~ggg g^ttgff^" 3 y*" °f.', ^r „, CINE NATIONAL LIBRARY Of MEDICINE NATIONAL LIBRARY Of MEDICINE NATIONAL LIBRARY OF M CINE NATIONAL LIBRARY OF MEDICINE NATIONAL LIBRARY Of MEDICINE NATIONAL LIBRARY Of M CINE NATIONAL LIBRARY OF MEDICINE NATIONAL LIBRARY OF MEDICINE NATIONAL LIBRARY OF M e V J iivn 3NI3KMW to Aavaan ivnoiivn 3ni:iqiw jo Aavaan ivnoiivn iNisiaiw *o Aavaan i< ^ / I \ ARY OF MEDICINE oiw do Aavaan ivnouvn jnidiqjw do Aavaan ivnouvn mmoiw jo Aavaan ivnouvn jni3 2 rMA * /^nj#K * >NAl LIBRARY OF MEDICINE NATIONAL LIBRARY OF MEDICINE NATIONAL LIBRARY Of MEDICINE NATI } /v? i < oiw do Aavaan ivnouvn jnoiqiw do Aavaan ivnouvn inoiqiw do Aavaan ivnouvn ino < \ MEDICAL AND PHYSICAL RESEARCHES, MEDICAL AND PHYSICAL RESEARCHES: OR ORIGINAL MEMOIRS IN MEDICINE, SURGERY, PHYSIOLOGY, GEOLOGY, ZOOLOGY, AND COMPARATIVE ANATOMY. ILLUSTRATED WITH PLATES, CONTAINING 160 FIGURES. By R. HARLAN, M.D., F.L.S. Lond., CORRESPONDING MEMBER OF THE ROYAL MUSEUM OF NATURAL HISTORY OF PARIS J OF THE ROYAL ACADEMY OF MEDICINE OF SWEDEN; OF THE WERNERIAN NATURAL HISTORY SOCIETY OF EDINBURGH; OF THE GEOLOGICAL SOCIETY OF FRANCE J OF THE BOSTON NATURAL HISTORY SOCIETY r HONORARY MEMBER OF THE ASIATIC SOCIETY OF BENGAL; OF THE MEDICAL SOCIETY OF KENT, ENGLAND ; OF THE NEW HAMPSHIRE STATE MEDICAL SOCIETY '. MEMBER OF THE NEW YORK LYCEUM OF NATURAL HISTO- RY ; OF THE AMERICAN PHILOSOPHICAL SOCIETY ; OF THE ACADEMY OF NATURAL SCIENCES OF PHILA- DELPHIA. SURGEON TO THE PHILADELPHIA ALMS HOUSE HOSPITAL ; PROFESSOR OF COMPARATIVE ANATOMY, ETC. •* Whilst professional knowledge should undoubtedly be the first object of the Physician's studies, general science should not be neglected, and is so far from being incompatible with that primary object, that it cannot fail to enlarge your views and give efficiency to your professional researches. So intimate is the connexion between every object of useful and scientific inquiry, that there is hardly one branch of knowledge which does not in some measure throw light and illustration upon others,"—Sir A. Cooper.—Led. on Surgery. PHILADELPHIA: PRINTED BY LYDIA R. BAILEY, No. 26 NORTH FIFTH STREET. 1835. w I §35 TO WILLIAM MACLURE, ESQ., PRESIDENT OF THE ACADEMY OF NATURAL SCIENCES OF PHILADELPHIA ; MEMBfcl. OF NUMEROUS LEARNED SOCIETIES AT HOME AND ABROAD. Dear Sir, Admiration of your intellectual endowments—esteem for your private virtues—and grateful recollection of your munificent do- nations to public institutions devoted to Science, have induced me to inscribe these sheets to you, as a most sincere, although feeble, expression of the value I attach to the friendship of one whose brilliant efforts in the department of science which forms, in part, the subject of the following pages, have so greatly contributed to advance its interests. I have the honour to be, Yours, most respectfully, Richard Harlan. TO PHILIP SYNG PHYSICK, M. D., MANY YEARS PROFESSOR OF ANATOMY AND SURGERY IN THE UNIVERSITY Of PENNSYLVANIA, ETC., Whose successful exertions in the relief of suffering humanity have secured to him the admiration and lasting gratitude of his fellow-citizens—whose success as a teacher of the most important departments of medical science in the school of which he was long the ornament, so ably contributed to its just renown—and whose professional pre-eminence is only equalled by the urbanity and alacrity with which he is ever ready to communicate the re- sults of his vast experience to his junior confreres, the Medical portion of these pages is respectfully dedicated, By his much obliged friend, THE AUTHOR. TABLE OF CONTENTS. Pag* Introduction.—Affiliation of the Natural Sciences, .... xiii Description of a new Species of Orang, from the north-eastern province of British East India, lately the kingdom of Assam, .... 9 Description of an Hermaphrodite Orang Outang, lately living in Philadelphia, 19 Description of the Vespertilio Auduboni, a new Species of Bat, - - 26 Description of Chlamyphorus truncatus, a new Genus of Mammiferous Quad- rupeds, of the Order Edentata, .......31 Description of the Arvicola palustris—a new Species of Campagnol, - 47 Description of the Arvicola hortensis—a new Species, .... 49 Description of the Arvicola floridanus, ...... 53 Description of the Arvicola Nuttalli—a new Species, .... 55 Description of the Arvicola ferrugineus—a new Species, ... 57 Description of the Mustela lutreocephala—a new Speeies of Weasel, - 59 Description of the Condylura macroura—a new Species of Mole, - - 61 Description of the Capra montana, or Rocky Mountain Goat, - - 63 Description of a new Species of Manatus, or Sea Cow, Inhabiting the Coast of East Florida,........... 68 Description of the Delphinus intermedius—a new Species of Grampus, in- habiting the Coast of New England, ...... 72 Notice of certain Prepared Specimens of Quadrupeds of the United States and Territories—lately exhibited in Philadelphia, ..... 74 Observations on a Large Skeleton recently disinterred from the mouth of the Mississippi River,.......... 76 Revised Catalogue of the Mammiferous Animals of North America, - 78 Genera of North American Reptilia, and a Synopsis of the Species, - 84 Catalogue of the North American Reptilia,......161 Observations on the Genus Salamandra, and the Establishment of the Ge- nera Menopoma and Menobranchus,.......164 Description of the Salamandra flavissima—a new Species, inhabiting Penn- sylvania, -..........177 Description of the Salamandra dorsalis,......178 Description of a new Species of Salamandra,.....179 Description of a variety of the Coluber fulvius; of the Scincus unicolor; and two new Species of Salamandra,—S. cylindracea, and S. symmetrica, 180 Description of the Amphiuma meana,.......184 B X CONTENTS. r Page. Further Observations on the Amphiuma means, - - - - 188 Description of the Testudo elephantopus, from the Gallapagos Islands, 190 Description of two new Species of Linnsean Lacerta, and Construction of the new Genus Cyclura;—with Observations on the Anatomy of the Heart, and the Circulation in the Crocodile,.......197 Description of the Agama cornuta, or Horned Lizard, .... 205 Description of a new Species of Biped Seps,.....210 Description of a new Species of Scincus,......212 Description of several new Species of Batracian Reptiles, with Observations on the Larvae of Frogs,.........214 Description of Three Species of the Genus Astacus, inhabiting the United States,............229 On the Successive Formations of Organized Beings, .... 232 Critical Notices of various Organic Remains hitherto discovered in North America,........... 253 On the Structure of the Teeth in the " Edentata," Fossil and Recent, - 314 Description of the Fossil Bones of the Megalonyx, recently discovered in the United States, N. A.,.........319 Observations on the Fossil Bones found in the Tertiary Formation in the State of Louisiana. Originally communicated to the American Philosophical So- ciety, ...--...... 337 Description of the Ichthyosaurian Remains recently discovered in the State of Missouri, ------......344 Description of the remains of the " Basilosaurus," a large fossil marine animal, recently discovered in the horizontal limestone of Alabama, - - 349 Observations on the Fossil Elephant Teeth of North America, - - 359 Description of a new Fossil Genus, of the order Enalio Sauri, (of Conybeare,) 362 Description of a new Fossil Species of an Ichthyosaurian Animal, - - 367 Description of an extinct Species of Crocodile, not before described; and some Observations on the Geology of West Jersey, ..... 369 Notice of Plesiosaurian and other Fossil Reliquiae, from the State of New Jersey,.......... 382 Description of Fossil Vegetable Remains from the Bituminous Coal Measures of Pennsylvania, ..-...-.-. 386 Description of a new Fossil Plant from Pennsylvania, of the Genus Equisetum, 390 Description of an extinct Species of Fossil Vegetable, of the Family Fucoides, 393 Description of a new extinct Fossil Vegetable, of the Family Fucoides, - 398 Notice of nondescript Trilobites, from the State of New York, with some ob- servations on the Genus " Triarthrus," &c, ----- 400 Tour to the Caves in Virginia, and Geological Sketch of the Route. Being a Letter to the Editor of the American Monthly Journal of Geology, - 404 An Inquiry into the Functions of the Brain in Man, and in the Lower Order of Animals. Delivered as a Lecture before the Academy of Natural Sciences of Philadelphia, 1824, - - -......416 Experiments to ascertain the Operation of various Poisons on living Vegeta- bles; performed in 1830 and 1831, .......440 Experiments with Phosphorus on a Cat. A paper read before the American Philosophical Society, February 17, 1832,......445 Experiments performed on Living Animals, to prove that the Circulation of CONTENTS. XI Page. the Blood, through the Lungs, is immediately and entirely suppressed dur- ing Expiration,...........449 Report of the Committee of the Academy of Medicine of Philadelphia, on the Means by which Absorption is effected,......458 Experiments with the Poison of the Rattle Snake; in which the powers of the Hieraceum Venosum, as a Specific, were tested; together with some Anato- mical Observations on this Animal. Communicated to the American Phi- losophical Society, March 7th, 1828,.......490 On the Generation of Animal Heat. Communicated to the Philadelphia Aca- demy of Medicine, in the year 1821, ....... 508 Remarks on the Variety of Complexion, and National Peculiarity of Feature. (Lecture delivered before the Academy of Natural Sciences, A. D. 1822,) 521 Observations on the neglect of supplying Vessels with Medical Assistance, in long Voyages. Communicated to the American Medical Recorder, 1817, 540 Observations on the Anatomy of the Sloth, - - - - - 544 Observations on the Dissection of a Horse, whose death was occasioned by the Perforation of the Aorta by Worms, Strongylus armatus, Cuv. Communi- cated for the Agricultural Society of Philadelphia, .... 553 Notice of an Anatomical Peculiarity observed in the Stomach of the Condor of the Andes, --......--- 557 Observations on Meckel's Treatise on Comparative Anatomy, with notices of the Ornithorhynchus Paradoxus, &c, -----.. 558 Case of Intussusception,.........563 Cases illustrative of the good effects of Sugar of Lead in Dysentery, . 567 Observations on Colica Pictonum, and other Affections arising from the dele- terious Effects of Lead on the System, -.....571 Answer to Merat's Remarks on a Paper, entitled " Observations on Colica Pic- tonum," &c, .----.-.-.. 580 Case of the Bite of a Rattlesnake (Crotalus durissus, Linn.) successfully treated, 582 Observations on Gangrena Sicca, or G. Senilis,.....586 Case of extraordinary Visceral Prolapsus, complicated with Omental Hernia, successfully treated, -------.-. 58g Case of Prolific Uterus and Sterile Mammas,......593- Case of Extra-Uterine Fetation, - .....594 Observations on the Treatment of Anthrax and Malignant Pustule, - 599 Cases of Poison from eating the Seeds of the "Euphorbia latus," . . 603 Case of Aneurism of the Pulmonary Artery,......604 Observations on the Malignant Cholera, as it occurred in Philadelphia, in 1832, 605 De Conceptione Expcrimentum, - ......627 Notes and Reflections on the Reproductive Function, .... 630 INTRODUCTION. ON THE AFFILIATION OF THE NATURAL SCIENCES. " Between the physical sciences and the arts of life there subsists a constant mu. tual interchange of good offices, and no considerable progress can be made in the one without of necessity giving rise to corresponding steps in the other." HerscheVs Discourse on the Study of Natural Philosophy. It is not the design of this introduction, to insist on the neces- sity, much less on the utility of the study of the natural sciences: —such an effort would be derogatory to the understandings of a highly civilized community. Since our existence evidently depends on the constitution of the elements of the universe which surround us, we enter the world with an instinctive partiality for this kind of knowledge ; the ear- liest operations of the mind lead us to become acquainted with the nature and properties of material creation; the earliest and most pleasing recollections of our infancy are associated with this effort; the propensity is developed with our ripening years:—arrived at maturity, in all our aspirations after perfection, in all our criti- cisms as to the true merits of every production in science, and in art, our constant appeal is to nature; "To Heaven's institute of laws eternal," whose ordinances are equally revealed to us, " in the slightest atom which fluctuates in the meridian ray, or in the mighty confluence of worlds." Nature! is still the theme of every one; but whilst nothing is so common as the word, how rare is the correct ap- prehension of the term! To the closet of the metaphysician we would willingly consign the fruitless inquiry into the nature of final causes, and confine our researches to the study of accessible laws. But, "nature dis- c XIV IXTRODUCTION. dains a cabinet courtship; to be wooed with success, she must be interrogated in the free and majestic scenery of her works. The earth,—the air,—the ocean,—the heavens !—Thither, she calls the genius and the powers of her favourite votary; to him, toil in the pursuit of truth, is luxury and pleasure." In fine, it must be conceded, that the end and aim of natural science, is the gratification of an instinct deeply implanted in the mind of man, impelling him to search into the secret of his own existence; or at least, to detect its connexion with that of the rest of nature, and to discover those general laws by the agency of which the internal and external world are regulated. However short we may fall of attaining this great object, yet is there no reason to doubt, that in every path of science, the certainty and celerity with which we attain a familiar acquaintance with truth, will be proportioned to the degree in which we avoid the influ- ence of the imagination, and adhere to pure experience collected with philosophic circumspection. Ever since the restoration of letters in Europe, the learned of every profession have occupied themselves with the study of na- tural science, which is recommended to us not only by its refer- ence to intellectual objects, but as it exerts a beneficial and im- portant influence on the moral dispositions; the tranquil occupa- tion which it supplies to the mind is a salutary contrast to the rest- less agitations of avarice and ambition; its innocent pleasures are well calculated to detach us from the frivolous and destructive pursuits of dissipation and folly, and lead us to estimate justly, the ordinary objects of human exertion. It is in a state of the highest polish and refinement, that the mind turns with the most intense longing from the feverish agi- tations of which it is wearxj, to the contemplation of man, hap- py in the pursuit of natural knowledge. " Whilst there are qualities in the products of nature yet undis- covered, and combinations of art yet untried; it is the duty of every man to endeavour that something may be added by his in- dustry to the hereditary aggregate of knowledge and happiness." In offering a general view of the several subjects embraced in an inquiry like the present, I shall be excused for dwelling on that which is so intimately connected with the study of Medicine—and which will, at the same time, aid us in demonstrating the affilia- tion, and intimate association of the Physical Sciences. INTRODUCTION. XV The study of Comparative Anatomy has indeed been strangely overlooked in this country—for whether we consider it in its ex- tensive relation to other branches of science, its general utility, or its peculiar attractions, I shall endeavour to prove that there is no scientific pursuit possessing stronger claims to the attention of the Physician, the Naturalist, or the general Student. Coeval with the earliest records of human history, we learn from the sacred historian that names were attached to the various parts of the animal structure; hence we infer the great antiquity of the study of Comparative Anatomy -.—this term was originally employed to designate the structure of animals compared with that of man as a standard,—it is now used in a more extensive sense, and implies the anatomy of all living animals compared with each other. Zoology, or the history of living beings, takes its origin as a science from Comparative Anatomy:—our first step in the study of life, is to examine its material instruments:—the various organs which enter into the structure of animals, must therefore be ex- amined under every possible modification of simplicity or of com- bination, in order that we may obtain any satisfactory knowledge of general structure; and no one can fully comprehend the philo- sophy of Anatomy, who limits his views to the study of a single species; the same remarks apply with equal force to Physiology, or the study of the phenomena of life;—the functions must be ob- served and compared in all the links in the great chain of beings to whom any modification of vitality has been imparted. The number and complication of the organs in the higher order of animals, oppose insuperable obstacles to our knowledge of the precise importance of each. Comparative Anatomy, by unfolding organic structure as it exists in the various classes, illustrates the precise operation of each part; and as we descend the animal scale, the organs are found successively to disappear, until we ar- rive at the most simple structure, in which any share of vitality has been manifested: thus, fish are destitute of external ears, and the lowest orders are without brain or any definite nervous sys- tem.*—&c. &c. * Until very recently, we are taught by all writers on Natural History, that in- sects are destitute of a true vascular circulation; for affirmative proofs of this phe- nomenon we are indebted to Professor Carus, who, in 1824, was the first to discover and demonstrate this circulation in the Agrion puella. This mixed circulation, partly diffused and partly vascular, is beautifully illustrat- ed also in the Ephemera Marginata, vid. Entomol. Magaz. 1, 239, pi. 2, XVI INTRODUCTION. By thus extending our views over the whole animal creation, we rectify our notions, and avoid many absurd blunders, and er- roneous conclusions, which are the unavoidable consequences of confining our notions to the more complicated animals. Whilst a slight injury of the brain is sufficient to destroy the life of man, a tortoise has been known to survive the removal of the whole cranial contents, for six months! The precarious tenure of life in the mammalia is most strikingly contrasted with the powerful vitality of the Hair-worm, and other animalcules, which after re- maining for years in a dried state, resume life and motion on being moistened.* A contrast equally curious is observable in the power of repro- duction, or of restoring parts that have been mutilated, or entirely destroyed, which is displayed in a wonderful degree in the more simple animals. The Aquatic Hydra, so celebrated by the curi- ous experiments of Trembley, may be divided almost infinitely, and each portion forms a perfect Hydra; the head is reproduced as often as decapitated, thus realizing the fable of Hercules. Such phenomena, when viewed in connexion with the system of nutri- tion, forms one of those decisive and grand characters which dis- tinguish, at first view, the works of God from the most ingenious and boasted productions of human skill. The latter possess no pow- er of self-preservation, which forms, under various modifications, so imposing a character of the animal kingdom. It is beyond the contrivance of man to construct an automaton, " capable, by the operation of an internal force, of sustaining itself in the air, in op- position to gravity, for even a few minutes; and far less of per- forming in that element the evolutions which we daily witness even in the lowest of the insect tribes."—(Vid. Roget, Animal and Vegetable Physiology, vol. 1, p. 344.) The entire eye, limbs, and tail of the salamander,—the claws of the lobster,—the arms of the cuttle-fish, &c, when mutilated, can be completely restored. Some of the worms may be divided into as many parts as there are rings of their bodies, and each part will become a perfect worm. Reflecting on these curious phenomena, developed in the study •The Gordius Aquaticus, or Hair-worm; The Rotifer Redivivus, or Wheel-ani- malcule; The Vibrio tritici, or Eel-like animalcule infesting diseased wheat; The Filaria, or parasitic worm, infesting the aqueous humour of the Eye of the Horse as described by Blainville, Ann. dis. Sc. Nat., are among those in which this aston- ishiner revivification has been experimentally tested. INTRODUCTION. xvii of Comparative Anatomy, the great Haller was convinced that " Physiology had been more illustrated by the dissection of ani- mals, than by human anatomy." There is nothing more worthy of admiration to a philosophic eye, than the various structures of ani- mals, by which they are qualified to support existence in the ele- ments or climates to which they are appropriated; and of all na- tural bodies, it must be generally confessed, that they exhibit the strongest evidences of infinite wisdom, bear the most indisputable testimony to the Supreme Reason, and excite in the mind new raptures of gratitude, and new incentives to piety. It may be adopted as a principle, than which there is none more important in the animal economy, that the organization is universally in relation to the mode of life; and in consequence of their reciprocal influence, all the various parts of an animal are so closely connected with each other, that this relation can be traced even in the most minute particular. Cuvier, in his " Researches on the fossil bones of Quadrupeds," points out this mutual relation of the organs, and the laws of Co- existence to which their combinations are subjected; wherein he has shown that " the form of the tooth determines the form of the condyle, or hinge of the lower jaw; the form of the scapula, (shoul- der-blade,) that of the nails, either of which indicates the structure of the stomach and the nature of the animal's food, just as the equation of a curve indicates all its properties, as in taking each property separately for the basis of a particular equation, we might arrive not only at the ordinary equation, but at all the other pro- perties whatsoever; so the nails, the scapula, the maxillary con- dyle, the femur, and all the other bones taken separately, would indicate each other reciprocally; and beginning with either sepa- rately, we might, according to the rational laws of the animal economy, construct the whole animal." Further,—" When we observe the track of a cloven-footed ani- mal in the mud or sand, we may conclude that the animal which left it there was a ruminating quadruped, and this conclusion would be as certain as any other in physics or morals:—thus then, the track alone, would enable the observer to infer the form of the teeth,—the form of the jaws, of the vertebras, of the legs, shoulder, &c, of the animal which had passed. It is a mark much more certain than those of Zadig."—(Dis. pi. p. 58.) Such being the importance of Comparative Anatomy to the XV111 INTRODUCTION'. Physiologist, who draws from it the facts, on which his knowledge of the functions of animals is grounded; to the Naturalist, who finds in it a clue to guide his steps through, what appears at first sight, the inextricable labyrinth of animated nature; to the Physi- cian and Surgeon, whose pathological reasonings can only be relied on, when built on the broad foundation of General Physio- logy; to the Natural Theologian, who discovers in the modifi- cation of structure, according to situation and circumstance, and its constant relation to the wants, habits, and powers of animals, the strongest evidence of final purposes, and therefore the strong- est proofs of an intelligent first-cause; we shall not wonder that this subject has powerfully attracted the attention at all times, and been prosecuted by some of the most eminent men. The oldest of these whose works we possess, is Aristotle,—the patronage of whose royal pupil, Alexander the Great, enabled him to draw from all quarters, the animals he described in his immortal work; he not only knew and dissected a great number of species, but studied and described them on a vast and luminous plan, to which none of his successors has approached; ranging the facts not ac- cording to species, but to the organs and functions, the only means of arriving at comparative results. The modern works of Blu- menbach, Cuvier, Fife, Carus, Lawrence, &c, are constructed on the same principle. Whilst the Romans held the reins of empire, facilities for im- proving this science existed, which may never again occur; the rarest animals from all parts of the empire were exhibited in the triumphs and public games to amuse the inhabitants, and they became familiar with species which have seldom since been brought alive to Europe. The Baconian maxim,—"Knowledge is power," is fully support- ed by our retrospect of the past and anticipations of the future.— What a practical commentary does it not offer on those who are active in the pursuit of the pompous nothings of the day, when we reflect that of all the monuments erected to the pride and am- bition of Alexander the Great, not one is left to the conqueror of the world, not one has withstood the shock of twenty centuries, save the published works of Aristotle, his humble preceptor!—these have already survived a period more than sufficient to revolution- ize the whole political fabric of the world, and yet it is the privi- lege of any one to retire to his library, and peruse with pleasure INTRODUCTION. XIX and profit, the works of Alexander's great master—these being a faithful register of facts, and containing descriptions true to na- ture, must maintain an existence commensurate with the march of mind; so true it is, that, in human affairs, every thing is per- manent in proportion as it is connected with intellect; and whilst the common events of life weary by repetition, and the memory of them perishes, the productions of the mind preserve their lustre, and even continue to shine more brightly. " The lion engraved on the tomb of the Theban patriots who fell at Chaeronia, together with the empty splendour of the mau- soleum, have long been lost in oblivion; but the spirits of depart- ed glory will live for ever in the glowing eloquence of Pericles in praise of his countrymen." In the first half of the seventeenth century, discoveries were made on animals which illustrated equally the human structure and functions, and ultimately revolutionized the whole system of Physiology and Pathology. The discovery of the circulation of the blood, by Harvey; of the Lacteals by Asellius; of the Tho- racic duct by Pecquet; and of the Lymphatics by Rudbeck; are some of the results for which we are indebted to the researches in Comparative Anatomy, prosecuted during that period. About this time, the invention of the Microscope opened a new world to the cultivators of science; Malphigi, Swammerdam, Lewenhoeck, Hook, and Baker, were among the first of those who most successfully illustrated, by dissections, experiments, and observations, many parts of Physiology and Comparative Anatomy. To enter into a minute detail of the icorks of those authors who have laboured in the cause of this truly interesting and important branch of science, would in itself almost complete a volume—the enumeration of the names, however, of some of the most distin- guished, will convey some idea of the high estimation in which this science is held in Europe. In Germany, we have Blumenbach, Soemmering, Shneider, Keil- meyer, Rudolphi, Albers, Reil, Tidyman, Meckel, Cams, &c. In Italy, Camparetti, Poli, Malacaine, Mangili, Penada, Moreschi, Rossi, Spallanzani, Configliachi, Rusconi, &c. In France, Pe- rault, Duverney, Philip de la Hire, Buffon, Daubenton, Cuvier, Dumeril, Geoffroy, Blainville, &c. In England, Monro, Hunter, Townsend, Home, Abernethy, Fife, Carlisle, Lawrence, Prichard, Grant, Yarrel, &c. But, it is above all, to Cuvier, the French XX INTRODUCTION. Aristotle, to whom we are indebted, for having elevated this pursuit to the first rank in the legions of science. The improvements and discoveries which have constantly followed in his illustrious path could scarcely have been anticipated from the labours of a single individual, however extended his views or comprehensive his mind. "Engaged," says this author, " in an Antiquarian research of a new kind, (alluding to fossil Zoology,) I have been obliged to learn the art of decyphering and restoring these monuments, of recog- nising and replacing in their primitive arrangement, the scattered. and mutilated fragments of which they consist; of reconstructing those ancient beings to whom they belonged; of exhibiting their proportions and characters; and lastly, of comparing them to those which are found at this moment on the surface of the globe. An art hitherto almost unknown; and presupposing the existence of a science, hitherto almost untouched—I mean the laws of Co- existence which regulate the forms of the various parts of organ- ized beings. I could only prepare myself for these researches on existing animals. It was necessary to review almost the whole of the present creation, in order to give the force of demonstration to my conclusions respecting this extinct creation. This review produced numerous rules and relations of a character not less de- monstrative; and I thus discovered new laws applicable to the whole animal kingdom."—(Discours preliminaire.) He has thus succeeded in distinguishing the fossil remains of seventy or eighty species of quadrupeds; forty-nine unknown to naturalists of the present time, eleven resembling closely known species, sixteen or eighteen remaining doubtful. The death of this High Priest of Nature has been too recently announced, to render it necessary for me to remind you of a catastrophe universally deplored. Seldom have the votaries of science been called to regret the loss of one so eminent; and, though it must be acknowledged that within the few last years, death has made fearful havock in the ranks of the renowned, for a greater than He, the Lethal Shaft hath sought in vain. Inasmuch as we are assured that "God created man after his own image," that image must be shadowed forth in the mental manifestations alone. In this sense, he only merits the title of great, who has essentially contributed to enlarge the boundaries of knowledge, or advanced farthest in human perfectibility. INTRODUCTION. XXI The vivifying influence of this bright luminary was felt through- out the intellectual horizon. He not only investigated every depart- ment of physical science, but was eminent in all,—endowed by na- ture with the most enviable faculties—surrounded by circumstances most favourable to their development—his mind, fortified by severe study and disciplined by deep reflection, was happily directed, about thirty years ago, towards the fossil relics of those lost ani- mals of former creations, with which the rocks in his immediate vicinity abound. He gave to the admiring world a new science, as interesting in its details, as it is magnificent in results \ By the most persevering zeal and unwearied research, extended throughout every quarter of the globe, he was enabled to snatch from the oblivion of their stony sepulchres, wherein they had been for countless centuries "quietly inurned," and to amass together, whole catacombs of '■'■dry bones;"—he breathed over these the breath of science,—they lived! and "stood upon their feet an ex- ceeding great army,"—the least element of which bears indisputa- ble evidence of the various epochs and condition of pre-existing worlds, and the geological revolutions by which they were de- stroyed. The intelligence which could thus penetrate the night of time,— give new wonders to the beam of day,—unveil the mysteries of creation,—give life to the inanimate,—establish new principles,— create a science, and render that immortal! Cuvier! now is numbered with the illustrious dead. Of him it may be truly said, "though dead, yet doth he live." Though stript of this "mortal coil," yet doth he exist in every thing endowed with living existence; his spirit is identified with that living nature which he has so lucidly and so faithfully depicted; his ever enduring works have formed for him a Pyramid of fame, far less perishable than the boasted monuments of Egypt. uThrones,—princedoms,—powers,—dominions," shall fade away, whilst his memory will stand, a rock unshaken amidst the waste of ages!— " Ingenio stat sine morte decus." It was in reference to such characters, that Dr. Johnson re- marks— " Rank may be conferred by princes and tyrants, Wealth, be- queathed by misers and robbers, but the honours of a lasting D XX11 INTRODUCTION. name, and the veneration of distant ages, the sons of learning can alone command." Thus the same objects, which when viewed in an isolated man- ner, and superficially examined, had given rise to the belief in the former existence of giants and monsters, afforded in the hands of a philosopher who contemplated them with all the auxiliary lights of modern science, the means of dissipating many absurd fables, and of establishing a conclusion, not only the most important hith- erto made, concerning the construction of the globe which we in- habit ; but equally valuable as an instrument of criticism in esti- mating the hypotheses of Geology, and in weighing the probability of the traditions that relate to the early history and past condition of our earth. The latter subject, which is the ultimate term of all these researches, is one of the most curious, that can oocupy our attention. If we feel an interest in following, through the in- fancy of our species, the almost effaced traces of so many extinct nations; we shall be at least equally gratified, in exploring amid the darkness that involves the early ages of the earth, the remains of revolutions anterior to the existence of all nations. That Geology should have derived its most important acces- sion from Comparative Anatomy; that the history of the Globe should have been elucidated by the examination of some frag- ments of bone, is a striking illustration of the connexion between the different sciences, and of the aid which they are capable of affording each other; it shows us that little can be expected from the exclusive prosecution of one; and that he who wishes to suc- ceed signally in any department of knowledge, should have his mind fortified by the possession of many branches. " It is to organic remains," remarks an accomplished writer, " that the Geologist must turn for information of a most interest- ing nature; they teach us that man is a comparatively recent creature on the face of the globe; that creation has succeeded creation on its surface; that life has existed on it from remote geological epochs; that climates have varied over the same areas; and that there has been no stability in the modifications of animal and vegetable life, since it was first called into existence on the surface of this planet." Having thus briefly noticed the extensive relations, and magni- tude of the subject; the great attention bestowed on this depart- INTRODUCTION. XX111 ment of knowledge by foreign nations; I return to my own coun- try, and look in vain for her public establishments and institutions for teaching natural science; where even in Universities which claim to be the most enlightened and liberal of this hemisphere, we find Comparative Anatomy, and General Physiology, with all their collateral pursuits, as entirely overlooked, as if they formed no part of Universal Knowledge! Where these opulent mines of useful lore,—these unexhaustible stores of imperishable truth, lie totally neglected and unknown!* It is not unusual to hear physicians of reputation regret their want of time to study the natural sciences; forgetting that there are some departments indispensable to a liberal knowledge of their own profession, as is shown by the attention paid to Comparative Anatomy by Blumenbach, Tydiman, Meckel, Carus, Muller, De Serres, Magendie, Monroe, Hunter, Home, Prichard, Good, Law- rence, &c. all eminent physicians, and experienced practitioners. In fine, it must be conceded, that the study of Natural Science, is, at least, as indispensable to the accomplished physician, as a knowledge of the dead languages is, to the perfect understanding of our vernacular tongue. If Haller had not been a great Naturalist;—if Darwin had not fortified his mind with the truths of Physical Science, the "Ele- * The day cannot be far distant when our Medical Schools must embrace a more liberal scheme of instruction, and join the current of progressive improvement of the age in which we live—or retrograde and give precedence to the more aspiring ambition of the rising generation, who are fully alive to the necessities of the case. Some recent demonstrations on the part of the enlightened Trustees of the oldest In- stitution, for Medical instruction, in this country, afford us the cheering assurance that they are not unmindful of the best interests of the liberal profession of which they are the common guardians. But much remains to be accomplished, to place our most favoured schools on an equality with even the less renowned of the old world. A Medical School without a chair of Comparative Anatomy, and its inse- parable associate Physiology, is an anomaly, unknown at the present day by our transatlantic contemporaries. In some of their Schools the students are obligated to attend from ten to sixteen distinct branches, each course extending from seven to ten months, thus furnishing a humiliating comparison with our own institutions. Will it be conceded that the sons of Republicans are less intelligent, or that the genius which presides over our institutions is less liberal ? An increase in the num. ber of Professional Chairs—an extension of the course of instruction, with a dimi- nution in the cost of each branch, could not fail to contribute to the immediate in- terest of the student, and by enhancing the reputation of the School, must finally redound to the honour and profit of the Professors themselves. xxiv INTRODUCTION. menta Physiologia" and the "Zoonomia," would not now be studied and admired by every philosophic physician.* When we take into consideration, the comparative infancy of our country; the spirit of internal improvement, and increasing reliance on our own domestic resources; the more general diffu- sion of knowledge, and thirst for literary excellence, so strongly characteristic of the rising generation, notwithstanding the great disadvantages under which we labour in the absence of national cabinets, we may indulge the rational hope, that America will soon also assert her claims in this. What may not be expected in a country like our own 1 where the monstrous forms of super- stition and authority, which tend to make ignorance perpetual, by setting bounds to the progress of the mind in its inquiry after physical truths, no longer bar the avenues of science; and where the liberal hand of nature has spread around us in rich profusion, the objects of our research. * It has even been maintained by some that a Physician of general science is not qualified to practice the minute details of his profession: no view is so narrow, I ought to say, so pusillanimous, so adverse to history, so opposed to experience, so con- trary to truth; and can only be viewed as one of those dogmatical assertions under which ignorance and indolence seek a convenient shelter.—A mind meanly endow- ed could alone be contented to drudge along in the monotony of routine practice, in the enjoyment of a public confidence, but too frequently surreptitiously obtain- ed. Ours is a Profession, in the prosecution of which, hesitation implies danger, mistake involves death! In extraordinary or desperate cases of disease, demanding the exertions of the highest intellectual resources, that man cannot assuredly be held guiltless who occupies a post for which his education and genius have not thoroughly prepared him, and which he holds to the exclusion of more efficient aid. In the oracular language of the immortal Rush, " false principles in Medicine have slain their thousands and tens of thousands; the great evil consists in the servile adherence to one particular system." It was doubtless in allusion to licensed empyrics, that Sir Anthony Carlisle, an eminent British Surgeon, facetiously defined Medi- cine "an art founded in conjecture and improved by murder!" In truth, the prac- tice of an unqualified physician is very little better than legalized murder; thou- ands of unsuspecting victims are annually hurried to the oblivious tomb, sacrificed to stupid pride or nefarious avarice; not to mention the millions whose constitutions are irretrievably ruined by tampering with active remedies, or by neglecting the critical moment for the establishment of health. That day has long since departed, when the intellectual worth of a practitioner of Medicine can be fairly estimated by his popularity alone; " He who is not known beyond his personal acquaintances will seldom be fairly estimated; he will either be liable to extravagant praise, or the jealousy and envy of those persons will dis- colour all his qualities. The world at large is too wide a field to be so poisoned. Little people govern in a small circle by intrigue, craft, and falsehood; while great- ness has too wide a swing to show his strength in the same limits." INTRODUCTION. xxv It is time that we should cease to look to foreigners for mas- ters and teachers. I have hitherto endeavoured to excite attention to this Science, by showing that men of the most powerful minds, and of great acquirements, have found it an interesting and instructive field of inquiry. The perusals of their published works are most emi- nently calculated to afford knowledge and gratification. It must be admitted by all, that Comparative Anatomy is as essential to the practice of Veterinary Medicine, as a knowledge of the structure of the human body is, to the cure of the diseases and accidents incident to mankind. The evils to which our do- mestic animals are subjected, and the consequent loss which so- ciety sustains, by unmerited neglect in this respect, are too obvi- ous to need illustration. In Europe, Colleges have been established, and Professorships endowed for the express purpose of teaching the history and cure of the diseases which affect our domestic animals. The gradations of organization; and the final purposes con- templated by nature in the construction of her living machines; two interesting and much agitated subjects in the philosophy of natural history, receive their only clear illustration, and incontro- vertible evidence, from the science to which I would wish to urge attention. In the doctrine of final causes, which has so often excited the disputations of Theologians and Philosophers, this science is cal- culated to lend essential1 aid ; the naturalist, by its light, discovers at every step, striking peculiarities in the economy of animals, founded on corresponding arrangements of organization; there is throughout nature, to be observed, such wonderful adaptation of means to ends, so constant a relation between peculiarities of structure, as must strike the most sceptical mind with the convic- tion, that the whole is a work, which prescient Omnipotence was alone adequate to conceive;—the hand of creative wisdom to execute! Without the aid of Comparative Anatomy, the physical con- struction of our globe would be enveloped in a mantle of impene- trable obscurity; the most inviting and essential circumstances connected with the study of Geology, consisting in those rocks and earthy strata containing organic remains. " It has been discovered, that mountains and districts are some- XXVI INTRODUCTION. times composed entirely of such remains. It is the business of Naturalists to compare those of a former world, with correspond- ing objects in the present order of things; to determine their re- semblances or differences, whether they are the same or of differ- ent species or genera: to compare the productions of the different strata with each other, and to distinguish those which have be- longed to fresh, from those of salt water animals, and lastly to ascertain whether the organic fossils of each country, are like the living animals of the same, or of distinct and remote regions and climates." Such investigations require extensive and accurate observation; an acquaintance both with the great outlines and minute details of nature ; and belong, therefore, to an advanced stage of science. That Comparative Anatomy exerts a most important influence in the study of Medicine, none but the ignorant can possibly doubt; it is, in fine, through it alone that we can become adequately ac- quainted with the history of that vast and complicated fabric —Man,—whose health, interest, or comfort, constitute a centre to which all useful knowledge tends.* The physical history of our own species, in the most compre- hensive sense, constitutes a subject of immense extent, and of al- most endless variety; or rather includes several very important branches of science, if we attempt to describe both the individual and the species. To write such a history, would demand a fa- miliar acquaintance with nearly the whole circle of human know- ledge. This labour, beyond individual capacity, is therefore di- vided into several departments; it is the business of the Anatomist and Physiologist, to unfold the construction and uses of the cor- poreal mechanism; of the Surgeon and Physician, to describe its diseases; while the Metaphysician and Moralist employ themselves with those functions which constitute the mind, and with the mo- ral sentiments. Considered in the latter point of view, the sub- * So intimate indeed, with our own race, are the analogies in structure, function, and disease, of the whole class of Mammalia, " that we must ever feel a deep inte- rest in the accurate investigation of their comparative anatomy and physiology; and it has been found, accordingly, that the progress which has of late years been made in this branch of science, has materially enlarged our knowledge of the struc- ture, the functions, and the physical history of Man; subjects with which our wel- fare has obviously the closest and most multiform relations."—Roget, An. Sf Veg. Physiology, vol. i. p. 478. INTRODUCTION. XXV11 ject forms a vast and inexhaustible field for speculative phi- losophy. To Phrenology, or the history of the cerebral functions alone, those eminent votaries of science, Gall and Spurzheim, devoted more than thirty years of their existence. Their labours have been followed by highly important results. But of all the grand and imposing operations of nature, none are more pregnant with results of high importance, or furnish greater interest, than the study of the characteristic signs of those striking events and mighty revolutions to which our earth has been subjected; we observe with pleasure that among the ancients, not only the cultivators of science, but historians, and even great poets, refer with eagerness and astonishment to those important occurrences. The marine productions discovered upon the sum- mits of the highest mountains, or imbedded in the bowels of the earth, furnished them with the clearest evidence, as they then thought, that the " Old Ocean," or as they ingeniously termed it, the " Father of all things," had occasionally deluged the whole globe. Homer, Virgil, Ovid, and Lucretius, among the poets;—Plato, Plutarch, Diodorus, Strabo, Pausanius, and Atheneus, among the philosophers and historians, are some of those who always speak with the most profound interest and elevated sentiments of these curious phenomena. As a subject of Comparative Anatomy, we have only to treat of Man as the head of the Animal kingdom ; to distinguish between the different races of mankind;—for example, " is there one species of men only, or are there many distinct species 1 what particulars of external form and internal structure characterize the several races ? what relation is observed between the differences of struc- ture, and those of moral feeling, mental powers, &c, &c, &c. 1 how is man affected by the external influence of climate, food, mode of life 1 are these, operating on beings originally alike, suf- ficient to account for all the diversities hitherto observed?" It has been the subject of serious investigation, whether all ani- mals, man himself included, have not sprung from one simple point of organization. The very existence of species as a law of nature, has been called into question. Precise and correct notions on this subject are absolutely indispensable in order that the la- bours of the Oryotologist may be duly appreciated, and the infer- XXVI11 INTRODUCTION. ences of the Geologist fairly tested; not to mention the direct in- terests of man himself, involved in this question. The idea of the successive formation of organized beings, by means of progressive improvement, has been a favourite notion of some authors.* " But, the Author of Nature has not given laws to the universef which, like the institutions of men, carry in themselves the ele- ments of their own destruction; he has not permitted in his works any symptoms of infancy or old age, or any sign by which we may estimate with precision either their future or past duration." —{Playf air's Illustrations of Hut. Theory.) In comparing the animals, most minutely described by Aristo- tle, more than two thousand years ago, with the descriptions of the same, of the present day, not the slightest difference is observ- able. We are indebted to the skill and diligence of the French natu- ralists who accompanied the army of Egypt, for many interesting facts relative to the permanence of species: M. Geoffroy and his associates examined diligently, and sent home great numbers of embalmed bodies of consecrated animals, such as the bull, the dog, the cat, the ape, the ichneumon, the crocodile, and the ibis. The evidence derived from the Egyptian monuments was not confined to the animal kingdom;—the fruits, living seeds, and other portions, of twenty different plants, were faithfully preserv- ed with the mummies; among these were the common wheat and onion:—no difference could be detected between any of these spe- cies as they existed three thousand years ago, and those of simi- lar species inhabiting the same country at present. Indeed, when we contrast the permanency of species with the transitory nature of individual existence, the reflection cannot but prove mortifying to human pride. In a state more or less perfect, every individual of a species proceeds from the same permanent mould. Among men, some are destined to enlighten the world by the brilliancy of their conceptions, or to astonish by their magnitude of genius; whilst others are consigned to perpetual slavery, or are the vic- tims of sensuality, terminating with each day the uses of their ex- istence. All, without reserve, submit to the law of transmutation; * Vide Essay on the " Successive formations of organized beings," at p. 232 of this volume. INTRODUCTION. XXIX and men the most celebrated for intellectual pre-eminence, the wise—the heroic—and the great, are hourly hurried into the ob- livion of the tomb, with the slave, the vagrant, and the demoniac; and, on the part of nature, with the same apparent indifference. From this law, even the productions of his ingenuity and pow- er, claim no exemption; and all the boasted monuments of art, which appear to have been formed for posterity, " feel the tooth of time, and experience the rasure of oblivion!"—Persepolis and Palmyra, with their splendid porticoes, majestic temples, and gor- geous palaces, have long ceased to be;—and " the land of Priam lives only in song:"—the serpent and the bramble creep over the sanctuary of kings;—in vain " The sculptor's art exhausts the pomp of wo, And storied urns record the dust below." Time is the genius of transmutation, into whose magic circle are continually passing all created things; he waves his ebon sceptre, and mountains of adamant are as " the dust in the ba- lance"—he nods his hoary head, and the self-reputed lord of the creation, like the " clod of the valley," is without perception, sense, or motion,—he spreads his sable pinions, and our fondest recollec- tions are shrouded in oblivion:—the colossian statue, the sculptur- ed bust, and the marble monument, crumble into the dust, in com- memoration of which they were constructed. " All that gives mo- tion to the active, and elevation to the eminent;—all that spar- kles in the eye of hope, and pants in the bosom of ambition, at once becomes without weight, and without regard." " The deep foundations that we lay, Time ploughs them up, and not a trace remains; We build with what we deem eternal rock; A distant age asks where the structure stood '. " Such being the march of nature, where shall we look for the proofs of the common origin, or successive and uninterrupted for- mation of organic beings ? In our survey of the animal, man, such are the inquiries which claim attention: they can never be answered except by those who are thoroughly acquainted with the anatomy and physiology of our frame; with Comparative Anatomy, and its concomitant prin- ciples of general physiology; and the analogies derivable from the whole extent of living nature. Much might be said of the connexion of Comparative Anatomy E XXX INTRODUCTION, with the arts of sculpture and drawing, did our limits admit of this latitude. The proportionable developments, the expression and attitudes, as well as the ravages of age, in the animal frame, can be correctly represented only by the anatomical artist. From Geology proper, will be learned, that there have been endless vicissitudes in the shape and structure of organic beings in former ages;—that the approach to the present system of things has been gradual;—that there has been a progressive develop- ment of organization, subservient to the purposes of life, from the most simple to the most complex state;—that a series of physical revolutions can be traced in the inorganic world, coeval and co- extensive with those of organic nature;—and finally, that the ap- pearance of Man is the last phenomenon in a long succession of events! The crust of the earth thus marvellously constituted, bears with- in itself inherent evidence of its vast antiquity. Millions and mil- lions of years have been consumed in establishing the present or- der of creation; countless myriads of animated beings had ap- peared and disappeared from the diversified scene, ere yet the wonder, Man, was accomplished ; and here the question natural- ly presents itself—is the present order the ne plus ultra of perfec- tion? Has the mandate gone forth, "thusfar shalt thou go?" Is man indeed the last link in the great chain of creation, connect- ing earth to heaven? It is most probable, that if the motion of this planet, together with the seasons and order of time, should be subjected to a change, it would follow as a natural sequence, that the course of existence, the structure even, and the mode of combination of the organic elements, would undergo a corresponding change. But however this may be, the experience of the fluctuating past teaches us that Truth alone is permanent; and nothing is unchangeable save the Eternal! Not less interesting or important, in geological associations, are the curious phenomena developed in our study of the Antediluvian Flora. The forms, structures, and habitat, of the various genera and species of extinct plants, together with the peculiar distribu- tion of the earth's temperature, at these early periods, are well calculated to attract due regard by the student of Fossil Botany. The scale of vegetation, from the oak of temperate climates, to. the palms and tree ferns of the tropics, including the mosses which INTRODUCTION. XXXI exist at the heights of perpetual snow, in both hemispheres, con- stitute gradations, the forms of which are proper to each climate, but very different, however, among themselves. From this consi- deration is naturally derived the idea, that at different periods, when other mixtures and other combinations of soil must have taken place, such change ought necessarily to have resulted in the production of different vegetables. Fossil vegetables, like fossil animals, display a progressive formation from the most simple to the more complex structures; thus, the acotyledonous class ap- pearing first, or in the lowermost strata, followed, by the monoco- tyledonous, and dycotyledonous, in a pretty regular series:—the conferva?, algae, fuci, mosses, ferns, grasses, canes, reeds, palms, pines, &c, of which they consist, being for the most part extinct species of tropical plants, are found fossil in the northern climates of both hemispheres, generally associated with fossil coal, or the subjacent strata. It has been further observed, that the upper and more recent strata display fossil plants, more closely allied to those of the same country of the present day. It was during the resuscitation of letters, about the sixteenth century, that ligneous fossils, dispersed throughout the various formations, began first to fix the attention of observers; but they were then generally considered rather as objects of simple dis- cussion, than of accurate research. Philosophers were divided in opinion as to the origin of these fossils, as they were on those of animal remains; though to the vegetable kingdom perhaps belongs the honour of dissipating those vague and ridiculous notions, which attributed all such relics of the ancient worlds, to the "sport of nature," or to plastic force. Agricola, Gesner, Imperati, and others, already maintained that they were the remains of trees destroyed by the deluge; i)ut near- ly a century elapsed before any work wTas specially devoted to this subject. It was only in the commencement of the eighteenth century, that the labours of La Hire, Lister, Luid, and Scheuchzer, directed the attention of naturalists, to a subject so intimately con- nected with the history of the formation of the globe. The present century opened a new career, in the various spe- cial publications which have appeared in order to throw light on a subject sufficiently abstruse. To analyze, or even to indicate all these is not permitted at present; Parkinson, Steinhauer, Faujas, xxxn INTRODUCTION. Rhodes, Young and Bird, Noggerath, Agardh, Nilson, Mantelle, Artis, Lyelle, Granger, Nau, Martius, are among those who have most conduced to elucidate this branch of science. To Stern- berg, Brongniart, and Lindley and Hutton, we are indebted for a systematic classification of them; together with the discovery of numerous species. " In regard to those laws of co-existence, in conformity with which the animal frame is constructed, they are found to exist only to a limited extent in the anatomy of the vegetable kingdom. "The organs of plants are divided into two great classes;—those of vegetation, and those of fructification. " Nutrient vessels forming the basis for determining the rela- tions of position, and often even the form of organs, are evidently more important than the parenchyma, or cellular matter, which surrounds and unites them : the mode of distribution of these ves- sels may develope the true affinities of vegetables; consequently, their disposition is the principal thing to be observed in every or- gan. When we are able to detect the interior structure of the stalk, this disposition demands close inspection: but when we can- not examine this, the mode of growth of the stalk being constant- ly associated with this interior structure, and the external form of the stalk depending on its mode of growth, the form of the stalk is sufficient to determine, with considerable accuracy, its internal structure. "The next most important character of the stalk, is the mode in which the leaf is inserted at its base; a character depending ne- cessarily on the structure of the stalk, and not of the leaf, as it is the former which produces and developes the latter: the same may be observed of the vessels which run from the stalk to the petiole."—(Stern berg.) Such are the modifications of structure which require our par- ticular attention in the present investigation, as they enable us to determine the analogies which unite the fossil with recent vege- tables. In the leaf the disposition of the nervures will enable us to de- termine the families to which they belong. In these researches, the characters of the flowers, are comparatively unimportant; this part being seldom or never met with in a fossil state. The fruit presents us with a variety of structure; and the ad- herence, or non-adherence of the calix; the number of compart- INTRODUCTION. XXX111 ments, and their mode of opening; the number and mode of in- sertion of the seeds; furnish good distinctive characters when such fossil parts are so preserved as to admit of the examination of their internal structure. An extensive view is opened to reflection, in the study of the geographical distribution of the living plants of a family, com- pared with the geographical distribution of the fossil plants of the same family, which furnish interesting results, attended with important consequences; and appear to indicate, either a change in the earth's ecliptic, or that the temperature and light of antedi- luvian climates depended on other sources than the sun.*—For the last named agent we know of no substitute. Topography and Physical Geography, are intimately connected; the former bearing the same relation to the latter, as Mineralogy does to Geology. What an endless field for observation they open to our view! How interesting to follow the distinguished investigators in their various researches! where continents and islands,—mountains and plains,—hills and vales,—crystal lakes and majestic streams, rolling their never-failing tributes to the boundless ocean, are successively offered to our regard.