56, 57, 62, 141, 149-58, 160, 161, 
354, 618n, 619-24, 626 627 
Ninth, 64, 67, 154, 158, 159, 161 
Twelfth, 43, 89, 96, 97n, 98, 107, 115, 116, 121, 130, 
161 
Thirteenth, 216 
Fourteenth, 633 
Twentieth, 40In, 62 5 
Airborne Divisions 
11th, 571 
82d, 429, 466 
Airborne operations, 390, 391, 411—17, 453-55 
Aircraft 
A—20’s, 412-15, 635 
B—17’s, 621 
B—2 5’s, 412, 415-17, 508 
B—29’si 401, 579, 625-28, 630, 656 
C—47’s, 412, 415, 417 
P—3 8’s, 632 
liaison, 369-70, 390, 513 
smoke screen laying, 206, 405, 407, 409, 412—17, 508 
Airplane smoke tanks. See Smoke tanks. 
Aitape, 498 
Alamo Force, 2 56-57, 2 59-60 
Alban Hills, 447 
Alexander, General Sir Harold R. L. G., 328 
Algiers, 93n, 103, 327-29 
Aliamanu Crater, 220 
Allied Air Forces, 202 
Allied Airborne Army, First, 390 
Allied Expeditionary Air Forces (AEAF), 67 
Allied Force Headquarters (AFHQ), 41, 86—88, 90, 97, 
99, 102-04, 116, 118-21, 135, 196, 219, 282, 340, 
605, 648. See also Shadle, Brig. Gen. Charles S. 
Alligators, 376, 391, 491 
American Expeditionary Forces (AEF), 4, 16—19, 21—24, 
26 
American School Center, Shrivenham, 42, 43, 64 
American Special Observer Group (SPOBS), 36 
Amphibious Forces, U.S. Pacific Fleet, 402, 408, 409 
Amphibious Groups 
2, 532 
3, 526 
6, 526 
Amphibious Smoke Committee, Navy, 408—10 
Amphibious training centers, 409, 424, 462, 520 
Anderson, Maj. Leland E., 522, 523 
Andes, Lt. Col. James O., 204 
Andrews, Lt. Gen. Frank M., 49, 5 5, 32 5 
Angaur Island, 516, 517, 524 
Anglo-Iranian Oil Company, 160 
Antiaircraft Artillery Brigades 
12th, 332n 
49th, 356 
Antiaircraft Artillery Group, 19th, 374 
Antiaircraft Command, 14th, 398 
Antiaircraft defenses, 322, 335, 338, 350, 401, 405, 407, 
410 
Antidim sticks, 283 
Antipolo, 507 
Antwerp, 3 60n 
Anvil, 340 
Anzio, 128, 299, 333, 336-40, 342, 350, 399, 406, 443, 
445-48, 452, 594 
Aparri, 416, 515 
Aprillo, 446 
Arawe—Cape Gloucester—Saidor offensive, 260 
Ardennes counteroffensive, 74, 77, 184, 275, 299, 372, 
373, 455, 480-82, 484, 632 
Argonne, 4 
Armies 
First (World War I), 653 
First, 67, 69, 70, 71, 73, 76, 78, 79, 80, 81n, 164, 174- 
75, 177, 179, 183, 292, 303, 355, 360, 373, 377, 378, 
381, 382, 389, 393, 466, 472-73, 479, 481, 483, 
487-89, 596, 603, 606-07, 610,612 
Third, 67, 69, 71, 76, 78-80, 164, 179, 361-62, 371- 
72, 381, 383-84, 393, 474, 480, 484, 486n, 596-97, 
604, 606, 610 676 
THE CHEMICAL WARFARE SERVICE 
Armies—Continued 
Fifth, 100, 102, 122, 124, 128-29, 133, 282, 290, 298, 
332, 334, 336, 346, 350, 421, 424-25, 432, 433, 
435-37, 439-43, 445, 450, 452-53, 455-57, 593-95, 
640 
Sixth, 200n, 201, 211-13, 251, 256-58, 260-65, 310, 
313-15, 317, 398-400, 403, 407, 497, 499, 502, 505, 
546-49, 568-72, 574, 576, 590-91, 635 
Seventh, 76, 80, 109-10, 109n, 127, 133, 282, 289, 
292, 299, 301, 340, 342, 359-60, 381, 386, 387, 
393, 425, 431-32, 453, 455, 479-80, 483, 488, 593, 
602, 604, 611, 640 
Eighth, 211-12, 403, 505 
Ninth, 76, 80, 359, 373, 373n, 375, 377-78, 381, 389, 
390, 390n, 391, 489, 609, 610-11 
Tenth, 234n, 273, 275, 402, 519, 532-33, 568, 584, 
589 
Armored amphibian tractors. See LVT(4)’s. 
Armored Divisions 
1st, 452 
2d,429 
7th, 361 
9th, 381 
10th, 371, 476 
14th, 80, 611 
Armored Force Board, 605 
Armored Group, 13 th, 576 
Army Air Corps Tactical School, 28, 28n, 616 
Army Air Forces (AAF), 67, 69, 87, 115, 149, 161, 168, 
238, 278, 282, 284, 285, 317, 322-23, 338, 616, 618, 
622, 625, 635, 647, 649 
Army Ground Forces (AGF), 87, 141, 420, 431 
Army Groups 
1st, 64, 65, 67, 69, 183 
6th, 76, 455, 480, 483, 485n, 608 
12th, 71, 76, 78, 79, 156n, 179, 181, 183, 184, 185, 
303, 304, 3 54n, 389, 466, 470, 472, 480, 483, 484, 
485n, 607-08, 610, 646 
15th, 350 
Army Service Forces (ASF), 32, 33, 38, 49, 50, 53, 57, 
61, 87, 89, 91, 101, 106, 113, 129, 134, 142, 168- 
73, 239, 638—39. See also Services of Supply (SOS). 
Arnaville, 362—71 
Arno River, 333, 334, 456 
Arnold, General Henry H., 618n, 62 5, 626 
Arras, 13 
Arthur, Lt. Col. Frank M., 196, 198, 204, 213, 249, 250, 
400, 501, 570 
Artillery shell, toxic, 3, 9, 10, 11, 13, 14, 16, 34, 107, 
240, 269, 283 
Arundel Island, 493-94, 496 
Ashchurch, 138, 145 
Assan Point, 562 
Atchison, Lt. Col. Joseph E., 516, 530 
Atkinson, Maj. Earle J., 18 
Atlantic Base Section, 99, 100, 112, 1 13, 115, 289 
Auburn, USS, 409 
Audouville-la-Hubert, 177 
Australia, 35, 192, 193, 201, 207, 236-37, 239, 240, 244- 
46, 253, 254, 256, 260, 293-94, 394, 397, 548, 642 
Australian Antigas School, 195 
Australian Army, 203, 216, 284, 412 
Australian Chemical Warfare Experimental Station, 207 
Australian Division, 7th, 412 
Avranches, 471 
Azato, 5 87 
Bagnoli, 312-13, 330-31 
Baguio, 513, 577 
Baker, Newton D., 24, 25 
Baker, Maj. Gen. Walter C., 322 
Balete Pass, 577 
Bamboe Peninsula, 493 
Bari, 122 
Barker, Col. Maurice E., 91, 93, 95, 96, 99, 100, 102, 
104, 124, 129, 133, 134, 256, 282, 301, 331n, 332n, 
421, 434, 439, 640, 641 
Barnes, Col. Jack A., 378, 378n 
Barnes, Brig. Gen. Julian F., 189 
Barnham, 153 
Barrows, Maj. John, 401 
Barry, 147 
Barta, Col. Edward J., 8In 
Bartlett, Lt. Col. John L., 213 
Base Air Depot Area, 159 
Base E, Lae, 397 
Base F, Finschhafen, 314 
Base Section 3, USAFIA, 203, 284, 293 
Base sections, 51, 61, 75, 76, 94, 101-03, 106, HOn, 
112, 116, 118, 123, 124, 141, 179-80, 190, 193, 256, 
257, 261 
Bastogne, 481 
Bataan, 188, 315, 422 
Batlin, Lt. Col. Alexander, 498 
Batte, Lt. Col. James H., 222, 464, 468, 469, 477, 478 
Battle of the Bulge. See Ardennes counteroffensive. 
Baum, Col. Harold J., 62, 67, 162, 621 
Bay of Baiae, 330 
Becque, Maj. John H., 220 
Belfort, 45 5 
Bell, Lt. Col. Edgar V. H„ 485n 
Bell, Col. Robert P., 363 
Belvedere Hill, 442 
Benevqnto, 43 5 
Benner, Col. Ralph C., 212, 545 
Berdorf, 48 5 
Berlin, incendiary attack on, 622 
Betio Island, 554 
Biak, 214, 400n, 415, 499-502, 552, 570 
Bilicke, Lt. Col. Albert C., 64 
Bingen, 3 83, 38 5 
Biological warfare, 26, 53, 75, 84, 119, 227, 232-34 
Birmingham, 323 
Bitche, 45 5, 602 INDEX 
677 
Bizerte, 31 1, 328-29, 406 
Blackburn, Lt. Col. Chester O., 54, 62 
Blackstone Subtask Force, 91 
Blaze bomb, 630 
Bleach, 107, 130, 188, 221, 236, 243-44, 246-47, 267 
Block Burner, 15 8, 622 
Blohm, Lt. Willard H., 220 
Blythe Colour Works, 166 
Boggs, 1st Lt. Stanley, 303 
Bolero, 90, 90n, 140, 140n, 142-43, 147, 163, 170 
Bollendorf, 486 
Bologna, 3 5 1, 3 53 
Bomb fuzes, 157, 28 5. See also Fuzes. 
Bombardment Division, 1st, 157 
Bomber Commands 
VIII, 42, 157, 618n, 621 
IX, 633 
XX, 62 5 
XXI, 401, 401n, 625-28, 628n, 630, 648 
Bombs, 4, 11, 150-52, 154, 155, 240, 253, 269, 307, 475, 
623, 626, 632. See also Blaze bomb; Bomb fuzes; 
Fire bombs; Incendiary bombs. 
Bone, 289 
Bonin Islands, 191 
Bonn, 381, 382 
Boothby, Capt. Walter M., 17, 18 
Boppard, 385 
Bougainville, 494—97, 540—43, 569 
Boyles, Lt. Col. Samuel J., 8In 
Bradley, Maj. Ingalls S., 47, 64, 175, 177 
Bradley, General Omar N., 69, 76, 18 3, 425n, 459—60, 
608,609, 656 
Bramlet, Col. Hubert B., 65, 73, 75n 
Breakneck Ridge, 502 
Breaks, Lt. Col. Robert W., 424 
Bren gun carrier, 287 
Brest, 597-99, 609 
Brett, Lt. Gen. George H., 190, 23 8 
Bridges and bridging. See Smoke screen operations, bridges 
and bridging sites. 
Brisbane, 189, 190, 191n, 193, 194, 200, 203, 210, 212n, 
284, 293, 306-07, 395, 546, 548 
Bristol, 138, 146 
British Expeditionary Forces (WWI), 8, 15 
British forces, 119, 123, 327-29, 348, 449, 453, 609, 
619, 653 
British units. See also Royal Air Force; Royal Navy. 
Antiaircraft Brigade, 45th, 332 
Armoured Regiment, 141st, 609 
Army, Second, 3 89, 390 
Army, Eighth, 5 51, 450 
Army Group, 21, 76, 81, 355, 389, 489, 609 
Commandos, 432—34, 45 8 
Corps, 10, 334,432-35, 438,445 
Crocodile squadrons, 609 
(SM) Company, 807th, 331 
Special Brigade (WWI), 12, 15, 16 
Brittany, 597 
Brittany Base Section, 75n 
Brixham, 3 5 6 
Brody, Maj. Richard T., 206, 206n, 207 
Brown, Capt. George W., 174 
Buckner, Lt. Gen. Simon B., 402 
Buderich, 3 89 
Bullene, Brig. Gen. Egbert F., 219, 483—84 
Buna, 199, 498, 543-45, 545n, 546, 549, 656 
Bureau of Mines, 24n 
Burke, Maj. Carl V., 192, 193, 194, 203, 205, 211 
Burkitt, Lt. Col. Joel L., 204 
Burma, 633, 634 
Burn, Col. Walter P., 89, 96, 97, 346 
Burns, Col. John R., 211, 212, 403 
Burtonwood, 621 
Cabaruan Hills, 510, 512, 515 
Cagayan River valley, 416 
Cairo (Italy), 448 
Caldwell, Lt. Col. R. Beverly, 227, 233 
Galore River, 43 3, 43 5 
Camalaniugan airstrip, 416 
Camouflage, 134n, 282, 284, 285, 633 
Camp Bowie, 300, 303 
Camp Doomben, 306 
Camp Edwards, 326, 520 
Camp Gordon Johnston, 424, 462, 520 
Camp Sibert, 306, 311, 313, 326 
Campofelice, 301 
Canadian Army, First, 373 
Canadian forces, 438n, 609 
Canham, Brig. Gen. Charles D. W., 378 
Cap de la Hague, 466 
Cape Cretin, 313, 316 
Cape Gloucester, 316, 5 50 
Capua arsenal, 129—30, 290—92, 438 
Caribbean Defense Command, 325 
Carmen, 514 
Carocetta, 446 
Casablanca, 95, 97, 100, 301, 326, 327 
Casablanca Conference, 48, 143 
Casandrino, 290 
Cassidy, 1st Lt. James W., 174 
Cassino, 442—43, 448—50, 594 
Castle Hill, 448 
Casualties, Allied 
flame thrower operators, 540, 571, 581—82 
premature mortar bursts, 457, 484, 497, 503 
World War I gas attacks, 5, 5n, 14 
Casualties, Axis 
from flame throwers, 562, 5 89 
Hamburg raids and fire storm, 619, 619n 
Tokyo raids, 629 
World War I gas attacks, 5 678 
THE CHEMICAL WARFARE SERVICE 
Catmon Hill, 503—04, 525 
Cavalry Brigade, 2d, 5 50 
Cavalry Division, 1st, 3 1 5, 502, 506, 507, 5 50, 572 
Cavalry regiments 
7th, 507 
8th, 507 
112th RCT, 547 
Caves, 400n, 500, 513, 5 17. See also Flame throwers, 
against Japanese defenses. 
Center Task Force (CTF), 89, 92, 93, 93n, 142, 326 
Central Pacific Area (CENPAC), 191, 203, 220, 231, 
234, 268-70, 286, 516, 560, 639 
Central Pacific Base Command (CPBS), 227, 230, 233, 
269,273 
Cerasuolo, 441 
Cesari, S/Sgt. Robert J., 378—79 
Chamberlain, Capt. N. F., 408, 410, 411 
Chamier, Lt. Col. G. des C., 120 
Chapman, Maj. James R., 448 
Chapman, 1st Lt. Rubert D. 220 
Charron, Col. Roy C., 65, 177, 179 
Charters Towers, 240 
Chatan, 517 
Cheltenham, 40, 41, 42, 45, 46, 47, 51, 54, 55, 58, 59, 
60, 64, 65, 73 
Chemical air depot companies, 317 
Chemical air operations companies, 161, 162, 191, 317, 
319, 3 19n, 320 
Chemical air service companies, 116, 245, 278, 317 
Chemical Base Depot Companies, 278 
9th, 178 
66th, 178 
Chemical Battalion, 1st Separate, 220, 296, 421 
Chemical Company, Air Operations, 875th, 116n 
Chemical Composite Companies, 92, 245, 278, 280, 308— 
09, 309n, 310-17, 319 
92d,116n,311-13 
94th, 3lOn, 570 
240th, 313-17 
Chemical Composite Platoons 
272d, 3lOn 
273d, 3lOn 
274th, 31 On 
275th, 3lOn 
Chemical Decontamination Companies, 70, 92, 93, 172, 
277,279, 294, 300-304, 3 56-57 
21st, 93n, 116n, 300-303, 342, 342n, 343, 344 
24th, 116n, 328n, 331, 33 5, 336, 3 50 
25th, 116n, 328n 
29th, 273 
30th, 70, 173-74, 356, 3 57 
31st, 302-04, 356, 357 
33d, 174, 356 
Chemical Depot Companies, 70, 79, 92, 147, 277, 279, 
294-99, 317, 319 
6th, 93, 93n, 98, 138, 145, 297-99 
7th, 146, 178 
Chemical Depot Companies—Continued 
8th, 286, 296-97 
9th, 147 
60th, 147, 174 
61st, 147 
62d, 194, 241, 293, 306 
63d, 116n, 301 
64th, 147 
65th, 147, 178 
412th, 241 
Chemical Depot Companies (Aviation) 
75 1st, 116n 
753d, 116n 
754th, 318 
758th,116n 
761st, 147 
763d, 319 
Chemical Detachment, 1st Provisional POA, 274 
Chemical Detachment, 411th, 274 
Chemical general service companies, 293—95 
Chemical impregnating companies, 92, 245, 277 
Chemical Impregnating Company, 51st, 13 8, 145 
Chemical Laboratory Companies, 70, 123, 206, 277, 279, 
280-88 
1st, 282 
3d, 189, 193, 236, 283-84 
41st, 116n, 282-83, 313 
42d, 192, 193, 205, 231, 283-86, 293, 394-95, 400 
43d, 286-88, 297, 564 
45th, 281 
Chemical land mines, 91, 238, 240, 267 
Chemical Maintenance Companies, 70, 131, 146n, 166, 
177, 182, 277, 278, 288-95, 317, 479-80, 480n 
10th, 194, 241, 262, 292-95, 546, 548 
11th, 116n, 480n 
12th, 116n, 133, 289-92, 301, 438 
14th, 597 
20th, 296 
57th, 376 
711th,178 
Chemical mortar, 4.2-inch, 110, 134, 267, 279, 288, 420, 
437, 457-58, 515 
against armor, 426—27, 428n, 512, 512n 
against Japanese cave positions, 400n, 500 
ammunition for, 34, 84, 107, 128—30, 133—34, 137, 
155, 175, 180-81, 213, 269, 275-76, 310, 428n, 
433, 434, 435, 440, 447-48, 451, 455, 457, 465-66, 
473, 475, 477, 481, 486-87, 489, 495, 503, 508, 
509, 510, 51 On, 513, 519-20, 528, 532 
artillery support mission, 420, 420n, 465, 471—72, 477, 
482, 494, 495, 499, 500, 503, 646 
breakage and maintenance problems, 133—34, 182, 432, 
434, 439, 446, 473, 475-80, 480n, 491, 496-97, 
504, 513, 521, 532 
carts, 426, 430, 480, 498 
communications problems, 43 5—36, 439, 448—52, 485, 
487, 495, 511, 514 INDEX 
679 
Chemical mortar, 4.2-inch—Continued 
defective shell, 133, 134, 180-81, 457, 482-84, 497, 
500, 509, 519-20 
demonstrations of, 42 5, 497, 520 
field commanders reaction to, 421—22, 425n, 429, 458, 
494 
gas-delivering capacity, 418 
high-explosive mission, 26, 207, 418, 420, 492, 520, 
646 
infantry support, 430, 449, 477, 495-96, 499, 500, 
503, 504, 506-07, 515, 518-19 
Japanese fear of, 494—96 
jungle warfare problems, 494—97 
on landing craft, 232, 425-26, 492, 500, 520-21, 533. 
See also Mortar boats, 
limitations, 453, 471—72, 500, 504 
M2 sight, 431, 507 
M3 shell, 275, 457, 483 
M4 shell, 275, 520 
on M7 half-track, 439—40 
modified from Stokes mortar, 3—4, 418 
propellants, 290, 431, 435, 438, 439, 497, 500 
range and accuracy of, 427, 430—31, 434, 43 5, 439, 
440, 477-78, 493, 500, 507, 513, 518, 525 
rapid firing problems, 437, 491, 496 
in Sicily Campaign, 418 
sites and emplacements, 464, 496, 506 
smoke mission of, 337, 345—46, 380, 400, 418, 509, 520 
spare parts, 168-69, 178-79, 182, 275, 288-92, 478- 
79, 479n 
stock in 1941, 34, 267 
support of armored team, 476—77 
tactical control of, 494—95, 500—501, 504, 505, 514 
transportation problems, 426, 430, 436, 451, 452, 456, 
456n, 493-94, 501-05 
Chemical mortar battalions, 70—72, 78—79, 81, 82, 127, 
137, 265, 480, 484, 491, 646, 649 
employment of, 73—74, 429, 471, 499, 500, 514—15, 
519 
replacement problems, 468—70 
requirements for and allotment of, 70, 77, 107, 168, 
21 1-12, 229, 421-22, 422n, 423, 459-61, 497-98, 
516 
tables of organization and equipment, 426, 430, 456, 
460, 462, 470-71, 482, 506n 
unit and manpower shortages, 218, 460—61, 515—16, 
646 
Chemical Mortar Battalions 
2d, 289, 345, 346, 422, 424, 425, 426n, 427-29, 432, 
433, 435, 437-39, 442-44, 448-53, 455, 480n, 482 
3d, 289, 343, 344, 346, 421, 422, 424, 425, 429, 436, 
440-41, 450-51, 453, 455, 480, 480n, 520 
71st, 516 
72d, 516 
81st, 305, 372, 422, 460-64, 473-78 
82d, 422, 493-96, 497n, 505-08, 5 1 5 
Chemical Mortar Battalions—Continued 
83d, 422, 424-26, 429, 432-34, 437-38, 445-48, 452- 
56,480n 
84th, 345-46, 422, 424, 425, 432, 433, 435-38, 440, 
445-48, 452, 455-57 
85th, 315, 423, 502-03, 505-07, 513, 514, 514n, 515 
86th, 423, 461-62, 466-67, 469,478, 481 
87th, 292, 305, 379, 380, 423, 461-62, 464-66, 472- 
73, 477, 478, 482, 487-88, 488n, 489 
88th 275n,423, 502-04, 516-17, 519, 522 
89th, 389, 390, 485n, 489-91 
90th, 485n 
91st, 482, 484-85, 485n, 486-87 
92d, 374, 375, 461-62, 467-68, 470, 471-72, 480n, 
482, 489n, 
93d, 389, 485n 
94th, 485n 
95th, 485n 
96th, 292, 485n 
97th, 485n 
98th, 461n, 499, 500, 502, 505, 510-15, 529 
99th, 292, 456, 461n, 480n 
100th, 456-57, 461n 
Chemical Mortar Companies, 422, 481 
glider operations, 453—5 5 
91st, 404, 502, 504, 516-19, 522 
189th, 516, 530 
Chemical officers, 266 
base sections, 73, 75—76, 2 5 6, 261, 641 
field command, 81—84, 213—15 
liaison, 82, 100 
replacement of, 118, 468—70 
shortage of, 104, 207, 468 
with task forces, 263, 265 
theater chief officers, 30, 3 5, 38, 43n, 45—46, 50—51. 
196, 232-33, 255-57, 637-38, 648-49 
Chemical Processing Companies, 166—67, 252—53, 277: 
278, 279, 304-08 
51st, 166 
52d, 116n 
53d, 116n 
103d, 307-08 
105th, 252, 305-07 
109th, 305 
110th,297 
113th, 305 
120th, 305 
Chemical Regiments 
1st, 421 
2d, 421 
Chemical service companies, 70, 279—80, 308—09, 308n 
Chemical Service Companies (Aviation) 
3d,191 
5th, 220 
Chemical Service Company, 62d, 307 680 
THE CHEMICAL WARFARE SERVICE 
Chemical Service Platoons, 310, 403 
236th, 317, 317n 
237th, 317 
238th, 317 
240th, 317 
Chemical service units, 212, 229, 268, 274, 277—80, 314, 
643 
Chemical Smoke Generator Battalions, 70, 229 
22d, 331, 359,382, 387 
23d, 355-57, 359, 382 
24th, 3 5 5, 3 56, 3 59 
25th, 355,356,359 
26th, 397 
27th, 359, 389, 390 
28th, 402 
68th, 402 
Chemical Smoke Generator Companies, 172, 32 5—27, 3 54— 
55, 359-60, 363, 368, 392, 395, 399, 400 
67th, 402 
69th, 93n,328, 387, 388 
70th, 397-99, 402 
71st, 402 
74th, 373, 374, 389, 391, 491n 
75th, 325 
76th, 325 
77th, 325 
78th, 93n, 95, 327, 327n, 328, 387, 389 
79th, 355-57, 378, 381-82 
80th, 355, 357, 378, 381-82 
81st, 356, 383, 386 
82d,356 
83d, 373, 374, 376, 389, 390 
84th, 355-57, 362-71, 371n,372, 372n, 383-85 
85th, 356 
86th, 356 
87th, 356 
161st, 355, 357, 368, 371, 371n, 372, 383-85 
162d, 383, 385-86 
163d, 331, 387 
164th, 331 
165th, 356 
167th, 356 
168th, 328, 331, 387 
170th, 397, 399, 402 
171st, 356 
172d, 328, 3 31, 3 32, 333, 3 34, 348, 3 50, 3 51, 450 
179th, 331-34, 336-37, 339, 350, 352 
Chemical Training Battalion, 469 
Chemical Warfare Board, 324 
Chemical Warfare General Service Company, 10th, 29 5 
Chemical Warfare Service. See also Porter, Maj. Gen. 
William N.; Waitt, Brig. Gen. Alden H. 
active strength, 1933—43, 26, 636 
appropriations for, 26, 636—37 
and ASF/OPD controls, 32, 34, 61, 101, 106, 173, 
638 
BW research mission, 26 
Chemical Warfare Service—Continued 
and chemical mortar, 418—21, 431, 471, 492, 320 
and chemical mortar battalions, 420, 422—23, 459—60, 
497 
and chemical shell failures, 181 
and flame thrower, 534—35, 545, 558—59, 605—06, 646 
gas and nongas missions, 636—37, 648—51, 657 
GHQ concept, 28, 30 
and incendiary bomb program, 616—18, 647 
logistics mission, 642—44 
as a permanent service, 1920, 24—2 5, 27 
pre-World War II missions, 2 5—26, 419 
and redesignation as Chemical Corps, 652n, 657 
smoke mission, 321—22, 644 
Spare Parts Team, 129, 182, 479 
supply and logistical compilations, 113—14 
supply planning for Torch, 90—92 
and theater CWS, 35, 56-57, 61, 100, 201, 203, 208, 
637, 639—40 
Chemical Warfare Service, AEF, 19, 21—24, 29, 38, 40, 
52 
Chemical Warfare Service, ETOUSA, 40—62, 64—65, 
67-69, 72-85, 85n, 89-90, 104n, 105, 113-14, 123, 
136-48, 152, 156, 163-73, 178-82, 185, 256, 482, 
596, 638, 641 
Chemical Warfare Service, National Army, 19, 22, 24 
Chemical Warfare Service, NATOUSA/MTOUSA, 34— 
35, 102-05, 114, 116, 118-20, 122-24, 127, 129, 
130, 134, 135, 137, 178, 256, 430, 460, 640, 644 
Chemical Warfare Technical Committee, 5 58 
Chenard incendiary bomb, 615 
Chengtu, 625 
Cherbourg, 178, 3 58, 465—66 
Chief of Staff to the Supreme Allied Commander 
(COSSAC), 59, 68 
China, 624, 633 
China-Burma-India Theater, 216 
Chiunzi Pass, 434 
Chloracetophenone, 3 
Chloride of lime. See Bleach. 