—With the volcano—the earthquake, and the deluge for agents, scarcely a limit can be assigned to the slow but certain changes to which the surface of the earth is subjected. Properly to estimate such changes, induced by the destroying and transporting power of water only, would require a volume. Among these effects, may be enumerated, the detrition of river- banks, destroying, in some instances, whole forests; the immense rocks, and other heavy matter, removed by torrents and floods; the effects of ice in removing rocks, and grinding to atoms heavy masses; erosion of chasms through rocks; the excavation by rivers of their basaltic beds, in certain volcanic countries; deser- tion of old channels, and formation of islands and lakes; the phenomena of land-slips, and bursting of lakes, with their de- vastating effects ; the formation of immense deltas at the mouths of rivers, &c, caused by the disintegration of land; (such deltas may contain the remains of both sea and land animals and vege- tables,)—the subsidence of the bottom of the sea, in some places, and its elevation in others; fossil marine shells haye thus been * Very interesting memoirs on " The Climates of the Globe," have been publish- ed by Mr. Crichton, in the Annals of Philosophy for 1825. xxxiv INTRODUCTION. elevated to immense heights above the level of the ocean; Col. Gerard observed petrifactions of this nature 16,000 feet above the level of the ocean, on the Himalay mountains, and Baron Hum- boldt, 15,000 feet on the Andes. So recently as the year 1822, an area of 100,000 square miles was considerably elevated by a single shock of an earthquake; this change of level extended one hundred miles along the coast of Chili. In 1775, a single volca- nic eruption gave rise to a mountain 1700 feet high, on the Mexi- can plateau. In 1750, the shock of an earthquake, at Pinco, on the coast of Chili, elevated the coast about twenty-five feet. In 1692, the harbour of Port Royal, in Jamaica, was sunk at once, by a similar cause, fifty feet.—(Lyle. v. 2. pp. 161, 67.)—No in- considerable compensation for the slow detrition of the land !* On the discovery, in 1750, of the remains of the temple of Ju- piter Serapis, situate on the bay of Baiao near Puzzuoli, it was observed that this celebrated monument of antiquity, alone afford- ed unequivocal evidence that the relative level of land and sea, had changed twice, at this point, since the Christian era; each movement of elevation and subsidence exceeding twenty feet. Of the forty-six noble columns which originally supported the roof, three only maintain an erect position—these are forty-two feet in height; it has been unequivocally demonstrated, that these co- lumns must have continued for a long time immersed in salt wa- ter; and that after remaining for many years submerged, they must have been upraised to the height of twenty-three feet above the level of the sea. The strata in the vicinity vary from a foot to a foot and a half in thickness, and one of them contains abundantly, remains of works of art—tiles, squares of mosaic pavement of different co- lours, and small sculptured ornaments, perfectly uninjured, inter- mixed with remains of domestic animals: strata containing ma- rine shells are found both above and below these fragments of art, which are now more than twenty feet above the ocean's level. Proofs of a similar change of level have been more recently obtained from Captain Elliot, of the U. S. Navy, who, in 1827, brought home with him specimens of human bones, imbedded in * It is right here to remark, that the accounts relative to the elevation of a district of Chili, 100,000 miles in area, during the earthquake of 1822, have recently been doubted by the President of the Lon. Geol. Soc.—G. B. Grenough, Esqr.__Vid. Jameson's New Ed. Philos. Jour. 1834, p. 205. INTRODUCTION. XXXV solid calcareous tufa, which he cut out of a rock with an axe, on the coast of Brazil, about two degrees west of Rio de Janeiro. The stratum, which contained hundreds, or " whole acres," as Captain Elliot expressed it, of human bones and skulls, on some of which recent marine shells are found adhering, is now elevated fifteen or twenty feet above the level of the ocean, at the foot of a plain about three miles distant from the mountains. There can be little doubt but that these bones are derived from an ancient Indian cemetery, which has been subjected to alternate subsidence and elevation, during some of those volcanic convul- sions to which this whole coast is known to have been repeatedly subjected. These interesting remains have been described by Dr. Meigs, in a recent volume of the Transactions of the American Philosophical Society. To the changing causes already enumerated, we may add, those immense masses of lava, ejected from incalculable depths, from a chain of volcanoes, which have acted for ages. In 1783, Skaptar Jokul, a volcano in Iceland, vomited forth a burning liquid mass, which extended from forty to fifty miles in length, from seven to fifteen miles in breadth, and from one to six hundred feet in depth; filling in its course, rivers, lakes, and valleys, destroying ten thou- sand persons, besides innumerable herds of cattle.—It is thus prov- ed to demonstration, that the surface of our globe is constantly subjected to extensive changes. It has been aptly remarked by an admirable historian of these phenomena, that the poets of old selected the rock as the emblem of firmness,—the sea as the image of inconstancy; not so the prince of modern poets, who, in a more philosophical spirit, saw in the latter the " image of eternity," and has finely contrasted the fleeting existence of the successive empires, which have flourish- ed and fallen on the borders of the ocean, with its own unchang- ed stability.— "------------Their decay, Has dried up realms to deserts; not so thou— Unchangeable save in thy wild waves' play: Time writes no wrinkle on thine azure brow; Such as creation's dawn beheld, thou rollest now." Ch. Har. Can. iv. The powers of springs, impregnated with mineral, calcareous, and saline ingredients, though not very extensive, exert, neverthe- less, a very important influence in modifying the physical features XXXVI INTRODUCTION. of a country. To these must be added, the destroying, transport- ing, and reproductive effects of tides and currents. To chemical analysis, we are indebted for our knowledge of the intimate structure of rocks and minerals; as well as the vari- ous composition of soils, so necessary to practical agriculture. Not less instructive and important to the geologist, is a knowledge of the power of chemical agents, in the great laboratory of nature, in modifying the surface of the earth. The form of vegetables is determined by the chemical combinations of the constituent parts of the soil, by the surrounding atmosphere, and by the relations which these bear to light and heat. At first sight there might appear but the most distant connexion between Geology and Meteorology; but a more philosophical view of the subject will convince us of the truth of Blackstone's remark, " that the sciences are of a sociable disposition, and flourish best in the neighbourhood of each other." " Any accession to our know- ledge of nature is sure, sooner or later, to make itself felt in some practical application; and a benefit conferred on science by the casual observation, or shrewd remark, of even an unscientific or illiterate person, infallibly repays itself with interest, though often in a way that could not have been at first contemplated. " It is to such an observation, reflected upon, however, and ma- tured into a scientific form, by a mind deeply imbued with the best principles of sound philosophy, that we owe the practice of vaccination; a practice that has effectually subdued, in every country where it has been sufficiently introduced, one of the most frightful scourges of the human race, and in some extirpated it altogether."—Sir J. W. HerscheVs Study of Natural Philosophy. Not to mention the mechanical power of the wind,—the active chemical agents which compose the atmosphere, together with the hygrometrical moisture always combined with it, exert a very sensible influence in the decomposition of the hardest rocks, and modify in no slight degree the Geological outline. Not a less important agency is attributable to rains, dews, and vapours. Atmospheric Stones of considerable magnitude have occasionally fallen from the heavens; the theory of the formation and origin of these, belongs as much to the meteorologist, as the examination of their structure and composition, does to the mineralogist and che- mist. It has already been demonstrated that such meteoric phe- nomena are not limited to any particular epoch, time or place, that INTRODUCTION. XXXV11 these stones, wherever they fall, resemble each other, and that they are unlike any of those which the earth produces naturally- Men of science are undecided as to their origin,—Chladny con- sidered them species of little planets floating through space! De la Place and Poisson have demonstrated mathematically the possibility of their being ejected by volcanoes of the Moon! (vide Lithologie Atmospheric de M. Isarn.) Vauquelin remarks, that though part of the elements of such stones might be suspended in the atmosphere, it is scarcely conceivable how masses of such magnitude could be formed in the air before falling. Concerning the origin of springs and rivers, Hydrology leaves us nothing to desire on this hand; it having been long shown that rains and aqueous vapours are the sole causes. The snow that caps the Alps and the Andes is derived from the surface of the ocean. From Mineralogy, as connected with mining, much useful in- formation may be expected. The mineral and metallic riches of our vast country, remain as yet, in a great measure, unexplored; no subject of paramount importance has been so injuriously ne- glected. Metallurgy, or the many curious methods devised by art, in order to separate the various metals from the ores or matrices which contain them, constitutes a very important branch of gene- ral science, and serves to unite mineralogy, geology, and che- mistry. Wonderful in structure and magnificent in design, as is the small portion of this planet, hitherto subjected to the eye of ob- servation, yet, considered as a part of the whole system of crea- tion, the globe itself is but as the grain of sand, driven by the winds of the trackless desert! A general view of the extent and form of the superficies of our own planet; the unalterable laws which regulate its complex motions; its true position in the planet- ary system; how far the structure of other planets may be con- jectured by analogical deductions; together with many other points of philosophical inquiry; may enter with propriety into the astro- nomical view to be taken of geology. A variety of magnificent speculations have been offered respect- ing the original formation and primitive state of the earth, and other planets, which, in a course of philosophical inquiry, must not b« permitted to pass unnoticed. T xxxviii INTRODUCTION. Des Cartes seems to have supposed stars to have preceded pla- nets in the order of creation: and that this earth was at first a star, and continued so till rendered opaque by having its bright surface incrusted with grosser and untransparent matter, and drawn into the vortex of the solar system. This conjecture was adopted by Leibnitz. JVhiston considered it to have been origi- nally a comet, the rude materials of which constituted the chaos of the earth; to which, Buffon added a portion of the sun's exte- rior limb or edge, carried off by such comet, in consequence of its having given the sun an oblique stroke in the course of its or- bit; the chaos of the earth being thus formed by the vapoury sub- stance of the impinging comet uniting with a portion of the sun's igneous mass; and in this manner he endeavoured to account for the production of every other planet of the solar system. Dr. Herschel supposed the existence of an immense mass of opaque but igneous matter, seated in the centre of universal nature; that the sun, and every other star, were originally portions of the common substance; that it is'volcanic in its structure, and sub- ject to eruptions of inconceivable violence; that the sun and other luminaries were thrown forth from it at different times; that these possessing, in a great degree, the qualities of the parent body, threw forth afterwards at different times, by means of similar volcanoes, portions of their own substance, each of which, by the common laws of projectiles, assumed an orbicular motion, constituted a distinct planet, and became the chaos of a rising world. Hence, according to this hypothesis, the existing universe has acquired its birth; new systems of worlds are perpetually rising into be- ing, and new planets added to systems already created! But, alas! for these comprehensive efforts of the imagination, within the last half century! her airy castles have vanished before the great truths of geology; and like " the baseless fabric of a vision, leave not a wreck behind." Besides, modern astronomers appear to agree, that there is abundant proof that the planets disturb the comets, but that the converse is not known; thus the comet of 1454 eclipsed the moon, while that of 1770, not only came near the earth, but passed through the midst of the satellites of Jupiter, without producing any sensible effects.—(vide Ed. Philos. Journal, Ap. 1826.) A most extraordinary fact, however, has been suffi- ciently demonstrated by Herschel, that, within the period of the last century, not less than thirteen stars, in different constellations, INTRODUCTION. XXXIX none of them below the sixth magnitude, seem totally to have per- ished; forty to have changed their magnitude, by becoming either much larger or much smaller; and ten new stars to have sup- plied the place of those that are lost.—(Philos. Trans, vol. 73.) Some of these changes may perhaps be accounted for, by supposing a change in the proper motions of sidereal or solar systems; but this explanation will by no means apply to all of them; and in many instances it is unquestionable, that the stars themselves, the sup- posed habitations of other kinds of intelligent beings, together with the different planets, by which, it is probable, they were surround- ed, have utterly vanished, and the spots which they occupied have become blanks! MEDICAL AND PHYSICAL RESEARCHES. Description of a new Species of Orang, from the north- eastern province of British East India f lately the king- dom of Assam. Simia, Linn.—Hilobates, Illig. & Hoolock. Colour of the skin and hair, deep black; canine teeth very long; a band of whitish grey hairs over each eye. Dimensions. Total length about two feet six inches. Humerus eight inches nine-tenths; radius nine inches; hand, from the beginning of the wrist to the end of the fingers, six inches; inferior extremities about thirteen inches; the foot six inches. Habitat. Garrow-Hills, Assam, and probably extending into China between latitudes twenty-five and twenty-seven degrees north. Cab. of A.N. S. Philadelphia. The present specimen is an adult male; and forms one of three individuals which lived some time in posses- sion of Dr. M. Burrough, who has lately returned from India, with a magnificent collection of rare and valuable skins of birds and quadrupeds, selected principally from the plains of the Burrampooter river. Dr. Burrough in- forms me, that there is not much exterior difference be- tween the adult male and female. The young, we shall have occasion to notice, possesses several characteristic marks. They were all taken on the Garrow-Hills, in the vicinity of Goalpara, in the latitude of twenty-six degrees north ; they very soon became tamed, especially the young one; they were docile, affectionate, and rather inclined to melancholy. 2 10 DESCRIPTION OF A NEW SPECIES OF ORANGf. According to the accounts of the natives, these animals are not found south of the regions specified. There can- not be the least doubt but that this species is the same mentioned cursorily in Latreille's Buffon, Vol. XXXV. p. 140. The observations relative to the habits of this species contained in this account, corresponding in so many re- spects with the specimens introduced by Dr. Burrough, induces us to make the following translation. " Mr. Gordon has sent me the drawing of an Orang, which the King of Assam had made a present to Mr. Harwood, pre- sident of the provincial council of Dinagipal. The brother of Mr. Harwood brought it to the Cape of Good Hope and presented it to Mr. Gordon, with whom it unfortu- nately lived only one day. It had been attacked with scurvy on ship-board, and on arriving at the Cape was so feeble as to die at the end of twenty-four hours; thus Mr, Gordon had only time to make a drawing of it; and not being able to make any observations on its habits, has communicated the information he obtained from Mr. Har- wood, as follows. This orang-outang, named Voulock [Hoolock] in its native country, was a female, and regu- larly menstruated, but the discharge was interrupted after the attack of scurvy. She was of a very gentle disposi- tion, only monkeys displeased her, whose presence she could not endure. She always walked in the upright at- titude, and could even run very fast: when walking on a table, or among china-ware, she was very careful not to break any thing; when climbing she used only her hands 5 her knees resembled those of man. Her cry was sharp and deafening, pronouncing often and frequently repeat- ing the syllables yaa-hoo! yaa-hoo! yaa-hoo!—with the emphasis on the last syllable, particularly on the terminal sound: when she heard any noise resembling this, she com- menced crying also. When contented, she emitted a low guttural sound. When sick she whined like a child, and was fond of being nursed. Her food consisted princi- DESCRIPTION OF A NEW SPECIES OF ORANG. 11 pally of vegetables and milk; she would never touch a dead animal, or eat meat, and refused even to eat from a plate which had contained meat" [in this respect she dif- fered from those individuals in the possession of Dr. Bur- rough, these latter would eat meat occasionally.] " When thirsty, she plunged her fingers into the water and licked them: she voluntarily covered herself with pieces of sail- cloth, but would not endure clothes. She would come when called by name. She was commonly melancholy and pensive. When answering to the calls of nature on board of ship, she would hold on to a rope and evacuate into the sea. (( The length of her body was two feet five inches and a half—the circumference of the chest was one foot two inches—that of the thinnest part of the body was ten inches and a half: when in health she was fatter, and had calves to the legs. " The drawing had been taken during illness, or after death, when the subject was greatly emaciated: there were nails on all the fingers." Notwithstanding the high northern latitude of the country in which this species is native, it would appear that they are less able than even other Gibbons to endure the hardships of captivity and change of climate. All those belonging to Dr. B. died, either on their passage down the river from Goalpara, or on board vessel before they arrived at the Cape of Good Hope. The Gibbons, or long armed apes, in many particulars, all bear a very close resemblance to each other. Thus the S. lar, leucisca, agilis, syndaciylus, and concolor, which includes all the species hitherto described, differ from each other only in some particulars of size, colour, proportions and markings. The present specimen is as strongly characterized, as distinct, as any of the others. In some of its habits, particularly in its mode of drinking, it resembles the Siamang of Sir Stamford Raffles, or S. 12 DESCRIPTION OF A NEW SPECIES OF ORANG. syndactylus; but differs widely in other respects. In form, size, and proportion, it is most closely allied to the females of the S. agilis of F. Cuv., but it is very different in co- lours and markings, especially the young individuals of the two species, which differ totally in these respects; the male and female resemble each other in the present species, but the sexes are different in size and colour in the S. agilis; the two species differ also in their habits; both differ also from the S. lar, Linn. The skin of the present species is of a deep black co- lour, which, on the hands at least, is not confined to the rete mucosum, as the cutis vera of the palms remains black after maceration, so as to destroy the epidermis. The hair, which is universally black, with the excep- tion of the grey band across the forehead of the adult, covers the back of the hand to the ends of the fingers, and on the palm descends as low as half the length of the me- tacarpal bones. In both old and young the hair on the fore-arm is reversed. In the young individual, which is about half the size of the adult, besides the difference of colour, a remarkable peculiarity was noticed in the relative proportions of the arm and fore-arm, as will be observed in the following measurements. Total length, two feet six or eight inches; humerus, eight inches nine-tenths; ulna, ten inches three- tenths ; femur, eight inches; tibia seven inches; length of the head from the vertex to the chin, four inches five- tenths—breadth, two inches five-tenths. In the young animal the fore-arm is shorter than the arm, a fact at variance with the proportions of those parts, not only in the Orangs, but in all the race of adult Simiae.* In the adult of this species the arm and fore-arm are within one inch two-tenths of being equal in length. In the S. concolor, (Harl. Journ. A. N. S. Vol. V. p. 229, pi. ix.) the fore-arm is two inches and a half longer * The measurements here alluded to refer to the bones of the arm and fore-arm. DESCRIPTION OF A NEW SPECIES OF ORANG. 13 than the arm.* KM. F. Cuvier's account of the dimen- sions of the S. agilis be correct, there is six inches differ- ence between the length of the arm and fore-arm; but if the author has improperly included the hand and fingers in the term " fore-arm," the proportions of these parts are nearly similar in the S. agilis, and S. Hoolock. The colour'of the young of the present species is blackish- brown—back of the hands and feet sprinkled with grey —buttocks' greyish: a tuft of greyish hairs grows from the point of the chin, and a line of the same colour extends along the middle of the front of the body: the band of grey over the eyes of the adult is generally interrupted in the middle of the forehead by a line of black hairs— which is absent .in the young one; the band is broader in the latter, in the proportion of seven-tenths to four-tenths. Buffon, speaking of the habitat of the Gibbon (Vol. XXXV. p. 200,) remarks, (i it appears to inhabit the more northern countries, and that the ape of the province of Gannaure, on the frontiers of China, ought to be referred to the Gibbon ; which some travellers have indicated un- der the name of Fefe." The following extract is quoted by Buffon; " in the kingdom of Gannaure, frontier of China, there exists an animal very rare, which they call Fefe ; it has almost the human form; the arms very long; the body black and hairy; walks lightly and very fast." (Recueil des Voy- ages, &c. Rouen, 1716, Tome III. p. 168.) It is this Fefe, which the traveller Nieuhoff describes as carnivorous and anthropophagous; a character attribut- able to the extreme length of the canine teeth. It is highly probable that Fefe is the Chinese name for the Assamese " Hoolock." The dentition of this species * In the Bull. des. Sc. Univers. 1830, M. Lesson remarks that the S. concolor is probably a variety of the S. lar, notwithstanding the former animal has two dorsal vertebra and two ribs more than the former, not to mention other distinctive cha- racters. 14 DESCRIPTION OF A NEW SPECIES OP ORANG. bears close analogy to that of the S. agilis or Wou-wou, so accurately detailed by F. Cuv. (Dent des Mammiferes, &c): the only difference is the greater length of the canines of the Hoolock, and the obsolete appearance of the longitudinal grooves, especially that on the posterior face of this tootbJ In all particulars not mentioned this species resembles the other Gibbons. A drawing of the adult male and young female, also the cranium of the adult male, accom- panies the description. For the details concerning the habits of the specimens which form the subjects of the present description, we refer to the observations contained in the annexed letter from Dr. Burrough. To Richard Harlan, M. D. "The specimens of Ourang Outang, or Gibbons, fur- nished you, were obtained by me during my late excursion into the interior of Bengal. They were presented to me by Captain Alexander Davidson of the honourable East India Company, stationed>at Goalpara, situate on the Bur- rampooter river in Assam. This district of country was formerly attached to the Burmese empire; but at present is in possession of the East India Company, and constitutes the north-eastern limits of ;their territory in this quarter. i( The Ourang, of which I am now to speak, called by the Assamese ' Hoolock? is to be met with on the Garrow- Hills in the vicinity of Goalpara, between latitudes twenty- five and twenty-eight degrees north, and the specimens brought to this country by me were taken within a few miles of the town of Goalpara. The full-grown one, which at this time you have prepared, was in my possession, alive, from the month of January to May, when it died from a blow it received across the lumbar region, inad- vertently inflicted with a small stick by one of my ser- One mt/i size m Xati/tr One Unit'size ot Nature ■ ■>n fit! ~~~& >-^. ; One Fourth size of .Valuer. SlM.fA HOOiLOCR., DESCRIPTION OF A NEW SPECIES OP ORANG. 15 vants at Calcutta. They inhabit more particularly the lower hills, not being able to endure the cold of those ranges of the Garrows of more than four or five hundred feet elevation. Their food in the wild state consists, for the most part, of fruits common only to the jungle in this district of country, and they are particularly fond of the seeds and fruits of that sacred tree of India, called the Peepul-tree, and which on the Garrow-Hills attains a very large size. They likewise take of some species of grass, and also the tender twigs and leaves of the Peepul and other trees, which they chew, swallow the juice thereof, and reject the indigestible part. They are easily tamed, and when first taken show no disposition to bite unless provoked to anger, and even then manifest a re- luctance to defend themselves, preferring to retreat into some corner rather than attack their enemy; they walk erect, and, when placed upon a floor or in an open field, balance themselves very prettily, by raising their hands over their head and slightly bending the arm at the wrist and elbow, and then run tolerably fast, rocking from side to side; and if urged to greater speed, they let fall their hands to the ground, and assist themselves forward, rather jumping than running; still keeping the body however nearly erect—if they succeed in making their way to a grove of trees, they then swing with such astonishing ra- pidity from branch to branch, and from tree to tree, that they are soon lost in the jungle or forest. " The individual in question became so tame and man- ageable in less than a month, that he would take hold of my hand and walk with me, helping himself along at the same time with the other hand applied to the ground as described above. He would come at my call and seat himself in a chair by my side at the breakfast table, and help himself to an egg, or the wing of a chicken from my plate, without endangering any of my table furniture—he would partake of coffee, chocolate, milk, tea, &c, and 16 DESCRIPTION OF A NEW SPECIES OF ORANG. although his usual mode of taking liquids was by dipping his knuckles into the cup and licking his fingers, still, when apparently more thirsty, he would take up the ves- sel from which I fed him with both hands, and drink like a man from a spring; his principal food consisted of boiled rice, boiled bread and milk with sugar, plantains, bana- nas, oranges, &c, all of which he ate, but seemed best pleased with bananas; he was fond of insects, would search in the crevices of my house for spiders, and if a fly chanced to come in his reach he would dexterously catch him in one hand, generally using his right hand. Like many of the different religious castes of this country, he seemed to entertain an antipathy to an indiscriminate use of ani- mal food, and would not eat of either the flesh of the cow or hog, would sometimes taste a little piece of beef, but never eat of it; I have seen him take fried fish, which he seemed to relish better than almost any other description of animal food with the exception of chicken, and even this he would eat but very sparingly of, preferring his common diet, bread and milk, and milk with sugar, fruit, &c. In temper he was remarkably pacific, and seemed, as I thought, often glad to have an opportunity of testify- ing his affection and attachment for me. When I visited him in the morning, he would commence a loud and shrill Whoo-whoo-whoo-whoo, which he would keep up often from five to ten minutes, with an occasional intermission for the purpose of taking a full respiration; until finally, apparently quite exhausted, he would lie down and allow me to comb his head, and brush the long hair on his arms, and seemed delighted with the tickling sensation produced by the brush on his belly and legs ; he would turn from side to side, first hold out one arm and then the other, and when I attempted to go away he would catch hold of my arm or coat tail, and pull me back again to renew my little attentions to him, daily bestowed; if I called to him from a distance and he could recognise my voice, he DESCRIPTION OP A NEW SPECIES OP ORANG. 17 would at once set up his usual cry, which he sometimes gradually brought down to a kind of moan, but generally resumed his louder tone when I approached him. This animal was a male, but showed no particular marks of the sex, and by a casual glance might readily, if not examined more closely, have passed for a female. I have no idea of his age, but judging from the size and length of his canine teeth, suppose him to have been advanced in life. " The other large < Hoolock? of which you have the cranium, was also a male and full grown; he was likewise obtained from the Garrow-Hills in Assam, presented to me by my friend Captain A. Davidson of Goalpara. He came into my possession in the month of April, and died at sea in July, just before getting up with the Cape of Good Hope, of a catarrhal affection : his death probably might have been hastened from the want of proper food, such as is not procurable on long voyages. This animal was similar in habit and general characters to the one al- ready described, and may have been eight or ten years of age or perhaps older, as I am informed by the natives of Assam they live to the age of twenty-five or thirty years. " The young specimen was also alive in my possession —this is a female, and was brought to me by a Garrow In- dian at the same time the first was received, but died on the way from Goalpara to Calcutta of a pulmonary disease following catarrh. This poor little creature when first taken sick suffered great pain and oppression at the chest, for which I prescribed a cathartic of castor oil and calo- mel, and a warm bath, which seemed to afford it some temporary relief, but she died after ten days illness. The animal appeared delighted with the bath, and when I re- moved her from the vessel she would run back again to the water, and lie down again until again removed; she was, like the others I had in my possession, gentle and pacific in disposition, very timid and shy of strangers, but in less than a week from the time she was taken, would, if put 3 1& DESCRIPTION OP A NEW SPECIES OF ORANG. down in an open place, quickly run to me, jump in my arms and hug me round the neck. I supposed her to have been from nine months to a year old. I fed her on boiled milk, goat's milk diluted with water and sweetened with sugar candy ; she also would sometimes partake of a little bread and milk with the older one; she soon learned to suck the milk from a small bottle, through a quill covered with a piece of rag. " M. BURROUGH." "JVbv. \9th, 1830." HERMAPHRODITE ORANG OUTANG, 19 Description of an Hermaphrodite Orang Outang, lately living in Philadelphia. Simia. S.—With black, thick, woolly, and frizzled hair, covering all parts of the body, with the exception of the palms, the face, and the ears. Skin black. Nails on all the fingers. Orbits of the eyes prominent. Arms very long. No cheek pouches : no tail: no guttural sac: a rudiment only of callous buttocks. Nose more promi- nent, and facial angle more elevated, than in the Simia satyrus of Linnreus.* Dimensions.—Total length, from the vertex to the heel, 2 feet 2 inches : superior extremities, 1 foot 6 inches: arms, 6 inches 6 tenths: fore-arm, 9 inches 1 tenth: hand and fingers, 5 inches 5 tenths: lower extremities, 11 inches : thighs, 5 inches 4 tenths : legs, 6 inches 2 tenths: foot, 4 inches 6 tenths : body, 10 inches 5 tenths: head and neck, 11 inches 3 tenths: length of the bare face, 3 inches : circumference of the thorax, 11 inches 3 tenths: circumference of the head, 10 inches. Observations.—This interesting animal was imported into New York, from the island of Borneo, in the month of May, 1826 ; and at its death, was said to be rather less than two years of age. Each jaw contained twelve teeth: three molars, one canine, and two incisors, on each side. When standing erect, the fingers of the fore-hand nearly touched the ground ; advancing on a plane surface, he voluntarily assumed the erect attitude ; balancing him- self with his long arms, on the slack rope, and climbing with the greatest agility ; when he retired to sleep, as- suming a recumbent posture; displaying great fondness for fruits of all descriptions, but particularly for grapes ; possessing all the docility and intelligence characteristic ' Corporepilis nigris obtccto; facie, palmis, et auriculis nudis; cute nigro; palmis pentunguibus; brachiis longissimis; cauda, et sacculis buccarurn et gutturis om- aino carentibus; natibus leviter callosis; naso prominentioro, et angulo faciali plui elcvato quam in Simia Satyro Linnaei. 20 HERMAPHRODITE ORANG OUTANG. of the orangs. He died of a diarrhoea, from excessive indulgence in fruits. Distinctive characters of the species. The Orang genus has already been increased from one to six species. The present specimen differs from all the others hitherto described; it evidently pertains to the Gibbon family, or the Long-armed Orangs, the type of which is the Simia lar (Linn.) to which are added, 1st, the Little Gibbon, or Orang varie of Cuvier. 2nd, the Siamang, or S. syndactylus of Raffles ; and 3d, the Active Gibbon, or Wou-wou of Duvaucel and F. Cuvier. From $dl these our specimen differs, in being of a universal black colour, in the facial line being less inclined, in the absence of the circle of grey hairs around the face, in the rudi- mentary state of the ischiatic callosities, and, with the exception of the Active Gibbon, in the absence of the guttural sacs. Should I be right in supposing the above details offer specific differences, the animal may be properly named Simia concolor.* Habitat.—Island of Borneo; climbing trees, feeding on fruit and insects. The present specimen, caught and devoured all the flies within his reach. Dissection.—General adhesions of the peritoneum, omentum and intestines; glands of the mesentery very much enlarged ; white eruptions, or rather ulcerated tu- bercles on the peritoneum, such as are observed occasion- ally in scrophulous subjects, and inflammation of the mu- cous coat of the stomach and intestinum rectum. Orangs have been occasionally dissected, and minute and laboured descriptions of their anatomy are published. The present individual displayed remarkable peculiarities: the ligamentum rotundum very strong; liver resembling the human, having the same number of lobes, &c. Ap- * Vide Note at p. 13. HERMAPHRODITE ORANG OUTANG. 21 pendicula vermiformis very large ; contents of the thorax displaying close analogy to the human; ventricles of Morgagni rather large, though not communicating with a sac in the throat, as in the Simia satyrus and some mon- keys ; sternum composed of only two pieces, like that bone in man, in which it differs from the Simiae with tails. Twenty-five rings to the trachea, fourteen ribs on each side, fourteen dorsal vertebrae, seven cervical, five lum- bar, five sacral, and five coccygeal: but the most remark- able peculiarity remains to be noticed ; the subject proved to be a complete Hermaphrodite. Hermaphrodism, that is to say, individuals uniting in themselves the means of reproduction, without the con- currence of other individuals of their own species, appears to be, in some sort, a vegetable attribute; as among plants, the class Dioecia (Linn.) is the only one not hermaphro- dite. The nearer the animal approaches the vegetable kingdom, the more frequent and complete are the in- stances of hermaphrodism. This is of two distinct kinds: in the one, it is absolute, the animal possessing within it- self the powers of reproduction, as is instanced in the Bivalve shells, as the Oyster, in some of the Multivalves, as the Chiton, and in Zoophytes, Holothuria, &c.; whilst in Univalve shells, on the contrary, such as the Helix, Limnea, Planorbis, &c. although they unite the two sexes, yet the union of two individuals is necessary to fecunda- tion. The common garden snail, is a familiar example : animals of this description are properly termed t( Andro- gynous." The disposition, then, to hermaphrodism, is more rare as we advance in the scale of perfection, or rather to a more complex organization. Those cases said to have occurred in the higher orders of animals, may, with few exceptions, be attributed to mal-conformation of the genital organs, and to a mixture of the two sexes; which, according to the observations of Sir E. Home,* * Philosoph. Trans. 1799. 22 HERMAPHRODITE ORANG OUTANG. and Mr. John Hunter,* are of more frequent occurrence in the bull, than in any other of the mammifera: but in no instance have these authors found the assemblage of the organs of both sexes complete ; some or other of the organs being absent, or existing in a rudimentary state. The case which most nearly approaches in perfection the subject of the present description, is that detailed by Mascagni in the " Bulletin de la faculte de Medecine for 1811, p. 176," where he describes a bull with all the male organs, and with ovaries, uterus, and vagina ; but in place of a vulva, the vagina had its orifice in the urethra. There is also another case, somewhat similar, described in the "Med. Repository, No. XLV," of a human individual in Lisbon, uniting both sexes in apparently great perfection. The subject was 21 years-of age, was twice pregnant, and aborted at the third and fifth months. It is true, that though the penis and testicles existed, the latter, with their excretory ducts, were not examined anatomically. For a more detailed account of this individual, vide Dic- tionnaire des Sciences Medicales, art. ii Cas rares." The above observations will at least demonstrate the possibility of the occurrence of complete hermaphrodites, even in the highest class of animals. The specimen which forms the subject of the present description, will furnish us, perhaps, with the nearest approach to a complete union of the sexes in the same individual, which has been detailed; and is the only instance, as far as we have ob- served, of a circumstance of this kind occurring in the monkey race. In the present instance, the penis- was about one inch in length, subject to erections : terminating as usual in a glans, but imperforate ; a deep groove on the inferior sur- face, serving as a rudimentary urethra: this groove ex- tended about two-thirds of the length of the penis, the *Obs. on certain parts of the animal economy, Lond. 1792. HERMAPHRODITE ORANG OUTANG. 23 remaining portion being covered with a thin, cuticular, diaphanous membrane, which also closed the external orifice of the vagina, being extended across the vulva. The vagina rather large, and displaying transverse striae ; remains of the nymphae, and labia externa, visible; the meatus urinarius opening beneath the pubis into the va- gina, the urine must have been directed along the groove of the penis, by the membrane obstructing the orifice of the vagina: the os tincae was surrounded by small globular glands, the orifice and cervix admitting a large probe into the cavity of the uterus, which organ appeared perfect, with all its appendages; the round and broad ligaments, together with well-pronounced ovaries, all in situ.* The scrotum was divided, consisting of a sac on each side of the labia externa, at the base of the penis, covered with hair; the testicles lay beneath the skin of the groin, about two inches from the symphysis pubis, obliquely outwards and upwards ; they appeared to be perfectly formed, with the epidydimis, &c. The most accurate examination could not discover vesiculae seminales; but an opening into the vagina, above the meatus urinarius, appeared to be the orifice of the vas deferens. The testicles were unfortunately separated from the body, during the pro- cess of skinning. Admitting what in reality appeared to be the fact, that all the essential organs of both sexes were perfect in this individual, had the subject lived to adult age, most interesting results might have been elicited. Could not the animal have been impregnated by the male individual, by rupturing the membrane closing the vulva ? or by masturbation, might not the animal have impreg- nated itself? by this means exciting the testicles to dis- charge their seminal liquor into its own vagina. The im- perfection of the urethra, most probably, would have pre- * The male and female organs of generation, were in this animal, as completely perfected as could have been anticipated in so young an individual, and resembled those of other individuals of a similar age: minute ova were visible in the ovaries. 24 HERMAPHRODITE ORANG OUTANtt. vented the animal from ejecting the semen into the vagina of another individual. The subject, whilst living, always passed for a male. Had an instance of a like nature oc- curred in the human subject, it might have occasioned great difficulties, viewed in the light of a case of Legal Medicine. Dr. Charles Pickering and others, assisted at this dis- section. The accurate drawings of the anatomical parts, in a recent state, of the natural size, by Dr. Morton, and the figure of the animal, by Dr. R. M. Bird, have largely contributed to the value of this paper. V L VI A I'/JM •■() I., O ft , ILtrlcm ty.l. i. MtI.;, Mil ,,,,' F Xectrnv S< L HERMAPHRODITE ORANG OUTANG. 25 EXPLANATION OF THE PLATES. No. 1.—From a drawing of the animal, taken after death. No. 2. fig. 1st.—External organs of generation. A. Orifice from the vagina and urethra. b. Membrane covering the vulva. c. Prepuce. d. Raphe of the perineum. e. Penis with a groove on its inferior surface. f. Ischiatic nudities. g. Anus. Fig. 2nd.—Internal organs of generation, viewed from behind; the uterus turned up, with its ligamentum latum, to show the ovaries, &c. A. Bladder. b. b. Ovaries. c. Uterus. d. d. Fallopian tubes. e. Rectum. f. f. Broad ligaments. 4 26 DESCRIPTION OF THE VESPERTILIO AUDUBONI. Description of the Vespertilio Auduboni, a new species of Bat. Of the numerous creatures which attract our admira- tion, or excite our fears, the greater part display their appetites, or develope their instincts, during the day time only ; especially—with few exceptions—all those remark- able for beauty of plumage, and vocal melody. Preda- cious animals are chiefly distinguished for their nocturnal habits; and ideas of rapine, terror, and blood, are ever associated with the tiger, the hyena, and the wolf. Among the feathered tribes, the owl and the bat, also companions of darkness, are shunned by many, as horrible objects, and full of ill omen. Haunted castles, ruined battlements, and noisome caverns, are the chosen abodes of these nocturnal marauders, and it is to such associations that these animals are indebted for the unamiable charac- ter they have obtained. The prejudices conceived against that portion of these animals, with which we are familiar, are founded entirely upon these their habits; for small quadrupeds, reptiles, and fish, constitute the food of the first, whilst insects and fruit suffice for the other. It is at the close of the day, when the hum of nature is begin- ning to subside, that the patient bat steals from his dark retreat, and spreads his leathery wings in search of his food. The new species of this little flying quadruped, which we are now about to notice, belongs to a very large and respectable family. In the days of Linnseus, they all— from their appearance at twilight—went by the family name of Vespertilio. They further belong to the order "DESCRIPTION OP THE VESPERTILIO AUDUBONL 27 Carnivora, their teeth being constructed for masticating flesh; though some—and in this they resemble ourselves —are also fond of fruit. In one important point, the whole race has a common character, in their organ of flight. The bones of the fingers are extremely elongated, and united by a membrane, which is continued down the side of the body ; and extending on the leg as far as the tarsus, also unites the legs and tail. Agreeing so universally in this particular, they form a very natural family, under the appropriate term, Cheiroptera, constructed from two Greek words, signifying hand and wing. The Vespertilio are again divided into Genera and Species,—divisions which are grounded on certain pecu- liarities of dental structure, and various developements of the brachial, digital, and interfemoral appendages, with other modifications of the organs of progression. These genera include species which are discovered in every habitable part of the globe, of various magnitudes, from the size of a half-grown cat, to that of a half-grown mouse. Of this numerous family only three genera, of modern authors, inhabit the United States, viz. Rhinopoma, Ves- pertilio, and Taphozous. Seven species, exclusive of the present, are all that have been hitherto discovered in North America. The following concise notice of the species, at present known to inhabit the United States, is offered by way of comparison : Genus.—Rhinopoma.—Superior incisors, separate from each other; nose, long, surmounted by a membrane; tail, long, enveloped at base. Species 1st. JR. Caroliniensis, (Geoffroy, or Vespertilio of Linnaeus.) Is recognised by its brown pelage, and long and thick tail; it is two inches in length, of which the tail occu- pies more than one inch; the inferior half of the tail, 28 DESCRIPTION OF THE VESPERTILIO AUDUBONT. free of the interfemoral membrane.—Inhabits South Carolina, according to Geoffroy. Genus.—Vespertilio—(Linn. Cuv. Geoff.)—Dental for- mula, various; superior incisors generally separated into pairs; nose and lower lip, simple; wing membranes, extensive. Species 2d. V. Caroliniensis.—Geoff. Ann. du Mus. d'Hist. Nat. torn. 8, pi. 47. This species is of a chesnut-brown colour above, and yel- lowish beneath—the ears are simple, oblong, and of the size of the head, with their exterior surface sparsely hairy ; auriculum cordiform ; extreme point of the tail free. Inhabits the vicinity of Charleston, S. C. Species 3d. V. JVbveboracensis.—Peiin. Synop. p. 367, Linn. Vulgo, New York Bat. Characterized by its short and rounded ears.—Nose short and pointed; pelage, brown above, pale beneath; a white spot at the base of the wings; tail, wholly en- veloped in the interfemoral membrane; total length, tail inclusive, two inches five tenths; spread of the wings, ten inches. Inhabit New York and neighbour- ing states. A living specimen lately presented to us, taken near Camden, New Jersey. Species 4th. V. Pruinosus, Say.—Vide Long's Exp. to the Rocky Mountains, Vol 1, p. 167. Mr. T. Say, who noticed this species, when on the ex- ploring expedition under Lieut. Col. (then Major) S. H. Long, has thus distinguished it:—ears broad, not so long as the head, hairy on their external side, more than half their length; auriculum, obtuse at tip, and arcuated; pelage, hairy above, ferruginous about the sacrum, dull yellowish white on the throat; interfemo- ral membrane covered with fur; length, nearly four DESCRIPTION OP THE VESPERTILIO AUDUBONI. 29 inches and a half. Inhabits the western states, and western Pennsylvania. Species 5th. V. Arquatus, Say.—Long's Exp. ut supra. Head, large ; ears, rather shorter, with the posterior edge obtusely emarginated; auriculum arcuated; interfe- moral membrane naked, including the tail to one half the penultimate joint; total length, five inches; ex- pansion of wings, thirteen inches. Inhabits the western states. Species 6th. V. Subulatus, Say.—Long's Exp. Vol. 2, p. 65. This species is the nearest allied to the Vespertilio Caro- liniensis, of Geoffroy, from which, however, it differs in colour, form of the auriculum, and in other particu- lars. Mr. Say observed it in the distant territories. A specimen was subsequently presented to the Acade- my of Natural Science, from the White mountains, New Hampshire. Genus.—Taphozous—(Geoff.)—Without incisor teeth in the upper jaw. Nose, simple ; upper lip, very thick; ears, moderate. Species 7th. T. Rufus. Figured in Wilson's Orni- thology, Vol. vi. Red Bat of Pennsylvania. With this little animal we are all familiar. The city and its vicinity abound in them. The body is of a reddish cream colour; membranes of a dusky red; auricule slender, rounded at the extremity, and situated inter- nally. Total length, four inches ; spread of the wings, twelve inches. Like other Vespertilio, they enjoy the crepusculum, and are fond of insects, which they seize on the wing. The female has been known to manifest the strongest ma- ternal affection; a young lad having caught two young 30 DESCRIPTION OP THE VESPERTILIO AUDUBONI. bats of this species, was in the act of bearing them off to the Philadelphia Museum, at mid-day ;—being watched by the mother, she followed him through the streets, flut- tering round him, and eventually settled on his bosom, preferring captivity, to freedom with the loss of her pro- geny. Species 8th. Vespertilio Auduboni.—PI. We propose to dedicate this new species to our valua- ble friend, the justly celebrated naturalist, J. J. Audubon, as a small tribute of respect to his eminent talents, and the highly important services he has rendered science. The drawing which accompanies this paper is from his inimitable pencil. This species was first observed during the summer of 1829, when an individual female flew into the apartment of the late Dr. Hammersly, then one of the resident phy- sicians of the Pennsylvania hospital: on the subsequent evening a male individual, of the same species, was also taken in the same manner. In August, 1830, a very fine specimen was brought to the Academy of Natural Sciences, and Mr. Audubon informs me that the species has very recently been observed in New York. Natural characters of the species.—General colour black, sprinkled with grey above and beneath; ears black and naked; auriculum, short and broad, or obtusely triangular; interfemoral membrane, sparsely hairy; last joint of the tail free: two incisors, with notched crowns, on each side of the canine teeth of the upper jaw, with a broad intervening space without teeth. Dimensions.—Total length, 3 inches 7 tenths; tail 1.7; length of ear, 0.5 ; breadth of ear, 0.4 ; length of leg, 1.7 ; spread of wings, 10.7. Inhabit Pennsylvania and New York, and probably the southern states.—Cab. of Acad. Nat. Sc. Philad. 'OK>! CHLAMYPHORUS TRUNCATUS. 31 Description of Chlamyphorus truncatus, a new Genus of Mammiferous Quadrupeds, of the Order Edentata. On the 18th December, 1824, Mr. William Colesberry of Philadelphia, presented to the Philadelphia Museum of Natural History the interesting animal which forms the subject of the following pages. Mr. C. gave the follow- ing statement to Mr. Franklin Peale :—" The animal is a native of Mendoza, and in the Indian language is named i Pichiciago.' Mendoza is situate on the east of the Cor- dilleras, in lat. 33° 25', and long. 69° 47', in the province of Cuyo. It had been obtained on the spot, in a living state, but it continued to live in confinement only a few days. Its habits resemble those of the mole, living for the most part under ground ; and is reputed to carry its young beneath the scaly cloak with which it is covered ; and that the tail possessed little or no motion." It is to be regretted that the viscera and the greater portion of the skeleton of this animal had been removed before it came into my possession ; and the gentleman who presented the same, having left the city, precludes the possibility of receiving, at present, any further particulars relative to its habits; but the observations which I have been able to make from the examination of its exterior, together with the skull and teeth, all of which are in nearly a perfect state of preservation, establish the characters of the animal on the most solid foundation. Cuvier, that justly celebrated naturalist, remarks : u In zoology, when the teeth and jaws of an animal are given, the remaining structure may be readily determined; at least as far as relates to essential characters. The form of the tooth, determines that of the condyle ; the form of the scapula, that of the nails; just as the equation of a 32 DESCRIPTION OP THE curve indicates all its properties; as in taking each pro- perty separately, for the basis of a particular equation, we might arrive, not only at the ordinary equation, but at all the other properties: so the nail, the scapula, the maxillary condyle, the femur, and all the other bones, taken separately, would indicate each other reciprocally ; and beginning with either separately, we might, accord- ing to the rational laws of the organic economy, construct the whole animal." It is thus, by a perfect knowledge of the laws of co- existence, to which the combinations of animals are sub- jected, the skull alone of the animal under consideration would have enabled us to determine that it belonged to a new, and nondescript genus. The varied, magnificent, and multiplied collection of natural objects, in the Philadelphia Museum, drawn from every department of nature, displays in the strongest light the wonderful results to be obtained by the talent, indus- try, perseverance, and zeal, of an individual. The vene- rable octogenarian founder still lives, to contemplate with sentiments of pride and delight the colossal monument which has risen at his command; which will perpetuate the fame, and hand down the name of Charles Wilson Peale to the latest posterity.* On the present occasion, as on many others, I have been indebted to the Philadelphia Museum for the opportunity of making the necessary comparisons with the subject of investigation. The order Edentata includes quadrupeds destitute of incisor teeth, forming the last order of Cuvier's clawed animals. Although united only by a negative character, there exist some positive relations between them, par- ticularly the large nails which embrace the extremity of the fingers, and resemble more or less the nature of hoofs. * Since the above paragraph was penned, this venerable benefactor to science has paid the debt of nature, dying on the 22nd of February, 1827. CHLAMYPHORUS TRUNCATUS. 33 CHLAMYPHORUS TRUNCATUS. Corpore, supra testa coriacea, postice truncata, squamis rham* boideis, lineis transversis dispositis, confata, subtus capillis albis, sericeis, obtecto; capite supra squamis testa dorsali continuis, ado- perto; palmis, plantisque pentadactylis; unguibus anterioribus longissimis, compressis. DIMENSIONS. Inch. Total length......5.2 Length of the head - - - - - 1.6 Breadth between the eyes .8 Depth of the posterior truncated portion of the shell 1.3 Greatest breadth of the same - - - 1.8 Girth posterior to the shoulders 4. Length of the sole of the foot, including the nails 1.2 Breadth of the foot - - - - - .3 Length of the nails ----- .2 Length of the hand - 1.4 Breadth of ditto - - - - - - .4 Length of the longest nail - .71 Length of that portion of the tail wThich is free, and curved beneath the body - - - 1.2 The shell which covers the body, is of a consistence somewhat more dense and inflexible than sole leather of equal thickness. It is composed of a series of plates of a square, rhomboidal, or cubical form ; each row separated by an epidermal or membranous production,* which is reflected above and beneath, over the plates; the rows include from fifteen to twenty-two plates; the shell being broadest at its posterior half, extending about one half round the body ; this covering is loose throughout, except- ing along the spine of the back and top of the head ; being * The rows of plates were probably separated by distension in the preparation. u DESCRIPTION OP THE attached to the back immediately above the spine, by a loose cuticular production, and by two remarkable bony processes (to be described hereafter) on the top of the os frontis, by means of two large plates, which are nearly in- corporated with the bone beneath ; but for this attach- ment, and the tail being firmly curved beneath the belly, the covering would be very easily detached. The num- ber of rows of plates on the back, counting from the ver- tex, (where they commence) is twenty-four; at the twenty- fourth the shell curves suddenly downwards, so as to form a right angle with the body; this truncated surface is composed of plates nearly similar to those of the back ; they are disposed in semicircular rows, five in number: the lower margin, somewhat elliptical, presents a notch in its centre, in which is attached the free portion of tail, which makes an abrupt curvature, and runs beneath the belly parallel to the axis of the body ; the free portion of tail consists of fourteen caudal vertebrae, surrounded by as many plates, similar to those of the body ; the extremity of the tail being depressed, so as to form a paddle; the rest of the tail compressed. The caudal vertebrae extend up to the top of the back, beneath the truncated surface, where the sacrum is bent to meet the tail. The superior semicircular margin of the truncated surface, together with the lateral margins of the shell, are beautifully fringed with silky hair. Head: posterior half, broad, anterior half, before the eyes, tapering; the occiput is covered by the five first rows of the back plates, with which they are continuous; the occiput not distinguishable externally. The anterior half of the top of the head, is covered, first, by a row of large plates, five in number, which are firmly attached to the bone beneath ; particularly the two outer ;—secondly, by a smaller row, six in number, anterior to which, that is to say, the top of the snout, is covered with smaller plates irregularly disposed. CHLAMYPHORUS TRUNCATUS. 35 External ear, consists of a circular, somewhat patulous opening, directly posterior to the eye, surrounded with an elevated margin; and communicating with a bony canal, to be more fully described hereafter. Eye, minute, totally black ; and, like the ear, nearly hidden by long silky hair. Mouth, the rictus small. Nose, the extremity of the snout is furnished with an enlarged cartilage, as in the hog ; the anterior nares opening downwards, at the inferior border. The whole surface of the body covered with fine silk- like hair, longer and finer than that of the mole, but not so thick set. The anterior of the chest is large, full, and strong; the anterior extremities, short, clumsy, and power- ful ; the hair is continued for some distance on the palm —the phalanges of the hand united ; five powerful nails rising gradually one above the other; the external shortest and broadest; the whole so arranged as to form a sharp cutting instrument, somewhat scooped ; very convenient for progression under ground; and such as must very much impede motion on the surface. Hind legs weak and short—feet, long and narrow ; the sole resembles con- siderably the human foot, having a well defined heel, which rests flat upon the ground, and being arched in the mid- dle ; toes separate, nails flattened horizontally. Skull. At first view, the bones of the cranium and face would appear to constitute one solid case, the rem- nants of sutures are indistinctly visible in some parts only. The cavity of the cranium is capacious; the greatest breadth, which is from ear to ear, is one inch ; greatest depth five tenths; length of the cavity, seven tenths. One of the most remarkable peculiarities of this skull, con- sists in the two processes of bone, above alluded to, which project obliquely, forward, upward, and outward: from the os frontis, anterior to the cavity of the cranium, and directly above the malar bone; giving to the front of the skull an aspect totally unique; these prominences are hollow, communicating with the frontal sinuses, and must 36 DESCRIPTION OP THE contribute in a great measure to enlarge the organ of smell; there exists a considerable concavity between them, which, in the recent state, was filled with an adipose, gristly mass, which served to unite the skull to the plates above. The snout commences anteriorly to these processes, and is rapid- ly attenuated and depressed. The ossa nasi are broad and strong, slightly arched transversely, extending anteriorly beyond the os incisivum, as does likewise the osseous sep- tum narium. The zygomatic processes are laterally arch- ed ; a small pointed process, descending near the malar bone, (somewhat like that in the sloth); the zygomatic fossae are large. The labyrinth is protuberant, and occupies the usual situation at the base of the skull; joined to which is the tympanum;—to the last is attached a bony cylinder, stretching first upwards behind the zygomatic process of the temporal bone, around which it makes a sudden curve, and runs forward and upwards to terminate at the exter- nal ear. This structure, which I believe is peculiar to the animal before us, will be better understood by refer- ring to the plate. Lower jaw. Anterior portion shaped like that of the elephant, much elongated; the general form and propor- tion resembles very closely the lower jaw of the sheep, the base being considerably arched, and the curve at the posterior part, forming with the base nearly a right angle, projecting obliquely outwards : the base is marked by eight slightly elevated protuberances, occasioned by the roots of the teeth ; the condyloid process is longer than the coronoid; in the sheep, this is reversed : the articula- tion at the glenoid cavity is such as to admit a great free- dom of motion. Length of the base of the lower jaw one inch ; length of the angle five tenths ; greatest width two and a half tenths ; width of the angle three tenths. Teeth. Incisors, none in either jaw ; molars, eight in number, on either side of the upper and lower jaws, all CHLAMVPHORUS TRUNCATUS. 