Chlorine gas, 5, 9, 11 
Chloropicrin, 13 
Chlorosulfonic acid, 322n, 414n 
Chonito Cliff, 562, 5 63 
Christensen, Col. Christian O., 75n 
Church, Lt. Col. James R., 17, 18 
Cinderford, 146, 154 
Cisterna, 447, 447n 
Civil defense, 221, 224 
Civilian Conservation Corps, 221 
Civitavecchia, 3 32, 3 50 
Clark, Lt. Gen. Mark W., 89, 129, 448 
Clark Field, 1 87 
Clements, Maj. John O., 233 
Clifton, M. Allegra, 222 
Clough, Lt. Col. Lyle A., 204 INDEX 
681 
Cobb, Col. John B., 8In 
Coblentz, Col. Siegfried P., 100, HOn, 113, 114, 115, 
116, 124, 133, 134, 256, 331, 640, 641 
Cobra, 467 
Colasion Point, 400 
Colleville sur Mer, 174 
Collins, Maj. Gen. J. Lawton, 378 
Colmar, 292, 302, 45 5 
Cologne-Jiilich highway, 375 
Columboola, 240, 307 
Combined Chiefs of Staff, 48, 111 
Communications Zone (COMZ), ETO, 65, 67, 71, 73, 
132, 162, 164, 177-80, 185, 638 
Cone, Capt. Richard H., 197 
Containers, 151, 155, 162, 244, 246-48, 272, 293, 297, 
320, 497, 500, 556 
Continental Advance Section (CONAD), 185—86, 292 
Continental Base Command, 299 
Copthorne, Col. William A., 215, 637, 650 
and administration of theater CWS, 203, 23 5, 639, 648 
biography, 193 
and chemical materiel supply, 193, 207, 238, 242, 
247, 251, 252, 254, 259, 261-64 
chemical officer, USAFIA and USASOS, 189—94, 200— 
208,210-12,216,218,224,234, 256, 258 
chief chemical officer, AFPAC, 219 
and field laboratories, 196—97, 206, 284—85 
and flame thrower malfunction, 545—46 
and smoke generators, 394—96, 402—03, 408n 
Corps 
I (World War I), 18 
I, 197, 198, 213, 214n, 400, 400n, 498, 499n, 501, 
505, 505n, 507, 510, 512-13, 51 5, 529, 548, 548n, 
573-74, 577 
I Armored, 109n 
II, 89, 96, 97, 98, 298, 328, 346, 348, 350, 351, 429, 
438, 440-43, 445, 448-51, 457, 604 
III, 378, 380, 382, 480 
IV, 350, 352, 353,457 
V, 37, 70, 378, 462, 481, 597, 599 
VI, 8In, 299, 334-37, 337n, 343, 345, 350, 432, 455, 
437, 438, 440-41, 445, 447, 452-53, 594 
VII, 70, 356, 377-78, 380, 380n, 381, 382, 462, 464- 
65, 467, 472, 487-88, 601 
VIII, 383, 385, 386, 386n, 609 
X, 407, 502,503, 570 
XI, 213, 31 5, 399, 508, 509, 515, 634 
XII, 80, 3 17n, 383-86, 484-86, 486n 
XIII, 373-74, 389 
XIV, 204, 213, 213n, 493-94, 505, 505n, 506-10, 
515, 527, 538-39, 543, 576 
XV, 80, 387, 489 
XVI, 389, 390, 489 
XVIII, 8In 
XIX, 81n, 373-75, 389,467,472, 599 
XX, 361, 366, 368, 371, 383, 386, 474, 599 
XXI, 302 
Corps—Continued 
XXIV, 274, 407, 502-03, 503n, 525, 533, 570, 576, 
584, 586, 588 
Corregidor, 188—90 
Corrosion problems, 293, 432, 497 
Corsica, 311 
Cottingham, Lt. Col. Levin B., 81n, 363, 365—67, 367n, 
369,486,486n 
Coughlan, Col. Joseph D., 67, 67n, 69, 71, 78, 175, 355 
Counter Intelligence Corps, 28 5 
Coventry, 323 
Crawford, Maj. Robert W., 19 
Crawford, Lt. Col. Thomas B., 8In 
Cresswell, 166 
Crocodile tanks. See Flame thrower tanks, Crocodile. 
Croen, Maj. Herbert F., Jr., 89, 96, 99 
Cummins, Maj. Tristram J., 414 
Cunin, Col. Kenneth A., 78, 78n, 81n, 378, 426 
Cunningham, Sgt. John J., 174 
Cylinders, Gas, 3, 4n, 7, 8, 9, 13, 262, 293, 539, 546, 
547, 550, 570 
Dagami, 503—04, 571 
Daguitan River, 526 
Dagupan, 529 
Damortis, 510, 529 
Danek, Lt. Col. Richard R., 213, 213n, 509 
Darby, Col. William, 434, 445—46 
Darra, 239—40 
Darwin, 190 
Dasman, Sgt. Raymond F., 198—200 
Davidson, Lieutenant, 544—45 
Day, Col. Alfred C., 65, 71, 76 
DDT, 319 
Decontaminating agent, noncorrosive (DANC), 125, 236, 
243,244,247-48,267 
Decontaminating apparatus, 71, 75, 108, 171, 178, 236, 
244,248, 262, 271-73 
hand, 139, 182, 244, 267 
M3, 168 
M3A1, 130, 132 
M4, 132, 168 
power-driven, 107, 130—33, 168, 174, 175, 182, 244, 
253, 271, 291, 300, 303, 310, 319, 643-44 
Defandorf, Col. James H., 53, 54 
Deimling, General von, lOn 
Delta Base Section, 129 
Demolitions, 426, 427, 549, 552, 555-57, 563, 579, 582, 
600-601 
Depots, 61, 90, 95, 97-99, 137-38, 146-48, 154, 177- 
78, 185, 185n, 288, 298, 301, 302, 313, 315-16 
318—19. See also Chemical depot companies; Dumps. 
Detection devices, 75, 139, 167, 244—45 
Detector kit, M9, 282 
Devers, Lt. Gen. Jacob L., 45 5, 608 
Dichloroethyl sulfide. See Mustard gas. 
Dick Hills, 5 86 THE CHEMICAL WARFARE SERVICE 
682 
Digdig, 513 
Dijon, 292 
Dillingen, 371, 372, 372n 
Dimethyl phthalate, 308 
Diphenylchloroasine, 14, 14n 
Distinguished Service Cross, 518, 5 94n 
Dixon, Lt. Col. Gordon A., 456 
Dodds, Col. Russell W., 8In 
Doolittle, Capt. G. B., 511—12 
Dornot, 361 
Doty, Lt. Col. Edouard R. L., 221, 222, 22 5, 227 
Doxey, Col. Thomas A., 273 
Dragoon, 340, 344, 45 3—54. See also Southern France, 
invasion of. 
Dukws, 384, 388, 445, 501, 505 
Dlilag, 503, 525-26 
Dumps, 70, 96, 129, 148, 148n, 174, 177, 274-75, 299, 
302, 314-16, 342, 3 56-57, 497. See also Depots. 
Diiren 377, 378, 487-88 
Dusseldorf, 389 
Dust respirators, 126, 175, 182, 267 
Dyes and dyeing, 282, 284, 28 5, 305 
Eaker, Maj. Gen. Ira C., 56 
Eastern Base Section (EBS), 106, 112, 141 n, 311 
Eastern Task Force, 93n, 142, 326 
Eben Emael, 5 3 5 
Echternach, 485, 485n, 486-87 
Edgewood Arsenal, Md., 26, 282, 283, 285, 286, 287, 293, 
306, 308, 324, 325 
Eichelberger, Lt. Gen. Robert L., 197 
Eisenhower, General Dwight D., 40, 86, 87, 102, 110, 
121, 183, 355, 605, 606 
Electron bombs, 614, 617 
Elliott, Col. Lowell A., 40, 41, 45, 96, 98, 99 
Emmons, Lt. Gen. Delos C., 22 5 
Empress Augusta Bay, 494, 496 
Enemy Equipment Intelligence Service Team (EEIST) 
Number One, 79—80, 84 
Engineer Combat Battalions, 592 
6th, 5 52 
27th, 551 
114th, 199, 543 
118th, 538 
121st, 374 
149th, 303 
294th, 379 
295th, 377 
Engineer Combat Groups 
40th, 387 
540th, 386 
1102d, 385 
1103d, 363, 367n, 368 
Engineer Combat Regiment, 40th, 342 
Engineer Gas and Flame Regiment, 30th, 17, 18, 23 
Engineer operations. See Flame throwers; Smoke screen 
operations. 
Engineer Shore Groups 
36th, 342n 
40th, 342n 
540th, 342n 
Engineer Shore Regiment, 531st, 174, 298 
Engineer Special Brigades, 70, 356, 398 
2d,400 
6th, 303 
Engineers, Corps of, 17, 24n, 27, 247, 5 58, 643 
Eniwetok, 406, 5 56 
Enz, Maj. Walter W. F., 192, 195, 201, 202, 205, 210 
lipinal, 292, 479 
Erft River, 484 
European Theater of Operations, United States Army 
(ETOUSA), 35, 40, 43, 136, 164, 519, 596, 605, 
610, 638, 644 
Eyeshields, 108, 112, 167, 175 
Falaise, 632 
Far East Air Force, 190, 190n, 216, 319 
Far Eastern Technical Unit (FETU), 210 
Fedala, 95 
Fellenz, Lt. Col. Lloyd E., 120 
Field, Capt. Harold L., 114n 
Field Artillery Battalions 
19th, 474 
314th, 485 
905th, 485 
Field Artillery Board, 420 
Field Artillery Group, 191st, 499 
Fighter Commands 
VIII, 159 
IX, 159 
Filling apparatus and plants, 153, 221, 239 
Fincke, Lt. Melvin, 220 
Finschhafen, 2 57, 313, 314 
Fire bombs. See also Incendiary bombs. 
165-gallon, napalm, 630n, 632 
in European operations, 149, 631—32 
expenditures, 632, 634, 63 5, 647 
igniters for, 1 59, 631, 634 
improvised, 320 
in Pacific operations, 320, 517, 633—3 5 
shortage of, 160—62 
sizes of, 63 On 
tactical missions and employment, 159, 160, 614, 630, 
635,647 
Fire storm, Hamburg, 619n 
Firenzoulo, 3 51 n 
Fiske, Lt. Col. William M., 355 
Flame, psychological value of, 541, 572, 586, 588, 598, 
609, 612, 633 
Flame thrower tanks, 657. See also Flame throwers; 
Flame throwers, mechanized; Ronson flame thrower. 
Crocodile, 60 5—06, 609—10 
development of, 230, 232, 234, 287, 535, 643, 646 INDEX 
683 
Flame thrower tanks—Continued 
flame tank battalion, 576, 584—8 5, 5 89 
M3 series, 287, 560—61 
Satan, 287, 560-63 
Sherman-Crocodile, 605, 605n, 606, 609—10 
training, 561, 567, 579, 589, 608, 611-12 
Flame throwers, 81, 109, 171-72, 177, 177n, 178, 265, 
279 
in amphibious assaults, 271, 5 5 3, 597 
in city fighting, 573—74, 576, 597 
defective parts, 199, 245, 547, 604 
demonstrations, 425, 553, 560, 577, 593, 605, 606 
early development and use, 534—3 5, 5 58—60, 560n, 
579-80 
ETO use of, compared with use in Pacific, 603—04, 
612, 647 
fuel and expenditures, 1 59, 169, 232, 272, 287, 297, 
316, 539, 547, 552, 556, 562, 570, 574, 583, 586, 
592, 607-08 
against German fixed fortifications, 594, 597—603 
improvised, 189 
against Japanese defenses, 536—38, 541—42, 542n, 543— 
46, 549, 551-57, 561-63, 566-67, 569, 571-74, 
577-78, 580-84, 586-88, 590-91 
maintenance of, 182, 292-94, 310, 316, 537, 539-40, 
543-45, 545n, 546-47, 550, 554, 559, 564, 570-72, 
575, 581, 595, 601, 610, 647 
range of, 537, 541, 563, 573, 581, 611, 647 
shortages, 169, 547, 604 
transportation problems, 564, 574, 594 
unit allotments of, 272, 5 5 5, 5 57, 579, 584, 590, 596, 
596n, 599, 602, 610 
waterproofing of, 294, 546, 547, 550, 559, 564, 575, 
595 
World War I projectors, 15, 5 34 
Flame throwers, mechanized, 169, 535, 583, 646. See also 
Flame thrower tanks; Flame tractors, 
auxiliary (defined), 5 60n 
communications problems, 577 
E4-5 auxiliary, 560, 562, 576, 576n, 583, 588-89, 
591, 605-07, 610-11 
E4R2-4R3-5R1, 589n, 607n 
E5-5, 606 
E12-7R1, 590n, 608 
in Europe, 169, 608-09, 612-13, 647 
flame hoses, 5 67—68, 5 87, 590 
on landing craft, 564—65 
M3-4-3, 576n, 610 
main armament (defined), 5 60n 
Mark I, Navy, 5 64—6 5, 5 67 
periscope mounted, 5 8 8—89, 5 89n 
POA CWS HI, 580, 584, 590 
Q Model (E7—7), 564, 576 
Flame throwers, portable, 88, 13 5, 169, 230, 234, 5 34, 
535, 584, 646-47 
discarded by advancing troops, 175, 5 50, 5 97 
Flame throwers, portable—Continued 
doctrine for employment, 213, 568—72, 574—75, 595, 
596, 647 
El, 535 
ElRl, 535, 543, 547, 592 
failure in Papua Campaign, 199, 245, 293 
an infantry/engineer weapon, 213, 537—38, 548, 554, 
555-57, 563-64 
Ml, 53 5, 539, 547, 592, 593 
MlAl, 293, 535, 539, 547, 550, 559, 575, 581, 592- 
93, 599, 604 
M2—2, 535, 564, 564n, 571, 575, 579, 581 
in North Africa and Sicily, 592—93 
training for, 213, 230, 537-38, 540, 542-43, 548, 
548n, 549, 553-56, 568-69, 579, 582, 593-94, 594n, 
596, 599, 603-04, 647 
Flame tractors, 5 65—67, 576 
Flanagan, Lt. Harry G., 602 
Flare mixture, M8, 622n 
Flattop Hill, Okinawa, 586 
Florence, 129 
Foch, Marshal Ferdinand, 87 
Fog oil. See Smoke screen operations, fog oil for. 
Foley, Lt. Col. William, 64, 8In, 83 
Fontanello Caves, 290 
Formosa, 187 
Fort Bragg, 424 
Fort Custer, 289, 469 
Fort Driant, 368, 474—75 
Fort Montbarey, 609 
, Fort Sam Houston, 297 
Fort Shafter, 220, 224, 296 
, Fort Stotsenburg, 506, 510 
Forward Echelon, Communications Zone (FECOMZ), 
65, 69, 71, 73, 164, 175, 177 
, Foster, Col. Ferris U., 5In, 75n 
Foulkes, Brigadier Charles H., 9, 14, 15, 16 
Fournier, Maj, Roland P., 221, 222, 227 
Frankel, 2d Lt. Theodore, 5 51—52 
, Frankfurt, 3 85 
French, Sir John, 9 
French Expeditionary Corps (FEC), 441, 450—51 
French forces, 299, 302, 327, 329, 45 5 
French forces (World War I), 7—8, 8n, 10—12, 15—16, 
534, 653 
Fries, Maj. Gen. Amos A., 73, 82, 200, 640 
as Chief of Gas Service, AEF, 17, 17n, 18-19, 22-24, 
37, 38. 41, 51, 52 
and CWS research role, 74, 8 5, 111 
"Fries-trained” officers, 27, 32, 32n 
and a permanent CWS, 24, 30, 653 
and World War I operations, 4, 14, 643 
Friesenheimer Island, 388 
, Frink, Maj. Gen. John L., 216, 264 
FS smoke, 106, 188, 245, 267, 342, 342n, 394, 395, 400, 
414, 414n, 417, 508. See also Smoke tanks. 684 
THE CHEMICAL WARFARE SERVICE 
Fuel, thickened, 158, 159, 161, 169, 562, 580, 583, 592, 
620, 631, 634. See also Incendiary bombs; Napalm. 
Fuel mixing, 160-61, 265, 272, 287-88, 570, 584 
Furiano River, 428—29 
Fuzes, 133, 134, 275-76, 285, 432, 457, 482-84, 497, 
500, 509, 519-20, 532, 621 
G-agents, 281, 650 
Gaffney, Capt. Philip J., 463 
Garapan, 563 
Garigliano River, 346, 350, 436, 442, 450, 452 
Garrison forces, 270, 272-73, 275 
Gas alarms, 75, 139, 168, 221, 244 
Gas attacks, fear of, 77, 177, 200, 473n 
Gas masks, 36, 70, 75, 108, 165, 166, 172, 182n, 237, 
279. See also Protective equipment, 
canisters, 241, 249, 262, 294 
discarded, 71, 76, 175, 180, 183, 198, 249, 288, 315 
maintenance and repair of, 13 3, 179, 184—8 5, 18 5n, 
249-50, 273, 289-92, 310 
service, 34, 126, 138, 165, 179, 185, 187-88, 221, 239, 
240, 249, 255, 267-68, 296,651 
as sniper target, 175, 250 
supply of, 34, 34n, 76, 77, 183-84, 651 
training, 187-88, 221, 236, 241, 249-50, 262, 267 
World War I, 4, 8, 10-11, lln, 13, 14, 14n, 17-18 
Gas reconnaissance, 174, 303 
Gas Regiment, 1st, 18, 23, 65 
Gas Service, AEF, 16—19, 21 
Gas warfare 
Allied policy on, 25, 28, 48, 77-78, 88, 107, 111, 652- 
64 
German policy on, 50, 69-70, 79-80, 108, 122, 156, 
177, 183-84, 279, 303, 650, 655-56 
Japanese policy on, 187, 197, 200, 206, 220, 652, 656 
preparedness for, 42, 47, 50, 69, 76-78, 84, 187, 200- 
201, 227, 234, 269-70, 277, 317, 648-52, 656-57 
theater plans for, 48, 5 5-57, 68, 77, 88, 107, 139, 
201-02, 208, 210, 218, 228-29, 231-32, 234, 240, 
245,254, 269, 650-51 
World War I, 3-15, 653 
Gassing, accidental, 122 
Gay, Col. Hobart R., 93 
Gay, Col. Robert N., 204, 21 1, 213, 213n, 539 
Geelong, 239—40 
Gela, 426 
Gelb Kreuz, 14n 
General Depot 6, EBS, 3 11 
Geneva Gas Protocol of 1925, 25, 2 5n, 28, 655 
Gerhard, Col. Frederick W., 78n 
Gerhardt, Maj. Gen. Charles H., 375n 
Germany. See Gas warfare, German policy on; Luftwaffe. 
Gernsheim, 3 87 
Gertulla, Capt. Jalmar, 499 
Gilbert Islands, 191, 269, 271, 405, 555 
Gill, Maj. Gen. William H., 497 
Glider operations, 417, 4 5 3—5 5 
Goering asparagus, 453 
Gona, 656 
Gondrecourt, 18 
Goodenough Island, 257, 396 
Goon gun, 42 8 n 
Goon Gun Hill, 428n 
Gorrill, Lt. Col. F. S., 201 
Gothic Line, 3 50, 456, 457 
Grant, Capt. Carl E., 106 
Greeley, Col. Leonard J., 204, 216 
"Green Light Supply” plan, 165 
Green, Maj. Maurice G., 507 
Greene, Col. William H., 366 
Grenades 
HC smoke, 107 
incendiary, 84, 91, 96, 133, 159 
M8, 126-27, 169, 253 
M14, 253 
Ml 5 WP, 126-27, 262, 320, 602 
No. 79, British, 169 
smoke, 84, 169, 172, 199, 323, 537 
thermite, 106, 539—40 
white phosphorus, 107, 126—27, 262, 320, 542n, 551, 
573, 594, 600, 602, 609, 631, 643 
Grenoble, 299 
Griswold, Maj. Gen. Oscar W., 494 
Grothaus, Lt. Col. Donald G., 206, 206n, 207, 253, 401n 
Ground Forces Reinforcement System, 72 
Ground Forces Replacement Command, 62, 468, 470 
Guadalcanal, 493, 494, 522, 536-40, 542-43, 546, 564, 
566, 595 
Guam, 401, 406, 516, 561n, 562-63, 625, 628 
Gurkha troops, 449 
Gustav Line, 336, 350, 436, 442-43, 445, 450, 452, 594 
Guild, Col. Walter A., 337n, 640 
Haber, Fritz, 6, 6n, 7, 8n 
Hague Peace Conference, 6 
Hagushi Beach, 274, 402, 410 
Halverson, Maj. Roy E., 396 
Hambach, 376 
Hamburg, incendiary raid on, 619, 619n 
Hamilton, Col. Stuart A., 187, 188, 189 
Hamilton, Lt. Col. William B., 469 
Hammond, Col. William C., 8In 
Hannett, Lt. Cmdr. G. W., 527 
Hansell, Brig. Gen. Haywood S., 626, 627 
Harbord, Maj. Gen. James G., 2In 
Harmon, Maj. Gen. Ernest N., 91 
Harper, Col. John H., 273 
Hawaii, 34, 191, 222, 273-75, 286, 296-97, 409, 516, 
520, 530, 560, 564, 584, 657 
Hawaiian Air Force, 220 
Hawaiian Chemical Depot, 220, 267, 268, 273, 296, 297 
Hawaiian Department, 35, 219—22, 224, 227, 228, 231, 
266-68, 404-05, 5 53, 5 53n, 637, 642, 646 
Hayes, Maj. John J., 41, 139, 140, 143 INDEX 
685 
Hays, Lt. Col. Edwin S. S., Jr., 48 5n 
Heath Plantation, 412 
HC smoke, 322n, 374, 408 
Heddernheim, 621 
Heffner, Capt. James J., 95 
Hexachlorethane (HC). See HC smoke. 
Hickam Field, 220, 401 
Highway 1 (Italy), 3 52 
Highway 5 (Luzon), 506, 513 
Highway 6 (Italy), 346, 437, 442, 448 
Highway 7 (Italy), 346, 348, 3 50, 445—47 
Highway 64 (Italy), 3 52—5 3 
Highway 65 (Italy), 351 
Hilbringen, 371 
Hill, Rear Adm. Harry W., 532 
Hill, Capt. Tom B., USN, 22 5 
Hills 
60, 586 
89, 587-88 
95, 586-87 
178, 586 
260, 542, 542n 
303, 363 
331, 363 
593 (Abaneta Farm), 448—49 
700, 541 
715, 428, 428n 
950, 438-39 
1000, 541 
Hilsea, 147 
Hingle, Maj. Arthur T., 47, 64, 164, 175, 177 
Hiroshima, 648 
Histon, 147 
Hitler, Adolf, 36, 65 5 
Hobbs, Maj. Gen. Leland S., 376, 377 
Hollandia, 213, 218, 252, 308, 498, 501 
Hollerath, 601 
Holmes, Capt. Jerome K., 227, 232 
Honolulu, 404, 405, 5 59 
Honshu, 624, 625, 627 
Hooker, Lt. Col. Albert H., 153 
Howitzers, 420 420n, 495, 5 00 
Huebner, Maj. Gen. Clarence R., 473 
Hughes, Maj. Gen. Everett S., 121 
Hulett, George A., 16, 17 
Hulsey, Lt. Col. David D., 214n, 399, 5 09 
Humboldt Bay, 498 
Humphreville, Lt. Col. Bruce T., 80, 95, 96, 109, 640 
Huon Gulf, 527 
Huon Peninsula, 412 
Hurricane Task Force, 499 
Husky, 424, 426, 429. See also Sicily. 
Hutchinson, Lt. Col. William S., 446, 45 6 
Hypochlorite, 188 
Iceberg, 402 
Iceland, 620 
le Shima, 402, 410, 533 
Imperial Chemical Industries, 153 
Impregnating facilities, 71, 166—67, 171, 187—88, 221, 
225, 242, 245, 252, 267, 279, 296, 305-07, 643-44. 
See also Chemical impregnating companies; Protec- 
tive clothing. 
Imugan, 513 
Incendiary bomb clusters, 151, 319, 320, 621 
adapters for, 620, 628n 
aimable, 620 
M17, 500-pound, aimable, 157, 518, 622, 623 
M52, 500-pound, 107 
M54, 100-pound, 107 
maintenance problems, 133 
100-pound, of 4-pound magnesium bombs, 157, 620 
100-pound, of M50 bombs, 620 
Incendiary bombs, 135, 149, 238, 279, 317, 614, 647. 
See also Bombs; Fire bombs. 
British, 151, 152, 156, 157, 618-19, 623 
AN-M50A1, 107, 622 
AN-M50A2, 107, 622 
combat operations requirements, ETO, 153—54, 156 
defective, 620 
development of, 26, 616—17, 647—48 
Eighth Air Force, first use by, 620 
electron, German, 614, 617 
expenditures, 154, 157, 158, 619, 622, 623, 629, 647 
filling for, 151, 152, 158, 284, 614-17, 620, 628 
and HE, compared, 616—17, 621, 647 
improvised, 197 
loop-sling suspension in B—17, 621 
maintenance problems, 133 
M47, 100-pound, 151, 154-58, 617, 620-21, 623, 630 
M47A1, 319 
M47A2, 628 
M50, 4-pound, 620, 622, 623, 630, 633 
M69, 6-pound, oil, 619, 628, 633 
M76, 500-pound, Block Burner, 15 8, 622—23, 630 
tactical air missions, 319, 630 
use against German targets, 157, 619, 621—24, 628 
use against Japan, 320, 624—30, 657 
World War I types, 614—15 
and Zoroastrian Society, 619 
4-pound magnesium, 150, 617, 647 
25-pound, 616 
110-kilo, oil, 617 
500-pound, oil, 647 
2,000-pound, 152 
Incendiary darts, 615 
Incendiary gel (PT), 15 8, 622 
India, 62 5 
Indian forces, 449 
Indiantown Gap Military Reservation, 40, 89 
Infantry Divisions 
1st (World War I), 17 
1st, 70, 8 In, 83, 424, 426, 462, 473, 593, 597, 601 686 
THE CHEMICAL WARFARE 
SERVICE 
Infantry Divisions—Continued 
2d, 597, 598-99 
3d, 289, 292, 299, 340, 342n, 343-45, 386, 387, 388, 
424, 425, 428, 435-37, 445, 447, 452, 489, 520 
4th, 70, 465, 600 
5th, 8In, 361-63, 367-71, 383, 384-85, 474, 485, 604 
6th, 214n, 315, 316, 400, 500, 507, 508, 509-10, 512, 
551-52 
7th, 502, 504, 516-18, 525, 555, 559, 571, 586-88 
8th, 8In, 378, 487, 597-98 
9th, 424, 466,473, 601 
24th, 220, 262, 502-03, 548 
2 5th, 21 5, 220, 231,493, 494, 513, 5 36-3 8, 543, 5 57 
26th, 8 In 
27th, 272, 5 16, 553-54, 561n, 563, 586 
29th, 70, 177, 373-75, 375n, 376, 462, 467, 598, 609- 
10 
50th, 70, 374-76, 376n, 377, 391, 467-68, 472, 489, 
489n, 599,601 
31st, 315 
32d, 195, 196, 198, 204, 213, 214n, 236, 497, 503, 
513, 543, 572 
33d,315, 513 
34th, 339, 345, 435, 440, 443, 448-49 
35th, 8 In 
36th, 299, 334, 340, 342n, 387, 432-33, 438, 439, 
441, 443-44, 448-49, 452, 455, 594n 
37th, 416,494,496, 506, 538-41, 543, 574 
38th, 317n, 506 
40th, 3 16, 506, 527 
41st, 195, 196, 198, 236, 249, 251, 400, 499, 501, 548, 
551-52, 570 
43d,493, 506, 538, 540, 543, 573 
45th, 299, 340, 342n, 386, 387, 424, 425, 432, 433, 
440, 452, 454-55 
65th, 81n 
71st, 387 
76th, 485 
77th, 502, 504, 517, 532-33, 561n, 562, 563 
79th, 391, 465, 489-90 
80th, 8 In, 386, 485 
81st, 516, 524, 633 
84th, 374 
85th, 450-51, 594 
87th, 383, 385, 385n, 386 
88th, 346, 3 52, 447, 450-52 
89th, 383, 385-86 
90th, 371, 372, 383, 384-85,466, 474, 476 
91st, 81n 
93d, 542 
95th, 371 
96th, 502, 503, 517-19, 525, 571, 586 
98th, 525 
100th, 602 
102d, 374 
104th, 378, 487 
106th, 81n 
Infantry Divisions—Continued 
Americal, 236, 494-96, 536, 542, 543, 569 
Infantry Regiments 
1st, 551-52 
7th, 428 
8th, 465 
10th, 362-64, 485-86 
11th, 474-75, 48 5 
13th, 378 
16th, 462 
17th, 571, 587 
20th, 499, 500, 510-12, 552 
21st, 502 
22d,465,600 
26th, 601 
27th, 493, 577 
28th, 378-80 
30th, 38On,388 
32d, 587 
35th, 476, 512, 537 
38th, 598 
63d, 508 
103d, 538 
111th, 522 
116th, 462, 598 
117th, 601 
119th, 375-76 
120th, 375-76 
121st, 597 
123d, 315 
126th, 543, 572 
127th, 200 
128th, 503 
129th, 495 
132d, 542 
13 5th, 448 
141st, 443-44, 449 
142d,438 
143d, 443-44 
145th, 495, 508, 539 
157th, 433 
158th, 415, 499, 551, 573 
160th, 506 
162d, 500 
163d, 499, 551 
164th, 542 
165th, 554 
179th,432 
180th, 440 
182d, 495, 542-43 
185th, 527-28 
186th, 500 
313th, 489 
314th, 491 
315th, 490, 491n 
321st, 517 
322d, 517 INDEX 
Infantry Regiments—Continued 
323d, 517 
333d,374 
339th, 451, 594 
345th, 385 
347th, 385n 
353d, 385 
354th, 386 
355th, 386 
3 59th, 467 
381st, 504 
382d, 504, 517 
383d, 517 
399th, 602 
417th, 485 
517th, 454 
Intelligence, 43, 54, 75, 78, 79-80, 84, 119, 122, 189, 
202, 205, 207, 231-32, 279-81, 283, 285, 286-87, 
303-04, 639,650 
Inter-Service Chemical Warfare Committee, 61 
Intramuros, 573 
Ipo Dam, 577, 634-3 5 
Irritant powders, 7 
Ischia, 3 13 
Isernia, 436 
Island Base Section (IBS), 301, 311 
Island Command, Okinawa, 275 
Italian campaign, 114, 122, 127, 290, 298-99, 311, 3 53, 
360, 393, 421, 453, 456, 456n, 458, 534, 594, 645, 
651 
Italian Military Chemical Institute, 283 
Iwo Jima, 269, 319, 401, 408-09, 521, 530-32, 578-84, 
589, 590,652 
J boats, 397 
James, Lt. Col. Thomas H., 462 
Japan. See also Gas warfare; Kamikaze attacks, 
incendiary raids on, 320, 624—30, 648 
planning for invasion of, 402—03, 411, 589—91, 654 
Japanese 3 2d Army, 586—88 
Javits, Lt. Col. Jacob K., 216 
Jennings, Lt. Col. Maurice E., 220 
Johnson, Col. Leonard M., 42, 43, 46, 47, 53, 100 
Johnson, Col. Ragnar E., 80 
Johnson, Lt. Col. William A., 208 
Joint Chiefs of Staff, 111, 191, 270, 401n, 501, 576, 
618n,625 
Joint Expeditionary Force, 406, 561n 
Juliano, Sgt. Fred, 594, 594n 
Julich, 374-76, 609-10 
Jungle warfare. See Tropical warfare. 