37 approximate; disposed in separate alveoli; the crowns of the two first only, approach to a point, and thus much resemble canine teeth; the six remaining are all nearly flat on the crowns; their structure is simple ; a cylinder of enamel, of equal thickness throughout, surrounds a cen- tral pillar of bone, there being no division into body and root; the lower half is hollow, the cavity representing an elongated cone. In the lower jaw, the teeth penetrate its whole depth;—length of the teeth, about three tenths of an inch : two tenths of which are buried in the sockets— diameter, about one tenth. They are somewhat flattened on the sides, and in a slight degree curved externally, to be adapted to the shape of the jaw. The teeth of the inferior maxilla are directed forwards and upwards; those of the superior maxilla are directly reversed in their di- rection, so that the crowns meet each other obliquely; and the posterior margin of the lower teeth, and the an- terior margin of the upper, present their angles to the object of mastication. (This structure is exemplified in fig. 7.) The remainder of the skeleton, with the viscera, having been removed previous to my obtaining a view of the animal, I am unable to give any further detail of the in- ternal organization. It is fortunate that I have been en- abled to make so complete a preparation of the skull; this, with the external organization, which is well preserved, will enable me to establish its generic characters on the firmest foundation. To such as have made comparative anatomy the subject of their investigation, the above mi- nute detail of this very extraordinary individual will en- able them in some measure to anticipate the observations which follow; they will perceive, at first view, that the animal before us unites in its external configuration traits peculiar to the genera Dasyfms, Talpa, and Bradypus; yet a very superficial observation will unfold characters generically distinct from either. It will be observed, that 38 DESCRIPTION OF THE though this singular being is clothed with a coat (or rather cloak) of mail, in a slight degree resembling the armadillo, yet it differs remarkably in its texture, form, situation, arrangement, and mode of attachment to the body. In the armadillo, the body is covered with a hard, scaly shell, and consists,—1st. In a plate upon the forehead. 2d. A vast shield, situate upon the shoulders, and formed of small rectangular compartments, disposed in transverse bands. 3d. In bands of similar plates, but moveable, and varying in number, from three to twelve, more or less, ac- cording to the species. 4th. In a shield upon the rump, very similar to that on the shoulders. 5th. In rings more or less numerous on the tail; five toes behind; before sometimes five, at others four ; hairs sparse. The whole shell is covered by a thin, transparent epidermis, which is joined to the skin of the belly, which gives to the shell a shining aspect, as if it were varnished; the extremities are entirely covered with strong scales. The armadillo burrows in the earth; is sufficiently quick in its motions; is capable of rolling its body into the form of a ball; and is omnivorous. The external ear is sometimes large, and always very apparent. From this statement, we are convinced that there exists only the most distant analogy in the external covering of the Dasypus with that of the new genus ; other analogies, which are found in the comparison of the skulls, will be referred to hereafter. The lower portions of our animal, as well as that be- neath the scales, will bear a pretty close comparison with the same parts of the mole, ( Talpa Europea, (Lin.) white variety.) The hair is finer and longer than in the mole, and at a distance resembles long staple cotton in appear- ance. The eye is small; the neck, breast, and shoulders, are very powerful; the posterior extremities are short and weak; the anterior, short and strong, and furnished with large claws, as in the mole; but in the form of the head, CHLAMYPHORUS TRUNCATUS. 39 in the structure and form of the claws, in the external ear, which is apparent when the hair is separated, our animal is totally dissimilar to the mole. The claws bear some analogy to those of the sloth, [Bradypus, Lin.) but are articulated to the last phalanx, as in the mole. Like the last named animal, the organs of generation must have opened ante- rior to the pubis, and at a great distance from the sacrum, viz. before the inferior margin of the truncated portion of the shell, near the middle of the caudal vertebrae, which, as I have remarked above, are continued, within the trun- cated plate, to near the top of the back. Thus far, like the mole, our animal is eminently constructed for subter- ranean progression; and here, in all probability, any strict analogy with that animal ceases. In the examination of the skull, we are struck with its many peculiarities, and great dissimilarity to that of the mole, to which it is so nearly allied in its subterranean habits. The skull of the latter animal is long and narrow, flattened vertically; the jaws are furnished with four large canine teeth, separated from each other; having between them six incisors above and eight below, seven molars on each side of the upper jaw, six on each side below, the crowns of which are furnished with sharp points ; in all of which our animal differs entirely. Like the mole, the extremity of the snout is furnished with a sort of button, but of much firmer consistence; in the form of the snout, and posterior part of the skull, as well as in the effaced appearance of the sutures, some slight resemblance is visible. The palm of the hand is directed rather inwards, in our new genus; whereas in the mole it is directed outwards, and the nails are destitute of the cutting edge, so remarkable in the former. On compar- ing the skull of our animal with that of the armadillo, {Dasypus sexcinctus, Lin.) a few traits of similarity of typification are visible : both these animals being equally destitute of incisor and canine teeth in either jaw; in 40 DESCRIPTION OF THE both, a considerable space intervenes between the anterior margin of the os intermaxillare and the commencement of the teeth ; and in both the number of molar teeth is the same, viz. eight on each side of both jaws—thirty-two in all. Here all further analogy with the Dasypus is at an end. In the last named animal, the crowns of the teeth ter- minate in two points, and, together with the bodies, are completely enveloped in enamel; they are so far sepa- rated from each other, that when the jaws are closed, those of the lower jaw pass between those of the upper; furthermore, the teeth are proportionally much shorter, neither sinking so deep into the jaw, nor rising so high above the alveoli. The whole form of the head, and of the jaws, particularly the inferior, will admit of no com- parison in the two animals; lateral motion being almost entirely forbidden in the armadillo, and the greatest free- dom in this respect existing in the new genus: in which, the condyloid extends above the coronoid process. The teeth in structure are most nearly allied to those of the sloth, (Bradypus tridactylus, Lin.) that is to say, they consist of a simple cylinder of bone, surrounded with enamel, except the crowns, which are destitute of enamel in the centre; the roots, (or rather that portion buried in the jaw,) of both these animals, are hollow. In these particulars, together with the short process descend- ing from the zygomatic arch, which has been alluded to before, as well as in the form of the fore-claws, there is considerable analogy ; but in all other points of organiza- tion, these two genera are most widely separated. For additional particulars relative to other portions of the skeleton of the Chlamyphorus, which were wanting in our specimen, we are indebted to the observations of Mr. Yarrell, on a specimen in the museum of the Zoologi- cal Society of London.—Vide Zool. Journ. Vol. 3, p. 544. " The cervical vertebrae seven, the first large, the ar- CHLAMYPHORUS TRUNCATUS. 41 ticulating surfaces broad ; the 2nd, 3rd, and 4th, very firmly ossified together, pierced with foramina for the passage of the cervical vessels ; the 5th united to the 4th on the under surface only; the 6th and 7th slender and separate, allowing the head great freedom of motion up- wards : the whole of the last six grooved on the under surface, in the line of the passage of the oesophagus. Dor- sal vertebrae eleven, the spinous process of the first slen- der, three-eighths of an inch long, the others diminish gradually in length, but increase in size; all directed backwards. The first rib is very broad, and from the 2nd to the 8th, the ribs of the Chlamyphorus, like those of birds, are firmly united to the sternum without the in- tervention of an elongated cartilage; and, again like those of birds, are also supplied with a false joint, at the dis- tance of about two-thirds of their length from the spine to the sternum. The 9th, 10th, and 11th, being false ribs, are United in the usual way to each other, and to the 8th, by elongations of cartilage from their extremities. The portions of ribs intervening between the false joints and the sternum are in the 6th, 7th, and 8th ribs, con- solidated, broad, flattened portions of bone, which form the boundary of the anterior and lateral parietes of the thorax. The first bone of the sternum is broad and flat, the superior surface regularly concave, the inferior irregularly convex. Upon the anterior edge of the ster- num are two prominences to which are attached the ex tremities of each clavicle. From each of these articula- tions a slightly elevated ridge proceeds backwards along the inferior surface of the sternum, converging towards the centre, where they become united and form a pro- minent crest. The lateral edges of this first bone of the sternum are articulated at its anterior extremity to the first and broadest rib; from this part the bone suddenly becomes narrowed posteriorly, and terminates in a con- cave articular surface to which the second bone of the 6 tii DESCRIPTION OF THE sternum is attached. Judging from the imperfect remains of the second bone, of which the upper part only was dis- tinguishable, it would appear that its form was oblong, the superior surface concave. The remaining portion of the sternum was too much mutilated to admit further de- scription. " Lumbar vertebrae three, the spinous processes short and flattened; the two last dorsal vertebrae, as well as the lumbar, furnished with long oblique processes directed forwards, upwards, and outwards; the transverse pro- cesses of the first two lumbar vertebrae considerably elon- gated, the last possessing a rudiment only. ((The whole of the sacrum and innominata is so peculiar and unique in character, that I should despair of giving any correct idea of this part, without the assistance of accurate representations. The superior part of the ilium is flattened, the upper part bent to form an arched plate of bone, the concavity of which faces downwards and out- wards; the crista of great length from before backwards. The inferior portion of the ilium is much stronger, in- dining outwards, from its junction with the sacrum to the acetabulum. " The transverse and spinous processes of the sacrum are represented by three slender plates of bone, which, approximating as they pass backwards, are united to form a septum, extending down the median line of the sacrum to the tail. A channel is formed on each side of this sep- tum by a thin flat plate of bone, which, arising from the posterior and superior part of the ischium on each side, is bent over the back part of the sacrum, and fixed to an arched and prominent plate of bone, which is extended from this septum outwards, to form a junction with it. The channels thus produced are bounded below by the sacrum, on the inner sides by the septum, on the outer sides by the ascending plates of bone just described, and above by the junction of both. From this union a short CHLAMYPHORUS TRUNCATUS. 43 osseous stem issues horizontally on each side, and expands into a flattened circular plate of bone, to the rough sur- face of which, as well as to the tuberosity of the ischium below, portions of the truncated exterior of the animal are firmly attached, ii The under surface of the sacrum is broad and flatten- ed, and marked by an indistinct central ridge, as shown in figure 7. The pelvis is open in front, the ossa pubis on each side do not incline inwards, but descend at right angles from the horizontal surface of the sacrum. In the circumstance of the pelvis being open, there is a second resemblance to the bony structure in birds. "The caudal vertebrae are fourteen in number; the transverse processes of the last four are elongated, to sup- port the thin dilated lateral edges of the paddle or spa- tular extremity of the tail. Large muscles are imbedded in the two cavities formed on the upper surface of the sacrum by its septum and the two lateral elevated por- tions of the ischium before described; and there are an- tagonist muscles of equal size on the under surface. The tendons of these muscles were inserted into the superior and inferior spinous processes of the caudal vertebrae, giving great power to the tail, which is probably exer- cised in removing backwards the loose earth accumulated under the belly of this burrowing animal by the action of the fore legs, and for which purpose the expanded and flattened extremity seems well calculated. " The scapula has its superior margin straight, ending in a notch of great size; the base rounded; the inferior margin concave, and the posterior inferior angle consi- derably elongated; the coracoid process but little pro- duced, the spine elevated, the acromion very long, pass- ing forwards, downwards, and inwards, over the head of the humerus, to be articulated to a long and slender, but perfect clavicle. There is a second spine of smaller size parallel to, but beneath, the true spine. The hu- 44 DESCRIPTION OF THE merus is three-fourths of an inch in length, large and broad ; the deltoid crest prominent; between which and the external condyle a deep groove is formed for the lodg- ment of muscles, &c.; both condyles very much elongated transversely; the inner condyle perforated above; the edge rising from the external condyle acute. The radius small, and seven-sixteenths of an inch in length; the ulna flattened, concave upwards, the olecranon nearly as long as the ulna, horizontally flattened also, and presenting a superior concave surface, ending in a curve pointing downwards. The feet furnished with sesamoid bones for the insertion of the tendons of the flexor muscles. (i The femur thirteen-sixteenths of an inch long, large and strong; the length of the neck considerable; the great trochanter elongated backwards beyond the line of the articulation of the head of the femur with the aceta- bulum, and ending in a tuberosity; the lesser trochanter directed downwards; a third trochanter projecting from the outer side of the shaft of the femur somewhat above the middle; the condyles moderately elongated trans- versely, the outer having a crest directed backwards. The tibia and fibula fifteen-sixteenths of an inch, flatten- ed, concave inwards, firmly anchylosed at each extremity, and arched in opposite directions, giving an appearance of great size and strength to the leg. The os calcis elon- gated backwards, flat, and ending in a curve slightly in- clined upwards. Hind feet plantigrade.77 As far as the nature of the subject will admit, I have now gone through with the detail of the organization of this most singular quadruped. During the investigation, I have had frequent occasion to admire those laws of co- existence which regulate the structure of organized be- ings ; Nature, true to herself in this as in all other in- stances, has pursued an undeviating course. We have been presented in the subject before us with a new form: an animal combining in its external configuration a me- CHLAMYPHORUS TRUNCATUS. 45 chanical arrangement of parts which characterizes, re- spectively, the armadillo, the sloth, and the mole; con- stituting in themselves, individually and separately, of all other quadrupeds, those which offer the most remarkable anatomical characters. Pursuing the investigation step by step, with the skeletons of the above-named animals before me, it was not until after I had completely finished every point of observation, that I perceived in the skull alone, of the new animal, a reunion, more or less com- plete, of all those remarkable traits that an external view of the animal had offered for contemplation; which, taken collectively, furnishes us with an example of organic structure, if not unparalleled, at least not surpassed in the history of animals. The most peculiar and unique characters consist—First, In the general contour of the animal. Second, In the form, texture, and disposition of its scaly cloak, which would very much confine the power of flexion and exten- sion of the body, and nearly altogether impede lateral motion; the greatest freedom of motion would consist in the extension of the head on the body. Thirdly, In the position of the organs of generation. Fourthly, In the form, structure, position, and use of the tail. Fifthly, In the peculiar and complicated structure of the feet and claws. Sixthly, In the structure of the organ of hearing. Seventh, In the bony protuberances on the os frontis. Eighth, In the disposition of the teeth; and Ninth, In the form of the lower jaw, which separates the animal, in this respect, from the order Edentata, and approximates it to the Ruminantia and Pachydermata. 40 DESCRIPTION OF THE CHLAMYPHORUS TRUNCATUS. EXPLANATION OF THE PLATES. No. 1. Profile view of the Chlamyphorus, of the size of nature. No. 2. fig. 1. A view of the back of the head. fig. 2. Posterior truncated portion. fig. 3. Anterior view of the inferior portion of the body. fig. 4. Anterior and posterior view of the fore foot. fig. 5. Do. do. of the hind foot. No. 3. fig. 1. Profile view of the cranium, magnified. fig. 2. Posterior view of the cranium, magnified. fig. 3. Anterior do. do. magnified. fig. 4. Several views of a tooth, magnified. fig. 5. Enlarged view of the organ of hearing, magnified. fig. 6. Anterior and inferior view of the end of the snout, magnified. fig. 7. Relative position of the teeth. fig. 8. Lower jaw, natural size. No. 4. Skeleton of the Chlamyphorus. V i ""> & '% /•-■ •A. '^^ ■*H> .; r, vj >tf ~ r \.-*w r.*:n„s ./,/ ■&'"'(*• AC/rrn'M L '■* ARVICOLA PALUSTRIS. 47 Description of the Arvicola palustris—~a new Species of Campagnol. Arvicolapalustris, (nobis.) Marsh campagnol. Arvicola riparius, Ord. Journal of the Phil. Acad, of Nat. Sciences, vol. iv. Char. Body above dark grayish-brown; pale plum- beous beneath; snout rather elongated, reddish-brown at its extremity ; ears moderately long, sparsely border- ed with hair. Tail short, sparsely hairy. Dimensions. Total length, from the tip of the nose to the base of the tail, very nearly six inches; length of the tail two inches and three tenths. Description. Body elongated, thickest behind, cover- ed above with soft fur, plumbeous at base, and tipped with gray and brown, from whence results the general colour, dark grayish-brown above, lighter on the flanks and sides, becoming reddish-brown on the end of the snout, and be- neath the tail, between the hind legs ; belly,/inside of the legs, and throat, of a pale plumbeous colour, occasioned by the hairs being plumbeous at base, and white at the extremity ; head long and narrow ; snout rather elongated; facial line straight: ears situate far back, moderately long, internal border lined with sparse hair, posterior surface nearly naked; whiskers fine long hairs, white and black ; inferior incisors very long, distinct, gently recurved at top, laterally compressed, very sharp and pointed, yellow on the anterior surface, and convex : upper incisors much shorter and cuneiform. 48 ARVICOLA PALUSTRI9. Molar teeth unusually long at the crowns, and so deeply grooved laterally, that when viewed in this direction, these animals appear to possess six or eight, in place of three molars on each side, the usual number; eyes large, situate sixth-tenths of an inch from the extremity of the snout. Legs small, terminated by five clawed toes behind, four before. The fore feet brown above; middle toe the longest, then the next on each side, the outer one small, all furnished with hooked nails ; the thumb tubercle very small, and furnished with a scarcely visible nail. The three middle toes on the hind feet nearly equal; the two remaining toes very small, particularly the in- terior ; all furnished with nails similar to those on the fore toes. Tail small and short, sparsely covered with brownish hair. Habit. Living in marshes on the shores of rivers; they dive well, and swim with facility; their habits in many respects resemble those of the Arvicola amphibius ; they bring forth six or eight young at a birth ; feeding principally on the wild rice, (Zizania aquatica.) Inhabit the swamps along the shores of the Delaware. (Specimens in the Philadelphia Museum.) ARVICOLA HORTENSIS, 49 Description of the Arvicola hortensis—a new Species* Arvicola hortensis, (nobis.) Char. Body ferruginous-brown above; plumbeous, intermixed with yellow beneath; hairs coarse, stand- ing more or less obliquely from the body, giving the animal a shaggy appearance ; ears broad, oval; head glo- bular ; snout contracted, conical; tail more than one-half the total length. Dimensions.—Total length, from the tip of the nose to the origin of the tail, five inches and five-tenths ; length of the tail two inches and seven-tenths. Descriplion.—Body covered with rather long, coarse hair, of a dark plumbeous colour for the greater portion of its length next the skin, but reddish or dusky brown, sometimes grayish at the extremity, standing more or less obliquely from the body, which occasions the plumbeous colour of the inferior portion to show through in some places, giving the animal a motley, shaggy appearance ; beneath the throat of a dirty yellowish-white; belly ochreous-yellow, intermixed with plumbeous: tail rather thickly invested with blackish-brown hair, lighter be- neath ; head rather broad; snout contracted, conical; facial line arched : ears six-tenths of an inch broad, the same in height, hairy within, sparsely hairy without; coarse, stiff hairs lining the anterior borders; whiskers, numerous, fine, long hairs, both black and white. Molar teeth rather oblong, deeply grooved at their crowns, and marked by several transverse curved lines of enamel; the grooves extending nearly one-half the 7 50 ARVICOLA HORTENSIS. length of the sides of the bodies; the lower incisors rather shorter, the upper rather longer than in the preceding species. Feet small, brown above; the number of toes and nails, their form and situation, do not materially differ from the same parts in the preceding species. Habit.—Mr. Ord discovered these animals in Florida in the year 1817 or 1818, and presented specimens to the Philadelphia Museum, where they have remained ever since, undescribed. He states that they frequent the ruined gardens of deserted plantations; feed on seeds, grain, &c.; they are very abundant also on the borders of marshes, and constitute the principal food of the Marsh- Hawk, as we are informed by Mr. T. Peale.* Note.—The molar teeth of this species present some differences from those of the common Arvicola, and re- * Some weeks after the above description had been drawn up, and read before the Philadelphia Academy of Natural Sciences, Messrs. Say and Ord thought it neces- sary to describe the same animal, and to construct from it a new genus, which they name " Sigmodon." For this distinction they have no other foundation than a slight and unimportant variation in the form and direction of the plates of enamel, which traverse the crowns of the molars, and the partial division of the root into rudimentary radicles. On similar distinctions, F. Cuvier has founded his divisions of the genus Arvicola, which " differ from each other in the number of parts of which the teeth are composed." It could be shown, if necessary, in a number of instances, that greater differences are observable in the different teeth of the same individual, than have served those gentlemen, in the present instance, to construct a new genus; who, in their descrip- tion of the animal, have entirely neglected to point out any generic distinctions in the external characters, (which, in reality, correspond with the genus Arvicola.} This neglect is the more extraordinary, as in their former descriptions they have dwelt upon the external characters of animals, and, in some cases, to the exclusion of any observations on the structure of the teeth, as was instanced in the " Mus floridanus." The slight variations in the teeth noticed above, provided they be ac- companied with well marked differences in the external characters of the animal, may form good grounds for specific distinctions, but surely cannot be received as sufficient reason for the construction of a new genus, according to the established laws which regulate naturalists in similar instances ; particularly as nature acknow- ledges no such distinction, inasmuch as the food, the manners,, the habits, and we may add, the external characters of this animal, correspond with those of other species of the genus Arvicola. Note.—The description of the present species is drawn from one of the three in- dividuals presented to the Museum by Mr. Ord. ARVICOLA HORTENSIS. 51 semble somewhat those of the genus Lemmus : but the fol- lowing, among other characters of this latter genus, " ears very short" and " tail very short," &c. will not apply to the present species; in all other respects it resembles the Arvicola much more closely than any other genus : it must consequently be referred to the former, or establish a new genus ; the latter alternative would be as unwarrant- able as to make distinct genera of the two existing species of Elephants. 52 ARVICOLA HORTENSIS.--ARVICOLA FLORIIXANUS- J EXPLANATION OF THE PLATE. Fig. 5.—Profile, magnified view, of the jaws of the Arvicola hortensis. Fig. 6.—Lower jaw, natural size, left side, with*the alveoles removed. . rj ^ \?f SJ^ZAjgd Fig. 7.-—Molars of the iipper jaw, left side,'magnified. Fig. 8.—Idem, of the lower jaw. Fig. 1.—Profile, magnified view, of the jaws of the Florida rat— Arvicola floridana. Fig. 2.—Lower jaw, left side, natural size. Fig. 3.—Molars of the upper jaw, left side, magnified. Fig. 4.—Idem, of lower jaw. •v iWVf. > »1VV- a£, 4 \K a»#i#j =^€ ^ik^V <$» • «* F K*Qrny •// V ARVICOLA FLORIDANUS. 53 Description of the Arvicola Floridanus. Arvicola floridanus. Harl. Fauna Americana. Mus floridanus, Ord, Nouv. bull, de la Soc. Philomat. Decern. 1818. Mus floridanus, Say, Long's Exped. to the Rocky Mountains, vol. 1. p. 54. Char. Body robust, black plumbeous; sides, rump, and origin of the tail, ferruginous-yellow; fur plum- beous near its base ; all beneath white. Dimensions.—Total length including the tail, nearly sixteen inches; tail, seven inches; ear, nine-tenths ; greatest breadth, one inch. Description.—Head gradually attenuated to the nose, plumbeous, intermixed with gray ; ears large, prominent, patulous, obtusely rounded, naked or furnished with sparse hairs behind, and on the margin within ; eyes moderate, prominent; whiskers, some white, some black bristles, the longest surpassing the tip of the ears, arranged in six longitudinal series ; tail hairy, as long as the body, above brown ; legs subequal, robust; feet white ; toes annulate beneath ; thumb minute ; palm with five tuberculous pro- minences : nails concealed by the hairs; sole with six tubercles; the three posterior ones distant from each other. (Say.) Habit.—Feeding on vegetables, such as the green bark of trees, and the young shoots of plants; their nests are large, and composed of a great quantity of brush. This species is well known in some districts under the name of large hairy tailed rat, and is by no means rare in Florida: it is as large as the ordinary stature of the Norway rat, and equally troublesome; infesting houses, but gives place to the Norway rat. 54 ARVICOLA FLORIDANUS. Inhabit Florida and the borders of Mississippi river. Two prepared specimens in Philadelphia Museum ; one from Florida, presented by Mr. Ord, the other from Mis- sissippi, presented by Maj. Long's exploring party. A beautiful figure accompanies Mr. Ord's description of this animal, in vol. 4 of the Journal of the Philadelphia Academy of Natural Sciences.* * Since this work first went to press, we have received No. 11 of the Journal of the Academy of Natural Sciences, in time to follow up the eventful history of this animal. In vol. 4, p. 345, of the work above quoted, there is an essay entitled " A New Genus of Mammalia, &c. proposed by T. Say, and G. Ord; read March 8, 1825." The name of the proposed genus is " Neotoma." There appears to have been some mistake relative to the date, wherein it is stated that the new genus " Neotoma" was proposed; at any rate, it is very certain that on the evening of the 8th of March, the identical animal on which this new genus is founded, was de- scribed by those gentlemen as an " Arvicola," and this after an attentive examina- tion of the teeth. It was not until this description of the " Arvicola floridanus" had passed through the press, that it was recalled by the authors, and the new name substituted. In order to avoid confusion, it will be necessary for naturalists to remember that the animal under notice, is at present described as pertaining to three or four distinct genera. The first notice of this animal, is an imperfect de- scription by Mr. Ord, in the Bull, de la Soc. Philom. 1818, who named it " Mus floridanus" (its identity with the genus Mus, was doubted from the first, by the French naturalists.) A more complete description occurs in Maj. Long's exped. to the Rocky Mountains, vol. 1, p. 54, 1819—20, where Mr. Say has adopted in an unqualified manner the name given by Mr. Ord. Thus it remained until the at- tention of these gentlemen was particularly directed to the dentition of this animal, by the observations of M. Desmarest, in his " Mammalogie." They now described the animal as an Arvicola, (to which, in reality, it belongs.) Finally, observing that the molar teeth of the animal were furnished with " roots," they have construct- ed the new genus " Neotoma." (The division is sufficiently novel, it must be con- fessed, and if adopted, would destroy the whole fabric of classification.) F. Cuvier lias not mentioned the roots of the molar teeth of those species from which he has drawn the characters of the genus Arvicola; a circumstance so apt to vary even in the teeth of the same animal, this able naturalist considered as be- neath his notice in a work which has for its object a description of the teeth con- sidered as zoological characters. (" Dents des mammiferes considerees comme characteres zoologiques.") Notwithstanding this, Messrs. Say and Ord consider the "roots" of the teeth as of sufficient importance to establish generic distinctions. In the present instance, at least, they admit, that in the softness of the fur, and in the tail being clothed with hair, the " Neotoma" resembles the Arvicola; to which I would add, that in all other external characters, this species resembles the Arvi- cola, as closely as the different species of that genus resemble each other. The description which Messrs. Say and Ord have given of the teeth of the " Neotoma," (always excepting the roots,) so exactly corresponds with M. Cuvier's description of the teeth of the genus Arvicola, that we are tempted to believe the former to be a literal translation. (Vid. Dents des mammiferes, &c. F. Cuvier; first division, page 155.) ARVICOLA NUTTALLI. •)D Description of the Arvicola Nuttalli—a new Species. Arvicola Nuttalli.—Fawn-coloured above, whitish beneath; ears long and hairy; toes sparsely hairy: tail nearly the length of the body. Dimensions.—Length of the body, three inches; of the tail, two and a half inches, Habitat.—Southern States. Description.—Crowns of the molars similar in the ar- rangement of the enamel to those of the type of the genus, as represented by F. Cuvier—"Dentesdes mammiferes;" but the roots are mostly cleft into four prongs: the inner surface of the inferior incisors, grooved longitudinally: ears very large, hairy within and without; legs small and weak, sparsely hairy ; fore feet with four toes, armed with hooked nails; thumb rudimentary, with a flat nail; hind feet with five toes, armed with hooked nails, all with sparse hairs extending to the roots of the nails; a callous tubercle at the inferior base of each finger, and two others on the wrist; tail long, cylindrical, and sparsely hairy; eyes, large, black, and prominent. General colour of the body above, plumbeous, each hair being tipped with brownish yellow, presenting a fawn-coloured surface: be- neath white. Whiskers composed of very long, fine, black and white hairs. Like the musk-rat, (Ondatra, Lacep. or Fiber, Cuv.) this quadruped differs from the arvicola principally in the possession of roots to the molar teeth : but for the exist- ence of these roots, in the former, M. F. Cuvier remarks, that he would consider the genus as merely forming a third division of arvicola: we doubt if the existence of a 56 ARVICOLA NUTTALLI. single character of this nature, should indicate even a specific distinction. The specimen under consideration is a young male, just full grown; in colour it displays a striking resemblance to the Gerbillus canadensis; it was recently taken in Virginia, by Mr. Nuttall, (the eminent botanist,) in the vicinity of Norfolk, near the river shore, and was one of several he discovered under the bark of a hollow tree, where they had built a fine nest. Vid. PI. -i ARVICOLA FERRUGINEUS. 57 Description of the Arvicola Ferrugineus—a new Species. Arvicola Ferrugineus. (nob.) Vulgo.— White-bellied Cotton Rat. Char.—Body large, ferruginous, brown above, whitish beneath ; fore legs very short and slender ; tail more than half the length of the body. Dimensions.—Total length from the snout to the root of the tail, 7 inches; length of the tail, 4 inches. Description.—Head long; snout tapering; whiskers white, fine, and sparse, some long, others short; ears rather large, broader than long, sparsely hairy within, naked without, anterior borders covered with long hairs —the teeth do not differ essentially from those of the A. hortensis, (nob.) the upper molars are rather more com- pressed in their antero-posterior diameter, and the curved lines of enamel on the crowns of the inferior assume, in some instances, the form of the Greek epsilon. Body massive, tapering towards the root of the tail in the same manner, though not to the same degree, as in the Norway rat; covered with fine long hairs of a dark plumbeous colour, tipped with brown, and intermixed with black. Inferior parts of the body plumbeous white, the hairs be- ing plumbeous, tipped with white : tail slender, tapering, covered with hair, brown above, whitish beneath : feet greyish, white anteriorly, in form and structure resem- bling those of the A. paltistris. (nob.), but in proportion are exceedingly small and slender, being very little larger than those of the common mouse—in an animal 7 inches in length of body, and nearly 6 inches in girth, the fore 8 58 ARVICOLA FERRUGINEUS. legs measure less than one inch and a half to the extremity of the nails ; the latter are black, compressed, sharp, and hooked as in the squirrel. Habit. According to Mr. J.J. Audubon, (to whom I am indebted for this specimen,) this animal never burrows, but conceals itself in hollow trees, generally forming a hole in the side, somewhat after the manner of the wood- pecker, where they retreat in case of emergency. They inhabit the cotton fields exclusively; carry their young on their back, and, with their family thus secured, climb dead trees as nimbly as the squirrel. Inhabit the borders of the Mississippi—the present spe- cimen from Beech woods, near Natchez. On the whole, the present species bears a near resem- blance to the Arvicola hortensis, but is sufficiently disth> guished by the extreme proportional minuteness of the fore legs and feet, by the colour of the fur, as also in size and in the tapering form of the body at the root of the tail, the manners of the animal, &c. MUSTELA LUTREOCEPHALA. 59 Description of the Muslela Lutreocephala, a new Species of Weasel. Mustela Lutreocephala. (Nob.) Under this name I wish to make known an animal hitherto confounded with the M. lutreola, (Pallas, spicil. Zoolog. 14. pi. 31. Lutra minor, Erxleb. mem. de Stock. 1739, tab. 11.) or with the M. vison. Lin. Gmel. It resembles most nearly the " lutreola" yet is charac- teristically distinguished by its form, colour, size, and markings ; it was indeed noticed as specifically different from the i( lutreola" by Warden, (descrip. des Etats Unis, Vol. v. p. 613.) who, speaking of the American Mink, says, " We do not think this Martin [Mink) simi- lar to the M. lutreola, (Pall.) which is a Swedish animal; although many naturalists have confounded the two, we have reason to believe them different, though both have a common name, and there exists much resemblance in their natural habits." The specimen here described, was obtained and pre- pared by Mr. C. W. Peale, many years ago, in Maryland. Char.—General colour, brownish white, lightest be- neath ; tail, ferruginous brown: length of the animal nearly double that of the i( lutreola." Dimensions.—Total length, one foot eight inches: length of the tail, about nine inches. Descrip lion.—In form, the head and ears resemble those of the otter : the hair, the tail, and general propor- tion of the body, are more analogous to those of the weasel: body long : feet short: toes united to the middle, of equal 60 MUSTELA LUTREOCEPHALA. length, slightly palmated, and furnished with very small sharp nails, nearly covered with hair. Habit.—According to Warden, this animal resides in the ground near to streams, in which it pursues its prey, consisting of fish, aquatic birds, rats, mice, insects, moles, and eggs of tortoises ; during the night, entering the farm yards and destroying poultry; when famished it demon- strates astonishing boldness. Inhabits the United States. Note.—Mustela lutreola, Sab. append, to Franklin's Exped. p. 649, was described by Foster, (Philos. Trans.) as the same with the European. CONDYLURA MACROURA. 61 Description of the Condylura Macroura, a new Species of Mole. Condylura macroura, Nob. Char.—Nose surrounded with a circular fringed mem- brane, asteriform; tail nearly the length of the body, cylin- drical and appearing strangulated at base, becoming sud- denly enlarged, slightly compressed and tapering. Dimensions.—Total length, five inches four lines; length of the hands, seven lines; length of the hind feet, one inch; longest nail of the hand, two-eighths. (Ex- tremity of the tail lost.) Characters. Dental formula.—Teeth 40. ( Incisor 1. superior 20. < Canine 8. ( Molar 8. ( Incisor 4. inferior 20. < Canine 10. ( Molar 6. Note.—There is no rule by which to determine in this genus, the distinction of the various kinds of teeth. Thus Dcsmarest gives them incis. f, and allows six false molars above, and eight molars proper; whilst F. Cuvier gives as characteristic of his genus Condylura, two incis. two canine, ten false molars, and six true molars, to the upper jaw, but the total number of teeth is similar in all: the differences exist only in the names by which the teeth have been designated.* • According to the observations of Dr. Dekay, the total number of teeth in this genus is 11; but 2 of the upper incisors are mere rudiments. His dental formula stands thus: Above 4 incisor. 2 canine. 16 molar. In-low 6 incisor. 6 canine. > — 14 molar. \ 6. 44. isor. J 8. line. > — lar. )8. 62 CONDYLURA MACROURA. Description.—Snout very much elongated, a longitu- dinal wrinkle on the upper surface, and on each side ; cartilaginous points on the nose twenty in number; hands short and broad, naked, except at the upper border, which is lined with hair; nails strong, short, and flat, with cut- ting borders, not curved or arched at the extremity, nor pointed as in the C. cristata ,* tail more than one half the length of the body, thick, compressed, and tapering, fur- nished with coarse scales, clothed throughout with sparse, short, thick hairs; colour of the back, blackish-gray; the snout, fawn colour, darker on the sides. A specimen in the Philadelphia Museum, No. 866, from Pennsylvania. I: — \\ i- s I ^ . ^ \ fc \ * V CAPRA MONTANA. 63 Description of the Capra Montana, or Rocky Mountain Goat. Genus. Capra, Linn. Pallas, Erxleb. Cuv. Geoff. Goat. Characters. /( Incisor 0. superior 12. < Canine 0. ( Molar 12. ( Incisor 8. inferior 20. } Canine 0. f Molar 12. Incisors of nearly equal dimensions, regularly arranged and touching at their borders. Horns directed upwards and outwards, compressed and wrinkled transversely; facial line straight or even, or somewhat concave; no muzzle ; interval of the nostrils naked ; no lachrymal depressions or suborbitar grooves ; ears pointed, straight, and moveable; tongue smooth; body rather slender; legs rather robust; tail short; no inguinal pores; no tufts on the wrists ; two mammae. Coat composed of two sorts of hair ; the interior very fine and soft,* more or less abundant; the exterior long, or very long and smooth ; chin most frequently furnished with a beard; sometimes two cuticular appendages, or sorts of glands, hang from beneath the neck. Testicles contained in a very voluminous scrotum. * It is this which in sonic of the Asiatic races, furnishes the material for Cash- mere shawls, &c. 64 CAPRA MONTANA. Habit. In the savage state the goats seek the most ele- vated and inaccessible places, and unite in troops more or less extensive, under the protection of an old male; these animals of all the ruminants display the most vivacity and intelligence ; their vision is good ; they hear at a distance, and their sense of smell is remarkably acute ; they feed on herbs and shrubs; they bring forth two young at a birth. Inhabit the Granitic chains of Europe and Asia, also the Rocky Mountains of North America. Capra montana.—Vid. Plate. Ovis montana, Ord, Jour. Philad. Acad. Nat. Sciences, vol. i. part 1. p. 8. 1816. Rupicapra americana, Blain. Antilope americana, Ejus. Nouv. Bull. Soc. Phil. 1816. p. 80. Mazama sericea, Rafin. Amer. Mon. Mag. 1817. p. 44. Mazama dorsata, idem. Antilope lanigera, C. H. Smith, Trans. Linn. Soc. p. 38. Tab. 4. vol. xiii. 1822. Rocky Mountain Goat—Capra montana, Harlan's Fauna Americana, p. 253. We have here an animal, described for the first time in 1816, which has already been classed under four distinct genera, with nearly as many specific appellations. This can only be accounted for from the remoteness of the re- gions inhabited by these animals, and their consequent scarcity ; one specimen only of the prepared skin having reached any cabinet in the world, which is that at present in the Museum of the Linnaean Society of London, from which the plate is taken accompanying Mr. Smith's de- scription of this animal. Concerning this figure, we must here remark, that though the drawing from which it has been engraved, appears to have been very spirited, never- theless, we are assured that the direction of the tail is not natural, and further, the transverse wrinkles on the bases of the horns are much too deep. In the horns of this animal formerly attached to the skin in the Philadel- phia Museum, (which appear to have belonged to an ani- CAPRA MONTANA. 65 mal in the second year of its age,) there exists no trans- verse wrinkles, only three or four slight undulations on the anterior base of the horns ; they are nearly four inches in length, slightly recurved, perfectly black, and obso- letely striated longitudinally, hollow to the point: the base of the cavity measures one inch in diameter. This individual, though young, is by no means destitute of long hairs, which almost exclusively occupy the back, from the shoulders to the tail. The reasons which have induced us to range this ani- mal under the genus Capra, will be found detailed below; the specific name under which Mr. Ord has noticed it, although equally applicable to all the species of the genus, having the right of priority, must be retained. Char. Horns short, conical, slightly curved back- wards, black, and slightly annulated in the old animal; the colour of the animal entirely white, furnished with long silky hairs, and a fine wool beneath the hair; no mane. Dimensions. In bulk it exceeds the sheep. Description. Body elongated, but little elevated on the legs ; facial line straight; ears rather long and pointed, covered on the inside with long hairs: the neck short; the tail stumpy and directed upwards; the whole struc- ture of the animal robust: the colour is entirely white ; the bulk of the animal is considerably increased by a thick coat of long straight hair, of a yellowish tinge : side of the lower jaw, and beneath the throat, furnished with a long beard : beneath the long hair, the skin is covered with a close downy wool, of a clear white colour, and in young animals feeling like unspun cotton : on the face and legs the hair is short and close, similar to that of the sheep and goat: the eye-lashes are white : the horns are about five inches long, above an inch in diameter at base, bend- ing slightly backwards, having two or three annuli, and terminating in a point not always obtuse: the legs exceed 9 66 CAPRA MONTANA. in thickness those of a calf; the fetlocks are short and per- pendicular, and the hoofs are of a jet black, high, broad, and with deep grooves in the soles. Remarks.—Like the goat, the facial line is nearly straight in the C. montana, this line being more or less arched in the sheep and antelope. Like the goat, the C. montana is furnished with a long beard; the sheep and the antelopes being destitute of this appendage. In the form and size of the hoofs; in the direction of the tail; in the form of the snout; in the strength and pro- portion of the limbs in particular, and of the body in gene- ral, our animal resembles the goat, and is unlike the sheep and antelopes; the latter animals have furthermore, never been known to possess a covering consisting of fine long hair, and wool of exceedingly delicate texture, whilst, in this respect, our animal bears a striking analogy to the Cashmere goat. Though the horns are at best uncertain characters^ varying as they do in form, in similar species, yet, even in this respect, our animal offers stronger analogy to the goat than to the nearest allied congenera. The horns of the young male goat are very similar to those of the Capra montana. Habit and Country.—For the following information concerning this highly interesting animal, we are under many obligations to Major S. H. Long, being chiefly the copy of a letter addressed by him to the Philadelphia Agricultural Society. 66 The information I am able to furnish, w7as obtained on the late expedition to the sources of St. Peter's river, &c. and was procured principally from Donald M'Kinzie, Esq. (of the family of Sir Alexander M'Kinzie,) stationed at the junction of the Assiniboin and Red rivers, in the ca- pacity of chief factor for the Hon. H. B. Company on that station ; the intelligence furnished by this gentleman was from personal observation. " The Rocky Mountain sheep inhabit the elevated CAPRA MONTANA. 67 region comprised in that portion of the mountain range from which its name is derived, situate between the forty- eighth and sixtieth parallels of north latitude.* They are found in great numbers near the head waters of the north fork of Columbia river, where their flesh constitutes the principal food of the natives. The country at the sources of Muddy river, (Marais river of Lewis and Clark,) Saskatchawin and Athabaska rivers are also inhabited by them ; but they are said to be less numerous on the eastern slope of the Rocky Mountains than upon the western ; they are seldom or never seen at a distance from the moun- tains, the climate and productions of which appear best adapted to their nature and mode of life. In summer they resort to the peaks and ridges in quest of pasture, but re- tire to the valleys in winter. The size of the animal is nearly the same of the common sheep; their fleece is white, interspersed with long hair, protruding beyond the wool, and standing erect on the surface of the body, which gives them a shaggy appearance ; their horns are short, merely projecting beyond the wool of the head, and slightly arcuated backwards ; these, together with their hoofs, are black, while the other parts of their bodies are uniformly white ; their flesh has a musky flavour, and is, at best, unsavoury. " They are of easy access to the hunter, who seldom pursues them unless compelled by hunger. Their fleece is esteemed of little value by the traders, and are used only as a covering to the feet during winter ; their skin is of a remarkably thick and spongy texture. It has been asserted by good judges, that the silky fineness of the wool is not surpassed by that of the Cashmere goat.'' * Lewis and Clark observed this animal as low as forty-five degrees of nortli latitude. Vid. Exped. up the Missouri, vol. ii. pp. 35, 1!). 68 MANATUS OF FLORIDA. Description of a new Species of Manatus, or Sea Cow, inhabiting the coast of East Florida. Manatus latiroslris, (Nob.) The Lamantins are but imperfectly known. Gmelin and Shaw admit only one species, (Trichecus Manatus;) and yet confound the animal of Steller (Lamantin du nord) with the true Lamantin. Buffon distinguishes five spe- cies ; but two of these are purely nominal, as M. Cuvier has demonstrated, who only acknowledges the Lamantin of America, and the Lamantin of Senegal. According to him the Lamantins of the East Indies are nothing more than Dugongs; and the Lamantin of Kamtschatka ought to be referred to the Rytina (Illig.) These animals in- habit the shores of the sea, and principally about the mouths of rivers; they are confined to the torrid zone, and, as far as is known, to the Atlantic ocean only. The Manatus Americanus (Cuvier) has hitherto been described as existing only on the shores of South America and the West Indies. The species I am about to describe, is on the most accurate comparison found to possess all the characters by which Cuvier has distinguished the Senegal from the American Lamantin; the differences which Buf- fon thought he had remarked as separating the former from the latter do not exist. But Cuvier has observed others more important in the form of the head, which part alone, he has been able to compare in these two animals. That of the American Lamantin is more elongated, but less elevated in propor- tion to its breadth, which is due principally to the snout MANATUS OF FLORIDA. 69 and nares : the nasal fossae are much wider and shorter in the African, than in the American species. This last has the orbits less separated, the temporal fossse less wide and longer; the zygomatic apophyses of the temporal bone less ventricose. The inferior part or base of the lower jaw is curved in the African species; in the American it is straight. The specimens of this animal from which I have drawn its characters, consist of two skulls, two ribs, and a strip of skin, seven feet six inches in length, half an inch thick: one of the heads wants the lower jaw, and is nearly per- fect, with the exception of the zygomatic arch ; the other is less perfect, but has the lower jaw. The former has four perfect teeth and four empty sockets on each side, making eight teeth on both sides when complete ; the crown of the last tooth does not project above the alveola; the latter specimen presents the same number and appear- ance ; the socket of the anterior tooth is nearly oblite- rated, whilst the crown of the last tooth had not yet pro- truded through the gum; which corresponds with the idea of Cuvier respecting the dentition of this animal, who says, he has reason to believe, that independently of the milk teeth, one or two of the anterior molares fall, as in many other herbivorous animals, in proportion as the pos- terior are developed. The number of teeth of the Lamantin is not correctly ascertained : Cuvier estimates them at thirty-six; nine on each side; in both of my specimens they do not exceed thirty-two, eight on each side. I am indebted for these specimens to Dr. Burrows, who collected them, together with several skulls of the alliga- tor, (Crocodilus lucius, Cuv.*) on the coast of East Flo- rida, in the year 1822.f * Which likewise differs from the Crocodilus acutus of the West Indies, and from the South American alligators. (C palpebrosus and sclerops.) t Dr. Burrows obtained from the natives the following account of these animals. TO MANATUS OF FLORIDA. American Head. Senegal Head. Head from Florida. Inches. Inches. Inches. 14.6 12.6 13.5 5.4 5.4 5.5 6.5 4.2 6.3 2. 2.4 4.3 2.2 2. 2.6 6.7 7.2 7.4 The following table will afford a comparative estimate of the three heads. Comparative dimensions of the three heads. Total length..... Length from the occipital crest to the su- perior border of the nares - Length of opening of the anterior nares - Width of the same..... Length from the inferior border of the nares to the end of the snout ... Breadth of the occiput ... - Smallest distance between the temporal crests (which is across the parietal bone) 1.3 1.3 1.5 Distance of the post obitar apophysis from the frontal......5.1 5.1 5.6 Distance from the anterior tooth to the end of the snout.....7.2 4.8 5. Distance from the top of the head to the crown of the teeth - 4.4 4.8 5. It is not necessary to describe particularly the lower jaw of this animal, we have only to refer to fig. 1st, to be convinced of its exact resemblance to the Ma- natus Senegalensis; and figures 2nd and 3rd compared with figures 4th and 5th of the cranium of this animal, (in Cuvier Anim. foss. vol. 4th,) afford the same results; an- other difference distinguishing this animal as well as the " They are found in considerable numbers about the mouths of rivers, near the capes of East Florida, lat. 25°. The Indians kill them with the harpoon, during the summer months. One Indian has been enabled to capture ten or twelve during a season. They measure from eight to ten feet, and are about the weight of a large ox." We have reason to believe this species inhabits the West Indies, and is probably the same animal mentioned by Capt. Henderson, in his account of the British set tlement of Honduras, (1809.) T.R.rmh MANATUS OF FLORIDA. 71 Senegalensis, is a greater depth of the nasal process of the intermaxillary bone, fig. 2nd. (a.) From this comparison it results that the characters de- tailed by Cuvier as separating the African from the Ame- rican Lamantin, do not apply to those of North America; and we are made acquainted with the interesting factr of the existence of two species of Manati on the coast of North and South America. However, should further investigation and examination of the living animal from Florida, prove it possessed of some external characters sufficient to render it specifically distinct from the u Se- negalensis," then this species will require to be designated by an appropriate name, in order to distinguish it from the other Lamantins hitherto described ; and as the snout of the former appears to be wider below the eyes, than in both the latter, we propose that it shall be denominated Manatus latirostris, which distinction, though useful to naturalists in general, would be particularly so to the oryctologist. EXPLANATION OF THE PLATE, Fig. 1. Lateral view of the Florida head. 2. Lower jaw. 3. Opening of the anterior nares. 4. Same of the Senegal. 5. Do. South American. 72 DELPHINUS INTERMEDIUS. Description of the Delphinus intermedins—a new Species of Grampus, inhabiting the Coast of New England. Delphinus intermedins. (Nob.) Char.—Above, shining black ; side of the abdomen and neck marked with the continuation of the white colour of the abdomen and throat; beneath, varied with white ; tail, compressed, terminating in a deep constriction just be- fore the caudal fins. Dimensions.—Length, sixteen and a half feet; girth of the largest part, ten feet; length of the pectoral fins three feet eleven inches ; rictus of the mouth, nine inches ; pec- toral fins, one fourth, dorsal fin one-thirteenth of the total length. Inhabits the coast of New England. Description.—Colour uniformly black above, with a white patch beneath the throat, becoming a narrow longi- tudinal strip on the breast between the fins, and a broad longitudinal band on the abdomen; teeth about twenty in each jaw, small, prismatic, slightly reflected, and project- ing half an inch above the gums; head blunt, cylindrical, and anteriorly sub-globose; body slightly compressed, tail strongly compressed, almost carinated, and much constricted just before the caudal fins. This individual, a female, was harpooned in the harbour of Salem, (Massachusetts) in the month of Sept. 1823. The preceding facts, together with a drawing taken from the recent animal, are due principally to our zealous friend, Dr. Charles Pickering, late of Salem, Mass. .>///./.>/l// ■ r/lll IIIl/).> i — Clll'i;l,>i> "///>l// DELPHINUS INTERMEDIUS. 73 Distinctive characters.—The animal at first view, evi- dently belongs to the sub-genus Phoacna, (Cuv.) or such Dolphins as have the snout short and ventricose, without a beak, numerous teeth in both jaws, and a dorsal fin. Our species bears the closest resemblance, in some re- spects, to the Delphinus grampus,* and Delphinus globi- ceps,-\ but is distinguished from both by the caudal con- striction, as well as in its form, proportions, and markings; the dorsal fin is also proportionably much smaller than in either; the head of the globiceps is more ventricose, and the latter species is chiefly found on the coast of Europe. We have accordingly placed our species in the systems between the two, and named it Intermedins. * D. grampus, Hunter, Cuvier, Desm., &.c Figured by Bonnaterre, Cetologie, p. xxii. No. 4. pi. 12. fig. 1., and Duhamcl, Peches, pL ix. fig. 1.—D. Grampus, Harlan, Fauna Americana, p. 287. t D. globiceps, Cuv. Rapport sur les cetaces 6choues a Paimpol, An. du Mus., torn. 19, pi. 1, fig. 2 &. 3. Idem, Animaux fossiles, Ed. 2. vol. v. p. 285.—Delphinus melas, Traill. Nicholson's Journal, voL xxii. p. 81.—Delphinus deductor, Scoresby. —Dauphin a tctc ronde. Desm. sp. 777. p. 519. 10 74 PREPARED QUADRUPEDS Notice of certain prepared specimens of Quadrupeds of the United States and Territories—lately exhibited in Philadelphia. 1. Raccoon, perfectly white, and of the usual dimen- sions, from the trans-Mississippi country; also one of very large dimensions. Total length three feet six inches, height one foot. 2. Felis fasciatus ? perhaps a variety of the Striped Lynx, a species hitherto imperfectly described. Char.—Above grayish-brown ; beneath whitish ; legs spotted with black, externally of the same colour with the back, internally of the colour of the abdomen ; sides of the face and snout fasciated longitudinally : tail short, black at the extremity: long retreating hairs on the cheeks: ears moderately pencilled with hairs. Dimensions.—Length of the body seventeen inches; of the head and neck six inches ; tail four inches ; height at the withers one foot. 3. Mink, from Missouri, a strong marked variety (if not a distinct species) of the Mustela Lutreocephala, (Nob.) vid. Fauna Americana, page 63. Description.—Nose black ; tail black and exceedingly bushy : above blackish-brown ; beneath, blackish: legs en- tirely black: a transverse black band on the upper and back part of the root of the neck anterior to the scapula: ears hairy, small and oval, blackish without, whitish with- in : three small molars above, four below ; large molars two in each jaw on either side ; incisors six in each jaw ; ca- nines large and strong. Dimensions.—Length of the body ten inches; head and PREPARED QUADRUPEDS. 