Kadena airfield. 517 
Kahoolawe, 521, 5 30 
Kaiser Wilhelm Institute, 6 
Kakazu Ridge, 517 
Kamikaze attacks, 407, 409—11, 656 
Kamiri airdrome, 415 
Kane, Capt. Morris W., 3 82 
Kangaroo, Australia, 240 
Karger, Col. Alfred G., 8In 
Kastel, 3 86 
Kauai, 296 
Kaub, 3 86 
Kellogg, Col. Crawford M., 37, 42, 43, 43n, 48, 57, 62, 
149, 150, 153, 157, 216, 619, 620, 621 
Kennedy, Maj. Robert H., 390 
Kerama Retto, 517, 5 32 
Kesner, Capt. Sam, 344, 345 
Kesselring, Generalfeldmarschall Albert, 451 
Kieselguhr water filters, 284 
King, Brig. Gen. Edgar, 232 
King, M/Sgt. John K., 198, 199, 200, 200n, 544, 545 
Kingswood, 240 
Kinkaid, Vice Adm. Thomas C., 529 
Kitchener, Lord, 8 
Kitselman, Capt. Henry A., 503 
Klaswick, Capt. Julius F., 119n 
Kluge, Generalfeldmarschall Guenther von, 632 
Kobe, 630 
Koblenz, 3 83, 385 
Kochi Ridge, 5 86 
Kolombangara, 493 
Konigswinter, 3 81, 382 
Kordeleski, Pvt. Frank, 5 39 
Korea, 657 
Kornasoren airdrome, 415 
Krauthausen-Selgersdorf road, 376 
Krueger, Lt. Gen. Walter, 400n, 416, 416n, 497, 505, 
568,635 
Kwajalein, 406, 516, 5 56 
Kyushu, 402—03, 590, 625 
La Senia, 98 
La Valbonne, 387n 
Labir, 503 
Labiranan Head, 503, 525 
Lagone, 440 
Lae, 257, 397, 398, 412 
Lakey, Capt. Raymond J., 454 
Lamb, 1st Lt. George R., 366 
Land, Lt. Charles, 5 50 
Landing craft, 272, 395-98, 425. See also LCDs; 
LCI(M)’s; LCM’s; LCT’s; LCVP’s; LST’s; Mortar 
boats. 
Lane, Maj. Jack F., 206, 298n 
Langres, 18 
Larkin, Maj. Gen. Thomas B., 103, 110 
Laruma Valley, 543 
Laundry operations, 167, 279, 305, 307, 308, 644 
LCI’s, 446, 521. See also LCI(M)’s. 
LCI(M)’s, 521-33 
LCM’s, 342n, 400, 494, 499, 561 
LCT’s, 343-44, 463, 494, 521, 561, 566 
289-149 0 - 68 - 45 688 
THE CHEMICAL WARFARE SERVICE 
LCVP’s, 408, 463 
Le Mans, 178 
Le Muy, 454 
Leach, Capt. Howard S., 220 
League, Pvt. Herbert H., 506 
LeCraw, Maj. Roy, 45 
Lee, Maj. Gen. John C. H., 38, 40, 44, 49, 50, 51, 59, 67 
Leggin, Maj. Alexander, 64, 65, 76 
Leghorn, 129, 312-13, 332-34, 3 50 
Leluc, 45 3 
LeMay, General Curtis E., 621, 624, 627, 630, 648 
Lemnitzer, Brig. Gen. Lyman L., 88 
Lend-lease, 41, 61, 150, 152, 153, 168 
Lendersdorf, 378, 379 
Lennon’s Hotel, 212, 212n 
LeRoy, Lt. Col. Warren S., 41, 47, 48, 53, 55, 59, 60, 
62, 137, 140, 142, 143, 143n, 144 
Lewis, Lt. Col. Emory A., 275 
Lewisite, 3, 269 
Leyte, 218, 254, 266, 315, 400, 407-09, 501-05, 525-27, 
570-73, 576 
Libby, 2d Lt. Ralph L, 220, 222 
Liberty ships, 529 
Liege, 378 
Lingayen, 316, 407-08, 408n, 505-06, 527-30, 573, 656 
Linnich, 374 
Lipphardt, Lt. Col. Jack W., 477 
Liquid smoke. See FS smoke. 
Liri River, 442, 450 
Liri Valley, 437-38, 442, 448 
Lisdorf, 372 
Livens, Capt. William H., 12 
Livens projector, 3, 4n, 12—13, 188 
Livergnano, 3 51 
Livesey, Lt. Col. Herbert B., Jr., 8In 
Lockman, Capt. Edward L., Jr., 517 
Lofton, Capt. Morris W., 339n 
Loire Base Section, 75n 
London, 35, 40-45, 55, 59, 617 
Lone Tree Hill, 5 51-52 
Lone Tree Ridge, 578 
Longueville, 177 
Loos, gas attack, 9, 11 
Los Negros, 315 
Lost, 14n 
Loton Deer Park, Alderbury, 147, 154 
Loucks, Brig. Gen. Charles E., 36, 48—50, 101, 105, 219 
LST’s, 339, 406, 407, 446, 494, 521, 529, 532, 566 
Ludendorf bridge, 381 
Ludwigshaven, 3 87, 3 88 
Luftwaffe, 323, 327, 329, 33 1-32, 334, 336, 353, 356, 
360, 376, 380, 383, 384, 384n, 386, 388, 392, 618, 
645, 654 
Luneville, 386 
Lupao, 512 
Lutes, Maj. Gen. LeRoy, 173 
Luzon, 218, 286, 315-17, 416-17, 505-15, 519, 527-29, 
570, 573, 576-77, 634, 635n 
LVT’s, 501, 559 
LVT(4)’s, 565, 567 
MacArthur, General Douglas, 136, 191, 196, 219, 238, 
254, 397, 398, 498, 501, 502, 505, 553, 576 
MacArthur, Col. John C., 40-45, 54, 58, 60, 62, 65, 71, 
76, 183, 354n, 355, 466 
McBride, Col. Lewis M., 418 
MacDonald, Lt. Col. Kenneth K., 502 
MacDonnell, Sgt. Theodore R., 518 
McKaig, Lt. Col. Nelson, 215, 231, 493—94 
McKinney, Maj. Leonard L., 211, 256, 260, 261, 263 
McMillin, Maj. James M., 220, 221, 267 
McMurray, Lt. Col. Russell E., 45 6 
McNair, Lt. Gen. Lesley J., 468 
Maeda, 586 
Maffin Bay, 314, 3 15, 499, 551, 552 
Maginot Line, 599, 602 
Magnesium, 150. See also Incendiary bombs. 
Magness, Lt. Col. Thomas H., Jr., 54, 605n 
Main River, 3 8 5, 386 
Maintenance, 109, 109n, 114, 128, 131-34, 182, 288- 
89, 293, 370, 434, 514. See also Chemical Main- 
tenance Companies; Waterproofing. 
Mainz, 3 84—86 
Mairoi, 434 
474, 476 
Makin Atoll, 230, 5 54 
Makua, 520—22 
Malencourt, 534 
Maling, Col. Edwin C., 40, 42, 43, 97n, 115, 121 
Malinta Tunnel, 188 
Malmedy, 489 
Malta, 327 
Manila, 187, 210, 286, 505-07, 573-74, 576, 634 
Mannheim, 389 
Manus Island, 525, 550 
Marangella, Capt. Joel B., 390n 
March, General Peyton C., 24, 2 5, 653 
Mariana Islands, 191, 270, 273, 275, 287, 319, 401, 406, 
501, 516, 557, 560-64, 567, 579, 624, 656 
Marina, 282 
Marine Amphibious Corps 
I, 494 
III, 523, 533, 561 n, 562, 584, 589 
V,405, 560-61, 561n, 578, 583 
Marine Brigade, 1st Provisional, 562 
Marine Corps, 225, 532, 553, 560, 563, 564, 580, 585, 
591 
Marine Divisions 
1st, 258, 275n, 517, 519, 523, 536, 564, 566 
2d, 405, 533, 536, 537, 553-54, 561 
3d, 494, 541, 562, 579, 581, 583 
4th, 530, 555-57, 559, 561, 579, 581, 583 INDEX 
689 
Marine Divisions—Continued 
5th, 530, 579, 581, 583 
6th, 517 
Marine Regiments 
1st, 566 
5th, 566 
6th, 555 
7th, 566 
8th, 537, 555 
19th, 541 
21st, 541 
24th, 556 
Marine Tank Battalions, 589n 
1st, 5 58 
3d, 562 
5th, 582 
Markham, Lt. Col. Harrison, 432 
Markham River, 3 97, 412 
Marne, 7 
Marriott, Col. Carl L., 36, 37, 201, 204, 211, 212, 256- 
66, 398, 399 
Marriott, Lt. Col. Ian A., 87, 120 
Marseille, 299, 302, 360 
Marshall, Capt. Arthur R., 474 
Marshall, General George C., 32, 3 8, 51, 420 
Marshall Islands, 191, 270, 272—73, 406, 516, 555-57, 
559 
Marston Magna, 138 
Martin, Lt. Col. Ronald LeV., 470, 484n 
Mateur, 311 
Mattingly, Col. Benjamin F., 76 
Maui, 296 
Mauldin, Bill, 340 
Maull, Lt. Col. William R., 403n 
Mavavia, 542 
Maxwell Field, 616 
Mayenne, 378 
Medal of Honor, 594n 
Medical Corps, 230, 23 3, 245 
Medical Department (World War I), 17, 24, 24n 
Mediterranean Base Section (MBS), 47, 89, 96, 97, 98, 
98n, 99, 100, 109, HOn, 112, 282, 311 
Mediterranean Theater of Operations, 121. See also North 
African Theater of Operations. 
Mehrum, 390, 391 
Melbourne, 189, 190, 203, 236 
Melchbourne Park, 153 
Meritorious Service Unit awards, 288, 308, 313 
Mers el Kebir, 282 
Merzig bridge, 371 
Metz, 368, 371, 371n, 474, 476-77 
Meuse-Argonne Campaign, 65 3 
Middleton, Maj. Gen. Troy, 42 5n 
Mignano, 43 6—3 8, 440 
Milchplatz, 390—92, 490, 491n 
Miles, Col. John L., 8 In 
Miller, 1st Lt. Bernard, 173 
Miller, Maj. Leonard C., 67 
Million Dollar Hill, 428n 
Military Police Training Center, Fort Custer, Mich., 
469 
Milne Bay, 256, 257, 307, 395-98 
Milton, Col. Hugh M., II, 213n 
Mindanao, 400 
Ministry of Aircraft Production (British), 153 
Ministry of Home Security (British), 323, 618 
Ministry of Supply (British), 153 
Minturno, 346, 348-50, 447, 450-51 
Mitsubishi Aircraft Plant, 626 
Mokmer, 500 
Mollen, Maj. Irving R., 203, 205 
Molokai Island, 232 
Molotov cocktails, 189, 199, 299 
Moneymore, 147 
Monte Cassino, 448—50 
Montebourg, 177 
Monterumici, 3 51 
Montgomery, General Sir Bernard L., 76, 328 
Montgomery, Col. Edward, 40-43, 43n, 44, 46, 104, 137, 
152, 354 
Montgomery, Col. James V., 386n 
Moore, Capt. Milton M., 174 
Morcock, Lt. Col. John C., Jr., 201, 203, 547 
Morgan, 1st Lt. Charles A., Jr., 188 
Morgan, Lt. Col. John C., 189, 190, 191, 200, 203, 253 
Morison, Samuel Eliot, 335n 
Moroccan Division, 2d, 441 
Morotai, 314—15 
Mortar, Stokes, 3, 11-12, 13, 15, 23, 418 
Mortar boat groups, 52 5—26 
Mortar boats, 232, 503n, 505n, 521-33 
Mortar Island, 493 
Mortar support units, 530—32 
Mortars. See also Chemical mortar, 4.2-inch. 
60-mm., 374, 495, 500, 541 
81-mm., 419, 420, 495, 499, 500, 506-07, 541 
Moselle River, 361—69, 371n, 484 
Mosles, 174, 177 
Moundres, 462 
Mount Acero, 436 
Mount Adone, 3 51 
Mount Cairo, 448 
Mount Camino, 437, 43 8 
Mount Difensa, 437, 43 8 
Mount Lungo, 441, 442 
Mount Maggiore, 438 
Mount Marrone, 442 
Mount Mataba, 508 
Mount Minoro, 572 
Mount Pacawagan, 508 
Mount Pantano, 440 
Mt. St. Angelo, 434 
Mount Sammucro, 437—3 9, 441 690 
THE CHEMICAL WARFARE SERVICE 
Mount Santa Croce, 437 
Mount Scouri, 348, 442 
Mount Suribachi, 531 
Mudge, Brig. Gen. Verne D., 5 50 
Mules. See Pack animals. 
Munda, 493 
Munn, Capt. James. F., 79 
Muftoz, 512 
Mustard gas, 3, 4, 14, 14n, 16, 17, 26, 238-40, 254, 269, 
283, 284, 307, 319, 656 
Muth, Lt. Col. Roy W., 48 5 
Myers, 1st Lt. Robert D., 95 
Nadzab, 397, 412-14, 416, 417 
Nagasaki, 648 
Nagoya, 626, 630 
Naha, 5 33 
Namur (Belgium), 479n 
Namur (Marshall Islands), 406, 5 56 
Nan Hill, 5 86 
Nansei Shoto, 402 
Napalm, 159-61, 287, 297, 299, 310, 320, 517, 539, 562, 
565, 586, 588, 593, 628, 630-33. See also Fire 
bombs. 
Naples, 124, 130, 133, 290, 298, 313, 329-32, 353, 359, 
406, 434, 645 
National Defense Act of 1920, 25, 30 
National Defense Research Committee (NDRC), 216, 
324, 354, 564 
National Oil Refining Company, 160 
Naval District, 14th, 560 
Navy, U.S., 86, 95, 216, 222, 225, 234, 272, 276, 285, 
519, 649 
and flame thrower development, 5 60, 564, 5 80 
and mortar boats, 232, 520—21, 5 30 
and use of smoke, 3 3 5—56, 342, 3 94, 3 98—99, 403—11 
Nebelwerfers, 439 
Neckar River, 3 89 
Nerve agents, 281, 650 
Netherlands East Indies, 190n, 191, 237 
Nettuno, 299, 338, 445 
New Britain, 316, 412, 493, 549-50, 558 
New Caledonia, 191, 236, 558 
New Delhi, 625 
New Georgia, 492-94, 538-40, 543, 546, 5 58 
New Guinea, 198, 200, 206, 254, 257, 261, 315, 316, 
395-97, 412, 415, 498, 500-501, 527, 545, 548, 
656 
New Guinea Base Section, 210 
New Guinea Force School, 199 
New York Port of Embarkation (NYPE), 105, 106, 125, 
179 
New Zealand, 191 
New Zealand forces, 449 
Nice, 454 
Nied River, 371n 
Niederzier, 376 
Nierstein, 3 84—85 
Nimitz, Admiral Chester W., 191, 225, 401, 404, 498, 
501, 502, 576 
Nishibaru Ridge, 517 
Noemfoor Island, 415, 417 
Normandy Campaign, 69, 70, 163, 167, 173—75, 177—78, 
181, 250, 303, 355-58, 461-68, 477-79, 597, 599, 
604, 605, 608 
North African Theater of Operations, USA, 3 5, 41, 46, 
86-87, 88, 94, 99, 101, 102, 103, 104, 105, 108-09, 
113, 121, 122, 123, 137, 149, 151, 165, 298, 326- 
30, 421, 592, 594, 645. See also Chemical Warfare 
Service, NATOUSA/MTOUSA; Services of Supply, 
NATOUSA/MTOUSA. 
North Pacific Area, 191, 19In 
Northern Base Section, 311 
Northern Ireland Base Section, 14In 
Northern Landing Force, 561, 561n 
Notorangelo, 1st Lt. Anthony, 129, 289, 290 
Noyes, W. A., 216 
Oahu, 220, 268, 521 
Oberwesel, 385, 386, 386n 
O’Brien, Capt. John J., 177 
Office of Gas Service, War Department, 24 
Office of Strategic Services, 650 
Oil bombs. See Incendiary bombs. 
Oil-perspex filling, 157 
Oise Base Section, 75n 
Okinawa, 273-76, 402, 407-11, 517-19, 532-33, 568, 
584-90, 656 
Olds, Capt. James F., Jr., 538 
Olympic, 402, 590 
Omaha Beach, 70, 173-74, 177, 303, 3 55-58, 462, 656 
Onville, 474 
Operational research, 618, 618n, 633 
Operations Division, WDGS, 33, 48, 53, 61, 89, 170, 
255, 324-25, 638 
Oppenheim, 3 84 
Oran, 89, 96, 97, 103, 109, 282, 298, 311, 327, 328, 
342, 425 
Ordnance Department, 107, 134, 154, 155, 214, 253, 258, 
259, 264, 269, 285, 560, 616, 617, 644 
Ordnance Department (World War I), 17, 24, 24n 
Ormoc, 504, 572 
Oro Bay, 210, 216, 251, 262, 396, 399 
Orsoy, 389, 390, 490, 491n 
Osaka, 630 
Oujda, 100 
Ouled Rahmoun, 289 
Our River, 484—85, 485n, 486—87 
Overlord, 163, 461. See also Normandy Campaign. 
Pachten, 372 
Pacific Base Command, 580 
Pacific Guano and Fertilizer Company, 221 INDEX 
691 
Pacific Ocean Areas (POA), 191, 222, 224, 229, 234, 
271, 401, 409, 642-44, 649,651, 652 
Pack animals, 430, 436, 452, 504 
Packing and packaging, 133—34, 144, 248, 253, 273, 
547. See also Containers. 
Paestum, 3 34, 433 
Palatinate, 383 
Palau Islands, 273, 516, 522-24, 533, 564, 566 
Palerno, 289, 301, 311, 342, 429 
Palmer, Lt. Col. John Me A., 17 
Panama, 34 
Panama Canal, smoke screening, 321—22, 322n, 325—26 
Paoching, 633 
Papua Campaign, 198-200, 213, 240, 245, 246, 293, 498, 
543, 546 
Parachute Infantry Regiments 
503d,412,415 
504th, 439 
511th, 416-17 
Parafrag bombs, 412, 63 5 
Paris, 73, 180, 304 
Parker, Lt. James W., 197 
Pasig River, 506 
Patton, Lt. Gen. George S., Jr., 80, 91, 93, 110, 361, 
383,430,474, 605 
Pearl Harbor, 28, 225, 267, 269, 296, 404-05, 502, 521, 
530 
Peerenboom, Lt. Col. Maurice A., 214n 
Peleliu, 516, 517, 523-24, 566-67 
Peninsular Base Section (PBS), 11 5, 122, 129, 134n, 290, 
312, 331n 
Penler, Capt. Stephen, 241, 241n 
Pennycock, Brigadier G. H., 355 
Perkins, Lt. Col. Melville F., 54 
Persano, 43 3 
Pershing, General John J., 16, 23—2 5, 653 
Perspex mix fuel, 157, 160, 631 
Perth, 190 
Philippine Army, 188 
Philippine Chemical Depot, 188—89 
Philippine Department, 3 5, 187, 193 
Philippine Islands, 187-89, 218, 237-38, 240, 254, 266, 
283-84, 315-17, 407, 501, 509, 543, 570, 573, 575, 
576, 590 
Philippine Scouts, 187 
Phipps, Col. Francis H., 213 
Phosgene, 3, 10-11, 13, 14n, 152, 282 
Phosphorus, 322n 
Pier, 374, 375 
Pike, Cpl. Boyd R., 602 
Pilelo, 549 
Pinamopoan, 502 
Piombino, 298, 332, 333, 3 50 
Plum (Philippines), 283 
Poland, 36, 53 5 
Port en Bessin, 3 58 
Port Moresby, 198, 199, 257, 262, 395, 545 
Porter, Maj. Gen. William N., 27, 28, 229, 243, 245. 
See also Chemical Warfare Service, 
and Bullene Mission, 483 
and CWS status in the 1930’s, 419 
and gas warfare protection and retaliation, 77, 85, 270, 
651-52 
and HE mission for 4.2 mortar, 419—20 
and incendiary bomb program, 617 
and missions and value of CWS, 74, 200, 28 5, 637, 640, 
657 
named Chief, CWS, May 1941, 26 
opinion of Reserve and AUS officers, 104n, 637 
and shortage of chemical mortars, 178 
and smoke screening plans, 324, 326, 396—97 
and theater CWS officers, 40, 44, 50, 53, 56, 68, 100— 
101, 104, 115, 639 
theater inspection trips, 48—49, 51, 52, 69, 71, 101, 
105 
and World War I gas attacks, 8n 
Portland (England), 3 56 
Porton Experimental Station, England, 45, 54, 242 
Powell, Col. Frederick E., 44, 60, 185 
Powers, Col. Patrick F., 76, 77, 78, 183, 184 
Pozzuoli, 3 3 0—3 1 
Prentiss, Brig. Gen. Augustin M., 68, 69 
Prentiss, Lt. Col. Augustin M., Jr., 206, 207n, 216 
Projects for a Continental Operation (PROCO), 170—73, 
256 
Propellants, mortar, 290, 431, 435, 438, 439, 497, 500 
Protective clothing, 70, 75, 166—67, 175, 183, 187—88, 
218, 242, 242n, 243, 250-52, 267, 279, 287, 304, 
308, 643, 651. See also Impregnating facilities. 
Protective equipment, 93, 106—07, 107n, 108, 126, 152, 
167, 177-78, 180, 185, 213, 236, 243-44, 258, 260, 
267—68, 273, 651. See also Eyeshields; Gas masks. 
Pulcherini, 451 
Quartermaster Battalion, 107th, 199 
Quartermaster Corps, 166, 167, 175, 214, 242, 247, 250, 
251, 258, 259, 284, 285, 643-44. See also Laundry 
operations. 
Quartermaster Service Company, 4342d, 274 
Quimby, Capt. James O., 444 
Quinine sulfate, 18 8 
Quinville Ridge, 465 
Rabaul, 493 
Radios 
SCR—193, 436 
SCR—194, 436 
SCR—284, 436, 452, 514, 514n 
SCR—500, 451, 515 
Rainbow plans, 322 
Raincoat, 438 
Ramanantelo Hill, 517 
Rambouillet, 304 
Randazzo, 289 692 
THE CHEMICAL WARFARE SERVICE 
Ranger Battalions 
1st, 447 
3d, 438-39, 447 
4th, 437-38, 447, 447n 
Ranger forces, 426, 432—34, 437, 445—46, 458 
Rapido River, 122, 346, 441-45, 448, 651 
RE/8 (Research and Experiment Station, Section 8) 
(British), 618, 618n 
Reagh, Lt. Col. John D., 210 
Reckless Task Force, 498 
"Red Ball Express,” 165, 165n, 182 
Regulating stations, 18 5—86 
Reilly, Lt. Col. James E., 220, 220n, 22 5, 231 
Remagen, 3 81—82 
Remember Pearl Harbor Group, 189 
Rennes, 178 
Replacement Training Center, Camp Sibert, 326 
RH 195, 247-48 
Rhein-Herne Canal, 390 
Rheinau CWS Depot, 299 
Rhens, 38 5, 38 5n 
Rhine River, 74, 292, 360, 373, 381-92, 484, 489-91, 
612 
Richardson, Lt. Gen. Robert C., Jr., 225, 234n, 401, 
404, 405, 53On, 5 59, 567 
Riddick, Maj. John A., 202, 205, 207 
Riegelman, Col. Harold, 198, 200, 201, 204, 213, 214, 
400, 499n, 548n 
River crossing operations. See Smoke screen operations, 
river crossings. 