75 neck six inches : tail fourteen inches ; height at withers nine inches. 4. A Fox, from the N. W. Territory, if not a distinct species, at least a strongly marked variety of the Canis cinereo argenteus. Description.—Above blackish-gray ; beneath silvery- white, and blackish along the middle of the abdomen : legs entirely black; ears blackish without, whitish within, hairy : cheeks furnished with long and silvery hairs : nose and whiskers black ; tail very bushy and black, except at the root, which is surrounded with gray. Dimensions.—Length of the body fifteen inches ; head and neck eight inches ; tail eighteen inches : height thir- teen inches. 76 SKELETON OF A WHALE- Observations on a large Skeleton recently disinterred from the mouth of the Mississippi River. These bones have excited much curiosity in this coun- try, and have even been noticed in some European publi- cations: they have been referred, by different individuals, to the fossil remains of some extinct animals, and it has been proposed by the late Dr. Godman to construct upon them a new fossil genus, to be designated " Megistosau- rus." (Greatest of all lizards.) In a verbal communication, which I had occasion to make to the Academy of Natural Sciences, some months since, before I had an opportunity of examining these rem- nants, I offered it as my opinion, (judging from the de- scriptions which I had received concerning this subject, from persons unacquainted with natural history,) that they were the remains of some large Cetaceous animal. On a late visit to Baltimore, I enjoyed the opportunity of a particular examination of these specimens, and was gratified to learn, that the opinions which I had previously formed were correct.. On the first view, it was very easy to perceive that the bones were not fossil, but that they were portions of the skeleton of the recent spermaceti whale, " Physeter ma- crocephalus." Indeed the situation, or geological relations of these bones would preclude the possibility of their being fossil. The remains of three different individuals were distin- guishable, and the following parts were noticed.—The largest portion consists of the superior maxillary bone of the left side—the total length of which, measured in the SKELETON OF A WHALE. 77 direction of its curvature exteriorly, is seventeen feet three inches, the greatest breadth thirteen inches; there are belonging to the same animal seven dorsal vertebrae, six lumbar, and five caudal, with two ribs, all in a perfect state of preservation. The os humeri, radius and ulna, have belonged to an- other whale of much smaller dimensions. A cervical ver- tebra and the lower jaw of a very young whale-calf were also observed. The teeth, several in number, from the lower jaw of the large individual, were detached and slightly broken at their bases; the largest measures six inches in length and six and a half in circumference. The long process of bone, or " horn" as it has been called by several observers, is a mutilated portion of some of the facial bones, erroneously attached to a process on the upper and outer side of the large bone. On comparing the large bone, with the same portion in the specimen of the head of a similar animal in the cabinet of the Acad, of Nat. Sc. Philadelphia, known to have been thirty feet in length, (and to have yielded eighteen or twenty barrels of oil,)—and on taking the comparative measurements, the animal whose remains we are discussing, is demonstrated to have been about fifty three feet in length. The average size of the common spermaceti whale is from forty to sixty feet; they inhabit the polar regions principally, but are sometimes found in the temperate re- gions. The Physeter trumpo (Desm.) which • according to LinnaMis and Cuvier, is only a variety of the P. macro- cephalus, is an inhabitant of the coast of Bermuda and of North America. The skeleton of the head of the P. macrocephalus is figured by Baron Cuvier, Oss. foss. vol. 5. pt. 1. pi. 34. 78 CATALOGUE OF THE MAMMIFEROUS Revised Catalogue of the Mammiferous Animals of North America* Order PRIMATES. Genus Homo. H. sapiens. The most approved writers on the physical history of our spe- cies, admit but five principal varieties, viz. Caucasian—Mongolian —American—Negro, and Malay. Order CARNIVORA. Family CHEIROPTERA. Genus Rhinopoma. R. caroliniensis. Genus Vespertilio. V. caroliniensis. V. noveboracensis. V. pruinosus. V. arquatus. V. subulatus. V. auduboni. Genus Taphozous. T. rufus. Family INSECTIVORA. Genus Sorex. S. minutissimus. S. brevicaudatus. Genus Scalops. S. canadensis. S. pennsylvanica. Genus Condylura. C. cristata. C. macroura. C. longicaudata ? * Vid. Harlan's Fauna Americana. ANIMALS OF NORTH AMERICA. 79 Family CARNIVORA. First Tribe Plantigrada. Genus Ursus. U. arctos. U. cinereus. U. americanus. U. maritimus. Genus Procyon. P. lotor. Genus Meles. M. labradoria. Genus Gulo. G. arcticus. Second Tribe Digitigrada. Genus Mustela. M. vulgaris. M. erminia. M. lutreocephala. M. vison. M. canadensis. M. martes. Genus Mephitis. M. americana. Genus Lutra. L. brasiliensis. L. marina. Genus Canis. C. familiaris. C. lupus. C. lycaon. C. latrans. C. nubilus. C. vulpes. C. argentatus. C. virginianus. C. fulvus. C. cinereo-argenteus. C. uefar. C. lagopus. catalogue of the mammiferous Genus Felis. F. concolor. F. onca. F. pardalis. F. canadensis. F. rufa. F. fasciata ? F. aurea? F. montana. Third Tribe Pinnipedia. Genus Phoca. P. cristata. P. vitulina. P. groenlandica. V.fetida. P. barbata. Genus Otaria. O. ursina. Genus Trichechus. T. Rosmarus. Genus Manatus. M. latirostris. Family MARSUPIALIA. Genus Didelphis. D. virginiana. Order RODENTIA. First Section—Furnished with Clavicles. Genus Castor. C. fiber. Genus Fiber. F. zibethicus. Genus Arvicola. A. amphibius. A. xanthognatus. A. palustris. A. hortensis. A. floridanus. A. pennsylvanica. A. nuttalli. A. ferrugineus. ANIMALS OF NORTH AMERICA. 81 Genus Lemmus. L. hudsonius. Genus Mus. M. rattus. M. musculus. M. sylvaticus. Genus Geomys. G. bursarius. Genus Gerbillus. G. canadensis. G. labradorius. Genus Arctomys. A. monax. A. empelra. A. ludoviciana. A. tridecemlineala. A franklinii. A. richardsonii. A. parryii. Genus Sciurus. S. cinereus. S. capistratus. S. rufiventerl S. niger. S. magnicaudatus. S. quadrivittatus. S. lateralis. S. grammurus. S. hudsonius. Genus Spermophillus. S. striatus. Genus Pteromys. P. volucella. P. hudsonius? Second Section—Destitute of true Clavicles. Genus Hystrix. H. dorsata. 11 82 CATALOGUE OF THE MAMMIFEROUS Genus Lepus. L. americanus. L. glacialis. L. virginianus. Order PACHYDERMATA. Genus Sus. S. scrofa. Genus Dicotyles. D. torquatus. Order RUMINANTIA. First Tribe—Horns osseous and decidu- ous. Genus Cervus. C. dices. C. tarandus. C. canadensis. C. virginianus. C. macrotis. Second Tribe—Horns with a sheath surrounding an osseous core. Genus Antilope. A. americana. Genus Capra. C. montana. Genus Ovis. O. ammon. Genus Ovibos. O. moschatus. Genus Bos. B. americanus. Order CETACEA. First Family—SIRENIA, or HERBIVOROUS WHALES. Genus Manatus. M. latirostris. ANIMALS OF NORTH AMERICA. 83 Genus Stellerus. S. borealis. Second Family—or WHALES PROPER. Genus Delphinus. D. coronatus. D. canadensis. D. phocama. D. gladiator. D. grampus. D. leucas. D. anarnachus. D. intermedius. Genus Monodon. M. monoceros. M. microcephalus. Genus Physeter. P. macrocephalus. P. trumpo. Genus Bal^na. B. mysticetus. B. glacialis. 84 NORTH AMERICAN REPTILIA. Genera of North American Reptilia, and a Synopsis of the Species. There are few departments of natural science which, to American naturalists, have given rise to more investi- gation, than the history of the Reptiles of our widely- extended country. Within a very few years, most im- portant facts have been elicited, and many new and inter- esting species have been added to a list, formerly extensive. The great obscurity and confusion peculiarly prevalent in the descriptions of authors who have written on this sub- ject, though gradually dissipating, are by no means suffi- ciently cleared. To the student of Herpetology, whether general or local, a systematic arrangement of all the N. A. genera, with scientific descriptions of their species, cannot but be a desirable object. Brongniart's division of the reptiles into four orders, viz: Chelonia, Sauria, Ophidia, and Batrachia, is universally acknowledged, and justly esteemed. As all systems are arbitrary, we shall take the liberty of deviat- ing from the numerical arrangement of this author, and commence with that Order which best comports with our present convenience. BATRACHIA.* Characters of the Order.—Heart writh a single auricle and ventricle ; the latter destitute of fleshy columns, and discharging the blood by one opening : skin naked, usually lubricated by a mucous secretion: no external organs of generation in the male: fecundation external: the eggs * From /SstTget^o?—animals resembling frogs. NORTH AMERICAN REPTILIA. 85 are deposited in the water: the young are hatched in that element, and at first possess branchiae, which, in some genera, are persistent; in others, are absorbed when the lungs have acquired the proper degree of development: all destitute of true ribs, and possessing the faculty, more or less extensive, of changing their colours at will. 1st Division. Branchial fenestrse* persistent: skull composed of a solid piece. 1st Genus. AMPHIUMA. Garden. Linn. Harlan. Characters of the Genus.—Teeth in both jaws ; legs, four, slender and jointless : toes before and behind, joint- less, clawless. The genus consists of two species. Amphiuma means. Garden. Synonyma. Amphiuma means, Garden. Smith's correspondence of Linnaeus. Amphiuma means, Harlan. Journal of Philad. A. N. Sc. Vol. 3—and Annals of the N. Y. Lymim of Nat. Hist. Vol. 1. p. 269, pi. xxii. Sireni simili, Linn. Smith's correspondence of Liiimeus. Chrysodonta larvazformis, Mitchell, Med. Recorder, No. 19. Vulgo, Congo snake. Char.—Colour, dark brown; or slaty, with a bluish tinge on the sides, and the belly rather lighter: head, long, tapering, depressed : mouth extending half the length of the jaws : teeth, two rows above, and one below, with their points somewhat flattened and reflected : legs, small, dis- tant, with rudiments only of bones concealed in the flesh, and with two clawless toes, the external the longest: mi- * In common with several authors, we have hitherto used the term " Opercula," (coverings,) to express the idea intended by branchial fenestra, (Gill openings.) The term " Spiracula," (breathing holes,) which is occasionally used as synonymous, is equally objectionable, as it conveys an erroneous idea. 86 NORTH AMERICAN REPTILIA. nute rudiments of ribs attached to the transverse processes of the five or six dorsal vertebne. Habit.—Burrowing in the mud, in swamps, or in the vicinity of streams, where it searches its food, and hyber- nates ; occasionally visiting the dry land. Growing to the length of three feet. Inhabits the southern Atlantic states, from South Caro- lina to Mexico. Specimens are common of late, in most of our museums. The species was for a long time ne- glected or unknown.* Amphiuma tridactylum. A. tridactylum. Cuv. Mem. lu a PAcad. des Sc. le 13 Nov. 1826. Avec pi. (i The description of the Amphiuma means will apply in almost all respects to the species with three toes. Its general form is the same; its length is twenty times its diameter; the length of its head is nearly one-fourteenth of the body ; the tail constitutes exactly one-fourth. In a word, in order to distinguish them it is necessary to con- fine our attention to the extremities; when we observe that the hands and feet are divided each into three toes perfectly distinct, which constitutes the only visible ex- ternal character." A specimen in the Cab. of the Americ. Philos. Soc. from the Arkansaw, and in the Baltimore Museum, from the vicinity of Fort St. Philip, found several feet beneath the recent alluvial deposit, under a decayed trunk of a tree. * June, 1829, received from Mr. F. Nesbit, of Alabama, thirty-four specimens of A. Means, from one-half foot, up to three feet in length. Small fish and beetles were found in their stomachs. The size of the legs did not increase in proportion to the size of the animal. The largest measured six inches round the head. NORTH AMERICAN REPTILIA. 87 2nd Genus. MENOPOMA. Harlan. Characters of the Genus.—Destitute of branchiae at all periods of its existence : four strong legs : toes clawless : one or more rows of teeth in both jaws. As yet only a single species of the genus is known. Menopoma alleghaniensis. Svnonyma. Salamandra alleghaniensis, Michaux. Salamandra gigantea, and S. horrida, Barton. I'mluiiupsis horrida, Barton.* Salamandre des monts alleganiens, Sonnini and Latreille. Ahranchus alleghaniensis, Harlan. Annals of Lyceum, Vol. 1, p. 233. pi. 17. Mfriojmmfi alleghaniensis, Harlan. Annals of Lye. N. Y. Vol. 1. p. 271. Triton alleghaniensis, Daudin. Molge gigantea, Men im. Vulgo, Hell-bender, Mud-devil, Ground-puppy, Young alligator,—and Tweeg, by the North American Indians. Confounded with the Proteus of the Lakes, by Dr. Mitchell. Vide Silliman's Journal, Vol. IV. and VII. Also by Baron Cuvier, Animaux fossiles, 2d. edit. Vol. V. p. 417. Indicated as the young of the Triton lateralis, or "Proteus of the Lakes," by Say; vid. Journ. of A. N. S. Vol. 1. Char.—Lower jaw furnished with a single row of teeth: upper jaw with two concentric rows: four strong legs : five toes behind, four before: the outer edge of the feet fimbriated: two outer toes of the hind feet palmated, claw- less. Vid. Annals of the N. Y. Lyceum of Nat. Hist. Vol. 1. p. 222. Inhabits the Ohio river and its tributaries. 2d Division. With persistent branchiae: skull composed of separate pieces. 3d. Genus. SIREN. Linn. Characters of the Genus.—Body anguilliform ; two an- terior legs, toes small and clawless. At present this genus consists of three species, the type of which is the • A name proposed without a description, is not adopted by Zoologists. 88 NORTH AMERICAN REPTILIA* Sirena lacertina, Linn. Synonyma. Murcena siren, Gm. Linn. Murcena siren, Turt. Linn, and Stewart's Elements. Mud iguana, Ellis. Amer. Philosoph. trans. Vol. VI. p. 189. Siren lacertina, Barton. S. lacertina, M. P. de Beauvois.—Fig. passim. Char.—Toes four, clawless; long in the following order, commencing at the interior, 2, 1, 3, 4: teeth, two very minute rows surrounding the lower jaw : the anterior por- tion of the palate furnished with two oblong eminences arranged obliquely, as respects each other, and studded with minute teeth: a few teeth scattered over the middle of the anterior palate : body black above, dusky beneath, sometimes speckled: three branchial appendages, the lowermost the longest, all with lateral fringes: three gill- openings, or branchial fenestrae, the interior edges serrate, as in the gills of fishes: tail compressed, with narrow ray- less fins, above and below. Habit.—The Siren conceals itself in the mud, occa- sionally visiting both land and water. Inhabits the southern states, from South Carolina to Florida: common in the vicinity of Camden, S. C. Spe- cimens common in public and private collections. Siren striata, Le Conte. Synonyma. Siren striata, Le Conte, Annals of the Lyceum, N. Y., Vol. I. pi. 4. Pseudo-branchus, Gray. Vulgo, guana. Char.—Legs feeble; three clawless toes: branchiae three on each side, with a fleshy trilobate covering; the lobes entire and naked : colour dusky, with a broad brown stripe on each side : length nine inches : teeth? Habit.—Frequents mud-swamps, but does not burrow in the ground. Inhabits South Carolina. NORTH AMERICAN REPTILIA. 89 Siren intermedia, Le Conte.* Char.—Colour resembling that of the Lacertina; bran- chiae resembling those of the Striata. Length about one foot. Inhabits the southern states—specimens in the cabinet of the Lyceum, and in the cabinet of the A. N. S. 4th Genus. MENOBRANCHUS. Harlan. Characters of the Genus.—Persistent branchiae : four footed, toes clawless: jaws armed with teeth. The genus consists of two or three species, the type of which is found in the Menobranchus lateralis. Synonyma. Salamandra alleghaniensis, (young,) Say. Journ. A. N. S., Vol. I. Triton lateralis, Say, Long's Exped. to the Rocky Mountains, Vol. I. p. 5. Proteus of the Lakes, Mitchill, Silliman's Journal, Vol. VII. p. 63. Menobranchus lateralis, Harlan, Annals of the Lyceum, Vol. I. pi. 16. Char.—A black vitta from the nostrils passing through the eyes, and dilated on the sides, becoming obsolete on the tail. Feet four ; four toes to each foot, clawless : teeth, two rows in the upper, one in the lower jaw; conic, obtuse and small: body brown, spotted with black : tail ancipital. Length from one to two feet. Habit.—Aquatic, carnivorous, gluttonous. Inhabits the Lakes and the Ohio, with its tributaries. Specimens in the cabinet of the A. N. S. Variety, A.—" Proteus of the Lakes" of Professor Mitchill. Char.—Destitute of the lateral line : colours lighter; blackish spots more numerous. Cabinet of the A. N. S. * Manuscript notes. 12 m NORTH AMERICAN REPTILIA. Menobranchus tetradactylus. Synonyma. Proteus tetradactylus, Lacepede. Ann. du Mus. Vol. X. p. 230. figured". Char —Teeth two rows in each jaw ; a duplicature of skin forming a collar, partially surrounding the superior part of the neck, anterior to the branchiae : four toes to each foot, clawless. Length 6-4 inches, French. Observations.—We have lately examined some fine specimens of the Mexican Axolotl, or Siren pisciformis of Shaw, contained in the cabinet of the Lyceum. The animal being furnished with teeth, and the branchiae hav- ing every appearance of being persistent, we have little hesitation in considering it a perfect animal, and not a larva. It will very naturally arrange itself as a species of the present genus, along side of the Menobranchus late- ralis : it has one toe more on the hind foot, which circum- stance indicates the transition of this genus to the Sala- mandra. In concluding our observations on this genus, we regret to remark that some authors have very unadvisedly, we think, confounded it with the genus Proteus of Laurenti. In a recent number of the American Journal of Science and Arts,* we observe an error of this description: the author gravely quotes twenty i( particulars," in which he thinks the two genera u resemble each other," when near- ly one half the genera included in the whole order resem- ble each other in the same " particulars;" and which, taken collectively, will characterize no particular genus. In order to obviate the possibility of a similar error in fu- ture, we offer to the students of herpetology the following generic characters afforded by the type of the genus under consideration. They differ from each other widely in their general form and anatomical details, but more par- * Vol. XL No. 2, p. 227. Oct. 1816. NORTH AMERICAN REPTILIA. 91 Jicularly in osseous structure. The Proteus has thirty- vertebrae, exclusive of the caudal, and seven false ribs on each side : the Menobranchus is furnished with nineteen vertebrae, and eighteen false ribs ;* the Proteus has three toes before, and two behind: the Menobranchus, four toes to each foot: the pelvis of the former is attached to the 26th vertebra, the pelvis of the latter to the 19th. Lastly, the habits and geographical-distribution of the two genera are altogether at variance. Differences, which, taken col- lectively, are more than sufficient to establish a generic distinction. Compared with the other genera of this order, the Pro- teus of Laurenti, and the Menobranchus, will be found to be precisely those which are the most widely separated from each other ; in most of its internal anatomical cha- racters, the latter genus is much nearer related to the Salamandra than to the Proteus. 3d Division. Breathing with lungs only in an adult state ; branchiae and their fenestrae deciduous. Tail persistent, teeth in both jaws. 5th Genus. SALAMANDRA. Brongniart. Laccrta Sohwntndra. Linn. Characters of the Genus.—Body elongated, lacertine : tail long : feet four: toes, four before, five behind : ears concealed beneath the skin: no tympanum: jaws armed with numerous small teeth, and with two longitudinal pala- tine rows: tongue adhering at its sides, reflected at the * " Lcs animaux do meme genre ont ordinairement des nombres des ends et de v«Vrt*brcs a peu pros scnihlable."—O/r. Anim.foss. V. />. pL 1. p. SI. m NORTH AMERICAN REPTILIA. extremity:* no sternum : numerous false ribs : branchiae in the larva state: membranaceous opercula covering the branchial fenestras : breathing with vesicular lungs in the adult state, at which period the rudiments of the cartila- ginous arches of the branchiae remain attached to the os hyoides: anterior extremities developing before the pos- terior. The i( modus copulandi" is peculiar to the genus; the sexes unite their bodies anteriorly, and separate them below, forming an angle more or less acute; the male ejects a quantity of white, thick liquor on the female organs of generation; these organs are much swollen in both sexes, during the season of their amours. The semi- nal liquor vivifying only those ova which are situated near the orifice of the vulva: the whole of the eggs not being vivified at the same time, they require frequent reitera- tions of the act: the union of the sexes continues for twenty or thirty days, and is repeated several times in an hour: the wTonderful faculty of reproduction observed in this genus is generally known. For important and interesting particulars connected with the history of the Salamanders, vide u Histoire naturelle des Salamandres de France, by P. A. Latreille," who has furnished us with the best figures of these animals. Laurenti reserving the name Salamandra to the S. terrestris, has described under the two generic names, Triton and Proteus, several aquatic Salamanders. This genus is naturally divided into the terrestrial, or such as are furnished with tails more or less compressed, sometimes cylindrical, and seek their food on the land, and into the aquatic, or such as are furnished with com- pressed tails, and seek their food in the water. Like most animals of this order, the Salamandrae prey on living game only, which they seize leaping. * Latreille erroneously states, as a natural character of the Salamandra, "Langue fixee dans toute sa longueur." Vid. Lat. Hist. Nat. des Salamandres de France. north american reptilia. 93 Land Salamanders. Tail more or less compressed, sometimes cylindrical, tapering. The type of which in American species, is the Salamandra subviolacea. Ijacerla punctata, Gmel. Synonyma. Lacerta venenosa. Barton, Am. Phil, trans, fig. 1. Vol. VI. S. subviolacea. Idem. Lizard aquatique. C. S. Rafinesque. Sielio. ? Catesby, < 'arol. pi. X, fig. 10. Le ponctuee, Lacepede. La Salamandre a points blanc, Sonnini. Char.—Body black above, rather lighter beneath, with two longitudinal rows of yellow or whitish spots on the back, which become single on the lower half of the tail: throat with a strong cuticular fold : tail compressed at the end, cylindrical at the base, and about the length of the body ; a few spots on the legs. Length about seven inches. Inhabits Pennsylvania. Cab. of A. N. S. Note.—This species differs from the S. ierresiris of Europe, principally in the form of the tail, and form and arrangement of the blotches. A variety of this species is found in South Carolina, differing principally in being of a larger size, and in the arrangement of the blotches. Salamandra tigrina. S. tigiina, Green. Journ. Acad. Nat. Sc. Vol. VI. p. 116. Char.— Tail rather longer than the body; tapering, compressed, and rounded at tip ; beneath granulated, im- maculate : above blackish, with numerous, large, irregular spots of pale ochre : beneath cinereous, irregularly marked 94 NORTH AMERICAN REPTILIA. with patches of an ochraceous colour: throat pale ochre. Length ? Inhabits New Jersey. Salamandra cylindracea. S. cylindracea, Harlan. Journ. Acad. Nat. Sc. Vol. V. p. 156. Char.—General colour blackish, clouded with confluent white blotches on the sides: head thick and oval: tail cylindrical, longer than the body : all the toes fissile: total length about five inches. Inhabits South Carolina. Cab. of A. N. S. May prove a variety of S. glutinosa. Salamandra fasciata. &fasciata, Green. Journ. Acad. Nat. Sc. Vol. 1. p. 350. Char.— Tail about as long as the body, oval, tapering, and pointed : back brown marked with transverse, irregu- lar blue bands, which extend over the upper part of the tail: beneath ash colour, or dark brown in the young animal. Length five inches. Inhabits New Jersey. A specimen was found hyber- nating beneath the moist leaves, in the woods: sometimes visits the water. Cab. of A. N. S. Salamandra sinciput albida. S. sinciput albida, Green. Journ. Acad. Nat. Sc. Vol. 1. p. 352. Char.—Nose white: tail shorter than the body, thick, tapering* and pointed: above dirty ferruginous: beneath yellowish. Length three inches. Inhabits New Jersey. Placed provisionally with the land salamanders, from the form of its tail. NORTH AMERICAN REPTILIA. 95 Salamandra erythronota. S. erythronota, Raf. Green. Journ. Acad. Nat. Sc. Vol. 1. p. 356. Char.— Tail rather shorter than the body, cylindrical, tapering, and pointed : above red, mixed with brown ; the colours forming a stripe, from the snout to the end of the tail: beneath cinereous: throat whitish. The young have no brown mixed with the red. Length four inches. Inhabits New Jersey, Massachusetts, &c, under stones, &c., in high places. Salamaxdra cinerea. S. cinerea, Green. Journ. Acad. Nat. Sc. Vol. 1. p. 356. Char.— Tail longer than the body, cylindrical, taper- ing, and pointed : back dark brown, sprinkled with white dots: beneath, black and white, mixed: throat whitish. Toes very minute ; four before, five behind. Length four inches. Inhabits New Jersey. Specimens in the cabinet of the Acad, from South Carolina. Perhaps a variety of ery- thronota. S A LA M A N DRA IHiriolata. S. glutinosa, (Jrecn. Journ. Acad. Nat. Sc. Vol. I. p. 35"f. S. variolata, Gilliams. J. A. N. S. Vol. I. p. 460. Char.— Tail nearly twice the length of the body, slightly compressed near the end : above blackish, marked with white spots: beneath black. Length six inches. Inhabits New Jersey. 96 NORTH AMERICAN REPTILIA. Salamandra fusca. S.fusca, Green. Journ. Acad. Nat. Sc. Vol. I. p. 357. Char.— Tail the length of the body, tapering, slightly compressed: above uniformly yellowish- brown: beneath white, with a line on each side of black spots: throat spotted with black. Length three inches. Inhabits New Jersey. Water Salamanders. Tail always vertically compressed, sometimes fringed; passing most of their time in or near the water. Salamandra maculata. S. maculata, Green. Journ. Acad. Nat. Sc. Vol. I. p. 350. Char.— Tail about as long as the body, slightly com- pressed : above whitish, sprinkled with irregular, reddish- brown spots: beneath white. Length, five inches. Inhabits New Jersey, Massachusets, &c. Cab. of the A. N. S. Salamandra subfusca. S. subfusca, Green. Journ. Acad. Nat. Sc. Vol. I. p. 351. Char.—Tail rather shorter than the body : above of an olive-brown, marked with dark spots : beneath yellowish, and spotted. Length six inches. Inhabits New Jersey. Perhaps a variety of S. macu- lata. Salamandra longicaudata. S. longicauda, Green. Journ. Acad. Nat. Sc. Vol. L p. 531. Char.— Tail nearly twice the length of the body, com- NORTH AMERICAN REPTILIA. 97 pressed and pointed : above yellowish-brown, spotted with black dots, assuming the form of transverse bands on the tail: beneath whitish. Length six inches. Inhabits the swamps of New Jersey. Specimens in the Cabinet of the Academy. Salamandra nigra. S. nigra, Green. Journ. Acad. Nat. Sc. Vol. I. p. 352. Char.— Tail the length of the body, oval and pointed: abo^c blackish, sides sprinkled with white: beneath whitish. Length four inches. Inhabits Pennsylvania. Specimens in the cabinet of the Academy. Salamandra favissima. S. bis-lineata, Green. Journ. Acad. Nat. Sc. Vol. I. p. 325. S. Jlavissima. H. Silliman's Journal, 1825. Char.— Tail longer than the body, compressed : above cinereous, with two, sometimes three dark lines ; if three the middle one broadest near the head, and about the length of the body : beneath whitish or yellowish. Length three inches. Inhabits New Jersey, Pennsylvania, and New England. Salamandra rubriventris. Synonyma. S. rubriventris, Green. Journ. Acad. Nat Sc. Vol. I. p. 353. Perhaps a variety of S. maculata. Char.— Tail shorter than the body, compressed: above blackish, with brown spots: sides red: beneath red. Length seven inches. Inhabits New Jersey. Cab. of the A. N. S. 13 98 NORTH AMERICAN REPTILIA. Salamandra picta. S. picta, Harlan. Journ. Acad. Nat. Sc, Vol. V. p. 136. S. intermixta, Green. Maclurian Lyceum, No. 1. Char.—Above blackish or slate colour: beneath yel- lowish, or light orange colour: skin beneath the neck, folded: head large: tail nearly the length of the body, compressed at the end. Length four inches. Inhabits Pennsylvania. Specimens in the Cab. of the Acad. Salamandra symmetrica. Synonyma. Stelio, Say, Silliman's Journal, Vol. I. p. 264, S. symmetrica, Harlan. Journ. Acad. Nat. Sc. Vol. V. p. 158. Char.—Above dusky brown or fuscous: beneath orange- yellow : a row of deep orange-coloured spots on each side of the spine, symmetrically arranged: tail compressed, longer than the body. Length three inches. Inhabits South Carolina and New England—sometimes under the bark of dead trees. Specimens in the Cab. of Acad. Salamandra porphyritica. S. porphyritica, Green, Maclurian Lyceum for January, 1827. p. 3. pi. 1. Specific Characters.—(i Cauda mediocri—corpore su- pra fusco, maculis albidis—subtus albido." Length, between five and six inches: tail the length of the body, tapering, much compressed, and slightly carinated on the lower half of its upper and lower edges. Habitat.—Pennsylvania. Cab. of Lyceum. Salamandra Jeffersoniani. S. Jeffersoniani, Green. Maclurian Lyceum, ut supra. Specific Characters.—" Cauda mediocri—corpore su- pra fusco, maculis ccerulis—subtus fusco." NORTH AMERICAN REPTILIA. 99 Blue spotted Salamander.—Length, seven inches: tail as long as the body, slightly compressed : skin a light brown colour, rather darker above than beneath, with azure-blue points scattered irregularly over the whole surface. Habitat.—Pennsylvania. Cab. of Lyceum. Salamandra cirrigera. S. cirrigera, Green. Journ. A. N. S. Phila. Vol. VI. p. 253. Specific Characters.—" Cauda longiuscula corpore su- pra fusco—nigroque variato—lineis duabus distinctus— sincipite cirrigera—subtus albida." Length three inches : tail rather longer than the body, slender and rounded : snout obtuse, with two short thick fleshy cirri projecting between the nostrils and the upper lip: back yellowish, speckled with white, a black line on each side edged with white: beneath whitish: femal e more robust, and destitute of cirri. Habitat.—Louisiana, near New Orleans. Salamandra dorsalis. S. dorsalis, Harlan. Journ. A. N. S. Phila. Vol. VI. p. 101. Specific Characters.—Above fuscous: beneath yellow- ish white : tail longer than the body, strongly compressed, ancipital: a whitish dorsal line extending from the occi- put over the tail; a row of whitish-coloured oblong spots on each side of the dorsal line: beneath freckled with black dots. Length three inches and eight-tenths ; body, one inch and five-tenths ; tail, one inch eight-tenths. Inhabits South Carolina. Cab. A. N. S. 100 NORTH AMERICAN REPTILIA. 6th Genus. RANA. Linnaeus. The Linnaean genus Rana, includes the modern genera, Rana, Hyla, Bufo, and Pi pa. All the modern genera possess the following characters in common: four legs, with four toes before, five behind; sometimes the rudiment of a sixth : head flat, snout round- ed : throat very large : tongue attached at the borders of the jaw, and reflected at the extremity : teeth, palatine : jaws serrated : skeleton destitute of ribs and sternum: eyes furnished with a third lid: inspire by means of the muscles of the throat; expire by the agency of the ab- dominal muscles : no tail in the adult state. Larvae or Tadpoles, furnished with large fleshy tails, and small cor- neous beaks : branchiae beneath the skin, attached to four cartilaginous arches. Feeding principally on insects, which they search for on dry land. July 1827.—A Tadpole, detained in a glass jar, under- went its metamorphosis, or obtained all its limbs, in five weeks from the commencement; about which period it ap- peared to breathe with both branchiae, and approached the top of the water to use its nostrils, also using its feet more and tail less in proportion as the limbs were completed— towards the middle of the sixth week, affects the surface of the water, and breathes through its nostrils—tail ap- pears to become lighter and thinner daily. Frogs, properly so called. Genus. RANA. Of modern authors. Characters of the Genus.—Body slender: hind feet very long, strong, and palmated : skin for the most part smooth : upper jaw serrated: palate armed with one or more transverse rows of teeth, or serrated eminences. The larvae possess, mostly, but one branchial fenestra, and that always on the left side. NORTH AMERICAN REPTILIA. 101 Ran a pi pi ens. Synonyma. Bullfrog, Bartram, Catesby, Brown, Kami. Rana maxima, Catesby, Nat. Hist. Carol. Vol. II. p. 72. pi. Rana catesbiana, Shaw, Gen. Zool. Vol. II. part 1. p. 106. pi. 33. Rana pipir.ns, Linn. Char.—Above brown-cinereous: beneath whitish: arms and legs striped with black : head and fore part of the body more or less green. Length of the body, from 6 to 10 inches ; of the hind legs, from 8 to 12 inches. Inhabits the middle states; common in the vicinity of Philadelphia. We have recently observed this species in Canada. Cab. of Acad. Rana clamata. Clamitans. Bosc. Diet. d'Hist. Nat. Synonyma. Rana clamata, Daud. Le criard, Idem. Vulgo, the bawling frog. Char.—Above dusky cinereous: beneath whitish: snout more or less green : throat yellow: legs white within, ob- soletely banded without, or spotted with black. Length of the body, about 3 inches; of the hind legs, 4 inches. Inhabits the middle states ; the most common of all our frogs. Cab. of Acad. Rana ocellata? Synonyma. Rana maxima virginiana, Scba. Rana pentadactyla, Linn. Gnicl. Rana ocellata, Linn. Ai-L'iis-fn>»\ Shaw, Gen. Zool. Vol. III. pt. 1. p. 108. pi. 34. (1 muting frog, Bartram's Travels through NorUi and South Carolina, &c. p. 276. Rana grunniens? Daudin. Char.—In form and size resembling the " Pipiens:" above brownish, or greenish, with irregular deeper co- loured spots : beneath whitish, granulated under the belly 102 NORTH AMERICAN REPTILIA. and thighs; round brownish spots, surrounded with a clear teint upon the flanks, buttocks and thighs. Inhabits Florida and Mexico. We have never seen this species. Rana melanota? Rana melanota, Rafinesque. Vulgo, Black-frog. Char.—Back olivaceous-black: a yellow streak on the sides of the head: chin, throat, and inside of the legs whitish, with black spots: belly white, immaculate. Total length 2± inches. Inhabits Lake Champlain and Lake George.* Rana halecina. Synonyma. Rana pipiens, Schneider, Schreber, Shaw. Rana aquatica, Catesby, Carolina, p. 70. Vol. II. Rana ocellata? Kalm, Trav. in North America, Vol. II. Shad frog, Bartram, Trav. p. 278. R. halecina, Daud. Char.—Above light cinereous: beneath white : marked above with irregularly disposed blotches: body and limbs elongated. Length of the body 3| inches; of the hind legs 5| inches. Inhabits Pennsylvania, and the southern states. Cab. of Acad. Rana utricularius. Rana utricularius, Harlan. American Journal of Science and Arts, by B. Silli- man, M. D. Vol. X. p. 60, 1825. Char.—Above dark olivaceous-green : beneath white: back with sub-oval blackish spots : a vocal vesicle on each side of the neck: legs with a few blackish bands; tym- * After lying for months in a dormant state, most frogs become of a dark colour; we have seen them, quite black on their first appearance, regain their colours on ex- posure to the light. NORTH AMERICAN REPTILIA. 103 panum small, the cuticular fold on each side of the back, prominent. Length of the body about 3 inches; of the hind legs more than 4 inches. Inhabits Pennsylvania and New Jersey. Cab. of the Acad. Rana scapularis. Rana scapularis, Harlan. Silliman's Journal, ut supra. Char.—Above dark olive-brown : snout green : throat yellow : abdomen white : a golden coloured line above the scapulae. Length of the body 3 inches ; of the hind legs 4 inches. Inhabits Pennsylvania. This may possibly prove to be the young of the i?. pipiens. Rana jlaviviridis. Synonyma. Rana Jlaviviridis, Harlan. Silliman's Journal, ut supra. Rana fonlinalis ? Lc Conte, Ann. of Lyceum, Vol. I. p. 282. Yellow throated green frog. Spring frog? Bartram, manuscript notes, penes me. Char.—Above clear lively green: beneath white: throat yellow : buttocks mottled with black spots: body rather clumsy : abdomen large: snout rather obtuse. Length of the body 3 inches; of the hind legs more than 4 inches: breadth of the head 1 inch. Inhabits the middle states—also New England. Rana sylvatica. Synonyma. Rana sylvatica, Lc Conte. Ann. of the Lye. of New York, Vol. I. p. 232. Rana penntylvanica, Harlan. Silliman's Journal, ut supra. Vulgo, Wood-frog. Char.—Above olive-brown, or drab coloured : beneath white : a black vitta, commencing on the side of the snout, passes backwards, dilating and involving the eye and tym- panum : posterior extremities obsoletely fasciated. 104 NORTH AMERICAN REPTILIA. Length rather smaller, and more slender than the clamata. Inhabits the middle states and Massachusetts. Cab. of the Academy. Rana palustris. Synonyma. Rana palustris, Le Conte, Ann. of the Lyceum, Vol. I. p. 282. Rana pardalis, Harlan. Silliman's Journal, ut supra. Vulgo, Leopard, Zebra, or Tiger-frog.* La G. Pit-Pit. PI. 4. fig. 3. of Bonneterre, Tab. Encyclopedeque et Methodiquei who confounds it with R. halecina. Char.—Above dark-cinereous: beneath white, lighter on the flanks, snout and extremities: interior surface of the limbs yellowish : a row of dark green spots on each side of the spine, extending the whole length of the back : two longitudinal rows on the flanks : posterior extremities striped with broad, transverse, greenish lines or bands. Length of the body three inches ; of the hind legs four inches three-tenths. Inhabits Pennsylvania. Cabinet of the Academy. Rana pumila. Rana pumila, Le Conte. Ann. of Lyceum, Vol. I. p. 282. Char.—Body pale green : back with a decurved line on each side, bounded with dusky: head with a triangular spot between the eyes: legs barred with dusky. Length ?---- Rana gryllus. Synonyma. Rana gryllus, Le Conte. Ann. of the Lye. Vol. I. p. 282. Savannah cricket, Bartram's Travels, p. 278. Erroneously supposed by Daudin to be the young of the Hyla lateralis. Char.—Above warty, colour various: a dark triangular spot on the top of the head between the eyes: a pale line * A beautiful variety, with the back of a golden green colour, observed on the head of Lake Champlain. June, 1832. NORTH AMERICAN REPTILIA. 105 extending from the apex of this spot to the vent: hind part of the thighs yellowish or white, with one or two lines of dusky or brown. Length about one inch and a half. Inhabits the southern and middle states: frequents the grass, and verges of ponds. Cab. of the Acad. Rana dorsalis. Rana dorsalis, Harlan. Journal and Cab. A. N. S. Vol. VI. Char.—Above fuscous, smooth, with a broad, green or reddish, longitudinal vertebral band, bifurcating ante- riorly, and extending over each eye : snout above, pale or whitish: beneath white, throat and inner part of the thighs freckled: buttocks white with two brownish trans- verse lines : a white line on the side of the neck, extending from the eye to the scapula. Length of the body T8^ of an inch : of the legs 1 \ inches. This measurement being taken from the largest of seven specimens. Inhabits Florida, Carolina, and New Jersey. May prove a variety of R. gryllus. Specimens in the Cabinet of the A. N. S. Figured at p. 72 of this volume. Rana nigrita. Rana nigrita, Le Conte. Annals of the Lyceum, ut supra. Char.—Above black, speckled with white warts: mid- dle of the back cinereous, with an interrupted stripe of black : upper lip with a white line : beneath granulated, whitish : legs barred with whitish : hind part of the thighs brown ; hind legs very long. Length ? Rax a Holbrookii. This new species, first figured and described by Dr. Holbrook, (vide his valuable work on North American 11 106 NORTH AMERICAN REPTILIA. Reptilia,) possesses very peculiar characters, displaying, in its external configuration, a strange mixture of the toad and frog. It has the contracted form of the first, with small tympanum, and rudimentary supertympanal warts, without visible pores, and small warts dissemi- nated over the back of the head: possessing palatine teeth, and serrated maxillae, like the frogs, and like the Rana cultripes of Cuv., is remarkable in possessing a rudi- ment of the sixth finger, covered by a sharp horny plate, which must materially aid the animal in climbing steep and slippery ascents. Habits are said to be peculiar; about the size of the Esculent frog. Inhabits South Carolina. Cab. of A. N. S. Sub-Genus. ENGYSTOMA. Fitzing. Char.—Body oval; head and mouth very small; feet slightly palmated ; destitute of tympanum and parotids. Engystoma Carolinensis. Synonyma. Breviceps, Merr. Engystoma Carolinensis, Holbrook. One fourth the size of common esculent frog, olivaceous above, speckled with white beneath. Found in South Carolina, first described by Dr. Hol- brook, and figured by the same author. Habit.—Seldom appearing above ground except after a hard rain. Specimens in the Cab. of A. N. S. * 7th Genus. HYLA. Roesel, Daudin, Cuvier. Characters of the Genus.—Living chiefly on trees dur- ing the summer, and temperate weather; preying on in- sects ; changing the colour of the skin, so as to resemble * The species hitherto known, are natives of India, Africa, and South Ameiica. NORTH AMERICAN REPTILIA. 107 the substances on which they rest; hybernating in the mud, and generating like the frog ; hind toes semipalmate; with the extremity of each toe surrounded with a mucous tubercle: skin more or less granulated: colour changeable. Hyla lateralis. Synonyma. Rana arborea, varietas B. Linn. Gmel. Hyla viridis, Laurenti, Catesby. Calamita carolinensis, Pennant. Calamita cinerea, Schneider. La raine flanc-rayee, Daudin. La calamite cendree, Schneider. Char.—Body smooth above, lively green : beneath whitish, or pale green, granulated: a straight, narrow line, of a yellow or silvery colour, bordering the superior lip, prolonged on the flanks, and posterior extremities: iris golden. Length one and a half inches. Inhabits the southern states and Surinam : frequents water plants, according to Le Conte. Cab. of the A. N. S. Hyla femoralis. Synonyma. La raine. La raine femorale, Daudin, Hist. Nat. des Reptiles par Latreille, planche enluminee. Char—Above dark cinereous, marked with a few con- fluent spots of dusky, largest between the eyes: beneath whitish, granulated: head rather obtuse: thighs, exterior spotted with yellow: legs bordered with dusky. Length one and a half, to one and three quarters of an inch. Colours various: a variety with the back chiefly occupied with a large irregular blotch: legs barred. Inhabits the southern states. Cabinet of the A. N. S. Hyla squirella. Synonyma. La raine squirelle, Daudin. Hyla ocularis, var. Lc Conte. Char.—Above brown-cinereous : beneath whitish, gra- nulated : a dusky, or various coloured band, extending 108 NORTH AMERICAN REPTILIA. from the nostrils to the eyes, and a narrow white stripe extending from near the nostrils along the upper lip, reaching to near the fore-leg: thighs yellow on the ex- terior : legs barred. Length more than one inch. Coloured by Daudin, from a specimen in spirits. " Var. A. Above cinereous, with a bar between the eyes: back with a few spots of dusky, sometimes con- fluent, sometimes uniting into a lateral line. "Var. B. Above cinereous, irregularly spotted with darker: line between the eyes broken. " Var. C. Above brown, immaculate : exterior of the thighs not yellow." (Le Conte.) Inhabits the southern states. According to Bosc, the young resemble the common frog of Europe. Cabinet of the A. N. S. Hyla delitescens. Hyla delitescens, Le Conte. Ann. of Lye. Vol. I. p. 281. Char.—Above cinereous, spotted with darker: beneath whitish, granulated: head rather obtuse: lips whitish : chin speckled with brown : exterior of the thighs, and inner surface of arms and legs, yellow. Length about two inches. Inhabits Georgia, under the bark of trees. Hyla versicolor. Hyla versicolor, Le Conte, ut supra. Char.—Above verrucose, colour varying with the will of the animal from pale brown to cinereous and green: back more or less marked with an acute angled cross: beneath white, granulated : head small: hind part of the abdomen, and hind legs, beneath, yellow. Length two inches. NORTH AMERICAN REPTILIA. 109 Inhabits the northern and middle states; has more the resemblance of a toad than the other species. Cabinet of the A. N. S.* 8th Genus. BUFO. Daudin, Cuvier, &c. Characters of the Genus.—Body thick, contracted, and for the most part warty above, and granulated beneath : tongue short and thick: fore feet four-toed, fissile : hind feet five-toed, mostly palmated : destitute of teeth, but having the upper jaw grooved, the lower jaw closing within the channel of the upper: a gland behind each eye in most instances. Bufo musicus. Synonyma. Rana musica, Lin. Gmel. Bufo clamosa, Schneider. Le criard, Daub. Lacepede, Bosc, &c. Land-toad, Catcsby. Land-frog, Bartram. Char.—Above deep brown, verrucose, with irregularly disposed fuscous, or blackish spots, edged with white: be- neath dirty white granulated : sides pale, spotted: legs barred: large oblong warts behind the eyes: a large blackish spot posterior to the tympanum : head above canaliculate : two tubercles on the heel of each foot: a longitudinal, vertebral, shallow groove. Length of the body jibout three inches. Inhabits the southern and middle states. Mostly leaps, seldom crawls ; preying on living insects only. Cabinet of the A.N. S. Bufo cognatus. Bufo cognatus, Say. Long's Exp. to the Rocky Mountains, Vol. II. p. 190. Char.—Body above dark brownish, verrucose; papillae and their disks black : beneath whitish, granulated : head • A specimen was dug up from the root of an apple tree in Bartram's botanic garden, in the winter of 1828, several feet beneath the surface. 110 NORTH AMERICAN RFFTILIA. with a short groove: sides and legs with irregular cine- reous lines: verruca behind the eyes moderate : a cine- reous vitta extending along the vertebrae, with three oblique lateral lines. Length about four inches. Inhabits the plains of Missouri A specimen in the Philadelphia Museum. Var. A. The reddish-brown, or brick-coloured toad of Bartram ; very large, weighing near one pound when full grown: legs and thighs marked with blotches and ringlets. Inhabits the southern states. The red toad of Pennsylvania is but little larger than the B. musicus. Order. OPHIDIA,* or Serpents. Characters of the Order.—Body long, more or less cy- lindrical, covered with scales or plates, sometimes annu- lated, tuberculated, or granulated: casting their exuviae for the most part twice annually: destitute of feet: tail sometimes long, at others short: jaws armed with short teeth ; also, perforated fangs in the poisonous species : tongue long, extensible, and bifurcated, with few excep- tions : top of the head covered with plates, or with scales; in some instances, with both plates and scales; in others, smooth:f heart with two auricles and two ventricles.^ 1st Genus. OPHISAURUS. Daudin. Characters of the Genus.—Body rather thick, oblong, * From Op/c—Serpent. t Any attempt to draw specific characters from a difference in the number of abdominal plates, or subcaudal scales, as first proposed by Lacepede, is altogether nugatory, an immense difference existing in this respect in the same species: nor has the enumeration of the teeth for a similar purpose, proposed by M. P. de Beau- vois, proved more successful. X Extract from manuscript notes on the dissection of the Python Javanica, March 23d, 1825.—"The heart has two auricles and two ventricles, forming a complete double heart, without any direct communication, (as repiesented by Cuv. 'Lecon. d'Anat. comp.') but the great systemic vessels communicate with each other, as in the alligator." NORTH AMERICAN REPTILIA. Ill cylindrical : on each side a longitudinal fold: tail long, cylindrical, tapering: smooth plates on the head : furnish- ed with eye-lids: ears visible externally : tongue exten- sible, notched at the extremity : scales square, symmetri- cally arranged, so as to appear longitudinal or transverse : anus simple, transverse : minute sharp teeth to each jaw; destitute of poisonous fangs. Ophisaurus ventralis. Synonyma. Anguis tentralis, Linn., Gmcl., Schneider. ('/iiimiisriura rmtralis, Schneider, Gray, Phil. Trans. Ca-cilia maculata, Catesby, Hist. Oaral. pi. LIX. (ilass-snake, Bartram's Travels in North and South Carolina. Le juunr et brun, Daubenton, Kncyc. Mcth. Idem, Lacepede. L'Anguis jaune et brun, Litrcillc Anguis ventral; anguis lamproie, Hosr, Diet. d'Hist. Nat. 6dit. de Deteiville. Ophisaurus ventralis, Daudin. Hist. Nat. des Rept. pi. 88. Char.—Above with fourteen longitudinal ranges of near- ly square scales : abdomen with twelve longitudinal ranges of smooth scales, and forming about 120 transverse ranges, similar to rings: beneath the tail similar to the abdomen: colour above brownish, with the sides of the head and neck spotted with black : abdomen and back separated by a longitudinal fold or groove, which terminates at the anus. Length between two and three feet. Inhabits the southern states and Arkansa. Cabinet of A. N. S. 2d Genus. COLUBER. Linn. Characters of the Genus.—Body long, cylindrical and tapering: head oblong, covered above with smooth poly- gonal plates: above covered with rhomboidal scales, im- bricate, reticulated or carinated, or smooth : abdomen with transverse plates: beneath the tail with double plates: anus transverse, simple : jaws furnished with sharp teeth : without poisonous fangs. Some species oviparous, others ovo-viviparous. 112 NORTH AMERICAN REPTILIA. Coluber obsoletus. C. obsoletus, Say. Long's Exp. to the Rocky Mountains, Vol. I. p. 140. Char.—Above black : beneath whitish, with large sub- quadrate black spots, which are confluent and pale-bluish towards the tail: throat and neck pure white: sides be- tween the scales with red marks. Length about five feet; tail about one fifth. Abdominal plates, from 223 to 228 : caudal scales from 67 to 84. Inhabits Missouri. A specimen in the Philadelphia Museum. Coluber constrictor. Synonyma. Coluber constrictor, Linn. Gmel. Kalm; Trav. in N. America, Vol. III. p. 136. Black-snake, Catesby's Carolina, Vol. II. pi. XLVIII. Le serpent lien, Daub. Enc. Method. Idem, Lacepede. La couleuvre lien, Latreille, Daudin. Coluber ovivorus, Linn. Syst. Nat. La couleuvre ovivore, Latreille, Lacepede, Daudin. Chicken snake, of Bartram. Vulgo, Racer or Black-snake. Char.—Above blackish blue : beneath slate-colour: throat and lips white : head above covered with plates: scales of the back, rhomboidal or hexagonal, slightly cari- nated in some instances. Length from three to six feet; tail about two sevenths. Abdominal plates from 176 to 186: caudal scales from 88 to 98. Inhabits North America; very common in the middle states: feeding on small animals ; climbing trees in search of birds nests: suffocating its prey in its folds, like the Boa Constrictor. Cab. of the A. N. S.* * A new allied species has recently been discovered in the Alleghany mountains. Vid. Holbrook's Reptilia, now in press, Nov. 1835. NORTH AMERICAN REPTILIA. 113 Coluber tesiaceus. C. tesiaceus, Say. Long's Exp. to the Rocky Mountains, Vol. II. p. 48. Char.—Above pale sanguineous, or testaceous : beneath sanguineous, immaculate : scales large : size of the black- snake (C. constrictor.) Abdominal plates 198: caudal scales 80. Inhabits Missouri. A specimen in the Phila- delphia Museum. Coluber ordinatus. Synonyma. Coluber ordinatus, Linn. Gmel., and Gronovius. Coluber carrulescens, Boddaert. Little green snake, Catesby, Carol. Vol. II. pi. LIII. Blue spotted snake, Shaw. Vibibe, Daulwnton, Lacepede, Latreille, Daudin. C. biponctuee, Latreille. Garter snake, Say, Long's Exp. to the Rocky Mountains, Vol. I. p. 375. This popular name is applied indiscriminately to several very distinct species. Char.—Colour bluish, marked with black and cloudy spots, with a row of black dots under the flanks, and a green line on the back. (According to Catesby, the colour is spotted green above.) Head covered with plates. Total length two feet; tail four inches. Abdominal plates 138: caudal scales from 65 to 74. Inhabits South Carolina, and as far north as Salem, Massachusetts. Varieties from New Jersey. Coluber parietalis. V. parietalis, Say. Long's Expedition to the Rocky Mountains, Vol. I. p. 186. Char.—Above blackish, with three yellow fillits, and about eighty red concealed spots : beneath bluish; a series of black dots on each side. Total length one foot; tail four inches. Abdominal plates 165 : caudal scales 88. Inhabits Missouri. Specimens in the Philadelphia Mu- seum. 15 114 NORTH AMERICAN REPTILIA. Coluber jilifoi'mis. Synonyma. Coluber filiformis, Linn. Gmel. Anguis fiageUiformis, Catesby, Carol, pi. LIV. Natrix filiformis, Laurenti. Lefil, Daub. Lacepede. La couleuvre filiforme, Latreille. Vulgor Coach-whip snake. Char.—Above entirely brown, or obscure livid: beneath whitish, with a black vitta near each eye, prolonged on the side of the neck. Length from four to six feet, very slender and tapering. Abdominal plates 165 ; caudal scales 158. Inhabits Carolina. Coluber fiageUiformis* Synonyma. Coluber mycterizans, Linn. Gmel. and Gronovius. Natrix colore magis virescente, GmeLsyst. Nat. p. 1119. Anguis viridis, Catesby, Carol. Vol. 2. pi. LVII. Lafouet de cocher, Daudin. Coach-whip snake of the Anglo-Americans, CfiageUiformis. Idem** Char.—Above entirely grass-green: beneath whitish, with a longitudinal pale line on each flank. Length between two and three feet; tail one third. Ab- dominal plates 187 ; caudal scales 147. Inhabits South Carolina, on trees. Coluber sipedon. Synonyma. Coluber sipedon, Linn. Gmel. Le sipede, Daub. Lacepede, Latreille. Vulgo, Brown water-snake Char.—Above dusky brown : beneath whitish, or yel- lowish-brown, speckled with black. Total length four feet four inches : tail fourteen inches. Abdominal plates one hundred and thirty-six ; caudal scales fifty-four. * Dryanus mycterizans—Merrem; Syst. Amph. p. 136, who attribute Abdom. Scut. 191—192. Sub. Caud. Sc. 167—173. NORTH AMERICAN REPTILIA. 115 Inhabits middle states, also Massachusetts. Specimens in the Cabinet of the A. N. S. This species, the most common in the vicinity of Phila- delphia ; first discovered by Kalm, and named by Linnaeus, has never been correctly described by succeeding natu- ralists. Description.—Body thick and long: tail short and ab- ruptly tapering: head thick and shfcrt: scales oblong, hexagonal, notched at the lower end, strongly carinated : colour above, unvaried dirty brown, or .of a dusky, dead- leaf appearance : sides reddish-brown: abdomen whitish or yellowish-brown, freckled with black, particularly beneath the tail; in some instances the flanks or sides ob- soletely banded with black: posterior occipital plates large, oblong, and rounded posteriorly, arranged as follow : postoccular eight, interoccular three, antoccular twelve, labial eighteen. Living chiefly in or near the water, feeding principally on live frogs; hybernating in the mud : sometimes attains to five feet in length. The young pos- sesses some resemblance to the C. eximius, though the transverse bands are not confluent beneath, and the scales are carinated as in the adult animal. Coluber saurita. Synonyma. Coluber saurita, Linn. Gmel. Riband snake, Catesby, Carol. Vol. 2. pi. L. Le Saurite, Daub. Lac6pede, Latreille, Daudin. Char.—Above deep brown, with three longitudinal stripes of a whitish or light green colour: beneath light green : head small, oblong, covered with plates: scales similar to those of the C sipedon. Length about two feet: tail one-third, long and taper- ing. Abdominal plates from 154 to 159 ; caudal scales from 117 to 122. Inhabits southern and middle states. Specimens in the Cab of A. N. S. 116 NORTH AMERICAN REPTILIA. Coluber sirtalis. Synonyma. Coluber sirtalis, Linn. Gmel. Le sirtale, Daub., Lacepede, Latreille, Daud. Vulgo, Garter-snake, in Penn- sylvania. Char.—Above brown, marked with a longitudinal ver- tebral line, and one on each side, of a yellowish green colour: back spotted with black dots; scales oblong, strongly carinated, largest on the sides: beneath yellowish- green, lighter on the throat and lips: abdominal plates with two black spots; one at the union with the lateral scales, the other a little distant. Total length two feet three inches; of the tail five and a half inches. Abdominal plates one hundred and fifty; caudal scales sixty. Inhabits Pennsylvania. Specimens in the Cab. of A. N. S. Hitherto not accurately described. Coluber proximus. C proximus, Say. Long's Exp. to the Rocky Mountains, Vol. 1. p. 187. Char.—Above black, trilineate; vertebral line ochra- ceous; lateral line yellowish ; a double white spot on the parietal plates: beneath tinged with greenish blue. Total length two feet; tail seven inches. Abdominal plates one hundred and seventy-eight: caudal scales eighty-six. Inhabits Missouri. Specimens in the Philadelphia Museum. " This species differs from the Saurita in the numerical proportion which its sub-caudal scales bear to its plates; from the Ordinatus,* by being destitute of the two series of black points beneath ; it is a much more slender serpent than the parietalis, and the tail is proportionably longer." (Say.) * Coluber sirtalis, Linn. NORTH AMERICAN REPTILIA. 117 Coluber fiaviventris. C. fiaviventris. Say. Long's Exp. to the Rocky Mountains, VoL 1. p. 185. Char.—Above olivaceous : beneath yellow : lower jaw beneath white : scales destitute of carina. Total length three feet eleven inches; tail eleven inches. Abdominal plates one hundred and seventy-six : caudal scales eighty-four. Inhabits Missouri. Coluber striatulus. Synonyma. Coluber striatulus, Linn. Gmel. Bosc. Le strii, Daub., Lacepede. Le couleuvre striatulee, Latreille, Daudin, &c. Char.—Above of a clear brown colour, with rhom- boidal, stongly carinated scales: beneath whitish-gray: head oval, covered with nine plates. Length nine inches ; tail two inches. Abdominal plates from one hundred and twenty-six to one hundred and thirty-two: caudal scales from twenty-five to forty-five. Inhabits South Carolina; frequents woody places. Specimens in the Cab. of the A. N. S. Coluber punctatus. Synonyma. Coluber punctatus, Linn, and Gmel. Le ponrtiiee, Daub., Lacepede, Latreille, and Daudin. Char.—Above plumbeous, finely pointed with gray: beneath reddish-yellow, with three longitudinal and pa- rallel rows of plumbeous and sub-triangular points; beneath the tail immaculate : head rather oval, flattened, with a white spot or band disposed across the occiput. Total length nine inches ; tail two-ninths. Abdominal plates one hundred and thirty-six to one hundred and forty : caudal scales forty-three to forty-eight. 118 NORTH AMERICAN REPTILIA. Inhabits South Carolina, under the bark of trees. A specimen in the Cab. of A. N. S. Coluber amcenus. C amanus, Say. Journ. of the A. N. S. Vol. IV. p. 237. Char.—Above brown or blackish, in different lights re- flecting a hyacinthine blue: beneath bright red or rosa- ceous : tail short, with an abrupt solid conic tip : scales smooth pantagonal: head small and vermiform. Length from four to ten inches; tail one-tenth of total length. Abdominal plates from one hundred and eighteen to one hundred and thirty-four: caudal scales thirty-two to thirty-eight. Inhabits Pennsylvania; found beneath stones and logs: not very common. Specimens in the Cab. of A. N. S. C. Amoemes var. from New lersey. Coluber rigidus. C rigidus, Say. Journal of the A. N. S. Vol. IV. p. 239. Char.—Above dark fuscous or blackish: beneath yellow, with two black lines. Total length twenty inches; of the tail four inches. abdominal plates one hundred and thirty-three: caudal scales fifty-one. Inhabits the southern states. A specimen in the Cab. of A.N. S. Coluber septemvittatus. C septemvittatus, Say. Journ. of the A. N. S. Vol. IV. p. 240. Char.—Above brownish, with three blackish lines: beneath yellow, with four blackish lines. Total length nine inches nine-tenths; of the tail two and a half inches. Abdominal plates one hundred and forty-three: caudal scales seventy. NORTH AMERICAN REPTILIA. 119 Inhabits Pennsylvania. Specimens in the Cab. of the A. N. S. From Michigan Territory. Coluber porcatus. Perhaps sipedon, Linn. Synonyma. Coluber porcatus, Bosc. Manuscript notes. La couleuvre a stries, Latreille. Copper-belly snake, Catesby, Carolin. Vol. 2. pi. XL VI. Coluber aquaticus? Shaw. La couleuvre sillonnee, Daudin. Char.—Above brown, sprinkled with darker; with ob- solete reddish bands on the flanks: beneath whitish, spot- ted with red ; each plate at its base marked with two sub- triangular spots : colours on the tail less distinct. Total length two feet; tail seven and a half inches. Abdominal plates one hundred and twenty-eight: caudal scales sixty-eight. Inhabits South Carolina. Cab. A. N. S. Coluber coccincus. Synonyma, Coluber coccineus, Linn. Gmel. Couleuvre icarlate, Latreille; Daudin. Hist. Nat. des Reptiles, pi. 83. Vulgo, Scarlet-snake. Char.