Rocket ships, 526 
Rockhampton, 548 
Rockway, Lt. Robert P., 549 
Rockwood, Col. Alfred L., 103, 104, 1 16, 121, 128 
Rocky Crags, 5 86 
Rocky Point, 5 52 
Roer River, 373-80, 390, 484, 487, 609, 612 
Roer River dams, 373, 487 
Rogers, Maj. Arthur C., 102 
Roi, 406, 5 56 
Rolandseck, 381—82 
Rome, 282-83, 332, 350-51, 437, 442-43 
Ronson flame thrower, 287, 560, 563, 567, 576, 580 
Roosevelt, Franklin D., 28, 32, 37, 651, 652, 652n, 654 
Roosevelt, Brig. Gen. Theodore, 465 
Rosario, 510 
Rothschild, Lt. Col. Jacquard, 48 5n 
Roundup, 140, 140n 
Rowan, Brig. Gen. Hugh W., 23n, 40, 74, 77, 85, 104, 
104n, 118, 121, 205, 235, 469, 470, 637-39, 648-49 
appointed chief chemical officer, ETO, 43—44, 68, 69 
biography, 44—45 
and chemical mortar battalions, 71—74, 459—61, 483 
and ETO supply, 48, 56-57, 167, 179-80, 182, 256, 
641 
and German gas retaliation, 156, 183 
and main armament flame thrower, 608 
Rowan, Brig. Gen. Hugh W.—Continued 
organizes CWS, ETO, 41, 44—47, 50—5 5, 58—62, 65, 
67-69, 72, 75-76, 79-83, 120 
Royal, Admiral Forrest B., 526 
Royal Air Force (RAF), 152-54, 619, 623-24 
Royal Italian Arsenal, 290—91 
Royal Navy, 3 3 3, 3 57 
Ruger, Capt. Kirk J., 378—80 
Ruhr, 3 89-90, 489 
Rupt de Mad stream, 362 
Russell Islands, 493 
Rust inhibiters, 284 
Ryukyu Islands, 191, 273, 402, 517, 532-33, 588 
Saar River, 292, 371-73 
Saar-Palatinate triangle, 383, 488 
Saarlautern, 371—73 
Sabotage, 28 5 
Safi, 95 
Safine, Maj. Albert L., 345 
Sagekarasa Island, 493—94 
St. Georgen, 302 
St. Goar, 38 5 
St. John, Col. Adrian, 68, 68n, 69, 71, 72, 73, 76, 76n, 
166, 168, 169, 178, 179, 183, 184, 468, 648 
St. Laurent-sur-Mer, 463 
St. Lo, 467 
St. Malo, 633, 633n 
St. Maximin, 45 5 
St. Mihiel, 65 3 
St. Quentin, 632 
St. Tropez Peninsula, 343 
Saipan, 401, 406, 516, 521, 561-63, 625, 626 
Salerno, 298, 334-36, 342, 432-34, 446, 593 
Salvage, 198-99, 249, 273, 274, 288-89, 315, 550, 597 
San Clemente, 3 52 
San Fabian, 506, 529 
San Fernando, 513 
San Francisco Port of Embarkation, 237, 25 5, 257, 268, 
274 
San Jose, 513 
San Martino Hill, 451 
San Narcisco, 315 
San Pietro, 439—40, 447 
Sandell, Capt. Edward H., 196, 198, 199, 199n, 200 
Sandhoffen, 3 88 
Sanitation, 271, 273, 319, 339 
Sansapor, 315 
Sant’Agata, 2 89 
Sant’Angelo, 443 
Santa Fe, 513 
Santa Maria, 312 
Santa Maria Infante, 451 
Santerno River, 3 51 
Sarmi, 314 
Satan tanks. Sec Flame thrower tanks. 
Sauer River, 484—8 5, 485n, 486—87 INDEX 
693 
Sault Ste. Marie Locks, 325, 326, 326n 
Savernake Forest, 13 8 
Schaf, Lt. Frank L., Jr., 189 
Scheldt River, 360n 
Schnee Eifel, 600 
Schofield Barracks, 220, 286 
Schophoven, 374, 375 
Scott, Lt. Col. Walter M., 45, 54 
Scrub typhus, 308 
Seabees, 560 
Seille River, 37In 
Seine Base Section, 75n 
Selgersdorf-Daubenrath road, 377 
Senter, Capt. John, 241 
Service, Chimique de Guerre, 16 
Services of Supply (SOS), 32, 33, 142, 238, 420-21. See 
also Army Service Forces (ASF). 
AEF, 21, 2In, 22 
ETOUSA, 41-42, 45-47, 50-52, 5 5, 57-61, 64-65, 
67, 71-72, 89, 132, 141, 141n, 143, 146-47, 154, 
159-60, 164, 298, 3 54-5 5 
NATOUSA/MTOUSA, 94, 102, 103, 107, 109, 110, 
112, 113, 114n, 115-16, 121, 127, 132 
SWPA, 191, 196-97, 200-205, 208, 210-13, 216, 218- 
19, 239, 250-51, 256-61, 264-66, 395, 397-99, 547 
Sfax, 329 
Shadle, Brig. Gen. Charles S., 637, 65 5 
attache and chemical officer in England, 37, 40 
and chemical administration and supply, 98—100, 102— 
04, 107-08, 112, 114-16, 118-22, 125-27 
and chemical mortar use, 43 0, 460 
as CW officer, AFHQ, 41, 87, 88, 135, 196, 219, 638- 
39, 648-49 
and handling of CWS field elements, 135, 235, 640, 
641 
and tactical smoke planning, 88, 92 
Shaffer, Maj. John J., 294n, 546 
Shannon, USS, 532 
Shaw, Capt. Augustus H., Jr., 373 
Shepherd, Lt. Col. Earl L., 48 5n 
Shepton Mallet, 147 
Sherman-Crocodile tanks. See Flame thrower tanks, 
Sherman-Crocodile. 
Shimbu Line, 507—08 
Shimonek, Lt. Col. William H., 213n, 493 
Shingle, 336, 3 50, 443. See also Anzio. 
Shrivenham, 42, 43 
Shoe impregnite, 108, 125, 167, 236, 248, 258, 267 
Shortages, 125, 266, 641—43 
chemical service personnel, 268, 274 
containers, 151, 162 
decontaminating apparatus, 107, 130, 132, 133, 139, 
168, 253, 262 
flame throwers, 169, 547, 604 
incendiaries, 157, 160—61, 562, 565, 621 
landing craft and amphibious vehicles, 395—97, 42 5, 
501 
Shortages—Continued 
mortars and ammunition, 84, 128—30, 133, 168—69, 
178-82, 218, 275-76, 460-61, 479-80, 509, 515- 
16, 519, 642, 646 
protective equipment, 90, 107, 138, 139, 168 
shipping, 86, 394, 401, 401n, 547 
smoke materials, 245, 3 53, 394 
spare parts, 182 
tanks, 608, 612 
WP grenades, 84, 107, 126-27, 262, 643 
Shower facilities, 130, 168, 174, 253, 279, 310, 643 
Shuri Line, 517 
Sibert, Maj. Gen. Franklin C., 503, 503n 
Sibert, Maj. Gen. William L., 24, 503n 
Sicily, 109, 114, 122, 127, 133, 289, 298, 301, 311, 
328-29, 418, 423, 425-33, 439, 446, 453, 456n, 
520, 593, 604 
Sidi Ferruch, 2 82 
Sieg River, 3 81 
Siegfried Line, 472-73, 475, 477, 485, 487-89, 599-601, 
603-04, 607, 609, 632 
Sierre Madre Mountains, 507, 509 
Sieve River, 3 51 
Signal Corps, 24n, 27 
Silica gel, activated, 287—88, 297 
Sillaro Valley, 3 51 
Simpson, Lt. Gen. William H., 609 
Skinner, Maj. Richmond H., 525, 527 
Skipper, Capt. Ffoward E., 207 
Skyline Ridge, 518 
Smith, Lt. Col. Farleigh E., 485n 
Smith, Lt. Gen. Holland M., 560 
Smith, Lt. Col. Robert W., 203, 205, 206, 251, 252 
Smoke, colored, 106 
Smoke, target area marking, 511, 513 
Smoke candles, 9, 240 
Smoke demonstrations, 327, 373, 378, 398, 404, 409, 425 
Smoke generator units, 72, 74, 79, 8 5, 88, 92, 93, 331, 
3 61, 393, 402—05, 411. See also Chemical Smoke 
Generator Battalions; Chemical Smoke Generator 
Companies. 
Smoke generators, 172, 279, 321, 395. See also FS Smoke; 
Smoke screen operations, smoke pots and generators. 
Besler, 291, 331, 335, 336, 342, 404, 406 
boat-mounted, 93, 335, 337, 343, 345, 348, 357—58, 
382, 395-98, 406, 409-11 
Dukw-mounted, 384, 3 88 
emplacements, 349, 366, 376, 406, 410 
Esso, 291, 324, 398 
FS types, 395, 400 
fuel for, 169, 329, 3 54 
Haslar (British), 323, 327, 328, 3 54 
jeep-mounted, 3 66, 367 
maintenance problems, 370, 377, 486 
mechanical, 72, 88, 91, 110, 134, 331, 337-40, 346, 
348, 361, 373-74, 378, 382, 389, 410 694 
THE CHEMICAL WARFARE SERVICE 
Smoke generators—Continued 
Ml mechanical, 169, 324, 326-27, 327n, 328-29, 354- 
5 5, 3 57-60, 395-96, 404-05, 645 
Ml stationary, 324, 325, 326, 405 
M2 mechanical, 169, 174, 302, 331, 352, 355-56, 359, 
362-68, 370, 377, 393, 395, 398, 399, 403, 645 
need for two operators, 370 
No. 24 (British), 169 
portable, 3 57, 409 
spare parts manufacture, 129, 290—91 
Smoke grenades. See Grenades. 
Smoke pots, 85, 88, 92, 107, 1 10, 169, 174, 213, 302, 
310, 323, 328, 342, 346, 348, 356, 374, 377, 378, 
380-81, 388-89, 391, 395, 400, 410-11, 435, 442, 
526 
as bomber target, 33 5 
British, 92, 323, 327, 329, 331 
fire hazard problems, 97, 408, 644 
floating, 379, 399, 407, 411 
for Gilberts assault, 271—72, 405 
HC, 199, 267, 324, 345, 352, 372, 374, 378, 379, 404, 
408 
installed on ships and craft, 272, 342, 343, 405—06 
Ml, 133, 170, 327, 327n, 335, 336, 343, 346, 364, 400, 
405-06, 435 
MlAl, 327n 
M4, 133, 170 335, 336, 364, 400, 405 
M4, floating, 3 31, 334, 3 34n, 407 
M5, 327n 
Smoke screen operations 
air installations, 3 54, 3 94, 397, 400—402 
Anzio beachhead, 336—40, 342, 447 
and artillery observation, 333, 335, 337, 339—40, 346, 
351, 353, 373-75, 377, 380, 383, 386, 388, 391, 435, 
444, 452, 519 
assault landings, 334, 335, 342, 353, 398, 402, 403, 
405,409, 520, 526-27, 529 
bridges and bridging sites, 345—46, 348—53, 362, 366— 
68, 372, 374-92, 400, 435, 488 
British, 322-24 
Central Pacific landings, 405—06 
daylight, 324, 337, 339, 350, 375, 375n, 407, 435 
deceptive, 383, 385, 387, 389 
fog oil for, 72, 329, 335, 342, 350, 354, 359, 363-64, 
366, 368, 369, 372, 387, 388, 399, 403, 406, 407, 
408, 410, 411 
Fort Driant attack, 474—75 
forward area missions, 350, 3 53, 360—61, 428—29, 435, 
437, 451-52, 457, 473, 481, 508, 510, 645 
haze production, 333, 337-40, 342, 350-53, 361, 384, 
388 
to hide gun flash, 339, 374, 392 
Italian ports, 329-34, 3 50, 3 53, 3 59, 645 
large area mission, 321-27, 334, 346, 3 53-55, 360, 
362, 392-93, 394, 400, 403, 644-45 
misuse of, in New Guinea, 213 
Moselle crossing at Arnaville, 3 62—71 
Smoke screen operations—Continued 
night and twilight operations, 324, 331, 335—36, 350, 
366n, 376, 527, 529 
Normandy, 163, 169, 170, 173, 174, 354, 356-58 
northwest African ports, 327—29, 331, 645 
Okinawa, 409—11 
Pacific airborne missions, 412—17 
Pacific anchorages, 394, 398, 400, 405—11 
Panama Canal, 321-22, 322n, 325-26 
Philippines, 407—08, 416—17, 529 
"pillaring” effect, 486 
plants and factories, 323, 325 
ports and harbors, 92, 93, 95, 109—10, 169—70, 301, 
302, 327, 353, 358, 360, 395, 396 
proposed for Pearl Harbor, 404—05 
Rapido River crossing, 442—45 
Rhine River crossings, 381—92, 489—91 
river crossings, 74, 79, 361, 368, 371, 378, 392-93, 
400, 43 5, 645. See also rivers by name. 
Salerno landings, 334—36, 342 
Sauer-Our and Roer crossings, 486—88 
smoke control center, 390 
smoke pots and generators, 328, 331, 348, 367, 374, 
388 
smoke pots and shell mixture, 345—46 
southern France landings, 302, 342—44 
supply installations, 302, 3 54, 390, 397 
supply routes, 302, 346, 348, 351—52, 360, 392, 457 
tactical control of, 366—67, 3 69, 374—75, 380, 390, 
392, 398, 444-45 
tank and TD attacks, 3 52, 473 
troop movements, 3 51, 377, 389, 390, 392 
U.S. west coast, 405 
use of aircraft, 206-07, 405, 407, 409, 412-17, 508 
wind effect on, 331, 339, 365, 367, 369-70, 372, 374, 
376, 379, 380, 385, 388, 391-92, 407, 414, 416-17, 
428, 443,486, 520 
World War I, 9, 9n 
Smoke tanks, 151, 253, 319, 323. See also FS smoke. 
E—1, 416-17 
E2B25, 319 
M—10, 240, 412-17 
M33, 253 
Snake Hill North, 506 
Sodium arsenite, 271—72 
Solome Lake, 517 
Solomon Islands, 493—94 
Somervell, Lt. Gen. Brehon B., 32, 3 8, 59, 125 
Sound locator teams, 518 
South African Antigas Laboratory, 23d, 283 
South Pacific Area (SOPAC), 191, 191n, 204, 207, 213n, 
222, 229, 492n, 493, 500 
Southern Attack Force, 407 
Southern Base Section, 51n, 75n, 141n, 298 
Southern France, invasion of, 299, 301, 340, 342—44, 
350, 453-55, 480n 
Southern Landing Force, 561 n, 562 INDEX 
695 
Southern Line of Communications (SOLOC), 181 
Southwest Pacific Area (SWPA), 191, 193-94, 196, 202, 
204-07, 211, 216, 218, 222, 234-35, 239, 240, 242, 
252-55, 293, 319, 395, 399, 497-98, 501, 637, 639- 
40,642, 644, 651 
Spain, civil war, 53 5 
Special Service Force, 1st, 43 8 
Spessard, Capt. Rutherford H., Jr., 517 
Spray tanks, aircraft. See Smoke tanks. 