—Above of a lively blood-red colour, with twenty- one or twenty-two transverse yellowish bands, bordered with black : the first band being situated on the posterior part of the head : beneath whitish, immaculate. Total length two feet: tail one-seventh. Abdominal plates from one hundred and sixty-one to one hundred and seventy-five : caudal scales thirty-five to forty-three. Inhabits South Carolina: feeding on grasshoppers and other insects. Received a specimen from Mr. B. Sav. New Jersey, September. 1X27. 120 NORTH AMERICAN REPTILIA. Genus. HETERODON. Latreille, Cuv. Coluber heterodon. Synonyma. Couleuvre heterodon, Daudin; fig. Heterodon platirhinos, Latreille. Coluber simus, Linn. Gmel. Le camus, Daub., Lacepede, Latreille. Boa contortrix ? Linn. Vulgo, Hog-nose snake. Char.—Above blackish, sometimes marked with ob- lique and bifid bands of a pale reddish-gray colour: beneath whitish, immaculate : head short and triangular: nose flattened, pointed, slightly reversed, and carinated above. Total length from one to three feet. Abdominal plates from one hundred and nineteen to one hundred and fifty: caudal scales thirty-eight to forty. Inhabits New Jersey ; bold, but innoxious. A specimen in the Cab. of A. N. S. From Michigan. Coluber thraso. Harl. Vulgo, Blowing-viper, or Blustering Coluber. Char.—Above black ; beneath bluish-white; scales mostly sub-imbricate, sub-carinated, first lateral row im- bricate, and smooth ; head small, body thick and chunky; head covered with plates; when at rest oval; nose flat, triangular, and reversed, keel-shaped above ; tail small and tapering, terminating in a horny point; iris gray, pupil circular; length of body two feet, tail five inches.* Abdominal plates one hundred and forty-five; sub- caudal scales forty. Inhabits Pennsylvania. Presenting a most venomous aspect; flattening the * Numerous small black worms were observed adhering to the interior of the throat. NORTH AMERICAN REPTILIA. 121 head and neck extensively, and hissing loudly when irri- tated ; innoxious. Present specimen from Broad river emptying into the Delaware at its origin. Description from life. Coluber aistivus. Synonyma. Coluber astivus, Linn. Gmel. Le verdatre. Daub., Lacepede, Latreille. La couleuvre verte d'ete, Daudin. Green-snake, Catesby, Carol, pi. 47, and Bartram, Trav. in North and South Carolina, Vol. II. p. 16. Char.—Above brilliant green : beneath nearly white : body slightly compressed at the sides : tail long and point- ed : scales very slightly carinated. Length about two feet; tail two-fifths of total length. Abdominal plates from one hundred and fifty-five to one hundred and fifty-nine: caudal scales from one hundred and twenty-eight to one hundred and forty-four. Inhabits South Carolina. Specimens in the Cab. of A. N. S. This snake is found in New Jersey. Coluber fasciatus. Synonyma. Coluber fasciatus, Linn. Gmel, Le vampum, Daub., Lacepede, Latreille, Daudin. Wampum snake, Catesby, Carol, pi. 58. Char.—Above bluish-black, with more than thirty yellowish marks, alternately disposed on each flank, and a few transverse yellowish lines on the back, bifurcated on the flanks : head blackish, covered with plates: inferior lip yellowish. Length four or five feet; tail one-fifth. Abdominal plates from one hundred and twenty-eight to one hundred and thirty-eight: caudal scales sixty-six or sixty-seven. Inhabits the southern states. Specimens in the Cab. of A. N. S. 16 122 NORTH AMERICAN REPTILIA. Coluber getulus. Synonyma. Coluber getulus, Linn. Gmel. La chaine, Daub. Lacepede, Latreille, Daudin. Chain snake, Catesby, Carol. Vol. II. pi. 52. Char.—Above bluish-black, with thirty or more yel- lowish and transverse stripes ; these lines uniting on the flank to a longitudinal or zig-zag line, which at each in- ferior angle unites to a white spot, prolonged on the ab- domen : beneath yellowish-white, spotted with bluish- black : lips bordered with white : plates of the head black, spotted with white. Length four or five feet; tail one-eighth. Abdominal plates from two hundred and ten to two hundred and fifteen: caudal scales forty-three to forty-six. Inhabits South Carolina. Cab. of A. N. S. Coluber calligaster. C calligaster, Say. Char.—Above fuscous, with three rows of black blotches; the vertebral row transversely oblong, and large; a longitudinal row of smaller black blotches on each side : beneath reddish-yellow : tail corneous at tip. Length about four feet. Abdominal plates 213 : caudal scales 52. Inhabits Missouri. Specimens in the Philadelphia Museum ; one of which has eight sub-caudal entire plates next the vent. The present description is taken from the prepared specimens in the Philadelphia Museum. Per- haps a variety of C. eximius, described below. Coluber melanoleucus. Synonyma. C. melanoleucus, Daudin. Le couleuvre noire et blanche, Idem. Pine snake and Bull snake, Bartram's Trav. Vol. II. p. 18. Vulgo, Horned snake. Char.—Above black and white ; black colour prevail- NORTH AMERICAN REPTILIA. 123 ing on the anterior half of the body: beneath yellowish- white, very sparsely spotted with black : tail corneous at tip : scales on the back sub-carinated. Length from four to six feet. Abdominal plates 246 : caudal scales 66. Inhabits the southern states: common in the pine forests of New Jersey. Specimens in the Philadelphia Museum; one eight feet in length, from New Jersey; Cab. of the A. N. S. Coluber melanoleucus. Var. Say. Char —Above black and yellowish-white; the black arranged in large blotches, the white in transverse bands: beneath yellowish-white, with square blotches of black. Length about five feet. Abdominal plates 253 : caudal scales 80. Inhabits Missouri. Described from a specimen in the Philadelphia Museum. Coluber eximius. C. eximius, Dekay, (Manuscript Notes.) Vulgo, House snake, Chicken snake, or Thunder and lightning snake. Char.—Above blackish, banded with white ; the white bands bifurcating on the sides, and becoming confluent: beneath yellowish-white, spotted with quadrangular black spots: eyes small and red : head smaller than the diame- ter of the body : scales not carinated. Length; grows to the length of the black snake, (C constrictor,) but is much thicker; the colours are very lively and beautiful. Abdominal plates 250; caudal scales 60.* Inhabits Pennsylvania and New Jersey. Young red- dish-brown above. Specimens in the Philadelphia Mu- seum and Cab. of the A. N. S. * In one living specimen there were thirty-three pairs of caudal scales. 124 NORTH AMERICAN REPTILIA. Coluber floridanus. C floridanus, (Nobis.) Vulgo, Red Chicken snake of Florida. Probably the C. guttatus, Lin. Char.—Above red or cupreous, with obsolete, narrow, transverse fascise, bordered with black: beneath yellowish, or reddish-white. Total length three feet four inches ; tail five and one- half inches. Abdominal plates 225 : caudal scales 47. Inhabits East Florida and Carolina. Cab. of A. N. S. Coluber vernalis. C. vernalis, Dekay, (Manuscript Notes.) Vulgo, Green snake. Char.—Above of a universal deep green colour : beneath greenish-white: scales oblong, rhomboidal, not carinate: plates on the head, seven. Total length one foot seven inches: tail six inches. Ab- dominal plates 127 : caudal scales 57. Inhabits Pennsylvania and New Jersey. A specimen in the Cab. of A. N. S. Coluber cauda-schistosus. C alrifuscus, First ed. Char.—Above uniformly blackish-brown, with strongly carinated, oblong, rhomboidal scales: beneath whitish: plates plumbeous at base, and at their union with the lateral scales: beneath the tail plumbeous, spotted with yellowish : head covered with seven plates. Length from two to four feet; tail one-fifth. Abdo- minal plates 130: caudal scales 50. Inhabits the southern states; climbing trees in search of game. Described from a specimen in spirits. Cab. of A. N. S. May prove a variety of C. sipedon. NORTH AMERICAN REPTILIA. 125 Coluber erythrogrammus. La couleuvre a rais rouges, Daudin, pi. 83. fig. 2. Char.—Above dusky-black, with a longitudinal, verte- bral, red line ; and a similar lateral line on each side of the back : flanks yellow ; base of each scale red: abdo- minal plates red, bordered with yellow, with black on the middle, and on each extremity of the plates. Length five feet; tail one-sixth. Abdominal plates 162 ; caudal scales 49. Inhabits the United States. Coluber doliatus. Synonyma. C. doliatus, Linn, and Gmel. L'annelee, Daub. Lac6pede, Latreille. La couleuvre cerolee, Daudin. Char.—Whitish, with black rings; the rings disposed alternately beneath: more regular on the back: head sometimes blackish: scales smooth, rhomboidal. Length seven inches : tail one inch five lines. Abdo- minal plates 164 ; scales 43. Inhabits Carolina and New Jersey. Cab. of A. N. S. Coluber maculatus. Synonyma. ('. maculatus, or La couleuvre tachetee, Daudin. La couleuvre tachetee, Lacepdde, Latreille. Corn snake, Catesby, Carol, v. 2. pi. LV. Char.—Above whitish, with large reddish spots, bor- dered with blackish ; a double row of these spots forming a zig-zag line : beneath whitish, sometimes spotted: scales carinated. Length two feet. Abdominal plates 119. Caudal scales 70. Inhabits Carolina and Louisiana. 126 NORTn AMERICAN REPTILIA. Coluber guttatus. Synonyma. C guttatus, Linn, and Gmel. La mouchetee, Daudin, Lacepede. La couleuvre a gouttelettes, Daudin. Bead snake, Catesby, Carol, v. 2. pi. LX. Char.—Colour livid, marked above with red and black spots; with small lines on the flanks; with alternately square, black spots beneath: scales on the back slightly carinated. Length from two to four feet. Nearly of equal thick- ness throughout. Abdominal plates 223 or 230; caudal scales 60. Inhabits S. Carolina. Principally found in potato patches. Coluber molossus. Synonyma. C molossus, or La couleuvre molosse, Daudin and Latreille. C guttatus, Merrem. Char.—Head elongated, rather flattened, brick-red, with two rays more deep, bordered with brown: lips white, spotted with brown : above of a pale-brick colour, with blackish-red, sub-quadrangular spots, bordered with brown: sides with smaller spots disposed in fasciae: be- neath white, with square brown spots. Total length twenty-three inches; tail three inches. Abdominal plates from 220 to 226; caudal scales 60 to 64. Inhabits S. Carolina, under bark, in the forests. Coluber reticularis. Synonyma. C reticularis, or C. reticulaire, Daudin, Latreille. Char.—Covered above with whitish scales, bordered with white; giving to the animal a reticulated appear- ance : dorsal scales smooth and losange form. NORTH AMERICAN REPTILIA. 127 Length four feet; tail one-fifth. Abdominal plates 220 ; caudal scales 80. Inhabits Louisiana. 3d Genus. VIPERA. Daudin. Characters of the Genus.—Differing from the genus Coluber in having poisonous fangs, and the head contract- ed in length, and broader posteriorly, covered sometimes with small plates; in others, with scales similar to the dorsal, and seldom with large plates, as in the Coluber. Vipera fulvia. Synonyma. Coluber fulvius, Linn, and Gmel. La noire et fauve, Daudin, Lac6p6de, and Latreille. La couleuvre fulvie, Daudin. Elaps, Schn. and Cuv. R. A. Char.—Marked with twenty-two black rings, alter- nately with an equal number of yellow rings, spotted with brown : these last rings being white before and behind : head covered with large plates : scales sub-imbricate, not carinated. Length about two feet; tail tV- Abdominal plates 218; caudal scales 31. Inhabits the southern states. It is by no means inno- cuous, as is asserted by Daudin, and may be fatally mis- taken for the scarlet snake, (Coluber coccineus.) Vipera fulvia. Var. Synonyma. Coluber fulvius, Linn. Var. (H.) Harlan. Journal of the Acad. Nat. Sc. Vol. V. p. 154. Coluber coccineus, Say. Notes on Herpetology, Silliman's Journal, Vol. I. Char.—Eighteen deep black rings, with as many scar- let or blood-red intervening ones, separated by narrow rings of whitish-yellow: scales subimbricated, not cari- nated. 128 NORTH AMERICAN REPTILIA. Total length two feet; tail three inches. Abdominal plates 202 ; caudal scales 40. Inhabits S. Carolina. A specimen in the Cab. of the A. N. S. 4th Genus. CENCHRIS. Daudin. Characters of the Genus.—Body rather thick, cylin- drical : tail short, cylindrical: plates on the front of the head; scales on the back of the head; entire plates on the centre: double plates beneath the anterior portion of the tail, entire plates on the remainder: anus transverse, simple, and without spurs : jaws armed with sharp teeth; poisonous fangs in the upper jaw. Cenchris mokeson. Synonyma. Cenchris mockeson, Daudin, pi. 70. Coloured apparently from a spe- cimen in spirits. Vulgo, mockeson, Char.—Head large, covered with plates before, with scales behind : scales slightly carinated : neck contracted: above brown, covered with transverse black spots; in some places confluent, occasionally transverse striae: be- neath dirty white, with smaller black spots. Length one and one-half feet; tail one-fifth. Abdo- minal plates 157 : sub-caudal plates 3 : caudal scales 32. Inhabits S. Carolina. Cenchris mokeson. Var. Heterodon, of others. Among a numerous collection of Reptiles, presented to the Academy, by their corresponding member, Dr. Wil- liam Blanding, of Camden, S. Carolina, is a remarkable variety of this genus, if not a distinct species. It offers NORTH AMERICAN REPTILIA. 129 the strongest resemblance to the Crotalus miliarius with- out its rattle. Char.—Above fuscous, with large, black, distinct blotches : beneath whitish : head broad, and rather flat: neck contracted : body thick : tail short and cylindrical: nose flattened and reflected, as in the Coluber heterodon : tail strongly corneous. Length about two feet. Abdominal plates 139: sub- caudal plates 11 : scales 20. Inhabits S. Carolina. Cab. of the A. N. S. (Not be- fore described.) 5th Genus. SCYTALE. Daudin. ECHIS. Merrem. TRIGONOCEPHALUS. Oppel. BOTHROPS. Spix. TISIPHONE. Fitzinger. Characters of the Genus.—Body robust, elongated, cy- lindrical : head thick, obtuse, swollen posteriorly, cover- ed with plates anteriorly, with scales posteriorly : scales carinated, reticulated, and rhomboidal: beneath the ab- domen and tail furnished with simple transverse plates: jaws furnished with sharp teeth ; poisonous fangs in the superior. Sovtalus piscivorus. Svnonyma. Scytale piscivorus, Daudin. Water viper, Catesby, Carol, pi. 43. Le piscivore, Lacepede. Le scytale piscivore, Latreille. Hist. Nat. des Reptiles, in-18, Tom. III. p. 163. Char.—Above brown: beneath black, with irregular, transverse, yellow bands, or yellow and black, alternately: sides of the neck, black : head large ; neck contracted : tail strongly corneous. 17 130 NORTH AMERICAN REPTILIA. Length, five or six feet. Abdominal plates ----? Caudal plates----? Inhabits South Carolina. Scytalus niger. Synonyma. Scytale noir, Daudin. Black snake, Catesby, Carol, pi. 44. Probably a variety of the Heterodon. Char.—Colour dusky black, sometimes approaching to redness: head short and broad : tail short: body con- tracted. Length about two feet. Plates and scales not enu- merated. Scytalus cupreus. S. cupreus, Rafinesque. Silliman's Journal of Science. Vol. I. p. 84. Cenchris mockeson, Say. Journal of Science. Vol. I. p, 256. Vulgo, copper-head, copper-belly, copper-adder, copper-viper, chunk-head, deaf- adder, Rattle-snake-mate, &c. Specific characters.— Tail one-eighth of total length, with 45 caudal plates entirely brown : 150 abdominal plates, the last very broad ; head oval, coppered above, yellow beneath ; scales carinated on the back, which is of a copper colour, with reddish-brown rings cross-shaped; belly variegated with brown. Total length, three feet; body proportionably thicker than in the Colubers; head large, broad, oval, obtuse, very distinct from the neck, nearly two inches long, with large smooth scales above, and with rhomboidal smooth scales beneath; fangs yellowish-white; back covered with small rhomboidal, obtuse, keeled scales, those of the sides larger and smooth, not keeled; above of a brownish- copper, sides of a bright copper colour, broad bands of a reddish-brown, becoming bifurcated on the sides; a brown spot opposite the sinuses; scales of the sides mi- nutely spotted with brown; abdominal plates of a pale copper colour, with two longitudinal rows of brown spots, each plate emarginate with white ; tail short, cylindrical, NORTH AMERICAN REPTILIA. 131 tapering, four inches long, brown, immaculate, terminated with an obtuse, horn-claw, of an oblong, compressed shape, and carinated beneath. Inhabits New England, New York, New Jersey, and Pennsylvania. Cab. of A. N. S. Having examined specimens, both living and dead, since our first edition, we are enabled to pronounce this a true species. Scytalus tisiphone. Coluber tisiphone, Shaw. Vipere brune de la Caroline, or Brown water-mockeson of Catesby. Char.—Subcaudal plates simple ; head furnished with plates as far back as the eyes; tail tipped with horn, brown, • with cloudy spots of a deeper hue. Inhabits Carolina. 6th Genus. CROTALUS. Linn. Characters of the Genus.—Body robust, elongated, cylindrical: tail short, cylindrical, terminated with a sonorous rattle, which is a corneous production of the epidermis; this rattle is cast annually, (consequently, no inference as to the age of the animal, can be drawn from the number of pieces which compose the rattles:) head thick and broad, covered before with small plates, behind with carinated scales: abdomen and beneath the tail cover- ed with plates: jaws furnished with sharp teeth ; upper jaw with long, curved, poisonous fangs, replaced, when broken, by smaller ones in the rear. A poison bag, oc- cupying the whole length of the upper-jaw, beneath the skin, and opening into the fang at its base. 132 NORTH AMERICAN REPTILIA. Crotalus durissus. Synonyma. Crotalus durissus, Linn., Gmel., Kalm, and Catesby, Carol, pi. 41. Caudisona durissus, Laurenti. Crotalophorus, Gronovius. Crotalus atricaudatus, or Le Crotale a queue noire, Daudin, and Bosc: variety from young age ? Le Crotale durissus, of the French. Vulgo, Banded Rattle-snake. The epithets "banded," and "diamond," have been used by some authors indis- criminately. Char.—Above cinereous, tinged with yellowish or greenish, with transverse, irregular black bands, bordered with a clear tint; each band terminating on the flanks in a quadrate black spot; tail black; beneath yellowish-white freckled with black; scales rhomboidal, carinated; arow of smooth, round scales on each flank. Length four or five feet. Abdominal plates, from 163 to 174; caudal plates, from 16 to 30. Inhabits the northern and middle states ; very common in Pennsylvania. 45° is its northern limit according to Kalm. Cab. of the A. N. S. Observations.—In the month of June, 1826, there was exhibited in Philadelphia, a collection of " Banded Rat- tle-snakes," 150 in number. These animals were all taken in the counties of Wayne, Pike, and Susquehanna, in the state of Pennsylvania, and in Sullivan county, in the state of New York, during the months of April and May pre- ceding. They had not been offered any food the present year, and yet appeared very lively. The operation of casting their exuviae was frequently witnessed. The process, generally, lasted about fifteen minutes: after its completion, the colours of the skin ap- peared very brilliant. When at rest, the pupil of the eye is oblong vertically, but they possess the faculty of ren- dering the pupil oval, and even nearly circular. It is a remarkable fact, that these reptiles were never known to injure each other, though crowded together in close boxes, and subjected to continual irritation from vi« NORTH AMERICAN REPTILIA. 133 siters, and the living animals on which they were subse- quently fed ; as if aware of the fatal consequences of their venom, instinctive harmony prevailed amongst them. The shades of colour offered to view by the animals in this collection were exceedingly various, from light cine- reous to deep black, the bands occasionally interrupted, giving the back a spotted appearance, though the charac- teristic markings were more or less permanent. Several specimens displayed the following peculiar differential traits, if not specific characters. Char.—Above blackish slate-colour, with the carina elevated and tipped with cinereous, giving to the back a longitudinally striated appearance: back marked with transverse black bands, rather obsolete: beneath yellow- ish, the plates being plumbeous at base, and yellow at the edges ; beneath the throat and lower jaw, impure white : head very black : tail black, striated longitudinally, with- out bands. Length between three and five feet.* Crotalu.s horridus. Synonyma. Crotulu* horridus, Linn., Gmel., Boddaert, &c. Caudisona terrifica, Laurenti. Boiquira boicinininga, by the Brazilians. Cascavel, by the Poitu^ucsc. Teuhtlacot zauhqui by the .Mexicans. Boiquira, Lacepede, Latreille, \c. l'i/>rni caudisona, and Anguis crotalophorus, Ray. Syn. Anini. Boiquira ayug, Marcgravc, Hist. Nat. Ilrazil. ■ Crotalus rhombifer, and Le crotale a lozanges, Daudin and Latreille. Vulgo, Di- amond Rattlesnake. The South American species is said to be distinct from the horridus. Char.—Above cinereous, with four black lines on the side of the neck ; beneath the lines a row of black points • A Rattlesnake lived in the Philadelphia Museum two years, without taking nourishment. A female Ruttle-snake brought forth twelve young, early in Septem- ber InJT—This was one of 150 specimens exhibited in Philadelphia by Elmworth and Murray. Another Crotalus put forth an immature foetus, and discharged seve- ral imperfect ova late in October, 1828. 134 NORTH AMERICAN REPTILIA. longitudinally disposed: back with from twenty to thirty black rhomboidal figures, distinct, and having their cen- tre and border of an impure white colour: beneath yel- lowish white, immaculate: tail black, terminating in a rattle, consisting of from one to twenty pieces : body above furnished with twenty-nine longitudinal rows of scales, more or less hexagonal; the twenty-seven intermediate ones carinated. Length from three to six feet; tail about one-ninth. Abdominal plates from 167 to 170: caudal plates from 20 to 30. Inhabits the southern states and territories; the Antil- les, and intertropical parts of America. Cab. of A. N. S. Crotalus miliarius. Synonyma. Crotalus miliarius, Linn, and Gmel. Le millet, Daub. Enc. Meth. Lacepede, Latreille, Catesby, Carolina, pi. 42. Bar- tram's trav. Le crotale millet, Daudin. Vulgo, Ground Rattle-snake, or Little Rattlesnake; and by others, Bastard Rattle-snake. Char.—Above reddish gray, cinereous, or fuscous, with a longitudinal series of black spots, rounded and bordered with white: flanks with two or more ranges of black spots: beneath white, freckled with similar black spots: scales on the top of the head suboval and carinated ; front of the head and snout covered with nine smooth plates, disposed in four rows.* Length eighteen inches; tail one-eighth. Abdominal plates 132 : caudal plates 32. Inhabits the southern states: there are several varie- ties, differing in the colour and arrangement of the spots. Specimens in the Cab. of A. N. S. * On this arrangement of plates is founded the genus Crotalophorus of Gray, and that of Caudisona of Fitzinger. NORTH AMERICAN REPTILIA. 135 Crotalus confluentis. Crotalus confluentis, Say. Long's Exp. to the Rocky Mountains, Vol. II. p. 48. Char.—Above brownish-cinereous, varied with green- ish yellow ; a triple series of fuscous spots, edged with greenish white, transversely oblong-oval, anteriorly con- fluent : tail banded : beneath yellowish-white, immaculate. Length ----? about three feet. Abdominal plates 197 : caudal plates 27. Inhabits the western territories, near the base of the Rocky Mountains; frequenting the holes of the Prairie- dog, (Arctomys ludoviciana.) Specimens in the Phila- delphia Museum. Crotalus tergeminus. Crotalus tergeminus, Say. Long's Expedition to the Rocky Mountains, Vol. I. p. 49 ^X 4! Hi?! SEPS SEXLINEATA. 211 I found it among the Lacertje belonging to the Philadel- phia Museum, where it had remained for several years preserved in spirits. Three species only of Biped Seps have been acknow- ledged by Daudin—viz. 1st, S. didactyle, described by Schneider, (2d fascic. Hist. Nat. des Amphib.) 2d, S. subdidactyle or the Shettopusick of Pallas, and 3d, S. monodactyle of Gronovius; to neither of which can our reptile be referred; it resembles still less the " Bipede lepidopode," of New Holland, described by Lacepede (Annates du Museum, Vol. iv.) It approaches nearest to a variety of the third species or S. Gronovii, which was described by Gronovius, under the name of " Cham.e- saura Bipes," as follows, " A Scincus, having the pos- terior extremities very short, subulate, single toed, desti- tute of anterior feet; the tail almost as short as one half the body, cylindrical, with its extremity smooth, naked and conical, some black lines prolonged upon the back, and the flanks; the abdomen whitish: total length four inches. (Zoophil. No. 44. page 11.) On comparing this description with that of the il sexlineata," as above de- tailed, the latter will be found evidently a well character- ized distinct species. On examining the collection of the Jardin des Plantes, in 1833, no species similar to this was observable. EXPLANATION OF THE PLATES Fig. 1. Scincus bicolor. Fig. 2. Biped Seps. Letter B. Back of head, magnified. 0. Abdominal view of the lower part of the animal, mag- nified. D. Scales, magnified. 212 SCINCUS BICOLOR. Description of a new Species of Scincus. Scincus bicolor. S. bicolor. PI. fig. 1. Supra fuscus; subtus albido- argenteus; lineis duabus longitudinalibus albis in utro- que latere; cauda, tereti, corpore paulolongiore; palmis, plantisque pentadactylis. Total length, nine inches, four-tenths; length of the head, neck and body, four inches; length of the tail five inches four-tenths; length of the head, nine-tenths; breadth of the head, eight-tenths; length of the neck, six- tenths. Body above dusky brown, darkest on the top of the head, which is swollen at the maxillary angles: body be- neath of a silvery white throughout; a white line com- mencing at the occiput, on each side of the spine extends two or three inches on the tail; another line commencing at the tympanum and passing immediately above the thigh is lost on the tail; two faint longitudinal lines mark the posterior part of the thighs, the lowermost extending to the outer toe: tail tapering, cylindrical, and pointed: tympanum large, vertically oval; the palpebral and infra- orbitar ridge, clothed with minute quadrangular plates or scales. The genus Scincus, originally established by Brong- niart, and adopted by Latreille, Daudin, and others, in- cludes about twenty species ; only two of which are said to inhabit the United States: viz. the S. quinquelineata and the S. erythrocephalus ; to which must be added the species under consideration, which differs from the ery- throcephalus described by Mr. Gilliams (Journal of the A. SCINCUS BICOLOR. am N. S. Vol. i.) in form, proportion, colour, and markings. Of all the species of this genus hitherto described, the bi- color approaches most nearly the S. quadrilineatus, (Dau- din,) Lacerta lineata (Linn.) or L. quadrilineata, (Gmelin.) This reptile, first described by Linne (from a specimen in the Museum of Prince Adolph Frederic,) is furnished with only four toes to the anterior extremities, which could not have been the result of accident, as Linne informs us he had observed several specimens of the same species ; the total length of this species is represented as about four inches and a half; although it is marked by four white lines in common with the bicolor, these are dif- ferently arranged ; in the li quadrilineatus" one line as white as snow, is prolonged from the extremity of the snout on each side of the back, as far as the base of the tail; another passes from the angle of the mouth, through the flanks to the thighs. After this description there can be no danger of con- founding the two. The reptile which forms the subject of this detail, is preserved in spirits in the Philadelphia Museum. Scincus erythroccphalus. Gilliams. var. Body above of a dark green, approaching to black : head above of a reddish yellow : body beneath of a yellowish white ; total length, eleven inches : tail a little longer than the body, round, and tapering ; from the tip of the snout to the com- mencement of the hind legs, four inches and a half; length of the head, one inch and two-tenths ; breadth of the head, one inch. Two specimens in the Philadelphia Museum ; being dried, their colours must have faded. 214 NEW SPFCIES OF BATKACIAN REPTILES. Descriptions of several new Species of Batracian Reptiles, with Observations on the Larvx of Frogs.* The genus Rana of Linnaeus is subdivided by modern erpetologists into three sections, which include the genera Rana, Hyla, and Bufo of Lacepede, Brongniart, Latreille, Daudin, and others. The unmerited neglect with which this class of animals has been treated by American naturalists, is unaccount- able, when we consider the important station they main- tain in the scale of beings. The interesting phenomena attending the metamorphosis of the young frog or tadpole, early attracted the atten- tion of men of science; and the works of Swammerdam, Roesal, Malphighi, Laurenti, Galvani, and Spallanzani, furnish the most curious details concerning their organiza- tion, development, and functions. The science of ex- perimental physiology has been more indebted to this than to any other class of animals. Frogs, being easily * The present essay was nearly completed and ready for the press, when No. IX. of the Ann. of the Lyceum of Nat. Hist, of N. York appeared, containing a paper by Capt J. Le Conte, entitled " Remarks on the American species of the genera Hyla and Rana." In its publication, this learned and indefatigable naturalist has anticipated four of my new species, viz. Hyla versicolor, H. delitescens, Rana pa- lustris, and R. sylvatica. In the indications of his new species fontinalis, pumila, and gryllus, the author has been so exceedingly laconic, and the characters he has noticed are so indeci- sive, as to render it impossible for me to say, whether or not they really differ from some of my species; the characters of the "fontinalis," for example, will apply with equal certainty to three or four distinct species. On the contrary, his R. nigrita is a beautiful, well determined new species, and forms a valuable acquisition to this department. It is thus characterized : " Rana nigrita—above black, speckled with small white warts; middle of the back cinereous with an interrupted stripe of black; upper lip with a white line; beneath granulate whitish; irides golden; legs barred with whitish, hind part of ths thighs brown; hind legs very long." NEW SPECIES OP BATRACIAN REPTILES. 215 procured, and submitting to torture without any expres- sion of pain, either by cries or convulsions, have always been preferred by physiologists as objects of experiment, when the peculiarity of their organization offered no bar- riers to their views. For this purpose their remarkable tenacity of life offered further facilities. The heart and entrails may be torn out of the body, without the animal appearing to suffer to a great degree, and produces death only at the end of some hours. The heart, indeed, affords signs of sensibility for many days after the appearance of life has ceased in other parts. The millions of these animals which have perished beneath the recipient of the air-pump, the excitations of the electrical machine, or the scalpel of the anatomist, have given rise to the most important facts in physiology, anatomy, and natural philo- sophy. In every stage of their existence, the frogs are exposed to become the prey of many enemies : some quad- rupeds, birds, serpents, and fish, live habitually upon them. In order to support this immense destruction, they live to a considerable age, when they escape their enemies, and each female discharges from six to twelve hundred eggs annually. Notwithstanding the talent which has been employed, and the length of time which has elapsed, since these rep- tiles have occupied the attention of the learned of several nations, there exist at the present day some points of their organization involved in obscurity, and some errors have been perpetuated from author to author. In order to become better acquainted with their habits, and watch the progress of their development, I have this season confined great numbers, of both tadpoles and frogs, in convenient receptacles. My observations on the former were interrupted by an accident, after an attention of rather more than two months. I have, however, collected a few facts worthy of publica- tion. My specimens were of different species and of 216 NEW SPECIES OF BATRACIAN REPTILES. various ages; but observation was more particularly di- rected to the larvae or tadpole of the Ranapipiens, Linn. as being larger than any others inhabiting this state. Though not full grown, about the latter end of May they generally measured in total length four inches five- tenths ; length of the tail two inches eight-tenths ; general colour dark slate-green ; abdomen white or yellow, some- times mixed ; beneath the throat mottled ; tail elongated, compressed, furnished with a membranous fringe on the upper and lower borders. The extremities, or legs, which are about appearing, are not merely hid beneath the skin, as was asserted by Daudin, but exist as mere rudiments, and grow out like the stem of a tree. It has not yet been accurately ascertained how long a time it requires for these larvae to complete their meta- morphosis, or how frequently during the year the frogs produce their spawn: we know that some of the young of these animals pass the winter in a larva state. About the commencement of April, in the vicinity of Philadel- phia, they were observed with the posterior extremities half formed, and, a few days later, an immense quantity of spawn with the foetuses nearly ready to escape. In warmer situations indeed, the bottoms of the ponds were already covered with young tadpoles. According to some authors, the young are hatched in fifteen days, and are transformed into frogs in two months* (Lacepede): according to others, two years are required for this metamorphosis. The Jackie of Surinam remains sometimes for more than two years under the form of a tadpole; and even after it has become a perfect animal, it still preserves its tail for a certain time, which has * This period varies under various circumstances, as the degree of heat, &,c. to which the spawn is exposed. Shaw, in Gen. Zool., mentions one month, or five weeks. NEW SPECIES OF BATRACIAN REPTILES. 217 given rise to the notion, that it is converted into a fish, and accounts for the name, Rana paradoxa. A similar phenomenon has been observed in the Bufo scorodasma. (Vide Diet, des Sc. Med., Art. Germ, p. 259.) It was by inquiries directed to this stage of the ani- mal's existence, that Spallanzani, after Swammerdam, was enabled to detect one of the most curious facts which phy- siology has gained from natural history. The egg of a frog plunged into water, swells, and, becoming transpa- rent, " permits us to see a blackish body, which the mi- croscope proves to be a tadpole." And Spallanzani con- vinced himself of the existence of tadpoles in the eggs laid by a female which had been entirely excluded from the male.* Concerning the rapidity of the metamorphosis of these reptiles, Cuvier has only remarked, " On sait que la Jackie (Rana paradoxa) ne perd sa queue que fort tard et long tems apres ses branchies, et que ses branchies elle-meme ne tombent que quand elle a deja sa taille de grenouille." (Sur les animaux douteux, Voy. de M. Humboldt.) It is very probable that the period required for the metamorphosis varies with the species. In the larvae of the Rana pipiens, which we detained, expressly for ex- amination, for more than two months, no sensible altera- tion was observed in this respect, or scarcely any visible approach towards perfection. Numerous opportunities occurred to corroborate the remark of M. Cuvier, that the organs of generation exist nearly in a perfect state in the larvae of the frog. li Among the many changes," continues M. Cuvier, ii to which the tadpole is subjected in its passage to a state of perfection, * Spallanzani perceived a dark speck in the ovum of the frog, which he consi- dered the tadpole; though examined with a magnifying glass, no character or ap- pearance resembling the tadpole is distinguishable. Vide Notes on the reproductive function, in the following pages. 28 218 NEW SPECIES OF BATRACIAN REPTILES. we cannot include the appearances of the organs of gene- ration. We already observed the ovaries and their fatty appendages ; and if they be not entirely as large as they are in the frog at the epoch of its amours, they approach very near to what they are during the remainder of the year." Agreeably to the observations of the author last quoted, "there are many species of tadpoles which have but one operculum on the left side; such are the larvae of the R. paradora, and those of the brown toad ; but those of the common frog (Rana temporaria, Linn.) appear to me to have two holes, both placed beneath." This fact I have verified in all the tadpoles which I have subjected to examination: after dissecting great numbers of tadpoles, of different species and at different ages, both before and after the appearance of their legs, in no instance was there observed more than one opening or operculum, and that always on the left side; though dissection at all periods demonstrated the existence of gills or branchiae on both sides, covered by integuments.—"Les seules larves ou tetards des reptiles batraciens, c'est a dire des salamandres et des grenouilles, rainettes, et cra- pauds reunissent des branchies et des poumons, respirent a la fois, du moins pendant un certain temps, et Pair elas- tique en nature, et eelui que contient l'eau, participent par consequent, d'une maniere egale, de la nature des animaux aeriens et des animaux aquatiques, et peuvent done, si l'on vent, porter le nom d'amphibies dans son acceptation la plus rigoureuse." (Cuvier Anim. douteux, Voy. d'Humboldt.) In specimens which we subjected to examination, we found the lungs and nostrils to exist in a rudimentary state; the latter are small, and barely admit the passage of a very fine bristle ; the former are of a deep black co- lour. That the larvae do not depend altogether upon their branchiae for the decarbonization of the blood, we were NEW SPECIES OF BATRACIAN REPTILES. 219 satisfied, by observing them to rise frequently to the sur- face of the water, in order to discharge the foul air and to respire : this process was repeated every three or four minutes, on some occasions, in a number of these animals confined in a tub of water. According to Swammerdam and Roesal, the branchiae of tadpoles are exterior and free during the first days of their existence. This statement was not verified by observations we have made on very young tadpoles of this country, in which not the slightest vestiges of branchiae or of feet are visible. We subjected a number of individuals to examination, both with and without the glass: the subjects appeared to have just emerged from the eggs, were nearly transparent, the vis- cera being apparent through the abdominal parietes; though it is not improbable that these organs may have existed at a still earlier period. The frog, in common with other batracians, being destitute of true ribs and a diaphragm, is obliged to force the air into the lungs by means of the muscles of the throat; this is effected by closing the lips, and forming a vacuum by protruding the muscles of the throat, when the air rushes into the nos- trils, which open in the anterior portion of the palate, generally between two transverse palatine ridges. I could observe no valves at these openings, which, we are in- formed by several authors, exist there, for the purpose of preventing the escape of the air; and have little doubt but that the fleshy and free extremity of the tongue, by being applied to the palate of the mouth, performs the function of a valve. In addition to the ordinary perma- nent specific distinctions, I have observed good charac- ters in the form, number, and size of the transverse pala- tine plates. Some species of frogs possess, to a remarkable degree, the faculty, more or less peculiar to all the batracian order, of changing their colours. The Rana pipiens, or common bullfrog, I have observed to change, in the course of a 220 NEW SPECIES OF BATRACIAN REPTILES. few hours, from a light ash, or nearly dirty-white colour, to a light green and black, and the reverse ; though the specific markings are more or less unchangeable. Though the frog is subjected to change of cuticle, this does not take place throughout the body at once, as in the serpent, but falls off in detached pieces. I could not determine how frequently this process was repeated; but certainly not every " eight days." With these prelimi- nary remarks, I proceed to the more immediate object of this paper, the description of several new species. Sp. 1. Rana flaviviridis. (Nobis.) Yellow-throated green frog. Spring frog? Bartram, Manu- script Notes, penes me. Char.—Body rather clumsy ; abdomen large ; snout a little obtuse; colour above clear lively green, beneath white; under the throat yellow; buttocks mottled with black spots. Dimensions.—Length of the body three inches, of the hind legs four inches four-tenths; breadth of the head one inch. Description. (Male.) Body rather contracted ; abdo- men enlarged ; prevailing colour green; skin smooth, with the exception of the sides, which are tuberculated; the back is separated from the sides by a longitudinal cu- ticular fold ; the sides are obsoietely spotted ; tympanum very large, suboval, plane, and dark-coloured at the cir- cumference, protuberant and green at the centre; but- tocks and posterior part of the thighs mottled with black spots ; thighs and legs above marked with obsolete black bands; toes of the hind feet palmated, granulated, and of a blackish colour. Habit.—Not very active; destitute of any peculiar odour; destructive to small fish, grasshoppers, and worms. Inhabit the middle states; abound in the vicinity of Philadelphia. NEW SPECIES OF BATRACIAN REPTILES. 221 Sp. 2. Rana sylvatica. (Le Conte, Ann. of the Lye. of Nat. Hist, of N. York, Vol. I. No. IX. p. 282. Wood frog.) This species 1 had de- scribed under the name of R. Pennsylvanica. Char.—Olive brown or drab colour above, white be- neath ; a black vitta, commencing on the side of the snout, passes backwards dilating, and involves the eye and tym- panum ; posterior extremities obsoietely fasciated. Dimensions.—Rather smaller and more slender than the R. clamata. Description.—Body long and slender; snout rather elongated ; a longitudinal black band on each side of the head, commencing anterior to the eye, involves two-thirds of the iris and the whole of the tympanum ; lips with dark borders; lower parts of the body white, the flanks light green; upper parts of the body drab colour, with the exception of a few scattered spots posteriorly; and the hind legs with broad, obsolete, transverse, blackish bands. Habit.—A great leaper ; travelling far from the water in search of insects, &c; is difficult of access, leaping with great facility and hiding beneath the dead leaves, which the colour of the upper parts of the body closely resem- bles ; more frequently found in the woods than in the fields ; this beautiful species is not very common. Inhabit Pennsylvania and New Jersey. Sp. 3. Ran a scapularis. (Nobis.) Char.—General colour above dark olive-brown ; snout green ; beneath the throat yellow ; abdomen white; a gold- en coloured line above the scapulae. Dimensions.—Length of the body three inches ; of the hind legs four inches. Description.—(Male.) Dark olive-brown, white be- neath ; throat, anterior part of the thorax, and interior of the fore legs, of a bright yellow colour; the outer surfaces of the fore legs and thighs the same colour as the back ; 222 NEW SPECIES OF BATRACIAN REPTILES. leg, tarsus, and foot dark ash colour; sides tuberculous and mottled with black ; membrane of the tympanum very large, with a greenish protuberance at its centre ; an ele- vated golden coloured line passes from its inferior border across the scapulae. Eyes very prominent, nearly ap- proximate ; snout contracted, and with the upper lip of a dark sea-green colour; legs obsoietely and sparsely band- ed with black. This species resembles the R. clamata, but differs in the colour of its throat, in the form, colour, and length of the snout, in the size and proximity of its eyes, in the co- lour and size of its tympanum, (which is double the size of the same part in the clamata,) in the proportion of its limbs, and lastly in the golden line across the scapulae. Habit.—As far as observed, resembling that of the cla- mata, though less noisy and timid. Inhabit Pennsylvania. Sp. 4. Rana palustris. (Le Conte, Ann. of the Lye. of Nat. Hist. N. York, vol. 1. no. ix.) This species I had described under the name R. pardalis. Leopard frog. Char.—General colour dark cineritious above, white beneath, lighter on the snout, flanks, and extremities; in- terior surface of the limbs yellowish ; a row of dark green spots on each side of the spine, extending the whole length of the back; two other longitudinal rows on the flanks; posterior extremities striped with broad, trans- verse, greenish lines or bands. Dimensions.—Length of the body three inches; of the posterior extremities, four inches three-tenths; breadth of the head eight-tenths. Description.—(Female.) Dark cineritious above, white beneath ; interior of the limbs yellowish ; end of the snout and upper surface of the thighs approaching to green; a longitudinal row of dark green oblong spots on each side NEW SPECIES OF BATRACIAN REPTILES. 223 of the spine, from eight to ten in number and symmetri- cally arranged ; a dark green spot on the inner and upper surface of the orbits, another on the top of the snout, a dark coloured line on each side of the snout, extending from the nostrils to the eyes; a silver coloured line, or cuticular fold, extending from the orbit on each side along the back to the thighs, inclosing the dorsal spots; thigh, leg, and tarsus striped with broad, transverse, greenish bands ; a row of spots on the sides of the body, extending from the scapulae to the thighs; another irre- gular row of smaller spots beneath; anterior extremi- ties spotted; hind feet completely webbed; all the toes with tubercles on the inner surfaces of the joints; body smooth, or, when viewed with a glass, embossed with fine tubercles; snout rather pointed ; tympanum small, rather circular. Habit.—Very active, timid, leaping to great distances, leaving the water in search of insects, always found in or near to ponds, &c.; diffusing a rank odour; the slime which covers the skin is more excoriating than that of other frogs: appear early in April; are not very noisy. Inhabit ponds, ditches, &c. of the middle states; com- mon in the vicinity of Philadelphia.* Sp. 5. Rana utricularius. (Nobis.) Char.—Colour dark olivaceous-green above, white be- neath ; with suboval blackish spots scattered over the back ; a vocal vesicle on each side of the neck ; legs and thighs with a few blackish bands. Dimensions.—Length of the body about three inches ; of the hind legs more than four inches. Description.—Dark-olivaceous-green above, spotted with suboval dots; white or pale yellow beneath; snout * If the Rana zebra, partially described in Nicholson's Encyclopaedia, is intend- ed to represent this species, the name is pre-occupied. Vide Shaw, Gen. Zool. vol. 3. pt. 1st. 224 NEW SPECIES OF BATRACIAN REPTILES. small and angular ; head rather flattened ; a greenish vocal bladder, extending on each side of the inferior jaw and crossing the arms, in the male; in which respect this species resembles the R. typhonia, of Surinam, but is very different in its colour and markings. Inhabit Pennsylvania and New Jersey. Sp. 6. Rana halecina. (Daudin.) R. pipiens. Schneider, Schreber, Shaw. R. aquatica. Catesby, p. 70. vol. 2. Shad frog. Bartram, Trav. N. America, p. 274. R. ocellata? Kalm's Trav. in N. America, vol. 2. p. 88; who says that the Swedes call them sill-hoppe- tosser, or herring-hoppers, from their making their ap- pearance early in the spring, at the commencement of the herring season. Char.—Colour light cinereous above, white beneath; marked on the superior portions of the body with irregu- larly disposed blotches; body and limbs elongated. Dimensions.—Length of the body three and a half inches; of the hind legs, five and a half inches. Description.—Body above bright cinereous, beneath white, immaculate ; back marked by several large, oblong, dark green blotches, irregularly disposed, and occasionally surrounded by a light green halo ; body, limbs, and toes elongated; thighs and legs striped or spotted on the out- side with dark green or purple on a black base; back and outer surface of the hind legs subverucose; sides sepa- rated from the back by a longitudinal cuticular fold; tympanum of moderate size, and in colour similar to the back ; outer surface of the fore legs marked with three or four spots; toes terminated by a rose-coloured tumefac- tion ; palate of the mouth with two middle serrated emi- nences ; transverse eminences small; the posterior nares opening in cavities. This species in many respects re- sembles the R. palustris, but is distinguished, 1st, by its NEW SPECIES OF BATRACIAN REPTILES.. 225 tympanum, which is much larger; 2d, by the colour; 3d, by the number and arrangement of the blotches ; 4th, by the elongated form of the body, snout, legs, and toes; 5th, by the posterior nares, which are much larger, and open between two transverse palatine ridges in this species, there being but a single ridge in the palustris. Habit and locality.—These are active hunters, and travel a considerable distance from the water; are com- mon in the vicinity of Philadelphia, in ponds, canals, and marshes. The following species have not hitherto been well des- cribed from the living animal. Sp. 7. Rana pipiens. (Linn.) Bull-frog. Bartram, Catesby, Brown, Kalm. R. maxima. Catesby, Carolin. vol. 2. p. 72. pi. 72. R. catesbeiana. Shaw, Gen. Zool. vol. 2. part 1. p. 106. pi. 33. Char.—Brown-cinereous above, whitish beneath ; but- tocks mottled; arms and legs striped with black; head and fore part of the body more or less green. Dimensions.—Length of the body from six to ten inches; of the hind legs from eight to twelve inches. Description.—Eyes very prominent, iris golden mottled with black ; tympanum large, brownish, with a semilunar border posteriorly, extending anteriorly to the eye. In- ternal border of the upper jaw serrated, covered with the upper lip; within this border is a semilunar ridge, palate divided by a transverse ridge, interrupted in the middle by two serrated eminences ; borders of the lower jaw not serrated, notched anteriorly ; colour above cine- reous-brown, or deep olive-green, beneath dirty white ; throat greenish-yellow ; exterior surface of the extremi- ties, or legs, irregularly striped with black. Habit.—This unwieldy animal frequents ponds, ditches, 29 226 NEW SPECIES OF BATRACIAN REPTILES. marshes, lakes, and canals; is exceedingly gluttonous, swallowing young chickens, aquatic birds, small frogs, and tadpoles. The late Mr. Bartram states, that, on whipping one, it vomited forth three live frogs of con- siderable size ; when confined and starved, they have been known to attempt swallowing each other; they are most destructive to fish ponds; seldom leave the water for any length of time. Their voice is harsh, somewhat resem- bling the suppressed voice of the bull; hence their vulgar name, " bull-frog." When taken, they frequently utter a cry like the squeaking of a rabbit: when whipped, they cry like a child. They appear early in April, but are not heard to make much noise until the weather becomes warm, or during the season of their amours, when they may be heard at the distance of a mile, more particularly during the silence of the night. This species is not known by the name of i( shad -frog," as was stated by Daudin; that name being applied to the halecina and palustris: though I have not observed that any one species makes its appearance much earlier than the others. When im- mersed in spirits, this frog changes to a lively green, with a stripe along the back; in which state it was figured by Daudin. Inhabit the middle states; very common near Philadel- phia. Sp. 8. Rana clamata. (Daudin.) Char.—Colour above dusky cinereous, beneath whitish; snout more or less green. Dimensions.—Length of the body three inches; hind legs four inches and two-tenths. Description.—(Male.) Body above dark cinereous, ap- proaching to green, tuberculous; snout green; beneath the throat, breast, and interior of the fore legs, bright yel- low ; tympanum large; longitudinal folds of the back not extending the whole length of the body, and of a light co- NEW SPECIES OF BATRACIAN REPTILES. 227 lour; the belly and interior of the legs white ; thighs and legs obsoietely banded or spotted with black ; sides more or less striped with black; buttocks mottled. (Female rather larger, lighter, and altogether white beneath.) Habit.—Noisy ; generally crying just as it leaps into the water, and skimming over the surface previous to diving; screaming when caught in most instances ; very active and tenacious of life. A dog of Mr. Bartram's hav- ing accidentally swallowed one of these animals, it was ob- served to struggle and to cry piteously for at least half an hour, to the great diversion of the spectators, and no small confusion of the dog, who was at a loss to comprehend this species of intestinal eloquence. Inhabit the middle states ; the most common of all our frogs. Sp. 9. Rana ocellata. (Linn.) R. maxima virginiana. Seba. R. pentadactyla. Linn. Gmel. Argus frog. Shaw, Gen. Zool. vol. 2. pt. 1. p. 108. pi. 34. Grunting frog. Bartram, Trav. in N. Amer. p. 272. pi. 34. This species is badly figured by Daudin from a speci- men in spirits. I have not observed the species in a liv- ing state; it is very doubtful whether they exist north of Charleston. Char.—In form and size resembling the " pipiens." Body above brownish or greenish, with irregular deeper coloured spots; a small cuticular fold extends from the eye to above the flank; body beneath whitish, granulated under the belly and thighs; round brownish spots, sur- rounded with a clear teint, upon the flanks, buttocks, and thighs; fingers and toes furnished with small callosities beneath each articulation of the phalanges. Inhabits Florida and Mexico. 228 NEW SPECIES OF BATRACIAN REPTILES. Sp. 10. Rana melanota. (Rafinesque, Annals of Na- ture, first annual number, 1820.) Char.—Back olivaceous-black; a yellow streak on the sides of the head ; chin, throat, and inside of the legs, whitish with black spots ; belly white without spots; eyes large, iris gilt-violet; anterior feet four free toes; hind feet five palmated toes. Dimensions.—Total length two and a half inches. Inhabit Lake Cham plain and Lake George: vulgar name Black frog. Rana grunniens. (Daudin.) u Rana fusca, aut subru- bra, luteo post oculos maculata." This species, which Daudin erroneously refers to the grunting-frog of Bartram, I believe to be the R. oculata; it is most probably not a native of North America. DESCRIPTION OF THREE SPECIES OF ASTACUS. 229 Description of three Species of the Genus Astacus, in- habiting the United States. Astacus blandingii. (nobis.) Rostrum mucronate, canaliculate, slightly notched at the extremity: a spine behind each eye; arms tubercu- lated ; fingers unequal. Inhabits the southern states, where it is common in the marshes and rivulets. Cabinet of the Academy of Natural Sciences. Pre- sented by Dr. W. Blanding, Camden, S. C. Vid. pi. fig. 1. Description.—The hands and arms, and sides of the body tuberculated; conspicuously large on the hands; thorax with a small spine on the side, behind the trans- verse arcuated band ; first and second joints of the pedun- cles of the exterior antennae furnished with each a single spine : rostrum elongated, angular, aitenuated anteriorly, and obsoietely notched near the extremity, extending nearly to the tip of the third joint of the peduncle of the exterior antenna, carinated on each side of the base, and terminating in a post-ocular spine : anterior feet, third joint very long, with a double longitudinal series of spines beneath : carpus four-spined ; spines irregularly distribut- ed about the anterior margin: hands long, tuberculated throughout; fingers elongated, slightly curved inwards, the innermost the longest, terminating in a small spine op- posed to the thumb: caudal lamellae ciliated, lateral seg- ments with an elevated longitudinal spine ; the penultimate and antepenultimate legs of the male furnished with an ob- tuse apophysis at the base of the second joint. Dimensions.—Length from the tip of the rostrum to the tip of the tail three inches eight-tenths; breadth of 230 DESCRIPTION OF THREE SPECIES OF ASTACUS. the thorax one inch; length of the anterior feet nearly four inches; length of the hand and finger nearly equal. The present species, in size and markings, is most near- ly allied to the A. affinis of Say; but differs in the form of the rostrum; in the proportional length of the arms ; in being furnished, in the male, with an apophysis on the third joint of both the penultimate and antepenultimate legs ; in the disposition of the spines ; and in being tuber- culated. The present species will bear no comparison with the A. bartonii, with which, nevertheless, Mr. Say appears to have confounded it, when he assures us that the last named species are " extremely common in the pine barren marshes of the southern states, and particularly in those of Georgia and Florida."—Vid. Journ. Acad. Nat. Sc. Philad. vol. 1. p. 443. All the crawfish which I have seen from the southern states, are of the same species with that now described. Astacus bartonii. Vid. pi. fig. 2. A. bartonii, Bosc, Hist, des Crust. Idem, Latreille, Gen. Crust, et Insect. Vol. vi. p. 240.—Not figured. Vulgo, Fresh water Lobster, or Crawfish. Specific Characters.—Rostrum mucronate, concave; thorax unarmed ; hand short, destitute of spines ; fingers moderate in length. Length from the tip of the rostrum to the end of the tail, two inches. Very common in the fresh water rivu- lets in the vicinity of Philadelphia. The flesh is esteemed by many as a delicacy. Cab. of the A. N. S. Astacus affinis. Vid. pi. fig. 3. A. affinis, Say, Journ. A. N. S. Philad. Vol. i. p. 168.—Not figured. Specific Characters.—Rostrum mucronate, subcanalicu- F& / Fid'" Ti.o.3 .jM.,wM.,».tuy„ /(./? .Mw "(I'"'1 -'V tfo..~'......'«"" >'"»■'•■' ,.*—* *»»,■'/ b*'' DESCRIPTION OF THREE SPECIES OF ASTACUS. 231 late, two-spined; a spine behind each eye, and a larger geminate one, on each side of the thorax ; hand and thumb on the inner edge scabrous. Length from the tip of the rostrum to the end of the tail, about three inches; breadth of the thorax nine- tenths. Inhabits the river Delaware, and its tributaries. Cab. of the A. N. S. 232 ON THE SUCCESSIVE FORMATIONS On the Successive Formations of Organized Beings. " The interests of society often render it expedient not to utter the whole truth, the interests of science never; for in this field we have much more to fear from the deficiency of truth, than from its abundance." It is proposed in this memoir to endeavour to trace the successive formations of organized beings, commencing with the earliest periods of animal existence, in order to examine their various modifications, from the simple to the most complex. The present view is offered merely as an outline of one of the most interesting, as it is one of the most recondite subjects of such researches: we shall first examine the validity of that doctrine which attributes an uninterrupt- ed succession in the formation of living beings, which doctrine has been recently most fully developed by Mr. Virey. (Diet. d'Hist. Nat. Art. Nature.) Concerning the successive formation of living creatures, Virey remarks, u all animals, and all plants, are originally only the modifications of a single animal, and of a single vegetable; we may pursue in the composition of their organs, the whole chain of their resemblance. Let us take, for example, physical man, or the most perfect of trees. If we unfold the first, layer by layer, if we ab- stract by degrees all his parts, we shall deduce from him the whole series of animals, and shall reduce him at last to the most simple term, the primitive type of animality. We may do the same with the vegetable. It is then evi- dent, that this complication of organs, which we observe in the most perfect beings, is produced only by a succes- sive progression, a species of organic maturity, or con- OF ORGANIZED BEINGS. 