Stark, Lt. Col. Edgar D., 424, 441 
Stillger, Lt. Raymond C., 3 39 
Stima Lagoon, 493 
Stokes mortar, See Mortar, Stokes. 
Storage, 107, 152-55, 239-40, 246, 249-54, 281-83, 
286-87, 290, 307, 318, 497, 509, 644. See also 
Depots. 
Strasbourg, 611 
Stubblefield, Lt. Col. Henry L, 119 
Stubblefield, Pfc. Richard, 487 
Stubbs, Maj. Gen. Marshall, 64, 65n, 175, 256 
Sudbury, 147 
Sudbury Egginton, 146 
Sulphur trioxide, 414n 
Sulphuric acid, 188, 414n 
Supply. See also Depots; Shortages. 
ammunition planning factors, 109n, 144, 258—60, 265, 
271 
ammunition supply points (ASP’s), 124, 275, 299, 301 
block-loaded shipments, 265—66, 272, 273, 275, 642 
chemical warfare stock in 1941, 34, 236—37, 267 
for combat forces special requirements, 110, 170—73, 
25 5-56, 270-71 
computation of requirements, 90—93, 99—100, 109, 
109n, 114-15, 128, 139-40, 143-44, 149-56, 156n, 
162, 164, 168-69, 172-73, 181, 218, 237-39, 263, 
265, 271, 274, 275 
controlled items, 140, 140n, 141, 257—58 
credit allocation systems, 137, 137n, 140—43, 145, 185— 
86, 257, 641 
CWS-Ordnance-Quartermaster division of responsibil- 
ity, 34, 107,214-15, 258-59, 264, 269, 643-44 
local procurement, 182, 237, 244, 246, 290-92, 479, 
479n, 548, 560 
logistics data compilations for field use, 100, 113, 143— 
145, 150, 259 
materiel status report supply, 12 5, 25 5 
"pipeline” factor, 268 
planning for "type” units, 274 
spare parts, 105, 109, 123, 127-29, 132, 168-69, 178- 
79, 182, 253, 272-73, 275, 288-92, 478-79, 479n, 
547 
stock overages, 125—26, 132, 158, 166 
task force problems, 263—65 
theater CWS supply systems, 94, 95, 105, 106, 110— 
11, 1 14,254-55,261, 263, 272, 273, 276, 640-43 
Supply—Continued 
of toxics, 3, 34, 48, 56, 68, 77-78, 107-08, 151, 155, 
218, 229, 239-40, 253-54, 258, 267, 269, 313, 642, 
643, 651-52 
"War Department Shipping Document” form, 142 
Supreme Headquarters, Allied Expeditionary Forces 
(SHAEF), 67, 68, 68n, 76, 76n, 77, 166, 183, 184, 
468, 648 
Sutton, Lt. Col. James P., 214n 
Sydney, 190, 197, 241,245, 306, 397 
T-Force, 303—04 
Tabarka, 289 
Tables of basic allowances, 90, 99, 109, 144, 237, 241, 
255, 257-59, 267-69 
Tables of organization and equipment, 90, 99, 144, 255, 
259 
chemical air operations company, 319, 319n 
chemical composite company, 309—11, 313, 317 
chemical decontamination company, 300 
chemical depot company, 295 
chemical general warfare service company, 294—95 
chemical laboratory company, 281 
chemical maintenance company, 288 
chemical mortar battalion, 426, 430, 456, 460, 462, 
470-71, 482, 506n, 508 
chemical mortar company, glider-borne, 454—5 5 
chemical processing company, 305n 
chemical smoke generator company, 32 5 
flame tank battalion, 5 84 
Tabontabon, 503 
Tacloban, 315, 400, 407 
Tanabaru, 586 
Tank Battalions 
709th, 611 
713th, 584, 587, 588-89 
739th, Special (Mine Exploder), 609 
741st, 610 
743d, 612 
Tank Destroyer Battalions 
641st, 498 
823d,375 
Tanks. See also Flame thrower tanks, 
amphibious, 343, 344 
Churchill Mark VII, 605 
light, 559, 561, 564, 578, 606, 606n 
M3, 287 
M3A1, 560, 561 
M4A2, 562 
M5A1, 576-77 
medium, 560, 561, 563, 580, 584, 605, 606, 610, 612 
Tanks, storage, 152, 153, 155 
Tanner, 1st Lt. William J., 220 
Tarawa, 405, 530, 554-55, 559, 564, 589 
Tarr, Lt. Col. Philip R„ 43, 45, 54, 79 
Task Force, South Pacific, 189 696 
THE CHEMICAL WARFARE SERVICE 
Task Force 6814. See Infantry Divisions, Americal. 
Task Unit 78.1.8, 529 
Task Unit 79.8.1, 527-29 
Taunton, 138, 145 
Team Cherry, 476—77 
Tear gas, 3, 7n, 8n, 107 
Thatcham, 138, 145 
Them, Capt. Eugene F., 504, 517 
Thermate, 622, 622n 
Thermite, 614, 615, 622n 
Thomas, Lt. Frank J., 344 
Thomas, Col. Kramer, 465 
Thuillier, Brig. Gen. Henry, 16 
Tiger Bridge, 450 
Tinian, 401, 561-63, 625, 633 
Tirrell, Cpl. Wilber G., 544—45, 545n 
Tokyo, incendiary attack on, 624, 628—3 0 
Tolman, Maj. John D., 495 
Tomlinson, Col. Clarence M., 543 
Toowoomba, 195 
Torch, 43, 44, 87, 89, 90, 92, 140n, 142-46. See also 
North African Theater of Operations. 
Toulon, 340 
Townsville, 190, 191n, 203, 240 
Tradewind task force, 314 
Training, 77-78, 8 3-84, 297, 649-5 0 
assault operations, 342, 3 56, 386, 409, 424, 462, 490, 
520, 527, 5 5 5, 599 
chemical field maneuvers, 224, 230 
civil defense, 165, 221-22, 232 
CWS schools and teams in the Pacific, 193—96, 210, 
214, 224, 230-32, 235, 307, 399, 548, 649 
flame tank, 561, 567, 579, 589, 611-12 
mortar units, 424-25, 429, 450, 453, 461-62, 469, 
490, 496, 500, 507, 515, 527, 530 
for smoke operations, 326, 356, 387n, 397—99, 404, 
409 
Transport, chemical units, 363, 368, 426, 430, 436, 451- 
52, 456, 456n, 478, 482, 501-05, 516, 570 
Tremensuoli, 594 
Trench rattle, 168 
Trident Conference, 143 
Triflisco, 43 5 
Triner, Col. Joseph, 67 
Trobriand Islands, 548 
Tropical warfare, 203-04, 206, 208, 218, 246, 249-50, 
266, 293-94, 310, 497, 546 
Troyes, 363 
Truscott, Maj. Gen. Lucian K., Jr., 3 37, 340 
Tucker, Maj. Woodson C., 220, 542 
Tulagi, 536 
Tunisia, 98, 114, 289, 298, 327, 328 
Turner, Vice Adm. Richmond K., 409, 411, 561n 
Turpinite, 7n, 8n 
Tyrrhenian Sea, 346, 442, 450 
Ubach, 472 
Umurbrogol Pocket, 567 
Underwood, Capt. Charles D., 368 
Unit gas noncommissioned officers (UGNCO’s), 83—84, 
214,224,228,230 
Unit gas officers (UGO’s), 83-84, 202, 214, 224, 228, 
230 
United Kingdom, 43, 46, 61, 142, 166, 654-55 
CW production and storage, 151—5 5 
incendiary bombing of England, 36—37 
smoke screening, 322—23 
use of aerial incendiaries, 618—19 
United Kingdom Base Section 73, 75n 
United States Army Forces in Australia (USAFIA), 189— 
92, 196, 236-40, 284 
United States Army Forces in the British Isles (USAFBI), 
36, 37, 38, 40 
United States Army Forces, Central Pacific Area 
(USAFICPA), 224, 224n, 225, 229, 230, 232, 270, 
272-73, 5 53n, 5 59-60 
United States Army Forces in the Far East (USAFFE), 
188-89, 200-205, 216, 252, 258-60, 398, 546, 648 
United States Army Forces, Middle Pacific (AFMIDPAC), 
224, 553n 
United States Army Forces, Pacific (AFPAC), 219, 402, 
403, 403n 
United States Army Forces, Pacific Ocean Areas (USAF- 
POA), 216, 224, 273, 275-76, 553n 
United States Army Forces in the South Pacific Area 
(USAFISPA), 203-04 
United States Army Forces, Western Pacific, 219, 254 
United States Chemical Warfare Committee (USCWC), 
171,201, 229 
United States Strategic Air Forces in Europe (USSTAF), 
62, 67, 159, 161, 162 
University of Melbourne, 195 
University of Queensland, 193 
Unmacht, Col. George F. 
and chemical mortar use, 232, 516, 520—21 
and flame thrower and flame tank development, 234, 
287, 560-61, 567 
and gas and BW preparedness, 221, 224, 227—33, 267, 
268, 296, 649 
and need for smoke in Hawaii, 404—05 
organization of theater chemical office, 222, 225, 227, 
269,286 
and Pearl Harbor attack, 219—21, 267 
position as theater chemical officer, 216, 224—25, 234, 
23 5, 288, 521, 553n, 637, 639, 649 
and service manpower shortage, 274 
Utah Beach, 174, 3 5 5-57, 462, 464, 465 
Valognes, 178, 179 
Vandegrift, Maj. Gen. Alexander A., 536 
Velden, 80 
Velletri, 452 
Venafro, 43 6, 447 697 
INDEX 
Verzy, 632 
Vesuvius, 331, 332n 
Viareggio, 3 52 
Victory ships, 529 
Vietri sul Mari, 434 
Villa, 448 
Villa Verde Trail, 513, 577 
Villedieu, 178 
Vincennite, 10 
Vire River, 467 
Vogelkop Peninsula, 415 
Volturno River, 345, 43 5—36 
Vosges, 45 5 
Vossenack, 611 
Waitt, Brig. Gen. Alden H., 2 8n, 15 5, 216, 218, 270, 
637, 652 
as Assistant Chief, CWS, for Field Operations, 33, 56, 
57, 77, 85, 100, 101, 104, 106, 171, 179 
and plan for screening airfields, 401 
and the replacement system, 118n 
and spare parts supply, 182 
and SWPA toxic munitions investigation, 210 
and a unitary CWS organization, 32n 
Wakde Islands, 314, 499, 501, 502, 551 
Walker, Lt. Col. George E., 363, 367, 367n 
Walker, Maj. Gen. Walton, 361, 371 
Wallach, 390, 391 
Wallington, Col. Edward C., 67, 67n, 78, 79, 80 
Walmsley, Col. Harold, 80, 390n 
War Department General Staff (WDGS), 25, 33, 422n, 
650. Srr also Army Service Forces; Operations Divi- 
sion, WDGS. 
Warnack, Brig. Gen. Alan D., 366 
Warren, Capt. George B., Jr., 373 
"Washington Command Post,” 30—32 
Washington Conference, 1921, 25 
Waterproofing, 272, 273, 290, 294, 305, 432, 546, 547, 
550, 559, 564, 575, 595 
Waugh, Lt. Robert T., 594, 594n 
Weather. See also Smoke Screen operations, wind effect 
on. 
Army-Navy study, Pacific, 231 
and smoke operations, 339, 363, 369, 390 
Weber, Maj. Walter C., 202, 206 
Wellmich, 385, 386, 386n 
Wesel, 390, 391 
West Wall, 371-72, 599-601 
Westbrook, Capt. Clyde H., 491 
Westbury, 147 
Western Base Section, 14In 
Western Defense Command, 325, 326 
Western Task Force (WTF), 89, 91-93, 93n, 94-96, 
98-99, 301, 326, 421 
Wewak, 412 
Weymouth, 3 56 
Wheeler Field, 220 
White, Lt. Col. G. C., 606 
White phosphorus (WP), 72, 106, 172, 400n, 415, 421, 
433, 440, 495, 497, 509-12, 514, 527, 531, 593. 
See also Chemical mortar, 4.2-inch; Grenades, white 
phosphorus, 
psychological effect of, 473n, 509 
smoke missions, 374, 378, 379, 428, 435, 437, 443, 
473, 486, 495, 500, 616 
Whitesides, Col. Sterling E., Jr., 219 
Wildflecken, 302 
Wilhelmshaven, 157 
Williams, Maj. Allen H., 397 
Williams, Maj. Arthur H., Jr., 192, 193, 201, 264 
Williams, Lt. Col. Benjamin D., 48 5n 
Willis, Col. Burton D., 191n, 193, 194, 203 
Wilson, Brig. Gen. Alexander, 242 
Wilson, Maj. Alfred J. P., 103, 110, 112, 115 
Wingard, Lt. Robert E., 231, 232 
Winter Line, 122, 43 6-42, 651 
Woebbeking, 1st Lt. Vernon E„ 499 
World War I, 3-18, 534, 614-15, 653 
Worms, 383, 387, 388, 489 
Wright, Lt. Carroll W., 174 
Wright, Lt. Col. Maurice H., 41, 46, 54, 59, 68 
Yamashito, General, 63 5n 
Yanka, Lt. Col. Donald E., 485n, 489 
Yankhauer, Capt. J. R., 175 
Yap, 502, 576 
Yehle, CpI. Edward A., 506 
Young, Lt. Frank W., 365 
Young, Col. Mason, 378 
Youngman, Lt. Col. John P., 206 
Yperite, 14n 
Ypres, gas attack, 5, 7, 8, 8n, 9, 10, 184 
Yuza-Dake, 586 
Zambales Mountains, 505 
Zamboanga, 400 
Zanetti, Col. J. Enrique, 37, 43, 45, 54, 616—17, 622 
Zoroastrian Society, 619 
U.S. GOVERNMENT PRINTING OFFICE : 1988 0-289-149