233 tinued development. The animal kingdom is in some degree only a single animal, but varied and composed of a multitude of species, all dependant on the same origin. In the same manner the vegetable kingdom has been form- ed from a single vegetable, and it may be said that animals are all brothers, as plants are all sisters. "This admirable chain of organization in animals and plants, is extended even to the generation of each indivi- dual. The embryon of a quadruped, for example, during the first periods of fecundation, is nothing but a living jelly, very similar to the substance of a polypus, or to the organized glaire of the zoophite. Some days after, the first rudiments of its members renders it similar to the worm and to other animals of this family; it soon acquires vital faculties analogous to those of the larvse of insects or of the mollusca. It passes afterwards to a state similar to that of fishes, and like these animals it swims in a fluid. In the first stage of its being it enjoys scarcely more than the sluggish and obscure life of a reptile,—like which, the young animal is scarcely able to drag itself along; at length it rises to the rank which nature has prescribed for it. The same may be observed of vegetables. Young animals and young plants are of a soft, humid and spongy texture; and old vegetables, like aged animals, are of a dry and hard temperament. In the same manner the most imper- fect animals, as the polypes, vermes and mollusca, like the most simple plants, as the mushroom, moss and liliacea, are of a very moist and soft constitution. On the contrary, birds and quadrupeds, trees and shrubs, are of a firm and solid consistence. Thus the most simple animals and vege- tables represent the youth of living nature; whilst the most complicated animals and vegetables represent the old age of nature. u Each class of these two organized kingdoms offers to us a scale of the vivification of matter. Life, indeed, so obscure in the simpler forms of being, becomes increased 30 234 ON THE SUCCESSIVE FORMATIONS and developed in proportion as we advance to beings more perfect; plants possess only a vegetative existence, imper- fect animals appear rather to vegetate than to feel; finally, the most perfect races live, feel and think. In proportion as the vital powTer concentrates, forming but one absolute whole, the more it is perfected and enriched with organs. All beings tend to vital perfection; thus each individual receives a greater development of faculties in proportion as it advances in age ; in the same manner the most imper- fect beings aspire to a nature more perfect; it is on this account that species rise incessantly in the chain of organ- ized bodies, by a sort of vital gravitation. For example, the polypus tends to the nature of a worm, which tends to the organization of an insect; the insect aspires to the conformation of the mollusca, the latter endeavours to change into a fish, and so on even to man! Thus, we may say, the monkey aspires, by successive modifications, to the organization of the negro, and the negro inclines to that of the white man. Among plants the same gravita- tion is observable, because nature always aspires to the perfection of her works. It appears then manifest, that the most perfect beings spring from the least perfect, and that they become perfected by a succession of generations. All animals incline towards man ; all vegetables aspire to animality; minerals tend towards vegetables; but the more vital the matter, the greater is its liability to death, because it is possessed of more unity, which may be de- stroyed at one blow. On the contrary, the most imperfect of animals are the most prolific; they are even so tenacious of life, that they live after having been divided; and re- produce the parts cut off by the knife, and even multiply into as many individuals, as there are pieces, as is exem- plified in the hydra and actinea, &c. Vegetables them- selves are very tenacious of life, being reproduced by slips, suckers, shoots, and various other means besides grafting and seed. Those beings the least favoured in re- OF ORGANIZED BEINGS. 235 gard to complexity of life, are indemnified by their fecun- dity. " Man is much more easily killed than the earth worm, all proportions considered ; if we enjoy more intelligence and sensibility than the fish, this animal is a thousand times more prolific, and more vivacious. Imperfect ani- mals and vegetables are endowed with more physical vi- tality, ourselves with a greater proportion of sensitive life, and moral feeling. Our existence is principally occupied with the functions of the brain and nerves. Animals spend their life principally in the functions of generation and nutrition. " Every being, therefore, has an equal proportion of life, but each consumes it after his own manner. The more vitality is expended externally through the medium of sensibility and intelligence, the sooner do the internal organs decay. Animals being chiefly occupied with the internal functions, are more robust and prolific, as well as more exempt from the diseases and infirmities of man, who, in proportion as his existence is more occupied in thought, sentiment, and exterior affections, has his internal organs debilitated, and his physical powers diminished. i( We thus observe several orders of life ; 1st, that of intelligence, which appertains to man ; 2nd, that of sen- sation, which characterizes animals; 3d, that of nutrition, or the vegetative faculty, which is more peculiar to plants, although animals are not deprived of it: but all these dif- ferent modes of existence emanate from a common source, viz. the soul of the world, or the spirit of God; it is for this reason we say, He fills the world, exists everywhere ; that we live and breathe through him alone. Our souls even are nothing more than emanations from this soul of the Universe, which establishes throughout, harmony and concord. " It is evident that nature having created a series of plants and animals, and having finished with man, who 236 ON THE SUCCESSIVE FORMATIONS forms the superior extremity, she has concentrated in him alone all the vital faculties which she had distributed to the inferior races. Man, then, possesses the essence of all organic power ; it is in his brain, that the divine power, which has presided over the formation of beings, begins to display itself. It is thus that man is capable of know- ing all that is beneath him, for it is only necessary to cause his intelligence to return by that route followed in the or- ganization of the body. It is in some respects, a remi- niscence of the soul, since it passes through the whole chain of animals until it ascends even to man. In order to understand, we have only to develop the inherent fa- culty of thought, which contains in itself all the elements of human science ; this regular development is what we call reason, which exists in every man, though not equally developed in all, " If this was the proper place we might show further, that the soul aspires to elevate, the body to debase itself! all the inferior parts of animals tend principally to phy- sical life, such as nutrition and generation ; whilst the su- perior parts, on the contrary, containing the nervous ramifications, the senses and the brain, tend principally to moral and intellectual existence. It may be added, that animals excel by brutal qualities, and men by intel- lectual ; and that animals diminish in the former respect, in proportion as they approach the latter. It would be still possible to conceive that if nature should one day create beings superior to man, they must necessarily be endowed with greater intellectual energy, and less of brutal propensity, just as the inverse is observable in the inferior orders of beings ; commencing even in the negro. Such superior beings may possibly come within the plan of nature, as all the nations of the earth appear to have anticipated them in genii, demons, spirits, and angels, which convince us that the human soul aspires, throughout the earth, to a state of higher perfection, and endeavours OF ORGANIZED BEINGS. 237 to ascend the chain of all possible existence, even to the throne of divinity. We are, indeed, nothing else than the starting point of a more perfect type, just as animals are nothing more than successive points of imperfect man ; and as plants are the commencement of animals, or the first stage of their organization."—(Virey, Diet. D''Hist. Nat. Art. Nature.) He continues to state, that we can no longer doubt of the common origin of beings, when we consider their re- semblance; thus, all the different kinds of rats, mice, &c. are absolutely the same animal, differing only in size, co- lour, and other superficial characters, occasioned by greater abundance of nourishment, light, heat, moisture, and climate, which are the chief agents in modifying the formative principle of animals. In the same manner, " the cat, lynx, panther, leopard, tiger, lion, &c. belong absolutely to the same original stock." Among birds simi- lar analogies are observable; and this resemblance is equally ascertained among vegetables; every variety of mushroom, the umbellifera, the liliacea, &c. afford still more complete proofs of this truth; and among insects, all the papiliones, the whole family of fleas, flies, and spiders, &c. Nature need only vary in a slight degree the numerous generations of the same plant, or of the same animal, in order to create a multitude of analogous animals, which we name species. The most remarkable variations are denominated classes, orders, genera: and all this scaffolding of methods has been invented by the hu- man mind, in order to facilitate the knowledge of objects; but which is by no means acknowledged by, or founded in nature ; she having produced at first only a single ani- mal, and the most simple vegetable, which she has varied " ad infinitum," and complicated by easy grades, even to the most perfect creatures. (( All this diversified machi- nery of animal existence is co-ordained and united to- 238 ON THE SUCCESSIVE FORMATIONS gether, like the various pieces of an immense edifice;— and evidently proves the impossibility of spontaneous generation. If an animal could be produced by matter, in a state of putrefaction, why should nature employ such complicated apparatus for the purpose of reproduction? whence the necessity of these meanderings, these laby- rinths, in order to elaborate, appropriate, and perfect a vivyfying fluid? to extract it from the blood and impreg- nate it with the nervous influence, in order to impress upon it the highest degree of vital energy? Wherefore this superfluous pomp in all the organs consecrated to reproduction ?" The author above quoted, grounds his disbelief in spon- taneous generation, principally on two experiments, 1st, Leuwenhoeck, the first discoverer of animalculi infusorioe, declares, that having taken a piece of fresh veal, and her- metically closed it in a glass vessel during many months, he observed an infectious serosity to flow from it; this he immediately examined with the microscope, and repeated his examination at various periods, always exactly closing the vessel, and was never able to discover the slightest ap- pearance of animalculi. (This experiment was performed in 1686.) Since this time Spallanzani and others have repeated these experiments, either in closed vessels, or by placing the substances in a state of putrefaction, in gas deprived of oxygen ; but not the least signs of animation were ever visible ; hence M. Virey concludes, primitive germs are absolutely indispensable in procreation. To me these ex- periments are both questionable on the same principle, viz. that oxygen is necessary in some form or other to all stages of animated beings, and this is precisely what was denied in all the experiments above alluded to. The reasoning which follows is much more conclusive. It appears to us, says M. Virey, as utterly impossible, that the simplest atom of living matter could organize it- OF ORGANIZED BEINGS. 239 self in putrescent matter, as, that a horse or an ox could leap forth from a mountain of smoke ; for if we should com- bine a sufficient quantity of putrescent or decomposing matter together, why should not an elephant or a man be produced, in preference to animalculi ? Another argu- ment of the falsity of equivocal generation, of the weak- ness, (or if we may be allowed the expression,) the uputri- dity," of such an opinion, is, the little probability that chance, (which they say presides over such creations,) would at all times produce well formed and very distinct species. It is scarcely possible, if chance was really the parent of these animals, that monstrosities and the most imperfect efforts would not sometimes occur; there is no reason why one sort should be produced to the exclusion of others, or why an assemblage of new species, or thou- sands of proteiform infusoria, should not occur to baffle description. Why always vibrios for example, from paste or vinegar, and not every other imaginable species ? is it denied this matter, to construct a fish, a Crustacea, or any other figure, inasmuch as the thousand circum- stances of chance are so variable ? Far from this! there are always exactly the same forms, the same species of intestinal worms, or infusoria, which are regularly pro- pagated. And whilst we observe on the surface of the globe different species, as the horse and the ass, mixing to- gether and producing hybrids, putrefaction by the rarest privilege, although submitted to chance, preserves, on the contrary, the precise forms of animalculi, constant and perfect species of cysicircus, vorticella, volvoces, &c. It is thus sexual generation only, which produces monsters ; whilst the pretended chance of putrefaction affords the most pure and permanent species; this would be wrong presiding over right, and the laws of wisdom contradict- ing themselves. The doctrine of spontaneous generation would appear then, in direct opposition to the established laws of nature; 240 ON THE SUCCESSIVE FORMATIONS its admission has been generally opposed by theologians, inasmuch as it has been occasionally used by atheists and materialists, as a support to their systems. But all theo- logical considerations aside, we would be inclined to take the facts as they are ; and if spontaneous generation can be proved, would admit the same, with all the conse- quences, whatever these might be. Theologians, nevertheless, formerly admitted with the peripatetic school, the doctrines of spontaneous genera- tion ; and St. Thomas, in many parts of his theological visions, established, that the virtue of Heaven, or what in the present day is called i( cosmic power," was sufficient to produce the imperfect animals, such as insects ; but not the more perfect, as quadrupeds or birds. But theology never decided that new species or unknown races were created in this manner; on the contrary it establishes, that those species which are the daily product of putrefaction, were " originally produced in their principles," in the days of the creation of the world, by the Supreme Au- thor. Which is to say, that their germs, or their primi- tive forms, were assigned them according to general laws from which they cannot deviate. Here then is the hand of God placed over the pretended generation of chance. The true science of nature will thus lend at all times, and under all circumstances, the firmest support to reli- gious sentiment in manifesting the creative wisdom of God. The idea of the successive formation of organized be- ings, by means of progressive improvement, was first, among modern authors, seriously maintained by Lamarck. The object of the " Philosophic Zoologique," of La- marck, is to trace the steps by which the whole of the animal creation has been constructed, through the gradual working of the natural tendencies of the animals them- selves. The world of life had its origin, it seems, in cer- tain " petits corps gelatineaux." Such elementary bodies formed the lowest classes of animals ; and these again, by OF ORGANIZED BEINGS. 241 their feeling of their wants, by their efforts, by the opera- tion of a "sentiment interior," first acquired organs, and then developed and multiplied these acquisitions, till they had passed through all the varieties of animal being which now exist or have existed. Finally, among these creatures there arose a dominant race, which, having acquired a su- premacy over the others, succeeded in placing a consi- derable distance between themselves and the other tribes. To this race of animals we and our readers have the ho- nour to belong. It is not the organs, or, in other words, the nature and form of the parts of the body of an animal which have given rise to its habits and its particular facul- ties ; but, on the contrary, its habits, its manner of living and those of its progenitors have, in the course of time, determined the form of its body, the number and condi- tion of its organs—in short, the faculties which it enjoys. Thus otters, beavers, water-fowls, turtles, and frogs, were not made web-footed in order that they might swim ; but their wants having attracted them to the water in search of prey, they stretched out the toes of their feet to strike the water, and move rapidly along its surface. By the repeated stretching of their toes, the skin which united them at the base acquired a habit of extension, until, in the course of time, the broad membranes which now con- nect their extremities were formed. In like manner the antelope and the gazelle were not endowed with light agile forms, in order that they might escape by flight from car- nivorous animals; but having been exposed to the danger of being devoured by lions, tigers, and other beasts of prey, they were compelled to exert themselves in running with great celerity, a habit which, in the course of many generations, gave rise to the peculiar slenderness of their legs, and the agility and elegance of their forms. The cameleopard was not gifted with a long flexible neck, be- cause it was destined to live in the interior of Africa, where the soil was bad and devoid of herbage ; but being 31 242 ON THE SUCCESSIVE FORMATIONS reduced, by the nature of that country, to support itself on the foliage of lofty trees, it contracted a habit of stretching itself up to reach their high boughs> until its fore legs became longer than the hinder, and its neck sa elongated, that it could raise its head to the height of twenty feet above the ground. Virey thinks he is able to trace that vast and compli- cated machinery, man, through his various gradations, for rather degradations,) down to the primitive monade, the first invisible atom of organic existence ; or " mount- ing upwards,, link by link, with step aspiring trod, he climbs through nature^ up to nature's God!" The doctrine thus attempted to be taught has been ri- diculed by some, and viewed with contempt by others; but whilst we are inclined to consider the views of the authors as a splendid specimen of the Nugae Philosophies, or of captivating eloquence ; they demonstrate to us the necessity, in matters of science^ of restraining the imagi- nation within the range of sober judgment; for surely, it is scarcely possible to conceive of a philosophical disqui- sition approaching nearer to reverie ; but as it appears to have been conducted in the spirit of philosophy, in the same spirit it should be viewed as worthy of cautious con- sideration. The author to whom these remarks more par- ticularly apply, is confessedly one of the most eloquent writers of our age. But unfortunately for science, M. Virey is not a skilful naturalist^ and when occupied with subjects purely scientific, which require minute detail, it is no wonder, that his unlimited and general views, should occasionally seduce him into error. He who could observe in the different stages of the embryotic foetus, nothing more than a constrained analogy to the polypus, the worm, the larva, the fish and the reptile, would, by an acquaint- ance with the laws of co-existence, or the mechanical phi- losophy on which organic bodies are constructed, have been enabled at this early period of the embryon, to con- OF ORGANIZED BEINGS. 243 template the rudiments of the most complex and perfect animal; he would have been compelled to acknowledge, that throughout the whole animal ereation, no one being is imperfect; but that eaeh is equally finished and perfectly adapted to perform its part in the sphere in which its destiny had placed it. It will not be denied that nature aspires to the perfec- tion of her works; that is to say, that eaeh individual of the most complicated animals proceeds from the most sim- ple point of organization. The sturdy oak, whose luxuriant foliage constitutes the pride of the forest, at one time formed but a speck in the acorn ; and man himself, the self-reputed lord of the crea- tion, sprung from a few atoms, of less importance than the fluids of an animaleulus; but we maintain that each animal is equally perfect in its kind ; and consequently, that the 6'perfect" [complex] do not proeeed from the "imper- fect" [simple.] Nor would we deny, what indeed is self-evident, the general polity of nature, that is to say, the constant and inseparable connexion of her various productions. Vege- tables depend immediately for their subsistence upon earthy, aeriform, and inorganic particles; animals ani- malize vegetables; and man subsists upon them all; and in this way only can vegetables be converted into animals; the most simple into the most complex beings; and not by successive generations. So far from this indeed, we believe that every truly specific difference observed in animals or vegetables, is solely dependant on a specific difference in the constitution of the primordial germ ; and that it is totally beyond the power of art, or any external circumstance, to change this order of things: to convert the lion into a tiger, a mouse into a rat, or cause the leopard to ehange his spots. On the contrary, we have not a single plausible reason for supposing that during 244 ON THE SUCCESSIVE FORMATIONS three thousand years, or as far back as the records of his- tory go, the least perceptible change has been effected on the most simple animals ; some of which were accurately described by Aristotle, two thousand one hundred years ago. We have every reason to conclude, that every dis- tinction of existing species has existed from the earliest periods of the formation of the present world ; and has its origin ultimately in the nature of the soil; every variety of which is marked by a corresponding variety in its ani- mal and vegetable productions; and many of these are limited by geographical distribution. When the island of New Holland was first discovered, the extraordinary peculiarity of its climate, soil, animal and vegetable pro- ductions, were for a time the astonishment of the world. On the same principle, it is rational to presume, that if by any extraordinary revolution of nature, the present state of the surface of our globe should become totally changed, such a revolution must necessarily be attended with a corresponding change in its animal and vegetable productions. New races of animals would march forth, the least intelligent of which might possibly be enabled to contemplate with wonder and admiration, the strange and outre organization, exemplified in the remains of a former world, as we at the present moment behold the mastodon, megatherium, palseotherium, and other fossil reliquiae of the preadamitic worlds. Who shall presume to set bounds to that power which commanded, " let there be light, and there was light:" which after having formed the fish of the sea, and birds of the air, said, " let the earth produce living animals, reptiles, and beasts of the fields, according to their species: and it was done." Finally, to perfect the whole, " Let us make man! with beauty clad, And health in every vein; And reason thron'd upon his brow, Stepp'd forth majestic man; OF ORGANIZED BEINGS. 245 " Around he turns his wond'ring eyes, All nature's works surveys; Admires the earth! the skies! himself! And tries his tongue in praise! " Ye hills and vales! ye meads and woods! Bright sun and glittering star! Fair creatures, tell me if you can, From whence and what we are 1 " What parent power, all great and good, Do these around me own ? Tell me, creation, tell me how, To adore the Vast Unknown!"—Darwin. Between species and species nature has drawn a line of separation, which time cannot change nor the sophistry of man obliterate. In our observations on the polity of nature, nothing is more calculated to arrest the attention of the naturalist than that immutable law, which from the very commencement of organic existence, has impressed upon her productions specific characters ; and which con- tinues to maintain them in despite of innumerable oppos- ing causes. The domestic dog, (the proteus of carnivorous animals, which Pallas and some others believe to be a prolific hy- brid,) has like a faithful slave followed the destinies of his master in every climate, has been subjected to every va- riety of food, education, and discipline, yet in no case has this animal so far departed from its original type as not to be easily recognised by the most indifferent observer; deformities and monsters are indeed to be met with, but in no instance has it given origin to a race resembling in specific characters the wolf, fox, jackall, or hyena, ani- mals most nearly related to him in external form and in- ternal structure. Such being the ordinary march of nature (which an im- partial examination of her laws impels us to believe is really the case,) where shall we look for the proofs of the common origin, or successive and uninterrupted formation of living creatures ? 246 on THE SUCCESSIVE FORMATIONS If we now turn our regard towards the great truths un- folded by geological science, we shall at every step be met by additional arguments in favour of the position we have taken ; we shall be convinced that the surface of the globe we inhabit has been subjected to many revolutions, immense in their extent, and tremendous in their conse- quences ; all of which bear the most unquestionable evi- dence of the presence, foresight, and intelligence, of a first great cause, the Supreme Director of the Universe. When we endeavour to penetrate the dark night of time, obscured by the dust of accumulated centuries, and reflect for a moment on the state of our globe anterior to the creation of all living beings, we wander into regions over which the torch of science sheds but a dim and fee- ble light, to render " darkness visible." Of the interior of our globe we know nothing; the first three strata of primordial rocks,—granite, gneis, and mica-slate,—possess every appearance of having been held in a state of solution, and of having become rocks long be- fore living nature had established her laws; whilst the ocean was a sterile empire, ere yet the monstrous whale had sported on its billows, and thousands of sparkling fishes and shells were wanting to animate the fathomless depth. When we wish to ascend to the causes of the formation of beings, positive facts, for the most part, are known to us only by their results, or by the inductions that we are enabled to draw from them; since we have no contempo- raneous witness of these great events. It is not certainly by an accumulation of minute details, that we can expect to advance in the study of nature; they rather serve to surcharge it with a useless luxury: those great laws which have formed the universe are much more worthy of our observation; we are but little benefited by travelling in- cessantly in the same circle of knowledge, without endea- vouring to escape from this terrestrial prison, without raising our regards towards the All-powerful arm which OF ORGANIZED BEINGS. 247 gives life and movement to matter. But from the absence of much precise knowledge which we can never acquire, we are forced to recur to philosophical inductions, and to admit the most rational principles we may be enabled to discover by our thoughts; but besides that these induc- tions and principles become legitimate instruments of rea- son, when it is necessary to penetrate by means of medita- tion into the mysterious sanctuary of first Cause, there are no other means by which we can become acquainted with them ; we have no other choice but to make use of them, if we wish to advance in the study of nature. I trust I shall meet with indulgence in offering my fee- ble efforts to trace those mighty revolutions to which our earth has been subjected ; remains of myriads of fossil ani- mals, its former inhabitants, those archives of nature im- printed upon the rocks, and imbedded in the interior of mountains, offer to our inspection irrefragable proofs ; the contemplation of which excites in our minds conceptions of the state of the primitive earth, such as we may have of the splendour of an ancient city, by wandering over its remains, and viewing its fallen columns, its decaying monu- ments, and its buried edifices ! With this view let us divide the creation into several distinct though arbitrary periods. The first epoch pro- duced the primitive monades, which have left no impres- sion ; the mollusca nuda, and corollines, together with multilocular shells, succeed; then follow univalves, bi- valves, and Crustacea, &c. ; all the above are peculiar to salt water formations, at least there does not appear any evidence of fresh water formations in the mineral kingdom, or in the impressions of the fossil remains which must ne- cessarily have accompanied such formations. Proceeding upwards, towards the present surface of the earth, we discover proofs of the many revolutions to which it has been successively subjected; always accompanied with greater or less changes in the nature of its animal and 248 ON THE SUCCESSIVE FORMATIONS vegetable productions, relics of which are found more or less scattered among the fossil reliqui* of former worlds —for it does not appear that every revolution has been attended with entire destruction of animal existence ; on the contrary, some of these, as the cornua ammonis, for example, are found dispersed throughout various succeed- ing strata, and extending over a great portion of the globe. —But generally speaking, each grand revolution forming extensive strata, has occasioned the destruction of most of the old, and formation of many new animals and vegeta- bles ; constituting newT orders, genera, and species ;—each successive generation differing from that which precedes it, less and less in proportion as we advance towards the diluvial formation which covers many parts of the present earth's surface. No remains of fresh water, or land ani- mals, have been discovered previous to the secondary for- mations—in which, as in the oolite and lias formations, we discover for the first time amphibious and land animals. The strata above-mentioned, together with the calcareous schistus, furnish us with the remains of the ichthyosaurus, plesiosaurus, saurocephalus, megalosaurus, iguanadon, hy- lseosaurus, crocodilus, &c. ; advancing upwards to the gypsum formation, we are struck with the novelty of its fossil remains ; we here, for the first time, meet with land mammiferous quadrupeds, viz. Palseotherium, seven spe- cies :—Anoplotherium, five species, (these quadrupeds partake somewhat of the hog and deer in their organiza- tion,) a species of sus, canis, vivera, and didelphis: three or four species of birds: two species of reptiles: three or four of fishes: these animals are all found imbedded in the gypsum, which is covered over with a light layer of white marie, containing phytolithites, fragments of fishes, with specimens of limneus and planorbes, with other fresh water shells; the whole of which is covered with a marine formation, filled with sea-shells. It was most probably after the destruction of the animals above OF ORGANIZED BEINGS. 249 enumerated, that the earth was fitted to support the im- mense quadrupeds whose remains are discovered in the upper formations of the present surface of the earth ; such as the mastodon, elephant, megatherium, megalonyx, rhi- noceros, hippopotamus, &c. all extinct and mammoth spe- cies of animals.* It would appear, indeed, that at this period nature delighted in the creation of gigantic beings. Thus fossil whales have been discovered measuring up- wards of one hundred feet; sharks sixty or seventy feet; reptiles fifty to an hundred feet, &c. The same deluge of which we are speaking, doubtless destroyed and inhum- ed the denizens of those caverns, so successfully investi- gated by Professor Buckland (Reliq. Diluv.) among which were the hyena, tiger, bear, wolf, fox, weasel, horse, ox, deer, hare, rabbit, rat, mouse, raven, pigeon, lark, duck, and partridge. These fossils possessed appearances which rendered it certain, that they had lived and died in the same regions where they were discovered ; as did also the Siberian elephant, which proves that the northern latitudes were then warmer than they are at present, which is further demonstrated by the fossil vegetables and animal remains found within the arctic circle. The fossil bones of the rein-deer are discovered south of the Mediterranean ; these animals do not now exist south of the Baltic sea ; these latitudes were then at some period colder, as is testified by other well authenticated facts. No remains of man; of hitman art or invention; or those animals most nearly allied to him, as the monkey, bat, &c. ; or of any animals of a similar species with those he has domesticated, such as the sheep, hog, dog, cat, ox, goat, &c. &c. have ever been discovered (fossil) in this or in any other situation ; consequently it is probable, that the diluvian animals were destroyed anterior to the existence of man. Among these remains are found extinct * In France, a species of mastodon has been found in the Eocine or lower ter- tiary formation. 32 250 ON THE SUCCESSIVE FORMATIONS genera and species; consequently they could not have been victims to the flood of Noah, as we are informed that a specimen of every living being was preserved in the ark.* It is clearly ascertained, says M. Cuvier, that the ovi- parous quadrupeds are found considerably earlier, or in more ancient strata, than those of the viviparous class. Thus, the crocodiles of Honfleur, and of England, are found immediately beneath the chalk. "The great Saurien reptile, and the tortoises ofMaes- tricht, are found in the chalk formation, but these are both marine animals. The earliest appearance of fossil bones indicates that dry lands and fresh waters must have existed before the formation of the chalk strata. Yet neither at that early epoch, nor during the formation of the chalk strata, nor even for a long period afterwards, do we find any fossil remains of mammiferous land quadrupeds. We begin to find the bones of mammiferous sea animals, namely, of the manati and of seals, in the coarse shell limestone, which immediately covers the chalk strata in the neigh- bourhood of Paris. But no bones of mammiferous land quadrupeds are to be found in that formation, and not- withstanding the most careful investigations, we have never been able to discover the slightest traces of this class, excepting in the formations which lie over the coarse limestone strata ; but on reaching these more recent for- * As relates to the fossil mammifera, most of which were discovered by Cuvier, they form a series consisting of about seventy-nine species.—Nineteen of which have been found in the calcareous gypsum formation; twenty-one in other strata equally new; and none of which have been met with in formations anterior to the coarse shell limestone; thirty-nine present their remains in the most recent diluvial deposits, or nearly at the surface of the earth, and consequently appear the less ancient of those animals of which the species have become extinct. None of them belong to the orders bimana, and quadrumana; nor to the family cheiroptera; ten are related to the order carnivora, properly so called; one only belongs to the marsupial family; three are of the order glires ; two of the edentata; fifty of the order pachydermata; ten of the ruminantia; and four at least belong to the cetacea. Those buried at the greatest depth, differ most widely from recent mammiferse, and are sufficiently distinguished to form particular genera. OF ORGANIZED BEINGS. 251 mations, the bones of land quadrupeds are discovered in great abundance. As it is reasonable to believe that shells and fish did not exist at the period of the formation of the primitive rocks, we are also led to conclude, that the ovi- parous quadrupeds began to exist along with the fishes, while the land quadrupeds did not begin to appear till long afterwards, and until the coarse shell limestone had been already deposited, which contains the greater part of our genera of shells, although of quite different species from those that are now found in a natural state. There is also a determinate order observable in the disposition of these bones with regard to each other, which indicates a very remarkable succession in the appearance of the dif- ferent species. All the genera which are now extinct, as the palaeotheria, anoplotheria, &c. with the localities of which we are thoroughly acquainted, are found in the most ancient of the formations of which we are now treat- ing, or those which are placed directly over the coarse limestone strata. It is chiefly they which occupy the regular strata, which have been deposited from fresh waters or certain diluvial beds of very ancient formation, generally composed of sand and rounded pebbles. (i The most celebrated of the extinct species belonging to known genera, as the fossil elephant, rhinoceros, hippo- potamus and mastodon, are never found with the more ancient genera, but are contained for the most part in di- luvial formations. " Lastly, the bones of species, which are apparently the same with those that still exist alive, are never found except in the very light and alluvial depositions, and pro- bably are not, strictly speaking, fossil remains." Such is the statement of M. Cuvier, formed on long and accurate observation of organic remains in their original positions, aided by the first museum of detached specimens in the world. Now to all this, it has been intimated: First, that the asserters of this hypothesis are infidels! 252 ON THE SUCCESSIVE FORMATIONS, &C. and secondly, that the hypothesis itself is gratuitous and unnecessary. To the first of these charges, we shall only reply, that the puerile practice of calling names has long ceased to be considered a legitimate instrument in logic. When such individuals interfere in questions of science, it is always for the purpose of suppressing, not for pro- moting knowledge: truth is to the moral, what the sun is to the physical world ; the glare of the former, indeed, to the bigoted, is as insupportable, as was the effulgence of the sun to Milton's fallen hero ; whose address to the glorious luminary is equally applicable to either. " O thou, that with surpassing glory crowned, Look'st from thy sole dominion like the God Of this new world; at whose sight all the stars Hide their diminished heads ; to thee I call, But with no friendly voice, and add thy name O Sun, to tell thee how I hate thy beams."—Milton. To the second charge, we need only remark, that if an hypothesis is gratuitous and unnecessary, the phenomena to be accounted for may be explained without it: our op- ponents offer no explanation. ORGANIC REMAINS OF NORTH AMERICA. 253 Critical Notices of various Organic Remains hitherto discovered in North America. The author of the following observations has been led to the undertaking by the urgent requests of many of his scientific friends in Europe. It will appear in the ensuing pages that many eminent American naturalists have occupied themselves in the successful prosecution of this most interesting department of human knowledge ; and yet very recent inquiries have satisfied us, that but a small fraction of what has been published on this subject in this country is adequately known to foreign naturalists. With the exception of some few of our scientific journals, the limited circulation in foreign countries of our scientific publications, is a sub- ject of just complaint among Europeans, who interest themselves in works of this nature. We have been ho- noured with the personal acquaintance of hundreds of transatlantic savans, to whom we are well assured the fol- lowing pages, imperfect as they necessarily are, will prove an acceptable offering; a motive in itself more than suffi- cient to impose upon us a more difficult task; and the end satisfactorily attained, is more than adequate compensa- tion for the labour bestowed. 254 ORGANIC REMAINS OF NORTH AMERICA. CLASS MAMMALIA. ORDER PACHYDERM AT A. Genus Mastodon, Cuv. M. giganteum or maximus of Cuv. Recherches sur les Ossemens Fossiles, Vol. I. 3d edition; S. L. Mitchill's edition of Cuvier's Theory of the Earth; Harlan's Fauna Americana; Cooper's Notice of Big-bone Lick, Am. Monthly Journal of Geology; Peale's Account of the Skeleton of the Mammoth, 4to.; Trans. Am. Philos. Soc.; Ann. of Lye. Nat. Hist. N. York: Syn. Tetracaulodon, of Godman, Trans. Am. Philos. Soc. Vol. III. new series; Mammoth of the Anglo-Americans; " Father of the Buffaloes," of the Indians; Animal d'Ohio, of the French. Locality.—Confined to North America, principally in the valley of the Ohio, Big-bone Lick, Kentucky, but oc- curring in every state of the Union. Specimens of the teeth and bones in most cabinets of Natural History. A skeleton nearly complete, both in the Philadelphia and Baltimore museums. Place in the Geological Series.—Not yet ascertained with sufficient accuracy. According to De la Beche, " Geolog. Manual," occurring not later than his "Erratic Block Group," which also includes the elephant or mam- moth, and five other species of Mastodon, together with the genera Hippopotamus, Rhinoceros, Tapir, Cervus, Bos, Hyena, Ursus, Megalonyx, Megatherium, &c. Mr. De la Beche remarks, p. 169 :—" The relative age of the deposit in which the American Mastodons are found, cannot be considered as satisfactorily ascertained. Some geologists are of opinion that these animals have dis- appeared more recently than is commonly supposed; that is, previous to the commencement of the modern group." In Europe the remains of the Mastodon and other large mammifera sometimes occur buried in more ancient strata than those noticed in the Erratic Block Group. There is ORGANIC REMAINS OF NORTH AMERICA. 255 a mixture of the remains of Mastodon and Palseotherium in the basin of the Loire, in the Touraine faluns, (Mio- cine.) According to M. Desnoyers, the bones are broken and worn, their substances black and hard, often siliceous, and altogether resembling, in these respects, the marine mammalia which accompany them. Some are covered with serpulse and flustrse, showing that they have remained as bare bones for some time in the sea ; the remains are those of the Mastodon augustidens, Hippopotamus, Rhino- ceros, Tapirus, Anthracotherium, Palseotherium, Equus, Rodentia, Lepus, and Cervus. (Vide Desnoyer, Ann. des Sc. Nat. 1829.) In most instances there is sufficient evidence that these animals died, and left their bones to become fossilized in the precise situations in which they are now found ; and that they have not been brought from a distance or ex- posed to the action of running waters, which proves clearly that they have been destroyed subsequently to the action of those causes whioh formed the beds of gravel or diluvial detritus, in and upon which they are frequently found. Not only are the teeth and bones of this animal unworn by the action of running waters, but the skeleton is not unfrequently discovered in a standing position, just as the animal has sunk into the marsh or mud, clay and sand. Such were those from Great Osage river. Cuv. An. Foss. Vol. I. p. 222 ; and in the skeleton noticed by Dekay and others. Ann. N. Y. Lyceum. In some instances it would appear that the stomach itself, with its vegetable contents, has been preserved. In a letter addressed to Cuvier, by the late Professor B. S. Barton, there is an account of the discovery of the remains of a Mastodon, in Withe county, Virginia, five feet and a half beneath the soil, on a bank of limestone. " But what renders this discovery peculiarly curious," continues M. Cuvier, Anim. Foss. Vol. I. p. 219, "is that they col- 256 ORGANIC REMAINS OF NORTH AMERICA. lected from amidst these bones, a mass of semimasticated small branches, grasses, leaves, &c, among which it was thought a species of brier, still common in Virginia, was recognisable ; the whole of this being enveloped in a kind of sack, which was regarded as the stomach of the animal, so as to leave little doubt that it consisted of the identical substances which the animal had devoured." M. Cuvier further remarks, p. 222, " Indications of the sojourn, or passage of the sea over the remains of these animals appear to be more rare than in the case of the elephant bones; I have never seen any remains of shells or zoophites on the bones of the great Mastodon which I have examined." During the exploration made by Lieut. Col. S. H. Long, at Big-bone-lick, in 1824, great quantities of the remains of the elk and bison, both recent and fossil, were disinter- red along with the bones of the Mastodon. From the facts and observations above detailed, together with others of a similar nature, that might be produced, we are led to the conclusion that the great Mastodon, and other similarly situated animals, must have ceased to exist, at a period much more recent than is generally supposed. Much has been written of late by inexperienced indi- viduals, containing romantic descriptions of the remains of monstrous extinct quadrupeds, disinterred in various parts of our country, and which are calculated to produce much confusion when they attract the attention of the un- initiated. Thus, in excavating the canal around the falls of the Ohio, the remains of portions of several individual ske- letons of the Mastodon were exhumed from the river banks, several feet beneath the surface of the present soil. Seve- ral pairs of tusks were arranged in a circle, within which were the remains of a fire and Indian tools; various other bones of the same were scattered about this focus, which had no doubt at some distant day been so arranged by the native Indians. A writer in one of the Kentucky papers ORGANIC REMAINS OF NORTH AMERICA. 257 presumed that all the bones were the remains of a single individual, with its immense mouth filled with enormous teeth, and armed with several pairs of huge tusks, and the whole animal of course sufficiently large to swallow a fo- rest at a meal. Another account of a huge animal disinterred at Big- bone-lick, sixty feet long and -twenty-five feet high! has gone the rounds, being first published in our western papers, republished in those of the Atlantic cities, and finally transferred to those of Europe. Of a character somewhat analogous are the descriptions of similar organic remains published by individuals sup- posed to possess higher claims to science, in the Trans, of the Am. Philos. Soc. vols. iii. and iv. At page 478 of the volume first referred to, there is a description of the under jaw of a young Mastodon, with a figure. This re- lick was found in Orange county, New York, and is now in the New York museum. The author of these remarks took an early opportunity to forward plaster casts of this jaw, to the Geological So- ciety of London, and to the Garden of Plants at Paris; and on his recent visit to the Jardin des Plantes, he was somewhat surprised to observe that he had already been in some measure anticipated by a foreign naturalist. This museum already containing the plaster cast of a portion of the lower jaw of a Mastodon, sent from Germany to Baron Cuvier, soon after the completion of the last edition of his Animaux Fossiles. This specimen also contained the in- ferior tusk, about which so much has been subsequently written on this side of the Atlantic* The circumstance, however, elicited very little attention from the French professors. Yet it is on the existence of this inferior tusk in the jaw of the young individual from Orange county, * This specimen, presuming it to characterize a new species, M. Kaup of Ger- many denominates " Mastodon longirostris," the " Tetracaulodon" of Godman. 33 258 ORGANIC REMAINS OF NORTH AMERICA. above referred to, that the author has attempted to found a new genus of fossil quadrupeds, under the name of " Te- tracaulodon." Admitting that the genus had been established on a so- lid basis, the name is not a proper distinction, as it is equally applicable to the camel, hog, horse, deer, hippopo- tamus, fossil tapir, &c, all of which possess u four tusks," or tusks in each jaw. It further displays inattention at least, if not ignorance of established usages among naturalists, to found a genus on the existence or absence of tusks in the lower jaw, in- dependently of any other specific differences in the or- ganization of other portions of the body. It is well known that the males of some species of animals possess tusks in one or both jaws, whilst the females of the same species are destitute of these teeth ; just as some male animals pos- sess horns, whose females are destitute of them. On the first appearance of this pretended t( tetracaulo- don," the inferior tusks were considered by the best au- thorities on this subject, to characterize the young of the Mastodon ; a subsequent examination, however, of nume- rous jaw bones of the Mastodon, in our various cabinets, soon demonstrated these inferior tusks to be mere sexual peculiarities ; a goodly proportion of the jaws of the adult Mastodons being found to be thus characterized, but in no one single instance were specific differences observable in the jaw teeth, maxillary bones, or any other portions of the skeletons. Volume iv. p. 317 of the Trans. Am. Philos. Soc. con- tains the lucubrations of a neophyte in these matters, whose laborious observations as historian of the pretended "Te- tracaulodon," would lead us to believe that he had clearly elucidated this subject, and had ended the dispute in ques- tion. The author occupies twenty-three pages of this quarto volume in letter press, besides ten plates, (with numerous figures.) With a critical acumen and depth of ORGANIC REMAINS OF NORTH AMERICA. 259 research peculiarly his own, he has " actually discover- ed," from the same materials previously examined in vain by naturalists of less penetrating zeal, three new " species of Mastodon," and two or three new species of ii Tetra- caulodon! !" We repeat, that with others upon whose judgment re- liance is to be placed, we have repeatedly examined all the specimens of fossil bones noticed in the memoir above referred to, and have searched in vain for any specific dif- ferences, not to speak of generic distinction. The jaw bones, together with the various teeth connected with them, or separately existing, display no peculiarities or varieties of structure, but such as are found to exist in similar portions of the skeletons of any other species of animal recent or fossil, provided specimens are selected from individuals of different sexes, and different ages. No peculiarities or differences, in fine, worthy of notice, not fully described by Cuvier, in his Ossemens Fossiles, where he has given seventeen figures of the teeth and jaws of this species, and which are thus noticed in vol. i. p. 226, of his last edition:—" The differences of teeth of the 6 Grand Mastodonte,' consist principally in the number of their points, and in their length and breadth. " I recognise three kinds of them : those nearly square, with three pairs of points. " Rectangular, with four pairs of points. Others still longer, rather contracted posteriorly, with five pairs of points, and an odd spur. " The first are generally found among those most used; I have observed many about half used, and several others worn down even to the neck of the tooth. "The latter, on the contrary, are very rarely used, and are almost always, their posterior parts at least, entire. i{ This circumstance at once indicates their relative po- sition. The teeth with six points are anterior, and are 260 ORGANIC REMAINS OF NORTH AMERICA. the first to appear; those with eight and with ten points come after, and are situated behind. Direct observation has confirmed this induction." Again, at page 227 : " The disposition then of the jaw teeth in the adult animal is as follows—two with six points, and two with eight points above ; and two with six points, and two with ten points below. " But besides these eight molars which remain in the adult, there are others placed anteriorly to them in young individuals, which are shed successively. " Thus the number of effective jaw teeth, which can be brought into action at one time, is eight in the young ani- mal, and four only in the old. "The roots of these teeth, like those of other animals, are not formed until after the crown is perfected. They are found complete only in such teeth as are already some- what used. After reading the above quotations from Cuvier's " Os- semens Fossiles," let any one attentively examine the spe- cific characters of the " new genus and species" in the memoir above referred to, and judge for himself of their validity. But for such readers as may not have it in their power conveniently to refer to the memoir in the Trans- actions of the American Philosophical Society, we will now quote a paragraph in the author's own words, which affords a fair specimen of his notions of specific characters. "The cabinet of our society [Am. Philos. Soc] con- tains a portion of an inferior maxillary bone, whieh differs in its form from any of those hitherto described. This fragment consists of the chin, the right ramus, with the posterior molares, and a portion of the left ramus. The anterior molar has three denticules, with two points each; and a ridge posteriorly. The ramus of this jaw is straighter and more cylindrical; the height from the base to the edge of the alveolae is less; the groove for the tongue ORGANIC REMAINS OF NORTH AMERICA. 261 broader and shallower, and the direction of the teeth less diverging than in the maxilla figured in plate XXIV.; the crowns of the teeth are also less elevated in the former than in the latter."—Vid. vol. iv. Trans. Am. Philos. Soc. p. 323. "Height, breadth, depth, direction!" fyc. On comparing a number of human jaws together, scarce- ly two will be found to correspond exactly in these par- ticulars. The author of " Tetracaulodon" renown appears to pay no regard to the principles of classification, yet he ought to have been aware, that, whether " labouring for bread, or doing something for fame,"* writers on natural science are not permitted to swerve from established laws. We shall now close our observations on the remains of the Mastodon giganteum, by one more quotation from an authority which our author appears to esteem as conclu- sive in such matters; we allude to Mr. William Cooper of New York, whom our author states " has been long en- gaged in the investigation of the history of the Mastodon; has visited Big-bone-lick, for the purpose of obtaining materials ; and who, upwards of a year since, communi- cated to the Lyceum of Natural History of New York, some observations on the dentition of that animal."f The conclusion to which Mr. Cooper arrived after the fullest and most complete investigation of the most exten- sive collections of the Mastodon bones, in this country, of the famous " Tetracaulodon" inclusive, will be found in the following paragraph, and needs no comment. " The i Tetracaulodon' of the late justly lamented Dr. Godman, appears to me, after a careful examination of his specimen, to be another young individual, also of the common Mas- * Vid. " Tetracaulodon" Memoir. Trans. Am. Philos. Soc. vol. iv. p. 318. t Ut supra, p. 336. 262 ORGANIC REMAINS OF NORTH AMERICA. todon, but older than mine ; I have stated my reasons for this opinion, in a paper on the dentary system of the Mas- todon, which I read to the Lyceum of Natural History, in April 1830. It appears, however, from recent obser- vations, that the lower tusks which I supposed all the spe- cies to have possessed in their youth, were in some in- stances permanent during the advanced age of the animal. But whether this was a sexual characteristic, or merely an individual case of anomaly, of which I have seen other curious examples, I cannot recognise more than one spe- cies of Mastodon among the great quantity of their re- mains found in the United Stales, which have come under my observation, those just alluded to included." Vid. " Notices of Big-bone-lick, by William Cooper," Monthly Am. Journ. of Geology and Natural Science, conducted by G. W. Featherstonhaugh, vol. i. p. 158. Finally, in the original memoir, descriptive of this sup- posed new genus, the author has himself expressed doubts of the validity of the characters on which it is proffered. He admits that the specimens he has described are the re-' mains of a young individual, and that, " in every view, this animal so strongly resembles the Mastodon, but for the singular difference of organization presented by the lower jaw and its tusks, we could not avoid concluding we had obtained a young animal of that species." As re- gards this jaw itself and molar teeth, they certainly do re- semble those of the Mastodon giganteum, as closely as the same parts in any young animal resemble those of the adult individual. Note.—Mastodon angustidens, Cuv. and M. tapiroides, Cuv. Indications of the existence of these species in North America, were given in the Fauna Americana, pp. 212, 213. Subsequent observations have not yet further confirmed this indi- cation. ORGANIC REMAINS OF NORTH AMERICA. 263 Genus Elephas. E. primogenius, Blumenbach, and Cuvier, Ossemens Fossiles, 2d edition, t. i. p. 75, pi. 2; Harlan's Fauna Americana, and Journal of the Philadelphia Academy of Natural Science; Mitchell's edition of Cuvier's Theory of the Earth. Locality.—In Europe these remains abound in the northern countries, also in France, Germany, and Italy. They are scattered over a vast range of country in North and South America. The frozen bodies of these animals have been found enveloped in ice on the north-west coast of America, as well as in Siberia. ( Vid. Kotzebue's Voy- ages, and Buckland's Description of the Remains of Ele- phants and other quadrupeds in the cliff of frozen mud, in Eschscholtz Bay, within Behring's Strait, and in other distant parts of the shores of the Arctic Seas. 1832.) We have been indebted to H. Piddington, Esq., Fo- reign Secretary of the Horticultural Society of Calcutta, for the following intelligence, relative to the discovery of the remains of the fossil elephant in Central India, who states, in a letter dated October 5th, 1834, " There has recently been discovered near the head of Nerbudda river, at a place called Nersimpoor, a fossil elephant, the os fe- moris of which measures sixty-three inches in length ! and has been perfectly identified with the Elephas primoge- nius, or Mammoth. Near the same place was discovered the fossil skull of an ox, very closely resembling your Bos bombifrons, of Big-bone lick, U. S. of N. A." The length of the thigh bone of the fossil elephant is about one-third the height of the animal; this calculation will give to the fossil elephant above noticed, the enormous height of more than fifteen feet. 264 ORGANIC REMAINS OF NORTH AMERICA. Measurement of the Skeleton of the Siberian Elephant, in the Mu- seum of St. Petersburgh, Russia, found imbedded in ice at the mouth of the river Lena, in 1799. From the mouth to the root of the tail . 21 ft. Length of the tusks . 10 Height over the withers- . 12 Width of the thorax .... 5 Width of the pelvis .... 4 Diameter of the hoof . 14 in Length of the os femoris . 4 Length of the leg bones . 3 Spine, including the joints of the tail, composed of 43 vertebrae The ribs are imperfect. Philos. Trans. Lond. Place in the Geological Series.—The fossil bones of the elephant, although they are found to exist contempora- neously with those of the mastodon, rhinoceros, megalonyx, ox, deer, &c. would appear to have belonged also to a geo- logical period more ancient than the last named animals; according to Cuvier, " the isolated bones which are met with everywhere, are often observed to have marine ani- mals attached to them, which establishes, in an incontest- able manner, that since their dispersion they have been covered by the ocean under which they have been buried a considerable time." These remains are most generally discovered in the di- luvial deposits which fill valleys, or on the borders of rivers. It is probable that the immense mass of the fossil bones of the elephant scattered throughout the world, include the remains of several species ; they are generally found in a state of decay, too imperfect for specific comparisons, the only perfect skeleton of this animal known, being that in the Museum of St. Petersburgh, Russia. From ob- servations that we have made on the fossil elephant teeth, ORGANIC REMAINS OF NORTH AMERICA. 265 several years ago, and published in vol. iii. of the Journ. Acad. Nat. Sciences of Philad. there can be little doubt but that two distinct species at least once existed in North America.* Specimens of the teeth and fragments of the skeleton of this species abound in our cabinets both public and pri- vate ; more particularly in the Cabinet of the Academy of Natural Sciences of Philadelphia, of the Philosophical Society, &c. &c. The Geological Society of Pennsyl- vania, possesses an enormous fossil Os femoris of this ani- mal, found near Moorestown, New Jersey. I have observed several specimens of elephant teeth, with the enamel arranged like that of the African ele- phant, which appeared to be fossilized ; two of these are in the Museum at Liverpool, one in my own collection ; their origin is uncertain, and all such are considered as apocryphal by Baron Cuvier. Genus Tapirus. T. mastodontoides, Harlan, Fauna Americana, page 224. Locality—Big-bone-lick, state of Kentucky. This fossil molar tooth displays considerable analogy to that of the " small fossil Tapir" of Cuvier, differing only in the obliquity of the transverse eminences of the crown, and in the form of the disks of these, produced by detri- tion ; but as subsequent and more extensive observation on the Tapirs, in the Museum of the "Jardin des Plantes," at Paris, has convinced us that similar differences in the form and direction of the transverse eminences are dis- played in the different teeth of the same individual, we * Vide memoir in the following pages of this volume. 34 266 organic remains of north America. admit that little reliance is to be placed on them, when regarded as specific characters. The molar teeth of the Tapirs, Kangaroo, and Mana- tus, bear considerable analogy with those of the Mastodon; they are covered in a similar manner with enamel, and furnished alike with transverse mamillary eminences in the young animal, which by detrition present disks, more or less resembling each other in the teeth of these differ- ent animals; thus, a superficial observer might readily confound our fossil tooth with that of a young Mastodon, was not its size at least one half smaller than the smallest of the milk molars of the Mastodon that have come under the observation of naturalists. Mr. Cooper has casually remarked (vid. Notices of Big-bone-lick, Am. Monthly Journal of Geology, p. 163, in a note,) " Among these [the molars of the Mastodon,] I include one similar to the tooth, also from Big-bone-lick, described by Dr. Harlan, as having belonged to an extinct species of Tapir. That it is a young Mastodon's tooth, is evident, I think, from the milk teeth still remaining in the head on which the supposed genus Tetracaulodon is founded, as well as from the small jaw above described." It is difficult to conceive in what manner " the milk teeth remaining in the head" of this or that animal, could prove any thing concerning the nature of the tooth in question. Mr. C. probably means to say that he com- pared the tooth of my fossil Tapir with those in the jaws of young Mastodons; I also have made similar comparisons, and have carried comparisons still further. Taking the disputed tooth in question to Paris, I compared it in pre- sence of naturalists skilled for their observation, with the teeth of the various Tapirs, preserved in Cuvier's collec- tion of comparative anatomy. The tooth in question proves to have belonged to the anterior socket in the up- per jaw of a Tapir. The size of the tooth and the form ORGANIC REMAINS OF NORTH AMERICA. 267 and structure of its roots, distinguish it from those of the Mastodon. Place in the Geological Series—Contemporaneous with the fossil remains of the Rhinoceros, Elephant, Mastodon, and other Pachydermatous quadrupeds. Hitherto the fossil Tapirs have been found only in Europe, whilst the recent species inhabit only South America and Mexico, the peninsula of Malacca, and the isle of Sumatra. Genus Equus. E. caballus. The Horse. The fossil remains of this quadruped are sparingly found both in North America and in Europe. The late Dr. S. L. Mitchell, in his edition of Cuvier's Theory of the Earth, alludes to the fossil teeth and vertebrae of the horse, found near Neversink hills, state of New Jersey. The cabinet of the Academy of Natural Sciences, Phi- ladelphia, also contains specimens, from the valley of the Ohio or Mississippi, and we have to acknowledge the re- ceipt of others from Col. I. J. Abert, of Washington, which were found in excavating for the Chesapeake and Ohio canal, near Georgetown, D. C, not far from the Potomac river. Mr. Richard C. Taylor has observed specimens from the gravel banks on the north branch of the Susquehanna river; and Mr. T. Conrad possesses specimens from the Pliocine on the river Neuse, 16 miles below Newbern, N. C. Professor Buckland has described the Astragalus, Metacarpus, and Metatarsus, of the fossil horse, from the cliffs on the south side of Eschscholtz bay near the Arctic circle. 268 ORGANIC REMAINS OF NORTH AMERICA. Genus Rhinoceros. Rhinoceroides Alleghaniensis. Vide Am. Monthly Journal of Geology, &c. where under this name is figured and described a petrifaction which displays considerable resemblance to the bony snout of the Rhinoceros. The original specimen was sent to London, and the geologist who there examined it, considered it of too doubtful a character to be admitted as a fossil remnant. For ourselves, we are disposed to wait for further dis- coveries of this nature, previous to admitting the present specimen as a part of our fossil fauna. The specimen is no less singular or interesting to geologists, as demon- strating the very close analogy of a mere lusus naturae of the mineral kingdom, if it be nothing else, to a portion of the animal skeleton. One argument applied to this and other similar specimens, in order to prove that it could not be considered as an organic relic, viz.—the total ab- sence of bony material, I conceive to be by no means con- clusive ; it being quite possible that the skeleton of an animal might be so circumstanced as to become completely mineralized, or changed from its original structure, just as we observe some vegetable structures to have changed. In ordinary instances, we are well aware the very reverse of this, as regards bones, is the fact; even the animal matter in fossil bones would appear to be, under some cir- cumstances, as indestructible as the rock in which they are entombed, some of which are comparatively ancient, such as the saurian bones contained in the cuperose schists of Europe, and which were found on analysis to contain animal matter. T,,/al Unyht /3/' Tola/'AtV/if/S?4 l.rl.man A'Duval l.ith r'< >-• t*0' i ; If* f ** > * **/ §' .\ -'* ' If Is >J '.jLy.;' / ■ E.L.UTSTIil ln^l-Zthw.Lia*f%if EURYPTERCS HEMIPES ORGANIC REMAINS OF NORTH AMERICA. 299 The following are the comparative dimensions of the two species. E. lacustris. E. remipes. Total length, - - - 5 inches. - - 3| inches. Length of the head, - - 1» " - - 1 " Breadth, - - - - 2\ " - - lj " Breadth of the body, - - 2| " - - 1| Distance between the eyes, 1 " - - 0| " But other .differences exist besides those of size and pro- portions. The transverse bands or joints are proportion- ably wider in the lacustris, consequently there are fewer of them in a given space. These bands are nearly equal in the remipes, those of the former on the contrary are broadest above, and narrower near the tail—the first plate, nearest the head, being double the size of the others. The tail in the remipes was wanting in the specimen—a faint outline of this member existed in our specimen, in which it appears to have been depressed and expanded, but contracted above where it unites with the body. Some portions of the present species are more perfectly preserved than in the remipes, from which it appears that all the feet consist of five articulations, of which the ter- minals of the three first feet are filamentous; by reference to fig. 2. of the accompanying plate, it seems not impro- bable that these filaments exist on the under surface of some of the other articulations, an appearance of which is observed in one of the left extremities. A comparative view will display other distinctive cha- racters. Vide pi. fig. i. E. remipes; fig. ii. E. lacustris. Locality.—Williamsville, 7 miles below Buffalo, Penn. Place in the Geological Series.—Grauwacke slate ? Dr. Dekay, of N. York, has recently discovered a new spe- cies ; and in the Trans, of the Royal Society of Edinburgh, for 1834, Dr. Hibbert has described gigantic species of the same genus. (Vide Memoir on the fresh-water lime- stone of Burdiehouse, near Edinburgh.) 300 ORGANIC REMAINS OF NORTH AMERICA. For the following list of the genera of North American Trilobites, and synopsis of the species, the author ac- knowledges himself indebted to the politeness of Dr. Green, who has presented to geologists the only monograph on this subject, accompanied with plaster casts of each spe- cies, generally accurately executed. Admitting the component rocks of the Grauwacke series to be the same as that proposed by De la Beche, all these crustaceous organic remains belong to this group. The following list includes the species of Trilobites hitherto discovered in this country. Genus Calymene, Brongniart. C. Blumenbachii, Al. Brongn. Localities.—Lebanon, Ohio; Trenton Falls, New York; near Reading, Pennsylvania ; and many other places. No Trilobite is so extensively diffused over the United States, as the C. Blumenbachii. See Green's Monograph ; Ea- ton's Geology, p. 31; Monthly American Journal of Geo- logy, p. 558. C. callicephala, Green. Locality.—Near Cincinnati, Ohio. Green's Monog. p. 30; Monthly Am. Journ. Geol. Vol. I. p. 558. C. selenecephala, Green. Locality.—New York. Green's Monograph, p. 32; Monthly American Journal of Geology, p. 558. C. Platys, Green. Locality.—Helderberg mountains, near Albany, New York. Green's Monog. p. 32 ; American Journal of Geo- logy, p. 558. ORGANIC REMAINS OF NORTH AMERICA. 301 C. microps, Green. Locality.—Near Ripley, Ohio. Green's Monog. p. 34; American Journal of Geology, p. 558. C. anchiops, Green. C. macrophthalma, Brongn. Locality.—Ulster county, New York. Green's Mo- nograph, pp. 35, 36, 37; Monthly American Journal of Geology, p. 558. C. Diops, Green. Locality.—State of Ohio. Green's Monograph, pp. 37, 38, fig. 2; Monthly American Journal of Geology, p. 559, pi. xiv. fig. 2. C. macrophthalma, Brongniart. Locality.—Berkley, Virginia. Green's Monograph, pp. 39, 40, 41; Monthly Journal of Geology, p. 559. C. Bufo, Green. C. macrophthalma, Brongniart. C. rana, Green, variety of Bufo. Localities.—New Jersey, at Patterson; very extensive- ly diffused in the slaty limestone throughout the United States. See Green's Monog. p. 41; Monthly American Journal of Geology, p. 559. C. odontocephala, Green. Locality.—New York, Ulster county? Silliman's Journal, vol. xxv. p. 334. Genus Asaphus, Brongniart. A. laticostatus, Green. Locality.—Ulster county, State of New York, See 302 ORGANIC REMAINS OF NORTH AMERICA. Green's Monograph, p. 45 ; Monthly American Journal, p. 559. A. selenurus, Eaton. Localities.—Glenn's Falls and.Buroft's Mountain, State of New York. See Geological Text Book, p. 31; Green's Monograph, p. 46. A. Limulurus, Green. Locality.—Lockport, New York. Green's Monograph, p. 48; Monthly American Journal, p. 559. A. caudatus, Brunnich. Localities.—Ripley, Ohio; Banks of Lake Superior. Green's Monograph, p. 50; Monthly American Journal, p. 59; Geological Text Book, p. 31. A. Hansmanni, Brong. Localities.—Helderberg, New York ; Shore of Lake Erie. Geological Text Book, p. 11; Green's Monograph, p. 52. A. pleuroptyx, Green. Localities.—Helderberg and Genessee rivers, New York. Green's Monograph, p. 55 ; Monthly American Journal, p. 559. A. micrurus, Green. Locality.—Trenton Falls; New York. Green's Mono- graph, p. 56; Monthly American Journal, p. 559, pi. xiv. fig. 3. A. Wetherilli, Green. Locality.—Near Rochester, New York. Green's Mo- nograph, p. 58; Monthly American Journal, p. 559. ORGANIC REMAINS OF NORTH AMERICA. 303 A. myrmecoides, Green. Locality.—Genessee county, New York. Silliman's Journal, vol. xxiii. p. 397. A. astrogalotes, Green. Locality.—Greenville canal, Upper Canada. Silliman's Journal, vol. xxv. p. 325. A. tetragonocephalus, Green. Locality.—Newport? New York. Silliman's Journal, vol. xxv. p. 336. A. crypturus, Green. Locality.—Nova Scotia. Transactions of the Geologi- cal Society of Pennsylvania, vol. i. p. 37, pi. vi. Genus Paradoxides. Brongniart. P. Boltoni, Bigsby. Locality.—Lockport, New York. Journ. of Academy of Natural Sciences, vol. iv. p. 365, pi. 23 ; Green's Mo- nog. p. 60; Monthly Amer. Journ. p. 360. P. Harlani, Green. Locality.—Trenton Falls? New York. Silliman's Journal, vol. xxv. p. 336. Genus Isotelus, Dekay. I. gigas, Dekay. Localities.—Trenton Falls ; New York ; near Cincin- nati, Ohio, &c, &c ; St. Joseph's, Canada. Annals of New York Lyceum, vol. i. p. 185; Green's Monog. p. 57; Month. Amer. Journ. p. 560. 304 ORGANIC REMAINS OF NORTH AMERICA. I. Planus, Dekay. Localities.—Trenton Falls; New York ; Newport, Kentucky. Annals of New York Lyceum, vol. i. p. 186; Green's Monog. p. 68; Monthly American Journal, p. 560. I. Cyclops, Green. Locality.—New York ? Green's Monog. p. 69, fig. 7. I. megalops, Green. Locality.—Trenton Falls; New York. Green's Mo- nog. p. 70. I. stegops, Green. Locality.—Newport, Kentucky. Green's Monog. p. 71. Genus Cryptolithus, Green. C. tessellatus, Green. Localities.—Glenn's Falls ; Trenton Falls ; New York. Green's Monog. p. 73, fig. iv.; Month. American Jour- nal, p. 560. C. Bigsbii, Green. Nuttainia Concentrica? Eaton. Localities.—Montreal; Trenton Falls; Champlain ca- nal ; New York. Green's Monog. p. 76. Genus Dipleura, Green. D. Dekayi, Green. Localities.—Lockport, New York, and several other places in the United States. Green's Monog. p. 79, figs. vii. and viii.; Monthly American Journal, p. 560. ORGANIC REMAINS OF NORTH AMERICA. 305 Genus Trimerus, Green. T. delphinocephalus, Green. Locality.—Niagara county? N. Y. Green's Monog. p. 82, fig. i.; Monthly American Journal, p. 560. Genus Ceraurus, Green. C. pleurexanthemus, Green. Localities.—Newport, New York. Green's Monog. p. 84, fig. x. Monthly American Journal, p. 560. Genus Triarthrus, Green.* T. Beckii, Green. Locality.—Cahooes Falls, New York, and other places. Green's Monog. p. 37, fig. vi. Monthly American Jour- nal, p. 560. Genus Nuttainia, Eaton. N. sparsa, Eaton. Locality.—Near Albany, New York. Eaton's Geolog. Text Book, p. 33. Green's Monog. p. 80. Genus Brongniartia, Eaton. B. platycephala, Eaton. Locality.—Lockport, New York. Eaton's Geolog. Text Book, p. 32. Green's Monog. p. 31. * Vide memoir " On new species of Trilobites, from the State of New York, and Observations on the genus Triarthrus," iu the following pages of this volume, in which this genus is obliterated. 39 306 ORGANIC REMAINS OF NORTH AMERICA. Phytolithites. In North America there is no lack of material in this department of our subject; but all the information we possess relative to the fossil plants of this country, is dis- seminated in the various works devoted to natural history. Our fossil vegetables are confined to no family in particu- lar, but consist, as far as yet discovered, of the pine, oak, hickory, walnut, beech, palms, ferns, reeds, grasses, mosses, algae, peat, and lignite in various stages of carbon- ization. Dicotyledonous lignite is of common occurrence in the deep cut of the Chesapeake and Delaware canal. Numerous popular accounts of submerged forests and petrified trees in scattered localities, will be found in the American Journal of Science and Arts, and occasional notices of similar phenomena in Hitchcock's Geology, and the Journal of the Academy of Natural Sciences, &c. &c. The following remarkable account of a petrified forest, is extracted from a letter of G. H. Crossman, of the United States Army, published in the Illinois Magazine, during the summer of 1830: " The enclosed specimen was broken off from one of the many large stumps and limbs of trees, found near Yellow Stone river, Missouri territory, and brought away by some of the officers attached to the Yellow Stone ex- pedition in 1815. " The most remarkable facts, perhaps, with regard to these petrifactions, of what was once a forest of thick timber, are their location and abundance. For a distance of twenty or thirty miles over an open high prairie, upon the west bank of the Missouri river, and a few miles be- low its junction with the Yellow Stone, near latitude 48°, these remains are most abundant. " The topography of this section of the country is hilly, and much broken into deep ravines and hollows. On the ORGANIC REMAINS OF NORTH AMERICA. 307 sides and summits of the hills, at an elevation of several hundred feet above the present level of the river, and an estimated height of some thousand feet above the ocean, the surface of the earth is literally covered with stumps, roots, and limbs of petrified trees, broken and thrown down by some powerful convulsion of nature, and scat- tered in all directions in innumerable fragments. " Some of the trees appear to have been broken off, in falling, close to the root; while others stand at an eleva- tion of some feet above the surface. Many of the stumps are of large size ; I measured one, in company with Dr. Gale of the United States Army, and found it to be up- wards of fifteen feet in circumference." The vegetable impressions observed in our coal mea- sures are equally numerous and interesting as in any of a similar nature in Europe, and all are of the same general character with those obtained from the carboniferous and grauwacke series in Europe. Many of the fossil vegetables of our coal measures are peculiar to America: such are, Neuropteris Cistii, N. macrophylla, of Wilkesbarre, Pennsylvania; N. Gran- geri, of Zanesville, Ohio; Sigillaria Cistii. S. rugosa, S. Sillimani, S. obliqua, S. dubia, all from Wilkesbarre, Pennsylvania; Lycopodites Sillimani, South Hadley, Mass.; Lepidodendron mamillare and L. Cistii, Wilkes- barre ; Poacites lanceolata, Zanesville, Ohio, and Pe- copteris punctulata, Wilkesbarre. Those common to both countries, as enumerated by De la Beche, (Geological Manual,) are :—" Calamites, three species; Neuropteris, three species; Pecopteris, four species; Sigillaria, one species; Sphenophyllum, one species; Lepidodendron, three species; Stigmaria, two species; Andularia, two species; Asterophyllites, one species. Several eminent American authors have communicated important information in this department of geology, in 308 ORGANIC REMAINS OF NORTH AMERICA. that highly valuable repository of American intelligence, the American Journal of Science. Among others, we re- fer with much satisfaction to the labours of Professors Sil- liman, Hitchcock, and Eaton, and to Messrs. Grammer and Cist.* We refer our readers also, with great confidence, to the memoir of Mr. R. C. Taylor, in the first volume of the Geol. Trans, of Pa., for valuable information respecting the geological position of a class of fossils, (Fuci,) which have recently elicited much attention in this country. Mr. T. has indicated several additional new species. Up to the period of the publication of the invaluable work of M. Ad. Brongniart, ("Histoire des Vegetaux F"ossiles," 1828,) very little had been accomplished to- wards the elucidation of this interesting portion of the fossil flora. The opinions offered by this enlightened author rela- tive to the geological relations of the fossil Fuci, of Eu- rope, receive confirmation by all the facts hitherto obtain- ed of the like fossils observed in America: " Fossil Fuci are found even in the most ancient forma- tions of the globe, in the transition rocks of the north of Europe and of America." " Such are the Fucoides dentatus, F. serra, F. an- tiquus, and F. circinaius." " The Fuci become more abundant in the strata which separate the limestone from the chalk, and some remarka- ble species occur here." " In England, these fossils are of frequent occurrence in the green sand formation which separates the Lias and Oolitic series (calcaire jurassique) from the chalk." " It has been demonstrated that the Marine, like ter- restrial vegetation, approaches nearer to that of our own * Vide Silliman's Journal, Oct. 1835, for numerous and interesting additions to the fossil flora of the Valley of the Ohio. ORGANIC REMAINS OF NORTH AMERICA. 309 climates, in proportion as they occur in the more recent formations. They present, on the contrary, characters equally resembling those of the vegetation of equatorial climates, in proportion as they occur in more ancient for- mations." Hist, des veg. foss. torn. 1. pp. 41, 43, 45, 47. The following list embraces all the determined species hitherto discovered in North America. NATURAL ORDER ALG^. FAMILY FUCOIDES. Sternb. F. dentatus, Ad. Brongniart, Hist des veg. foss. Vol. I. p. lxxx. pi. vi. fig. 9. 12. Locality.—Point Levi, near Quebec, Canada. Place in the Geological Series.—Transition limestone. F. serra. Ad. Brongniart, Hist, des veg. foss. p. lxxxi. pi. vi. fig. 7, 8. Locality.—Point Levi, near Quebec. Place in the Geological Series.—Transition limestone. F. Brongniartii. Harlan, Monthly Journal of Geology, &c. 1831. Figured in the present volume. Locality.—Welland canal, Canada; western part of the state of New York; mountain ranges of western Pennsyl- vania and Virginia. Place in the Geological Series.—Siliceous sandstone— Grauwacke slate, and old red sandstone. For further observations on this, and analogous fossils, vide Mr. Taylor's memoir, above referred to. In Hitchcock's Geology, pp. 233, 234. pi. xiii. fig. 38, 310 ORGANIC REMAINS OF NORTH AMERICA. 39—there occurs a description of a fossil vegetable, which on very doubtful authority, Professor H. refers to a fossil fucus, analogous to that above described. In the opinion of this " authority," the fossil in question " evidently be- longs to the fossil genus fucoides, of which Dr. Harlan has described a species from the sandstone of Genessee, under the name of F. Brongniartii. If the specimens were weathered, their specific characters would be more ob- vious, and would probably prove identical with those from Genessee." Vide page 231, ut supra. We have no faith in opinions, on matters of science at least, delivered u ex cathedra," and in this instance, the mere glance of the eye of an intelligent observer at the description of the fos- sils in question, would convince him that they display no characters in common with each other—there is sufficient reason to doubt whether or not the specimens figured by Professor H. from Deersfield, really belonged to the na- tural order Algae, much less to the genus or family fu- coides—judging from the description, they would appear to possess much stronger analogy to the stems of dicoty- ledonous plants. The following are some of the particulars in which this fossil differs from the fucoides, with which it has been confounded, viz: Stem attains to more than twice the diameter, and twice the length in the former—its surface is moreover uniform, without grooves or wrinkles. These stems are never branched in the Deerfield petrifaction, and the sandstone in which it occurs is rather fine, and quite soft, and easily disintegrates—the very opposite of all this characterizes the F. Brongniartii; but what dis- tinguishes the former, or Deerfield fossil, from the fucoides above named, and from all the species of algae that have come under our notice, is the peculiar vestige of organi- zation observed in the stems figured by Professor H., who states, in his lucid and detailed description of his petrifac- tion, ii by breaking the specimens transversely, a curious ORGANIC REMAINS OF NORTH AMERICA. 311 structure is revealed ; it may be described, by saying that the cylinder is made up of convex layers of sandstone, piled upon one another." From the known fleshy organi- zation of the aquatic cryptogamse, it is difficult to con- ceive, how mere petrifaction, to say nothing of " weather- ing," could produce a structure similar to that noticed in the stems above alluded to. Two years subsequently to the publication of the F. Brongniartii, Mr. Mantell described and figured a F'ucus, by the same name, though of a very distinct species, (vide "Geology of the south-east of England," p. 95,) where this author states—" a fine species of Fucus has been no- ticed in chalk, which I have named, in honour of the distinguished author of the Vegetaux Fossiles, Fucoides Brongniartii." We leave it to future systematic writers to correct these trivial collisions in classification. We learn from Professor Brongniart, that it is his intention to favour the public with a complete synopsis of fossil vege- tables, at the termination of his great work. F. Alleghaniensis, Harlan, Journal of the Academy of Natural Sciences of Philadelphia, Vol. VI. p. 289, pi. xv.; R. C. Taylor, Loudon's Magazine of Natural History, No. 37, for January, 1834, p. 27, fig. vi. Locality.—Eastern ridges of the Alleghany mountains.* Place in the Geological series.—Compact sandstone, subjacent to the coal measures. * In common parlance, all that succession of mountain ridges spreading from the main Alleghany mountain, to within thirty miles east of their base, is denominated, the u Alleghany Mountains." But in a geological sense, this term includes forma- tions totally distinct from each other: in the vicinity of the Susquehanna river, and crossing the Juniata, these mountains are constituted of a series of grauwacke sandstones and limestones, in the former of which various species of Fucoides abound. The Alleghany proper, consists of a secondary series resting upon the old red sandstone. We refer to the first volume of the Trans, of the Geol. Soc. of Penns. for a de- tailed account of these fucoid beds, by R. C. Taylor, Esq. 312 ORGANIC REMAINS OF NORTH AMERICA. We subjoin the following extract from a letter we have recently received from Professor Troost, of Tennessee, on the Transition Fossils of the valley of the Mississippi, as it serves, in addition to what has already been published by American naturalists, to complete the catalogue of American fossils. " I will commence with a list of the fossils which I found in the transition strata, including the mountain limestone of the English geologists. I must do so, because, in a zo- ological point of view, our carboniferous limestone is cha- racterized by the same organic remains which in Europe are found in the grauwacke group—and our grauwacke is without fossils, except a few of the upper strata. The lowest fossil that I have found, is the Maclurites bicarinata, Lesueur. They occur in a stratum of black limestone near the Holston river; they are abundant near Kingsport, where they are associated with the Conotubularia Cuvieri. The next fossils are some Encrenites and Polypiferes, which are so much incorporated with the rock, that I was not able to distinguish them. The next series is the car- boniferous, which I considered distinct from the coal mea- sures. The lowest strata are characterized by a genus which I have christened Conotubularia, and we have C. Cuvierii, C. Brongniardii, C. Goldfussii. 2. Several spe- cies of Orthoceratites. 3. Isotelus planus. 4. Astrea tessellata, nobis. 5. Cyathophyllum ceratites, Goldf. 6. Cyathophyllum vermiculare, Goldf. 7. Stromatopora concentrata, Goldf. 8. Stromatopora verrucosa, nobis. 9. Coscinopora infundibuliformis, Goldf. 10. Catinipora mseandrina, nobis. 11. Calamopora maxima, nobis. 12. Columnaria divergens, nobis. 13. Columnaria sulcata, Goldf. 14. Manon Piziza, Goldf. 15. Eschara ovatopora, nobis. 16. Escaria reticulata, nobis. These 16 species are found in the lowest strata—the intermediate strata of the same group contain: 17. Astreas antiqua, nobis. 18. Harnites Haanii, nobis. 19. Turbinolia cuneata. 20. ORGANIC REMAINS OF NORTH AMERICA. 313 Aulopora serpens, Goldf. 21. Scyphia Neesii, Goldf. 22. Scyphia stellata, nobis. 23. Sarcinula costata, Goldf. 24. Astrea alveolata, Goldf. 25. Calamopora spongites, Goldf. 26. Calamopora hemispherica, nobis. 27. Cala- mopora alveolaris, Goldf. 28. Calamopora basaltica. 29. Calamopora favosa, Goldf. 30. Calamopora gothlandica, Goldf. 31. Calamopora milleporacea, nobis. 32. Astrea porosa, Goldf. 33. Syringopora ramulosa, Goldf. 34. Catenipora escharoides, Lam. 35. Catenipora labyrinti- ca, nobis. 36. Aulopora tubGeformis, Goldf. 37. Achil- leum cheirotonum, Goldf. 38. Madrapora complanata, nobis. 39. Cyathophyllum gracile, nobis. 40. Cyatho- phyllum secundum, Goldf. 41. Cyathophyllum plicatum, Goldf. 42. Cyathophyllum excentricum, Goldf. 43. Cyathophyllum helianthoides, Goldf. 44. Cyathophyllum plicatum, Goldf. 45. Linipora rotunda, nobis. 46. Tur- binolia mitrata, Goldf. 47. Cnemidium remulosum, Goldf. 48. Achilleum fungiforme, Goldf. 49. Tragos sphseroi- des, Goldf. All the above mentioned remains are inter- mixed with several Crinoidea which I have not yet deter- mined, and Trilobites of which I have called one Asapha- gus megalopthalmus. "The Molluscae are very numerous, but before I have received the Mineral Conchology of Sowerby, I am not able to describe them. I know, for the present, Calceola sandalina, Turbo bicarinatus, Bellerophon hiulcus, Stro- phomene rugusa, Raf., Producti, Spirifer, Terebratula and others. <• The upper strata of the same group (always below the coal) are characterized by Pentremites. There are still many fossils which I can not enumerate as yet, not having determined them." 40 314 ON THE STRUCTURE OV On the structure of the teeth in the " Edentata," fossil and recent. Profiting by recent opportunities that have offered themselves, for the examination of the intimate nature of the structure of the teeth in several genera of the order Edentata, both fossil and recent, I have observed some pe- culiarities not hitherto noticed, and have been enabled to correct a few previous errors existing in relation to this subject. The close relation of the results of these inquiries to comparative anatomy and fossil geology, may, in the opinion of my readers, render them worthy of publication. To the " Ossemens Fossiles," of Baron Cuvier, and the " Dents des Mammiferes," of M. Fred. Cuvier, we must refer for the most recent information on the subject in question. The following is a translated extract from the work of the former. Vol. v. part i. p. 84. " In both species of sloth, there are four molar teeth above and three below on each side; all are conical during youth, but become cylindrical when the summit is worn off by detrition. The truncature of the summit produces a hollow in the osseous substance ; the borders, which are of enamel, remain projecting, but unequally, sometimes more on one side, sometimes on the other; sometimes equally before and behind, leaving two lateral points, all depending on the manner in which the teeth meet and rub against each other. The teeth of the sloths are of the most simple structure imaginable. A cylinder of bone enveloped by enamel, and hollow at both ends, at the ex- ternal end by detrition, at the internal, by default of ossi- THE TEETH IN THE EDENTATA. 315 fication, and for the purpose of lodging the remains of the gelatinous pulp, which served them for a nidus—voila toute leur description." " These animals do not possess, like the other herbivora, plates of enamel, which penetrate the tooth in various di- rections, and which render the crowns more fit for grind- ing vegetables; consequently their mastication ought to be very imperfect." i( It is still further necessary to remark, that the plates which compose their osseous substance, are but imperfectly united to each other. In sawing a tooth longitudinally, these plates are observable, piled one on top of the other, like pieces of money in a tube, and this tubular case con- sists of enamel." The observations which I have made on the structure of the teeth in the sloths, lead to different results, both as regards fact and inference. In the first place, the two species of the Linnaaan genus Bradypus, (B. tridactylus, and B. didactylus, or the tree-toed and two-toed sloths,) differ considerably in their dental structure, and in the form of the head. In reference to the latter point, Illiger and F. Cuvier have arranged these tardigrade animals un- der two distinct genera, the former author applying the termCHOL^PUS to the B. didactylus; and the latter author taking the B. trydactylus as the type of his genus Acheus. The teeth of the three-toed sloth, although constructed on general principles like those of other phytivorous quad- rupeds, display remarkable peculiarities in the arrange- ment of their various parts; they are composed of bone, enamel, and cement, or pars petrosa ; but in place of being irregularly intermixed with each other, there exists, first, a central cylinder of bone which is surrounded by enamel, which itself is surrounded or enveloped by a regular layer of cement. The different densities of these constituent por- tions of the tooth, occasion its crown to present, by detri- tion, several irregular faces; the central pillar of bone 316 ON THE STRUCTURE OF being softest, wears away fastest and deepest, the central portion of the crown is consequently hollow, whilst the external surface of the tooth or the cement being softer than the enamel which it incloses, and' harder than the bone proper, remains less worn than the bone, and more so than the enamel, and each portion projects proportion- ably, the circumference of the tooth presenting a bevelled edge. This structure renders the masticatory apparatus of this species peculiarly appropriate for grinding vegetables; accordingly, in my dissection of an adult sloth (B. tridac- tylus,) which was killed soon after eating a hearty meal of green leaves, its customary food, I observed the stomach replete with vegetable matter, reduced to a fine pulpy consistence by mastication. (Vid. our memoir on the Anatomy of the Sloth, in the following pages of this vo- lume.) In the two-toed sloth, (B. didactylus, Linn, or cholsepus, Illig.) the form and structure of the teeth differ from those of the former species, besides possessing true canines, dif- fering in form and size from the molars; the latter are nearly destitute of the external layer of cement, which consists only of a slight brush of this substance, of a black colour, probably stained by the vegetable juices on which the animal feeds; the crowns of the two middle molars display, by detrition, two irregular concave triangular faces, anteriorly and posteriorly. The central portion of the bony pillar is of a softer structure, and differs in colour from the rest of the bone. In the genus Dasypus, or Armadillo, although the various subgenera and species, differ considerably in their dental formula from each other, I have observed nothing very remarkable in the structure of these organs, in the species which I have examined; they are generally sub- conical, apparently destitute of cement, surrounded by enamel, which, when worn off by friction, leaves the THE TEETH IN THE EDENTATA. 317 crown with a double concave semi-elliptical surface, with a central depression, there being, as in the B. didactylus, a central portion of bone, of a softer texture; like the teeth of most of the animals composing the order Edentata, those of the Armadillo are destitute of true roots or fangs, a structure which it is supposed enables them to continue through life, growing from the inferior extremity, as the crown is worn by friction, similar to the process observed in the incisors of the Rodentia. The structure of the teeth in the Orycteropus, or Cape ant-eater, is totally different from all the other ani- mals of this order; they are destitute of fangs, and pene- trated their whole length by an infinity of small parallel tubes, the superior orifices of which are visible on the crown when the enamel is worn off; and are still more visible at their bases. A magnified view of a similar ar- rangement is perceptible in the molars of the Sus africanus. The u Mermecophaga," or ant-eaters properly so called, are destitute of teeth of every description. By referring to Cuvier's " Ossemens Fossiles," it would appear that the illustrious author had not enjoyed an op- portunity of a detailed examination of the teeth of the Megatherium. It is merely stated, (at p. 179, vol. v.) " Another difference consists in the teeth of the Mega- therium possessing two roots, which I do not find in my specimens of sloths." If I am correctly informed, the teeth of the Megathe- rium had not been seen at the il Jardin des Plantes" dur- ing the lifetime of the Baron; specimens were, however, subsequently obtained. The museum of the Royal Col- lege of Surgeons of London, has recently been put in pos- session of choice specimens of the remains of this interest- ing fossil animal, through the liberality and public spirit of Mr. Woodbine Parrish. It was among these remains that I first enjoyed the opportunity of inspecting the skull and teeth of the megatherium, through the kind politeness 318 ON THE STRUCTURE, &C. of Mr. Clift, the Curator. In structure, they resemble those of the B. tridactylus ; they differ in form and in the possession of two radical fangs. The teeth of the Megalonyx also consist of three dis- tinct substances ; their general structure bears a close ana- logy to those of the Bradypus tridactylus ; but complete series of the teeth of this species have not yet been ob- tained. The molars which have been discovered differ from each other in size and form ; their crowns assume by fric- tion a form analogous to those of the B. tridactylus. FOSSIL BONES OF THE MEGALONYX. 319 Description of the Fossil Bones of the Megalonyx, re- cently discovered in the United States, N. A.* Megalonyx laqueatus. For many years it was ascertained that the collection of fossils in the cabinet of the late Mr. Clifford of Ken- tucky, contained some of the remains of a Megalonyx. On the death of this gentleman, his whole collection passed into the hands of Mr. Dorfeuille, proprietor of the Cin- cinnati Museum,—who added a very extensive collection of fossils of almost every variety, principally from the Basin of the Mississippi. During the summer of 1829, this collection was offered for sale; when my estimable friend John Price Wetherill, Esq. with that distinguished liberality which he has so repeatedly displayed towards the sciences and those who cultivate them, authorized me, when on a visit to Cincinnati in the autumn of the same year, to purchase these invaluable relics, which, toge- ther with other admirable contributions in this depart- ment, he has caused to be arranged in the cabinet of the Academy of Natural Sciences of Philadelphia. The fossil bones which form the immediate subject of the present dissertation, were labelled " White Cave," Kentucky ; being one of those saltpetre caves so numerous in the limestone formation, in the states of Kentucky, Ten- nessee, and Virginia. One of them, named the " Mam- moth Cave," Kentucky, is said to extend thirteen miles, running under Green River. During the late war the United States government was supplied with nitre from these caves, which salt, it is said, is not regenerated so * According to the recent observations of Dr. Troost, these bones were derived from Big-bone-cave, Tennessee. 320 FOSSIL BONES OF THE MEGALONYX. soon as usual in other countries; the atmosphere within them is exceedingly dry and antiseptic; Indian Mummies, which consist of human bodies simply desiccated, toge- ther with their ornaments, have been frequently discovered in a state of high preservation ; and bones of the existing species of animals have occasionally been observed.* Along with the remains of the Megalonyx, we have received portions of skeletons of the Bos, the Cervus, the Ursus, and a metacarpal bone of the human species. The remains of the Bear alone appear to be nearly as ancient as those of the Megalonyx. Strictly speaking, these bones are not fossilized ; they retain a very considerable quan- tity of animal matter, but are much more brittle and lighter than recent bones; most of the articulating surfaces are still more or less covered with cartilage : they are mostly of a yellow ochreous colour: it is stated that they were found on the surface of the floor of the cave ; whilst those of the Megalonyx Jeffersonii were buried two or three feet beneath the surface, and are completely fossilized; they are still in very good preservation in the cabinet of the American Philosophical Society. * From a communication received from my intelligent friend Dr. Black, late of Kentucky, we copy the following extract relative to the White Cave. " The Cave is located in Edmondson County, Kentucky, on the Southern bank of Green River—130 miles distant, following the course of the stream, and 50 miles, in a direct northern line, from the Ohio river—120 miles S. W. of Lexington. It penetrates the second or upper bank of the river nearly at its summit, about half a mile fiom the mouth of Mammoth cave. The entrance dips a little below the hori- zon, and is 8 or 10 feet deep, and is only sufficiently large to admit of the simulta- neous ingress of one person, feet foremost. The first chamber is of an irregular elongated oval shape, with a low, flat, uneven roof| seldom allowing a grown person to stand erect. Water continually dropping from the ceiling keeps the floor very wet, this is irregular, and covered with a thin layer of alluvial soil—mud or clay and gravel. The second chamber differs from the first in having the ceiling covered with quill-like stalactites, and its floor more level, is intersected with small chan- nels of running water, so transparent, as to be scarcely perceptible. The third chamber is more regular than either of the others, and is chiefly distinguished by an irregular pile of limestone, which has evidently fallen from above, and very pro- bably closes the passage to other chambers. Saltpetre, so common in other caves, has not been detected in this." FOSSIL BONES OF THE MEGALONYX. 321 The remains of the new Megalonyx, consist of two claws of the fore feet; a radius, humerus, scapula, one rib, and several remnants ; os calcis, tibia, a portion of the femur; four dorsal, and one lumbar vertebrae ; a portion of a molar tooth; together with several epiphyses: the bones being portions of the skeleton of a young animal, are occasionally imperfect at their extremities. In the same collection there is a humerus nearly per- fect, and a metacarpal bone of an adult animal of the same species, disinterred subsequently at that almost universal cemetery of fossil quadrupeds, <• Big-bone-lick." The bones of the fore arm and fore foot, together with a single tooth of the Megalonyx Jeffersonii, discovered in 1796 in a cavern in Greenbriar county, Virginia, (vide Cuvier, Anim. foss. Vol. V. part 1. ed. 3, p. 160,) are the only portions of the skeleton of this genus hitherto obtain- ed. On comparison of the similar parts of the skeleton of the new animal, they will be found to display strong cha- racters of specific distinctions. In addition to the Megatherium and Megalonyx, so ela- borately described by Baron Cuvier, in his " Ossemens fossiles," this author has furnished us with indications of the existence of two other fossil quadrupeds of the order Edentata; one of these he refers to the genus " Manis," but of immense magnitude, when compared to the largest of that genus now existing: if we may judge from the size of an ungueal phalanx, which was disinterred in the vi- cinity of Eppelsheim, canton of Alzey, on the Rhine, "this fossil quadruped may have been twenty-four feet long."* (Vide Cuv. Anim. foss. 3d ed. Vol. V. part 1. p. 195.) The other fossil to which the Baron alludes, is an arma- * M. Kaup, to whom we are indebted for the discovery of two species of his fossil genus Dinotherium, or great Tapiroid animal of Eppelsheim, has recently announced his conviction that the ungueal phalanx above alluded to, belongs to his Dinotherium. (N. Jahrt. f. Min. 1833, cap. 2. p. 172.) Quoted from the Bulletin de la Soc. Geologique de France, t. v. p. 444. 41 322 FOSSIL BONES OF THE MEGALONYX. dillo, (Dasypus) more than ten feet in length, lately dis- covered in the alluvium of the " Rio del Sauce," in the vicinity of Montevideo ; this animal was evidently cover- ed with scales, and its femur, which weighed seven pounds, is said to resemble in every respect that of the armadillo.* With these preliminary remarks, we proceed to the de- scription of the bones in question, commencing with those which we are enabled to compare with similar bones of its kindred species: these latter being already minutely and accurately described in the Anim. foss., it is only neces- sary to note the points of dissimilitude. 1. The largest claw or ungueal phalanx, which appears to belong to the medius, in general contour resembles that of the M. Jeffersonii; but is much thicker and stronger, being one half as high as it is long, measured posteriorly; and is more curved at the point, and more abruptly arched above ;—the inferior osseous plate or tubercle, is globular and protuberant, and in place of two foramina, as in M. J., the vessels entered a notch, at the posterior base of the tubercle, and run in a direction parallel to the axis of the bone, but the artery soon divides, one branch pene- trating the substance of the bone, within the osseous sheath, another running upwards between the bone and nail; as is demonstrated by a groove and foramen. The osseous sheath, which rises upward and appears to have spread from the tubercle, is broken off from both sides. The articulating surface, and the whole aspect of the bone, denotes a much more powerful instrument than the same bone of the adult species to which it is allied. (Vide table of dimensions at the end of this paper, and pi. 12. fig. 1 and 2.) 2. The second claw, or that of the annular finger, is smaller, and proportionably more slender, and bears the same comparison as the first to the annular claw of the M. * More recent observers have referred the above mentioned remains to the Me- gatherium. FOSSIL BONES OF THE MEGALONYX. 323 Jeffersonii, but is a much more interesting specimen on account of the preservation of the nail itself, which is of a compact lamellated corneous structure, of a reddish fer- ruginous tint, and adheres closely to the bone beneath, and to the osseous sheath above, which is fractured and removed on the exterior side, and shows the nail passing upwards and backwards as far as the articulating epiphy- sis, pi. 12. fig. 3. The inferior or cutting edge of the claw or nail is canaliculate, as in the Bradypus tridacty- lus. At the inferior portion of the claw, the corneous substance is three-tenths of an inch in thickness. On the interior surface the osseous sheath is perfect, and extends above the dorsum of the bone, vide pi. 12. f. 4. This phalanx is much more curved than that of the M. Jeff, and differs also in its relative proportions; its height is about one-third its length. (Vide table of di- mensions.) All the claws in this species, as well as in those of the M. Jeffersonii, were evidently furnished with osseous sheaths, but are broken in the specimens of the last named species ; a fact which could not be so readily ascertained by examining the plaster casts of the bones alone; in which respect again the Megalonyx is more closely allied to the sloth. 3. The contour of the superior head of the radius is circular, as in the Megalonyx Jeffersonii; and in its ge- neral aspect this bone resembles that of the last named species, but is proportionably thinner, narrower, and longer;—cartilaginous matter remains adhering to the ar- ticulating surfaces. The epiphysis from the radio-carpal extremity is lost. (Vide pi. 12. fig. 5. anterior, and fig. 6. posterior view.) 4. The fractured molar tooth appears to have belonged to the inferior maxilla on the right side ; the crown is de- stroyed ; a part of the cavity of the root remains. The body is compressed transversely, and presents a double 324 FOSSIL BONES OF THE MEGALONYX. curvature, which renders its anterior and exterior aspects slightly convex; the posterior and interior gently con- cave ; these surfaces are all uniform, with the exception of the interior or mesial aspect, which presents a longi- tudinal rib or ridge, one-half the thickness of the long di- ameter of the tooth ; with a broad, not profound, longitu- dinal groove or channel along each of its borders. It is from this resemblance to a portion of a fluted column, that the animal takes its specific appellation. The crown would resemble an irregular ellipsis widest at the anterior portion. The tooth consists of a central pillar of bone surrounded with, enamel, the former of a dead white, the latter of a ferruginous brown colour: the transverse diameter is more than two-thirds less than its length, whilst that of M. Jeffersonii is only one-third less —the antero-posterior diameter is one-half its length in the former, and two-thirds less in the latter. The pro- portions of this tooth are consequently totally at variance with that of its kindred species. (Vide pi. 12. fig. 7, 8, 9.—a. exterior, b. interior, c. crown.) 5. Os humeri.—The portions of the skeletons of this genus, which remain to be described, being heretofore unknown, our means of comparative observation as regards its kindred species are at an end; among its congeners, however, there exists ample means of comparison. In the form of the humerus of the Orycteropus, for example, we find the almost exact counterpart of that now under notice. (Vide Anim. foss. Vol. 5, part 1. pi. 12. fig. 2. Ed. 3.) It has already been remarked that the individual whose bones are above described, was at death a young animal, perhaps one-third less than the adult size ; consequently the epiphyses are generally separated, and in some in- stances lost: this is the case with the arm bone. Being in possession of a larger and much more perfect specimen of a fossil humerus of the same species, from Big-bone-lick, FOSSIL BONES OF THE MEGALONYX. 325 we shall draw our descriptions from this ; merely remark- ing of the former, that it bears the same relative propor- tions to the radius, as is observed in the same parts in the Orycteropus. Myrmecophaga Capensis.—Pall. (Vide table of dimensions.) The humerus from Big-bone-lick, is nineteen inches long, and is of the colour and consistence of the bones of the Mastodon from the same locality. Like the same bone in the Myrmecophaga and Orycteropus, it is dis- tinguished by the extreme length of the internal con- dyle, in order to afford origin to the large muscles which move their enormous claws. This internal condyle is also distinguished by a large foramen, for the transmission of nerves and blood vessels, and to relieve them from the pressure to which they would be subjected by the action of the large muscles in their vicinity. This foramen is characteristic of all the species included in the order Edentata, with the exception of the Sloth and Megathe- rium. The shaft is strongly marked with longitudinal ridges and depressions ; its superior head by a large ex- ternal and internal protuberance ; its lower head, together with the radio-humeral articulating surface, is broad and flat, with a depression or cavity on the posterior part, for the coronoid process of the ulna. The external condyle is partially fractured, but judging from the apparent cur- vature at its superior border, its outline is precisely the same as that of this condyle in the Orycteropus. (Vid. pi. 13. fig. 10. from Big-bone-lick. Fig. 11. Big-bone-cave, Tennessee.) 6. Scapula.—As a counterpart for this bone we might refer to its almost miniature likeness, the scapula of the Myrmecophaga jubata, to which it bears a closer resem- blance than to that of any other animal. In both, the bone is nearly as high as broad; and both are perforated by a distinct foramen, in place of a notch, near the anterior and inferior angle; but they differ in the relative position 326 FOSSIL BONES OF THE MEGALONYX. of the superior and posterior angle, in the relative lengths of the different borders, and in the relative length of the acromion process. The posterior border is nearly rec- tilinear in the present instance, and curved in the Ant- eater. The acromion process is nearly on a line with the anterior border of the glenoid cavity, in the former; whereas this process projects below, and before this bor- der in the latter. In both, the acromion projects a con- siderable distance from the coracoid process, with which it has no connexion. The anterior border of the mega- lonyx scapula being broken, we have by dotted lines, at- tempted its restoration in the figure. The glenoid cavity is an ellipsis, nearly twice as long as it is broad. It is most probable that the new animal, unlike the Orycteropus, was furnished with a clavicle, in which respect it resem- bles the Megatherium, the little Ant-eater, and the Sloth. (Vid. Tab. of dimens. and pi. 13. fig. 12. which may be compared with the humerus of the Orycteropus, pi. 9. fig. 6. vol. 5. pi. 1. ed. 3. Anim. foss.) 7. A metacarpal bone, which probably belonged to the same animal from which we have derived the humerus, was lately obtained by Mr. Cooper from Big-bone-lick, for a cast of which we are indebted to Dr. Dekay ;—it is proportionably shorter and thicker than the metacarpal bone of the index finger of the M. Jeffersonii, to which it bears a general resemblance ; it differs also in the diagonal or oblique position of the articulating surface of its inferior head, and in the greater size of its tuberosities; from the marks on its superior or carpal head, it must have be- longed to the right fore-foot, and is part of a skeleton of an animal much larger and more powerful than the M. Jeffersonii. (pi. 13. fig. 13. back view, fig. 14. anterior articulating surface.) 8. Ribs.—The first rib of* the left side has its inferior extremity broken off;—it is characterized by the extreme width of its superior head ; the largeness and proximity of FOSSIL BONES OF THE MEGALONYX. 327 the two articulating surfaces; and the deep furrows for the lodgment of muscles.—pi. 13. fig. 15. The remain- ing rib is in a state of perfect preservation ; it is much thicker in proportion to its length than that of the Rhino- ceros ; the superior extremity is marked, for a small dis- tance, with a furrow for the intercostal arteries, on both the anterior and posterior borders:—the distal extremity is narrow ; it appears to be one of the anterior false ribs, left side. (Tab. dimens.—and pi. 14. fig. 16.) 9. Vertebras.—These consist of four dorsal and one lum- bar ; pi. 13. fig. 17. appears to be one of the posterior dorsal. The general resemblance is to that of the Mega- therium ; but the spinous process is not so long; all the processes have lost their epiphyses. The lumbar vertebra is larger and heavier, as usual. The bodies of all are per- forated by one or two large foramina, running from the base to the spinal canal. (Vid. Tab. of Dimens. and pi. 13. fig. 18.) 10. Femur.—An epiphysis, comprising the inferior head, is the only portion of this bone preserved; this, however, is very important, as it enables us to construct the knee joint, which in this animal presents remarkable characters. When it is recollected that the whole order of the Edentata, like that of the Monotremata, are char- acterized by their abnormal physical developments, the peculiar structure observed in the new fossil animal will appear less surprising. The internal condyle is very considerably larger and projects further downwards than usual; where it is re- ceived into a rather deep concavity of the tibia. The external condyle is smaller and represents a segment of a flattened sphere, the longest diameter of which is in the antero-posterior direction ; the depressed surface looking obliquely inwards, toward the internal condyle, from which it is separate nearly two inches. The pulley-like surface for the accommodation of the rotula, is large, and 328 FOSSIL BONES OF THE MEGALONYX. strongly marked, though not deep. This portion belong- ed to the femur of the right side. (Vid. Tab. Dimens. and pi. 14. fig. 19.) 11. Tibia.—This bone is in a good state of preserva- tion with the exception of the inferior head, which is de- prived of its epiphysis. The depression on the superior head for the reception of the internal condyle, is nowise remarkable, except for its unusual depth ; it would admit of extensive motion without liability to luxation. The central ridge which divides the head does not extend across the surface : the articulating surface is convex; and on its outer border, in place of the usual depression for the reception of the external condyle, there exists a seg- ment of sl flattened sphere, projecting upwards nearly on a level with the central ridge, and in a manner isolated from the other portions of the articulating surface, leaving a considerable portion of the anterior and exterior part of this surface, irregularly raised, not covered with cartilage, and bearing marks of tendinous insertions. This sphere is rather more depressed than the external condyle, on which it moves; and projects posteriorly, much beyond the border of the interior articulating cavity. On the ex- terior and rather posterior lateral portion of this sphere, there is a rough and honey-comb appearance, evidently intended for the attachment, by anchylosis, of the superior head of the fibula, which must have occupied a position nearly posterior as well as exterior to the tibia. The body of the tibia is uniform anteriorly and depressed ; gra- dually narrowing and compressed towards the middle, and again enlarging at the inferior portion: posteriorly the body of the bone presents a broad ridge, causing a con- siderable projection at the upper part, and descending in a straight line from the sphere in the centre of the bone, and disappears before it reaches the middle of the tibia. By referring to the table of dimensions, and pi. 14, fig. 20 and 21, being an interior and posterior view—and to FOSSIL BONES OF THE MEGALONYX. 329 fig. 22, being a view of the articulating surface, a more correct idea of this anomalous structure will be obtained, than can be given in a description. The tibia is of the left leg. 12. There is an articulating epiphysis, which appears to have been attached to the inferior head of a tibia; but is unlike any portion of bone of that kind that has come under my observation. It presents a large articulating surface, still covered with dark coloured cartilage ; there is a short internal maleolus, separated from the articulating surface anteriorly by a deep groove for the passage of a strong tendon, and two other grooves, situated laterally and rather posteriorly ; there is also a small articulating surface projecting obliquely upward and outward from the exterior border; the bone is convex anteriorly, and con- cave posteriorly. It appears too large to have formed a part of the tibia just described, pi. 14, fig. 23. 13. The Os calcis presents some analogy in general contour to that of the Badypus tridactylus, but is propor- tionably much shorter, as will be seen by referring to the table of dimensions : it presents three articulating surfaces for attachment to the astragalus; superior, inferior, and exterior. (Vid. pi. 14, fig. 24.) The inferior border is con- cave ; the superior, probably, an oblique plane ; (this por- tion being fractured.) The posterior and inferior extre- mity is inclined inwards. (Vid. pi. 14, fig. 25.) 14. The inferior maxilla of a Bear, found in u Big-bone- cave," is introduced here, as it displays appearances of an antiquity nearly equal to that of the bones of the Mega- lonyx. It appears to have belonged to the common black Bear, (Ursus Americanus,) pi. 14, fig. 26. Our animal with the teeth constructed after the manner of the Sloth, presents in the remaining portions of the skeleton, a singular admixture of characters peculiar to the Ant-eater, the Armadillo, and the Orycteropus. In size, the adult of the present species surpasses the 42 330 FOSSIL BONES OF THE MEGALONYX. Megalonyx of Jefferson, being about one-third less than the Megatherium. It possesses peculiarities of organic structure, which certainly entitle it to rank as a distinct species; indeed a minute examination of the tooth and knee joint, render it not improbable, supposing the last named character to be peculiar to it, that if the whole frame should hereafter be discovered, it may even claim a generic distinction; in which case, either Aulaxodon, or Pleuhodon, would not be an inappropriate name; re- ferring to the ribbed or fluted form of the mesial aspect of the tooth, M. Desmarest's most prominent character of this genus, viz. " Molars cylindrical," will not apply to this animal. In every instance, when it could be accom- plished with any degree of certainty, an attempt has been made to restore the fractured portions of bone, by intro- ducing dotted lines. The fossil humerus disinterred at Big-bone-lick, and which appears to have belonged to an adult individual of the present species, is nineteen inches in length ; the same bone of the Megatherium is twenty-six inches and four- tenths ; the height of the whole skeleton of the latter, ac- cording to Cuvier, being seven feet four inches and five- tenths ; which would give to the new animal, a height of about five feet, supposing the existence of similar propor- tions. The radius of the new animal, (being part of the young skeleton found in " Big-bone-cave") is about one- sixth less than that of the M. Jeffersonii; and the individual to which it belonged, may have been about the size of the common ox, although it was not more than three-fourths grown, if we are permitted to judge from comparisons made on the size of the os humeri, and metacarpal bone of the fossil animal found at Big-bone-lick, with those from Big-bone-cave. The laws of co-existence, when applied to estimate the relative proportions of animals, must of course be admit- ted with some limitation, these proportions being known FOSSIL BONES OF THE MEGALONYX. 331 to vary according to age, and other circumstances. Thus the legs of the colt are proportionably much longer than those of the horse ; and were we to conclude from the ex- treme size of the internal condyle of the os humeri of the Orycteropus, that the claws of this animal are equally de- veloped with some others of the same order, the conclu- sion would be erroneous. Further, the bones of the fore arm of the new Megalonyx, (young specimen) are actually smaller than those of the M. Jeffersonii, yet the claws of the former are absolutely larger and stronger. Indeed, as Cuvier has already remarked, there exist exceptions to all those general laws of co-existence, so admirably esta- blished by his boundless penetration. Thus, to the gene- ral law, u Ruminant animals furnished with sharp canines are destitute of horns," are opposed the examples found in the Cervus moschatus, and in the subgenus, Rusa. Again, " Ruminants alone are characterized by cloven hoofs"—the genus Sus furnishes an example directly at variance with this rule. Such exceptions however stand in relation to the whole system, as " spots in the sun ;" the only surprise is, that they do not more frequently oc- cur. In fine, the deeper we enter into the study of this most important and deeply interesting department of know- ledge, based as it is, on the unerring principles of geo- metrical and mathematical science, the more cause we find to look up with admiration to that ii Master Spirit," which diffusing itself through every department of animated na- ture, has conferred upon this, a dignity, order, and utility, equalled only by the science of astronomy; and which certainly cannot be surpassed by any pursuit that may oc- cupy the mind of man. 332 FOSSIL BONES OF THE MEGALONYX. TABLE OF DIMENSIONS. LARGE CLAW. Inches. Length of the largest Claw, 6. 8 Height, - - - - 3. 4 Length of articulating surface along the cord of the arch, 1. 6 Breadth of the same, - - 1. 6 SMALL CLAW. Length, - - - - 6. 0 Height, - - - - 2. 0 Length of articulating surface along the cord of the arch, 1. 1 Breadth, - - - - 1.1 RADIUS. Length without inferior head, 12. 6 Greatest width, - - - 3. 1 Thickness, - - - - 1.0 MOLAR TOOTH. Length of the fragment, - 2. 3 Antero-posterior diameter, - 1. 4 Transverse, - - - - 0. 8 HUMERUS. From Big-bone-lick. Length, - - - - 19. 0 Greatest diameter of its shaft, 3. 0 -------of superior head, - 5. 5 Breadth of inferior head, about 9. 0 Long diameter of the foramen in the internal condyle, - 2. 0 Short or transverse diameter, 1. 0 Diameter of superior articulating surface, - - - - 4. 0 Length of articulating surface of inferior head, - - - 6. 0 Distance of the extremity of the internal condyle from the cen- tre of the shaft, - - - 6. 0 HUMERUS From Big-bone-cave, without epiphyses. Length, - - - - 12. 8 Diameter of the shaft, - - 2. 0 METACARPAL BONE From Big-bone-lick. Length, - - - - 5. 0 Long diameter of anterior head, 2. 5 Short diameter, - - - 1. 5 SCAPULA. Inches. Length of the spinal border not following its curvature, about 13. 0 Posterior border, - - - 9. 0 Anterior border, - - - 9. 0 Height of scapula from the cen- tre of the spinal border, to gle- noid cavity, about - - 11. 0 Length of glenoid cavity, - 3. 5 Transverse diameter, - - 2. 0 Height of the spinous process, 3. 0 Length of the acromion process, 3. 0 Breadth, - - - - 1. 5 RIB. Breadth of the head of the first rib, 3. 8 ------ of articulating surface, 2. 3 Length of the false rib following its curvature, - - - 29. 0 Breadth, - - - - 1. 5 VERTEBRAE. Height of a dorsal vertebra from the base of the body to the apex of the spinous process, - 7. 0 Diameter of the body, - - 2. 5 -------of the spinal canal, 2. 0 FEMUR. Greatest breadth of the inferior head, 8. 6 Diameter of the internal condyle, 3. 0 -------external, - - 2. 0 Breadth of the rotuline surface, 3. 3 TIBIA. Length, about - - - 10. 0 Transverse diameter of the supe- rior head, - - - - 6. 4 Antero-posterior diameter across the external condyle, - - 5. 0 Transverse diameter of the mid- dle of the bone, - - - 2. 7 Antero-posterior diameter, - 1. 7 TIBIAL EPIPHYSIS. Transverse diameter, - - 5. 3 Antero-posterior diameter, - 2. 7 OS CALCIS. Length, - - - - 5. 5 Height of articulating surfaces, 4. 0 Breadth of the same, - - 3. 3 Height of the body of the bone, 3. 0 Plate XIV '"'Mate- XIIf FOSSIL BONES OF THE MEGALONYX. 333 EXPLANATION OF THE PLATES. Plate XII. '. Fig. 1. 2. 3, 5. 6. 7. 8. 9. Plate XIII. 10. 11. 12. 13. 14. 15. Plate XIV. 16. 17. 18. 19. 20. 21. 22. 23. 24. 25. 26. Plate XV. Ungueal phalanx of the medius finger. View of the inferior surface of the same. and 4. Lateral views of the annular phalanx. Radius, anterior view. Radius, posterior view. Molar tooth, external lateral view. -----------, internal lateral view. Crown of the tooth. Humerus from Big-bone-lick. Humerus from Big-bone-cave. Scapula. Metacarpal bone of the index finger, back view. -----------anterior articulating surface. First rib. False rib. Posterior dorsal vertebra. Lumbar vertebra. Condyles of the Femur. Tibia, posterior view. Tibia, interior view. Tibia, articulating surface. Epiphysis from the inferior head of a Tibia. Os calcis, articulating surface. Os calcis, lateral view. Inferior maxilla of a Bear. Jaws, teeth, and clavicle, of the Megalonyx laqueatus. 334 FOSSIL BONES OF THE MEGALONYX. Description of the Jaws, Teeth, and Clavicle of the Me- galonyx Laqueatus. Desirous of examining the fossil bones, now in New York, in the possession of Mr. Graves, I proceeded there with my friend, Mr. Norris. Amongst others, I found a bone, which I had not seen before, and which is the first of the kind that has been described of this animal. I pre- sume it to have been the clavicle of a Megalonyx laque- atus, lately described by me; as portions of this part of the skeleton of this species, were found at the same time and place. The individual of which the remains now describ- ed were a part, was older and larger than the one dis- covered at Big-bone-cave. This clavicle* belonged to the left side, is long, flatten- ed, and slender, curved somewhat like the human clavicle. The sternal extremity is thickened and hemispherical, where it forms the articulating surface: the scapular ex- tremity is compressed, and furnished on the inner, or in- ferior surface, with strong tubercles for the attachment of ligaments. The anterior, or superior aspect of the sternal extremity, is marked by an arterial groove. The length of the clavicle is seventeen inches, the greatest circumfer- ence, four inches ; the breadth one inch and eight-tenths; the greatest thickness, one inch. The fragmentf I am now about to describe, is a portion of the dexter lower jaw of the Megalonyx, containing four molar teeth; three of the crowns of these teeth are perfect, that of the anterior one is imperfect. These teeth * Figure 7, plate 15. t Plate 15, fig. 1, is a flat view of the Jaw, looking down. Fig. 2, the interior aspect. Fig. 3, the exterior aspect. FOSSIL BONES OF THE MEGALONYX. 335 differ considerably from each other in shape, and increase in size from the front, the fourth and posterior tooth being double the size of the first, and more compressed laterally: it is also vertically concave on its external aspect, and ver- tically convex on its internal aspect; the interior, or me- sial surface is strongly fluted, and it has a deep longitudi- nal furrow on the dermal aspect, in which respect it dif- fers from the tooth of the M. Laqueatus, previously de- scribed by me,* of which the dermal aspect is uniform, but to which, in all other respects, it has a close resem- blance. I suppose it therefore probable, that this last may have belonged to the upper jaw. The three anterior molars differ in shape and markings: they are vertically grooved, or fluted, on their interior and posterior aspects, a transverse section presenting an irregular cube. The length of the crown of the posterior molar is two inches; the breadth about five-tenths of an inch: the length of the tooth is three inches and six-tenths. The diameter of the penultimate molar is eight-tenths by seven-tenths of an inch. The length of this fragment of the jaw bone is eight inches and four-tenths; the height three inches and six-tenths: the length of the space occupied by the alveolar sockets, five inches and eight-tenths. The crown of the tooth presents no protuberances, but resembles that of the sloth ; the roots are hollow. There is also in Mr. Graves' collection, a tibia, nearly perfect, from the right leg: the segment of a flattened sphere, on which the external condyle of the femur moves, is rather more depressed, than in the specimen from Big- bone-cave. Other marks and peculiarities are observable on this bone, not found on that of the Megalonyx of Big- bone-cave, but they are probably due to a difference in the age of the individuals. Of the remains of Mastodons in this collection, I shall * No. 4, is the fluted surface; No. 5, the external, or dermal surface; and No. 6, the crown of that tooth. 336 FOSSIL BONES OF THE MEGALONYX. only notice the recomposed cranium of an animal, not yet adult, but which appears nearly perfect. The tusks are of an enormous size, and there exists a very deep cavity immediately anterior and below the aperture for the ante- rior nares, for the lodgment or origin of the large muscles which moved the trunk. This cranium does not appear to differ specifically from that of a specimen in Peale's museum, New York, and which gave occasion to the too hasty proposal of a new genus, under the designation '" Tetracaulodon," or " four tusked ;" a name which would be more appropriately applied to the wild boar, the hip- popotamus, and many other quadrupeds which are furnish- ed with four tusks. Os Ilium of the Megalonyx—from Big-bone-cave, White County, Tennessee.—PI. XVI. Among several portions of the skeleton of the Mega- lonyx, recently discovered in the above named locality, the only bone of this extinct animal, not heretofore obtain- ed, is the os ilium. Referring to the accompanying figure for a very accu- rate view of this bone, we need only remark, as a curious distinguishing feature, the acetabulum. This is divided into three distinct articulating facets, by a deep crucial groove, the superior facet being nearly double the size of the two inferior. These deep and strongly marked grooves denote the former attachment of very powerful round liga- ments. The observations of Dr. Troost on the locality of these fossils, render it quite probable, that all the bones of this animal, hitherto described as coming from White Cave, Kentucky, are in reality relics from Big-bone-cave, Ten- nessee. riAT/ Os jJlnuu of tile ]\ledRlc L-lumtn k'JJnr;d Lit/i '■'F//,{,, BASILOSAURUS OF LOUISIANA. 337 Observations on the Fossil Bones found in the Tertiary Formation in the State of Louisiana. Originally com- municated to the American Philosophical Society. In conformity with a resolution recently passed by this Society, requesting me to describe the osteological fossil remains presented by Judge Bry, I have the honour to offer the following observations for publication in their Transactions. The fossils consist of several fragments of vertebrse, and one of immense size nearly perfect; to- gether with specimens of the soil, and several osteological fragments too much mutilated to offer any descriptive cha- racters. For the local history of these fossils we are indebted to the following letter from the donor, addressed to our ve- nerable President, Mr. Duponceau. Philadelphia, July 12th, 1832. Dear Sir, I have the honour to present to you, for the Society over which you preside, some fossil bones, found on the Ouachita* river, in the state of Louisiana, at a distance * As I spell the word Ouachita differently from the apparently adopted mode, it may not be amiss to explain why I think that my orthography should be retained. The etymology of the word is in one respect descriptive of the country. The word Ouachita is composed of two Choctaw words; to wit, ouac, a buffalo, a cow, horned cattle in general, and chito, large, pronounced tchito, bearing lightly on the initial t. It meant the country of large buffaloes, numerous herds of those animals having formerly covered the prairies of Ouachita. All the names, (now translated into French,) of Riviere aux Bceufs, Bayou Boeuf, have the same origin. These animals have disappeared before civilization, with the Indian tribes, whose principal support they formed. They never remain long within hearing of the repeated strokes of the axe, or of the voice of the white man. Nothing is left to remind us of them at Ouachita, but the sound of this name, which may serve to keep in remembrance the fact of their former undisturbed possession of the country. The common or- thography, Washita, destroys this allusion, and means nothing in itself. By re- 43 338 BASILOSAURUS OF LOUISIANA. (south) of about fifty miles by land, and one hundred and ten by water from the town of Monroe, in the parish of Ouachita, and in lat. 31° 46' or 48'. I regret that my very limited knowledge does not per- mit me to add to this offer such a dissertation on the sub- ject as would be useful or even agreeable. A scientific memoir cannot be expected from one who has now spent the last thirty years of his existence literally in the re- motest forests of Louisiana, whose life has during that long period been entirely devoted to agricultural pursuits, and who has consequently been deprived of all means of keeping pace with the progress of science ; yet as I feel that it may be necessary to make you acquainted, as far as lies in my power, with the locality of these bones, I beg leave to submit the following observations. It would be useless to offer more than a few casual re- marks on the geology of Louisiana, which is better known to the Philosophical Society than to myself. That part of the state, beginning at the foot of the highlands of Ba- ton Rouge, on the eastern side of the Mississippi, and at the hills in the parish of Cataouta to the sea, is evidently soil of comparatively recent formation. You are probably acquainted with the character of the different strata on which rests the lower part of Louisiana. A description of them has been published as they occur on the Bayou* taining the mode of spelling which I have adopted, it may serve to show how Ian- guages the most remote may receive the phraseology of one another. The first settlers at Ouachita were French hunters, who adopted, with that facility peculiar to their nation, not only the Indian mode of living, but, in some instances, their expressions. Thus they found the country named Big Buffalo, and they marked the different epochs of their lives by such expressions as these:—Vannee de lagrande eau, (1798); and Vannee de la grande ourse, (1810), when thousands of bears crossed the country, emigrating towards the west. * As the most important point in making ourselves well understood, is to attach to words a permanent meaning, conveying at once and correctly the ideas we wish to express, I beg leave to observe that I understand the word bayou to mean a stream which has little or no current; such as the Bayou de Siard, the Bayou de la Mdchoire a VOurs, which are hardly any thing more than natural drains to the adjacent low lands. A creek I conceive to be a small stream running through the BASILOSAURUS OF LOUISIANA. 339 St. John, near the city of New Orleans, where an enter- prising gentleman (Mr. Elkins) undertook to bore for good water. He reached to the depth of two hundred and twelve feet, but endeavoured in vain to bore deeper. At that depth the soil appears to be of the same nature as the deposit now made by the Mississippi, the interme- diate strata being various; but no shells were discovered except fragments of some bivalves, exactly similar to those now found in the Bayou St. John. Part of a crab was brought up by the augur, at a depth of one hundred and sixty feet; and, if my memory serves me aright, a piece of a buck's horn was also found. The hills, beginning at Cataouta, extend north to the Arkansas river, and west to Red river, whence they spread to the Sabine. Through that tract of country are interspersed overflowed lands, varying in extent accord- ing to the magnitude of the creeks, of which they form the banks at low water, and which flow over them at high water. In these hills very few ores are found except those of iron, which are abundant in two different places', but no measures have yet been taken to ascertain their value. The highest of the hills do not exceed eight hun- dred feet above high water mark ; and in many places they dwindle into gently rolling ground. These hills ap- pear to be of a much more ancient formation than the lower section of Louisiana. No rocks, however, enter into their composition ; but a few sandy stones and peb- bles, nearly all siliceous, are occasionally seen scattered on their summits, or in the beds of the numerous creeks fed by springs issuing from them. Sea shells are discovered in several places; I found them on the highest ridge which divides the waters run- ning into Red river from the tributary streams of the hills and highlands with a brisk and continued current, and emptying itself into the bayous, rivers, or overflowed lands. These two expressions are thus generally used in the upper parts of Louisiana. 340 BASILOSAURUS OF LOUISIANA. Ouachita. The tract, by far the richest in calcareous substances, is the one within the limits where fossil bones have been found, extending about fifteen miles from north to south, and probably ten or twelve from east to west. Several years ago, while rambling among these hills, I met with a small creek, the banks of which are in some places thirty feet high, in which I found many different species of sea shells, among others, pectenites, belemnites, &c. At the same time, my attention was attracted by a quantity of cornua ammonis, the largest of which did not exceed an inch and a half in diameter, while many were much smaller. The hill, in which the bones herewith presented were found, is within the limits above described, at a distance of not more than two hundred yards from the Ouachita river. About three years ago, after the occurrence of a long spell of rainy weather, a part of the hill slid down near to the water's edge, and thereby exposed twenty- eight of these bones, which had been until then covered by an incumbent mass of earth about forty feet thick. They were imbedded in a bank of sea marl, a specimen of which is added to the bones, as well as of the calcareous spar and talc also found in the same hill. I followed a horizontal vein of this marl, five or six inches thick, which I traced to a distance of about forty feet, when it sinks into the valley under an angle of from twenty-five to thirty degrees. It appeared to have effloresced where it had been long exposed to the influence of the atmosphere. When these bones were first seen, they extended in a line, which, from what the person living near the place showed me, comprised a curve, measuring upwards of four hundred feet in length, with intervals which were vacant. The person referred to destroyed many of the bones by employing them instead of andirons in his fire- place, and I saved what remained from the same fate. I think, however, that a great many more bones belonging BASILOSAURUS OF LOUISIANA. 341 to the same animal are yet covered, and will gradually appear, as the soil and marl shall be washed off by the rain. If I might presume to express an opinion as to the ani- mal to which these bones belong, I should venture to say that they were part of a sea monster. The piece having the appearance of a tooth, which I gathered myself on the spot, may assist in determining that point. To you, Mr. President, and to your learned colleagues, who are so fully adequate to the task, I cheerfully relinquish the solution of this problem, as well as the determination of the epoch of our globe when the animal existed. Accept, my dear sir, the expression of my great regard for your- self, and of my sincere wishes for the prosperity of the useful institution over which you preside. Your friend and obedient servant, H. BRY. P. S. Duponceau, Esq. President of the Philosophical Society, Philada. The geological formation in which these bones occur is evidently tertiary, similar to that extensive belt which characterizes our Atlantic borders. The piece of ii sea- marl" alluded to in the above letter, is a conglomerate mass of small marine shells, consisting principally of an extinct species of Corbula, about to be described by Mr. T. Conrad, who has met with a similar formation, includ- ing the same shells, in Alabama. Most of these shells are comminuted ; a few however are perfect. On the upper surface of the mass, there remains a stratum of clay, half an inch in thickness, inclosing pieces of crystallized car- bonate of lime. The portion noticed by Mr. Bry as dis- playing the appearance of a tooth, does in reality possess considerable resemblance in size and form to the teeth of some of the fossil Saurians ; but, on closer inspection, it 342 BASILOSAURUS OF LOUISIANA. is recognisable as a portion of the cast of a Pinna, with some of the shell still remaining attached to its base. The principal fossil which forms the subject of this paper, consists of a vertebra of enormous dimensions, pos- sessing characters which enable us to refer it to an extinct genus of the order " Enalio-Sauri" of Conybeare, which includes numerous extinct genera of marine lizards or cro- codiles, generally possessing gigantic proportions, which have hitherto been found only in the sub-cretaceous series, from the lias up to the weald clay inclusive, in England, France, and Germany, and in the supposed equivalent formations in North America. The animal to which the present remnant belonged, existed at a period more recent than that of any of its congeners hitherto discovered ; the formation in which it occurs being generally referrible to a geological epoch more recent than any of the oolitic series. We have compared our fossil with the following genera: —Mosasaurus, Geosaurus, Megalosaurus, Iguanadon, Ich- thyosaurus, and Plesiosaurus ; from all of which it appears to be generically distinct; though it bears a closer analo- gy to the vertebrae of the last named species than to any other. The length of the axis of the bone is twice its dia- meter, being fourteen inches long and seven inches broad. Its sides are slightly concave in the middle, and the weight of the single vertebra is forty-four pounds. Allowing this individual to possess as many vertebrse as the Plesiosau- rus, that is sixty-six, without those of the tail, the weight of the whole fossil skeleton may be fairly estimated as ex- ceeding two tons; even supposing each vertebra to weigh only thirty pounds instead of forty-four, and calculating the weight of the head, extremities, pelvis, and tail to be collectively but a little heavier than the spine alone. Judging from the position and descending obliquity of the transverse apophyses, and the small size of the canal for the spinal marrow, this vertebra must be referred to BASILOSAURUS OF LOUISIANA. 343 the posterior part of the column, most probably to the lumbar region. This opinion is strengthened by the coa- lition of the two foramina or fossae, which characterize the inferior aspect of the vertebrae of the posterior part of the column in the spinal bones of the Plesiosaurus ;* in which respect these portions of the two fossils closely resemble each other. They are also similar in the planes of the articulating surfaces of the bodies of the vertebrae; but our fossil differs totally from the same portion of the Ple- siosaurus in its proportions, the vertebrae of the latter being broader than long, whereas the present specimen is twice as long as it is broad. All the superior apophyses of the Plesiosaurus are attached by suture to their bodies; but there are no marks of such a structure in our fossil. In the Plesiosaurus, the ribs are articulated with the distal extremities of the transverse processes by a single tuber- cle. Reasoning analogically, the same arrangement may be referred to the species under consideration, the size of which is immensely superior to that of any of the Saurian or Cetaceous tribe whatever. Judging from relative pro- portions, the Megalosaurus did not attain to more than forty feet in length; the Iguanadon of Mr. Mantell did not exceed sixty feet; but the individual now produced could not have been less than from eighty to one hundred feet long. According to the statement of judge Bry, there were four hundred feet in extent, nearly in a linear direc- tion, marked by these fossils in the soil, which undoubtedly include the remains of several individuals. If future dis- coveries of the extremities (paddles) and of the jaws and teeth of this reptile, should confirm the indications I have pointed out, we may suppose that the genus to which it belonged, will take the name, by acclamation, of " Basi- losaurus." * All the vertebrae of the Plesiosaurus are characterized by two foramina on their inner aspect, which approach each other as we descend the column, until at last they form but one hole with a septum. 344 ICHTHYOSAURIAN REMAINS IN MISSOURI. Description of the Ichthyosaurian Remains recently dis- covered in the State of Missouri. For the interesting specimen which forms the subject of the present memoir, I am indebted to the politeness of Major N. A. Ware, who obtained it from a trader, with the information contained in the following attached label:—i( A trader from the Rocky Mountains, on his return, near the Yellow-stone knobs, or hills, observ- ed, in a rock, the skeleton of an alligator-animal, about seventy feet in length ; he broke off the point of the jaw as it projected, and gave it to me. He said that the head part appeared to be about three or four feet long." The fossil fragments consist of anterior portions of the upper and lower jaws. The form of the intermaxillary bone, the structure of the teeth, and the mode of denti- tion, characterize the animal to which these bones belong- ed as a species allied to the extinct genus Ichthyo- saurus ; and afford us the first indication of the existence of this genus of lost animals on the continent of America. Future discoveries will no doubt demonstrate that our country, already rich in fossil reliquiae, possesses numer- ous species of fossil Saurians, those extraordinary inhabi- tants of a former state of our planet, which sported on the bosom of the ocean, or enlivened the shores of primordial waters, ere yet the " lord of the eagle eye" had scanned the creation, or waved his magic sceptre over the beasts of the earth. Strange, indeed, are the forms, structures, and habits of those beings with which geological researches are making us acquainted : in the beautiful and sublime at least, the pre-adamitic Fauna and Flora are as yet unsur- passed by those of the present day. Cuvier remarks,— the Ichthyosaurus has the snout of a dolphin, the teeth of ICHTHYOSAURIAN REMAINS IN MISSOURI. 345 a crocodile, the head and sternum of a lizard, the extre- mities of a whale, and the vertebrae of a fish ; whilst the Plesiosaurus has, with the same cetaceous extremities, the head of a lizard, and a neck resembling the body of a serpent. The remains of four or five species of the Ichthyosaurus have hitherto been discovered in England, France, and Germany. In England their remains have been found from the new red-sandstone even up to the green sand, which is immediately subjacent to the chalk. They con- sequently belonged to almost all that epoch of secondary formations, commonly known by the name of Jura for- mation ; but it is to the blue-gray limestone, called lias by the British geologists, that we are to look for the greatest abundance of these organic remains. In the frag- ments from Missouri, consisting of the snout, or anterior portion of the upper jaw, the intermaxillary bone is strongly marked by sutures which separate it from por- tions of the maxillary bones, beyond which it extends nearly two inches anteriorly. The nostrils in this genus being placed near the eyes, the intermaxillary is conse- quently without perforations for nostrils, and displays a remarkably dense structure; its greatest breadth is two inches. It is perforated by several rather large foramina for the transmission of blood-vessels, and contains four in- cisor teeth, two on each side, broken off on a level with their sockets. The portions of maxillary bones attached, contain three teeth on each side, all equally broken off at the socket; thus making in all ten teeth in a space of al- veolar processes four inches long—the total length of the fragment. The alveoles are perfectly distinct, and con- sist of circular osseous elevations, in the cavities of which the teeth are firmly fixed. The enamel is thick, brittle, and of a jet black colour; the cavities of the teeth are for the most part filled with spath and quartz. The trun- cated surface of the posterior portion of the fragment dis- 44 346 ICHTHYOSAURIAN REMAINS IN MISSOURI. plays the mode of dentition, where the young tooth, also hollow, is observed to project its point on the inner side of the root of the old tooth ; the root of which it destroys by pressure during growth, and which falling, allows the young tooth to take its place, the point of the young tooth always cutting the gum on the inner and posterior part of the old tooth. On the inner and posterior part of the an- terior left incisor, is observed the conical point of a young tooth, projecting in such a manner as to render a new socket necessary for its future accommodation. All the natural vacuities of these bones are filled with the matrix or rock in which they occurred, which con- sists of a dense blue-black argillaceous limestone, effer- vescing with weak acids, and not unlike the matrix con- taining the bones of the Ichthyosauri from the lias of En- gland. Beautiful and rich specimens of these fossils are contained in the cabinet of Mr. G. W. Featherstonhaugh of this city. This fragment of jaw is four inches long, two inches eight-tenths broad, and two inches in depth at its truncated part. It remains to notice the fragment of lower jaw of the left side, of equal length with the upper por- tions, and one inch two-tenths in thickness, containing the remains of five teeth, broken, and partially covered with the matrix. The exterior surface of the bone is finely scabrous, or marked by the attachments of the skin, and displays numerous foramina for the transmission of nerves and blood-vessels. Near the base of the inner surface is a deep longitudinal canal, which probably ex- tended the whole length of the jaw. From an experiment made by placing a portion of these fossils in a dilute solu- tion of muriatic acid, the whole mass would appear to be soluble; thus denoting the loss of the animal constituent of the bones. The above considerations enable us to pronounce with certainty on a fact, in itself interesting to the geologist, viz. the existence of the remains of an Ichthyosaurian ICHTHYOSAURIAN REMAINS IN MISSOURI. 347 genus in the secondary deposits on the banks of the Mis- souri river. In the present stage of the investigation it is probably premature to pronounce with equal certainty on specific distinctions; yet the magnitude of this skeleton, being thrice the size of the largest of the species yet de- scribed, and the geographical position of the fossil, seem to indicate such distinction. On comparison of the teeth of the present species with those of a fine specimen of the head of the largest species, the /. communis, in Mr. Featherstonhaugh's collection, peculiarities were observ- able.—It is highly probable that future discovery will throw more light on this interesting subject, as the pre- sent skeleton would appear to be not the only one ex- posed to view in the valley of the Missouri; and, judging from the zeal, ardour, and scientific acumen with which such researches are prosecuted at the present day in all quarters, we may hope that the era of their resuscitation is not remote. To the Mosasaurus, Geosaurus, Saurocepha- lus, and fossil crocodiles, the Ichthyosaurian and typifica- tions at least of the Plesiosaurian genus may now be added to this department of the fossil Fauna of North America. It is not improbable that Lewis and Clarke, in their Ex- pedition up the Missouri, allude to the remains of a simi- lar animal in the following extracts. i( Monday, Sep- tember 10th, 1804, we reached an island (not far from the grand detour, between Shannon creek and Poncarrar river,) extending for two miles in the middle of the river, covered with red cedar, from which it takes the name of Cedar Island; just below this island, on a hill, to the south, is the back-bone of a fish forty-five feet long, tapering to- wards the tail, and in a perfect state of petrifaction, fragments of which were collected and sent to Washing- ton. On both sides of the river, are high, dark-coloured cliffs"—Vide Lewis and Clarke's Exp. ed. 1814, vol. i. p. 69. Again, on descending the Yellow Stone river:— " The north side of the river, for some distance, is diver- 348 ICHTHYOSAURIAN REMAINS IN MISSOURI. sified by jutting romantic cliffs; these are succeeded by rugged hills, beyond which the plains are again open and extensive. After enjoying the prospect from this rock, to which captain Clarke gave the name of Pompctfs Pillar, he descended and continued his course ; at the distance of six or seven miles he stopped, and while on shore, he saw in the face of the cliff on the left, about twenty feet above the water, & fragment of the rib of a fish, three feet long, and nearly three inches in circumference, incrusted in the rock itself."—Ibid. vol. ii. p. 358. It has already been stated, that the fossils which we have described were obtained near the junction of the Yellow Stone and Missouri rivers. Should the fossils noticed in the above extracts, prove to be of a similar na- ture, the fact will display a formation extending from three to five hundred miles in a direction east and west, and north and south.* The subject of the present memoir was originally de- scribed in the Trans. Am. Philos. Soc. under the name of Ichthyosaurus Missouriensis. * Since writing the foregoing essay, the author has enjoyed a more extensive field of observation, in the examination of the numerous and magnificent collec- tions in every department of natural science, both in Great Britain and in France. He has satisfied himself that the Missouri fossil (I. Missouriensis) must be arrang- ed as an extinct genus altogether new, characterized, more particularly, in the fragment in question, by the extreme length, breadth, and projection of the inter- maxillary bone, in which it presents a marked difference from any species of the genus Ichthyosaurus, and approaches, in a slight degree, animals of the Batrachian order. EXPLANATION OF THE PLATE. Fig. 1.—View of the superior surface of the anterior extremity of the snout of the " Ichthyosaurus Missouriensis." Fig. 2.—The fractured surface of the same. Fig. 3.—Palatine surface of the same. Fig. 4.—Lateral view of the same, external surface. Fig. 5.—Internal lateral view of the anterior extremity of the in- ferior maxilla. Fig. 6.—Fractured extremity of the same. BASILOSAURUS OF ALABAMA. 349 Description of the remains of the "Basilosaurus " a large fossil marine animal, recently discovered in the horizontal limestone of Alabama. In the Transactions of the American Philosophical So- ciety for 1834, will be found the description of an enor- mous fossil vertebra, presented to the Society by Judge Bree, from the i( marly" banks of the Washita river, Arkansa territory. We there ventured to refer this bone to the vertebra of a large extinct Saurian, of a nondescript genus, and proposed to name the animal provisionally (i Basilosaurus." Accompanying this vertebra, was a mass of the matrix which enveloped the fossil, and contained fossil shells, which Mr. Conrad referred to the genus Corbula, and to a species found plentifully in the Alabama tertiary depo- sits. Regarding our opinion then expressed, as to the geological age of this marly deposit, our subsequent infor- mation furnishes no fact either to confirm or to disprove it. In the course of last autumn, Mr. Conrad received spe- cimens of fossil vertebrae, fragments of lower jaw, &c, from Alabama, about thirty miles north-west of Claiborne, which resemble, in all essential particulars, that previously described in the American Philosophical Transactions, as above noticed. These fossils occur on the plantation of the Hon. John G. Creagh, Esq., in a limestone rock, of so solid a structure as to render blasting requisite in order to obtain the bones, which are consequently much broken —scarcely a single specimen having been obtained perfect. Soon after the receipt of these bones, above noticed, Mr. J. P. Wetherill joined me in the determination of in- 350 BASILOSAURUS OF ALABAMA. vestigating the new locality of this highly interesting fossil animal. We accordingly communicated our design to the Hon. Mr. Creagh, requesting that he would use every exertion to procure us during the winter season a collec- tion of these curious remains ; noticing, at the same time, that the jaw, the teeth and long bones were more peculi- arly desirable. Mr. C. in the most liberal manner honoured our request in paying immediate attention to our demands, and this with the sole purpose of contributing to the ad- vancement of science—the different parties being stran- gers to each other. We take this opportunity of offering that gentleman, in the name of all votaries of science, our warmest thanks. The box received on this occasion contained the follow- ing named specimens : viz. A portion of the upper jaw of the right side, with several teeth, more or less perfect, all nearly buried in the matrix of limestone with which the bones are intimately incorporated (the rock is of a dull white colour, the bones of a brownish cast tinged with red- dish) ; an os humeri, fractured transversely near the distal extremity, but in other respects nearly perfect (this bone is of a greyish-black colour); several immense vertebrae, with three or four of much smaller dimensions, and of dif- ferent proportions; one isolated molar tooth, which was with difficulty separated from the mass; numerous pieces of ribs, both true and false; the inferior extremity of a tibia, and some fragments of solid bones, apparently por- tions of the shoulder and pelvis. From a similar rock in the vicinity of the bones were also obtained and forwarded, casts of a Nautilus, of a species peculiar to this formation (N. Alabamensis, Morton); a new species of Scutella (S. Rogersi, M.); and also the cast of a Modiolus, of a nonde- script species, described and figured by Mr. Conrad in the first volume of the Transactions of the Geological So- ciety of Pennsylvania; together with some fossil teeth of the Shark. \ BASILOSAURUS OF ALABAMA. 351 Further north in the same state, from a place called Erie, in a limestone somewhat similar, but of a formation which Mr. Conrad considers to underlie the above named rock, and of a less recent date, being equivalent to the green sands of New Jersey, I had previously received, through the politeness of Colonel Long, of the U. States Engineers, a fine specimen of the caudal vertebra of the Mosasaurus or Maestricht Monitor, together with nume- rous Shark's teeth, similar to those found in the New Jer- sey green sand. All the bones are alike totally destitute of animal mat- ter, and are entirely destroyed and reduced to muriate of lime by the addition of weak muriatic acid; they differ from the rock only in colour; the pores occasionally con- tain casts of small marine shells. We take it for granted that all the bones obtained from the same spot, and almost in contact with each other, con- stitute portions of one species. The great disparity in their proportions and size, presents a remarkable feature in the structure of this animal; so much so, indeed, that we were at first inclined to refer the large and small ver- tebrae to different species: and bearing in view the form and structure of the teeth only, we should have been in- clined to rank the animal among the marine carnivorous quadrupeds ; but a careful examination of other portions of the skeleton, and especially of the lower jaw, which is hollow, forbids this arrangement, and appears to force it to take its station among the Saurian order, as a lost genus. We understand from Mr. Conrad, that he was informed by Mr. Creagh, that on his first settlement in that portion of the country, a train of vertebrae belonging to this ani- mal, was observed on the surface of this rock, extending in a line much over 100 feet in length. This statement agrees with that made by Judge Bree ; 150 feet in length being attributed by the observers to the Arkansa skeleton. The comparative small ness of the bones of the extremities 352 BASILOSAURUS OF ALABAMA. or fins, constrains us to look to the tail of the animal for the principal organ of locomotion of this huge mass. Place in the geological series—most recent of the cre- taceous group. Mr. Conrad considers this horizontal limestone rock of Alabama as more recent than the true chalk of Europe, and even as occupying a place anterior to the Maestricht beds. For the accurate and beautiful drawings illustrative of these fossils, we are indebted to the skill and kindness of our friend Richard C. Taylor, Esq. who liberally offered his services " con amore" when his time was most precious to him. Such accurate illus- trations obviate in a great measure the necessity of mi- nuteness in written details. Superior maxilla. PI. 26, fig. 1. This fragment constitutes the most important portion of the new fossil animal hitherto brought to view; it consists of a considerable portion of the upper jaw of the right side, containing four teeth more or less fractured, together with the sockets of two others; these, like most of the bones, are of a light brown colour slightly tinged with red; they are so extremely brittle, and so intimately con- solidated and incorporated with the rock, as to render their separation almost impracticable. That portion of the palate bone remaining is nearly on a level with the alveoles; the side of the jaw presents a doubly concave surface, that is, concave from above downwards, and from before backwards; the superior border is convex posterior- ly, and slightly concave before: this bone is unusually thin, and at the alveoles barely sufficient to accommodate the roots of the teeth. PI. 24, fig. 2, displays these por- tions : A, the palate bone; B, the thickness of the side of the maxilla. The teeth present a remarkable structure, and as far as my observations go are peculiar to the present .species: 6" ✓\ 11 ■ ,., „ ■,. ,,. • , \"', \n(orioi viow ol'.i Imnhttr wi-tobm . .V^ti.Osliumfn ((.■ruh;,, ..fil..- i.MU-i-.yr |ioiium»niirr|»iiiM- -law l.on.- ..filu-li:, .:|„,...„ -..s.WMYown m,i-Iu.-.-,.I.....• ..ftlu. il..l... ■ i-.-.l. \'.' S.J, „«..,•«• I view ofii Motor loolii. V.' I . I..» ol I.-U.-IT..I ty....... oftJvr>iiNiloKi. .Siiinul«- vi |-<>milv ofu RiW. V.Vi. Intend view ol'flu* inferior cxiivinity of tin- Tibia. Y.' kAiilmoi- view of om-of the smaller verfetou oflhcKu silosanrus. //,:„•,, hii Hi' Atftlrr BASILOSAURUS OF ALABAMA. 355 and a quarter, to one and six-eighths inches in thickness, marked with a longitudinal depression or groove, for the lodgment of vessels and nerves, exterior to the sockets; total length of this surface seventeen inches, containing four sockets, and part of a fifth, all with remains of teeth more or less fractured and destroyed ; the four posteriorly situated are the remains of double molars, similar to that displayed in pi. 26, fig. 1, /. Anterior to the first molar, a vacant and depressed curved space occurs, and then a pyramidal rising of the alveole, which contains a canine tooth, pi. 27, fig. 1, which has been fractured on its ex- terior and superior aspect, and from the internal surface of which the enamel has scaled ; another vacant space fol- lows this tooth to the anterior fractured extremity of the bone ; the portion of tusk remaining is one inch in height, and one and a half inches in breadth at base. The frag- ments of the molars vary from two and a half inches to two and six-eighths inches in length, and from half an inch to six-eighths of an inch in breadth on the fractured surfaces. The bone being fractured both anteriorly and poste- riorly, leaves us at a loss to estimate the total length of the jaw, and consequently, the total number of teeth. Dimensions.—Total length of this fragment eighteen inches; height posteriorly, five inches—anteriorly, four inches; breadth posteriorly, two and a half inches—an- teriorly, rather less than two inches. Vertebrae. These are from different parts of the column. Great discrepancy is observable in their relative proportions and size ; and they are more or less imperfect; but all agree in having the transverse apophyses given off on a level (or nearly so) with the basil or inferior aspect of the body of the bone, and descending obliquely, so that the distal ex- tremity of these processes is inferior to the base of the 356 BASILOSAURUS OF ALABAMA. bone. All the vertebrae have the inferior aspect of the body marked with one or two blind foramina, according to the portions of the column to which they belonged—as in the vertebrae of the Plesiosaurus. PI. 26. fig. 5, re- presents the transverse processes and a portion of the spinal canal, one half the size of nature. This speci- men, like several others, has been fractured transversely in two places, so that one-third anteriorly, and one-third posteriorly, to the transverse process, have been lost. All the large vertebrae display a disposition to fracture at these parts, which arises, doubtless, from the exist- ence of three several points of ossification, dividing the bone transversely, previous to ossification, into three sepa- rate portions. The present specimen is from the lumbar region, and measures eight inches by nine in diameter; width of the spinal canal, nearly three inches. PI. 28, fig. 1, represents another vertebra of the na- tural size, and as it presents no mark for the attachment of a rib, must also be referred to the lumbar region ; it is nearly as long again as it is broad, being in total length twelve and a half inches, and not exceeding seven inches in diameter, and is nearly cylindrical, excepting in the vicinity of the processes. The blind foramen is almost obsolete. The spinous process has been elevated, con- torted, and fractured, by the pressure of the rock, when forced in whilst in a semi-fluid state, and which now oc- cupies the place of the spinal marrow. Ribs. PI. 27. fig. 2. The most numerous portion of our collection consists in fragments of ribs, not one of which even approaches to perfection ; the spinal extremities, or articulating sur- faces, exist in very few of them; these serve, however, to demonstrate an attachment both to the bodies and transverse apophyses of the vertebrae. Fio- / n.wviu. v?1 Ajumhl%r vrU-M»rf«fcrfc*hUwni..\?2.»r«rtuiir,ir«mi,ii,rH,rf-A.lJM.«,isll.-.aii,lli.il,o s,,,Mrior moxillui' • bou*'H W."l.l)«*nlal snrii««-«> <»1" tlicViilernn- t'rfmiiitvoftbi* superior tuoxillnre bone . V.' -V.Fi-hi-HihmI extromitie* of thre«* "■* • ld,msj,i:l>»flLUh' BASILOSAURUS OF ALABAMA. 357 These bones are more or less cylindrical, although oc- casionally considerably compressed, and like the ribs of most marine animals, are destitute of cellular structure. In some instances they appear to the naked eye quite com- pact and solid; but the variously fractured surfaces of others display a peculiar structure, the whole cylinder being composed of eccentric laminae: this appearance is accurately represented, pi. 28, fig. 4. The diameter of the largest specimens does not exceed three inches. There are a few spinal extremities of the false ribs; sometimes with single, at others with double articulating facets. The shafts of these are considerably curved. Humerus. PI. 26. fig. 6, One arm bone, which constituted a portion of this ske- leton, possesses unique characters. The complexion of this bone is of a much darker tint than the other bones, owing probably to its accidental position in the rock. The head, neck, and tubercles of this bone bear a striking analogy to those parts in the human skeleton. Its shaft is depressed, and particularly so as you depart from the proximate extremity, for two-thirds the length of the bone, where it is flattened, and produced outwards, to form a large depressed external condyle, when the bone becomes more cylindrical, and gradually attenuated late- rally to the distal extremity, which terminates in a gin- glymus articulation. The structure of this portion of bone leaves no doubt that the superior extremity of this animal assumed the form and functions of a fin or paddle; but a remarkable feature in this bone, is its extreme small- ness in proportion to other portions of the skeleton, which renders it certain that the animal was incapable of pro- gression on land, and refers to the tail as the chief means of locomotion. Dimensions.—Total length, sixteen inches; circum- 358 BASILOSAURUS OF ALABAMA. ference immediately below the neck, eleven and a half inches; depth at the same place, three inches ; breadth, four inches; breadth taken at the external condyle, five and a half inches. The extreme accuracy with which this bone has been represented, renders further detail un- necessary. Tibia. PL 27, fig. 1. We have represented a portion of the long bones of the | extremities, five inches in length, which can be referred to none other than the inferior extremity of the tibia: like the same bone in the human subject, it enlarges near its distal extremity, and is furnished with an internal and external malleolus. The tarsal articulating surface is small, and appears more adapted for the connexions of a foot than a paddle. This bone is of a solid structure, leaving but a small cavity in its centre for a medullary canal. Greatest circumference, seven and a half inches. The collection in the cabinet of the A. N. S. includes a portion of the head of a femur, the circumference of which, in the antero-posterior direction, was, before frac- ture, twenty inches; transverse circumference, thirteen inches. A very small portion of the neck remains at- tached.* * A letter has just been received from the Hon. Mr. Creagh, dated May 29th, 1835, announcing the discovery and partial disinterment of another skeleton of the Basilosaurus; and assuring us of his determination to forward a large collection of these remains during the ensuing winter. FOSSIL ELEPHANT TEETH. 359 Observations on the Fossil Elephant Teeth of North America. Having been latterly employed in the examination of fossil Elephant teeth found in different parts of the United States, I trust the following observations will not be un- interesting to naturalists. For a full description of the distinctive characters of fossil Elephant teeth, I must refer to Cuvier,* who has treated the subject in detail: I have here only to state, that this naturalist concludes that the fossil Elephant re- sembles the Asiatic more than the African, yet is speci- fically distinct from either, which is proved. 1. By the plates being thinner, and consequently more numerous in a similar space, in the fossil teeth. 2. The lines of ena- mel which separate the layers of the plates are thinner and less scolloped in fossil teeth than in others. These, together with corresponding differences in the jaws and cranium, M. Cuvier thinks sufficient to establish the fossil as a distinct species. The only exception to these rules, he continues, is presented by a tooth disin- terred near Porentrui, in the department of Upper Rhine, in which specimen the plates are still larger than in the other fossil teeth. Thus far M. Cuvier's description corresponds pretty accurately with those fossil teeth of the United States, which I have observed, with the exception of a remark- able variety from the western part of the state of Penn- sylvania, of which I shall speak more particularly here- after. Of those I have examined, ten specimens belong to the Museum of the Philosophical Society; three to the * Des Animaux Fossiles, torn. 2. 360 FOSSIL ELEPHANT TEETH. Philadelphia Museum; one to the Cabinet of the Academy of Natural Sciences, Philadelphia. The first are of va- rious sizes, and of different ages, and were found in Ken- tucky, North and South Carolina, and Ohio. The second are old teeth, one of them from the Santee canal, S. C. Third, a young tooth from South Carolina. Fig. 1st, is the tooth just mentioned as remarkable ; it is an old tooth of the upper jaw, the grinding surface seven inches in length, is no wise scolloped, as is common ; the layers of enamel and cement being very indistinct. A space of five inches of grinding surface, contains thirteen plates, and fourteen layers of cement. The greatest dia- gonal length of the tooth is eleven and a half inches. Fig. 2d, is from Santee canal, S. C, a lower jaw tooth; grinding surface nine inches in length, five inches of which contains six plates, and seven layers of cement; greatest diagonal length, fourteen and a half inches. One specimen in the Museum of the Philosophical So- ciety, of the upper jaw, nearly resembles that represented by fig. 1st. A fossil elephant tooth was lately presented to the Aca- demy of Natural Sciences, with a portion of the cranium, from Santee canal, S. C, with an arrangement of enamel somewhat remarkable. The enamel, instead of being ar- ranged in distinct plates, is continuous, passing from one plate to the other, at the inner margin; which can be better understood by referring to fig. 3. A similar peculiarity is described by Parkinson* as occurring in three specimens of fossil teeth of elephants, which induced this oryctologist to refer them to a distinct species. But that this peculiar arrangement of enamel is a mere deviation from the natural structure, and by no means characteristic of a distinct species, will at once be acknow- ledged by reference to fig. 4, where the same variety is * Vide Vol. III. foss. organ, rem. p. 346. PI, ^ Fu>:4 Ft,-:.? Kossil File] o/W'orlh iini'i-ica I Teeth l,hm»K X Tl:,allt,,t,t« fig 5 Leai'vi'Munyj/.-rts tig 4-Eyiuseru//! S/MyoUuiti pecopteris milleri. 387 being occasionally united at base. The length of the leaves in the latter species is not quite double their breadth, whilst these organs are in length three times their breadth in the " obsoleta;" but what would appear to distinguish the P. obsoleta from all other species of this genus, is the interruption of the basil attachment of the upper half of the leaf, which appears unconnected with the stem in many instances. All vestige of nervures is totally obliterated from the leaves of the (i obsoleta," which, in other respects, is a bold and well relieved spe- cimen. Vide pi. fig. 2. Pecopteris Milleri. P. pinnulis obliquis, rectis, linearibus elongatis, vix dis- tinctis ; nervulis simplicibus, valde obliquis. Geological position and locality the same as the preced- ing species. This most perfect specimen, which appears as if sculptured on the accompanying rock, consists of a fragment of a stem three and a half inches in length, dis- playing alternate curvatures, with four branches two inches long on either side, alternating with each other, each bearing from fifteen to twenty leaves half an inch long and two-eighths of an inch broad, separate from each other, obovate, linearly curved, and at their distal extre- mity pointed ; with numerous simple oblique nervures. This species is allied to the Pecopteris Beaumontii of Brongniart—Hist, des Veg. Foss. pi. 112—from the coal measures of the Alpine Lias, but is distinguishable by the simplicity of the nervures (those of the latter being dicho- tomous), also by the form of the leaf. We have dedicated this species to our valuable associate Mr. Edward Miller, author of the geological memoir al- luded to above, and to whom the Society has been recent- ly indebted for an interesting illustrative series of fossil shells and vegetables. Vide pi. fig. 1. 388 NEUROPTERIS. Neuropteris. Among the illustrative specimens above alluded to, are a number of vegetable fossils, numbered from thirty to thirty-nine ; they include several masses of bituminous shale, inclosing numerous impressions of leaves, of which we have enumerated five distinct layers on the surface of a single piece, which displays also on the reverse side im- pressions of finely fibrous wood. These impressions of leaves are very distinct, and readily referrible to the genus Neuropteris, and are distinguished from all other species of this genus by the extreme minuteness of the nervures, being almost invisible without the aid of a glass, seen through which, the entire leaf appears to consist of ner- vures. In other respects this species bears no remote resem- blance to the Neuropteris macrophylla, and N. flexuosa, of Ad. Brongniart, Hist, des Veg. Foss. pi. 65. We are informed by Mr. Miller, that these fossils oc- cur on the top of the Alleghany mountains, lying imme- diately on the surface of a bed of bituminous coal, and that marine shells were found both above and below them. The anthracite coal measures of the Lehigh and Schuyl- kill, Pennsylvania, are generally referred by geological observers to the grauwacke series; and the bituminous coal measures of Alleghany, Ohio, &c, to the secondary formations—the rocks would lead us to the former opinion, the fossils, in some instances to the latter, at least so far as they have been examined from both localities. I have been indebted to our associate Dr. J. L. Martin, for an interesting collection of fossil plants, consisting prin- cipally of Lycopodiolites of Sternberg, Striaticulmus, &c, from his coal mine, in the western termination of the Schuylkill coal measures, situated on the western or right bank of the Susquehanna river in Perry county, Pennsyl- LYCOPODIOLITES. 389 vania, together with a more remarkable specimen covered with the impressions of leaves, which appear to have fallen promiscuously from trees growing in the vicinity of muddy shale. Similar specimens, I have been informed, are very common in our transition coal measures. These impres- sions of leaves may be compared to those of the Lycopo- diolites dichotomus of Sternberg. Vide " Essai d'un Ex- pose Geognostico-Botanique de la Monde Primitif, tab. 2." Vide pi. fig. 3. 390 EQUISETUM STELLIPOLIUM. Description of a new Fossil Plant from Pennsylvania, of the Genus Equisetum. Equisetum stellifolium. Fig. 4. E. Caule erecto, simplici, laevi, cylindrico, diametro 1-8 poll., subaequali; ramulis 10, 12, ad articulationes caulis verticillitis, stelliformibus ; articulis vix distinctis, versus basim distantibus, superne approximatis; vaginis indistinctis. Geological position.—Coal measures, bituminous shale. Locality.—Pennsylvania, Schuylkill anthracite coal mines. Cabinet of the Geological Society of Pennsylvania. This beautiful and delicate little plant has left its image in a strong and vivid impression on a piece of densely fo- liated shale, five by three inches in size, and rather less than half an inch in thickness, displaying exceedingly minute and numerous particles of mica intimately incor- porated. So beautiful and symmetrical in appearance is this im- pression, that I conceived on first view the idea of an ar- tificial production, but its true character is easily recog- nisable by observing similar impressions in the different laminae throughout the specimen, some of which I have uncovered from the vicinity of both surfaces. The principal and most perfect stalk of these impres- sions is about three inches in length, destitute of striae, strongly but unequally divided into five separate but con- tinuous pieces, by an equal number of knots or articula- tions, the pieces diminishing in length in ascending, the first being seven-eighths of an inch, the second five-and-a- half-eighths, the third four-and-a-half-eighths, the fourth EQUISETUM STELLIFOLIUM. 391 four-eighths, &c. The stalk, originally cylindrical, has been subjected to forcible pressure; its present greatest diameter is one-eighth of an inch ; from each articulation spring eight, ten, or twelve leaves, which radiate from the centre to the circumference, forming a pretty symmetri- cal star at each articulation, which diminishes in size as we approach the superior extremity of the stalk, the leaves varying from two-eighths to half an inch in length, and being one-sixteenth of an inch in breadth, the terminal star being reduced to a mere tuft. The articular sheaths which exist in all the recent species of this genus are barely visible in this fossil specimen; they may possibly have been destroyed by pressure ; remnants of the sheath are however visible, more particularly at the antepenulti- mate joint of the upper portion of the principal stalk. Species of the genus Equisetum have been discovered growing in all parts of the globe, with the exception of New Holland; yet very few fossil species have as yet been found, and hitherto none in America. M. Ad. Brongniart, (vide Hist, des Veg. Foss., 2d liv- raison,) describes five species: one of these he states to have been found in the tertiary, two species from second- ary formations, and a third, of rather a doubtful character, from the coal measures. Our species bears some distant specific resemblance to the Equisetum Meriani, figured by Brongniart, pi. 12, fig. 13, which was found in the iridescent marl of Neue- welt, near Bale. Martin figures three fossils, (vide Petrifacta Derbensia, pi. 20,) all of different genera, under the name Phytoli- thus plantites, (stellatus.) One of these, fig. 5, bears some analogy to the present species, but is sufficiently distinct. A fine specimen of this Derbyshire fossil exists in the Steinhauer collection of Mr. Wetherill, now deposited in the Acad. Nat. Sc. of Philadelphia. Fig. 4, of the plate 392 EQUISETUM STELLIFOLIUM. above alluded to, is an Asterophillites of Brongniart, or Annularia of Sternberg. There are other plants with stellate leaves, with which, perhaps, the fossil Equisetum might be confounded, as the •» Hippuris, Asperula, Galium, &c. But if the plant figured by Brongniart, pi. 12, fig. 13, be an Equisetum, there can be no doubt of our species. FUCOIDES ALLEGHANIENSIS. 393 Description of an extinct Species of Fossil Vegetable, of the Family Fucoides. Fucoides Alleghaniensis. Ord. Nat. ALGiE. Cryptogam* aquaticae, plerumque ; marinae ; fronde inarticulata et carnosa; familias Ulvacea » ' et Fucacea formant. Fam. Fucoides,* Sternb. Algacites, Schloth. "Frons continua, nunquam articulata, plerumque difformis, nee symmetrica ; aut subcylindrica, simplex vel saepius ramo- sa, nuda vel rarius folia sustinens; aut membranacea, in- tegra seu magis minusve lobata, nervis nullis vel imper- fecte notatis, vage ramosis nee unquam anastomosantibus percursa. Fructificatio, dum exstat, punctiformis vel vesiculas sessiles aut pedicillatus efformans."—(Brongn.) Sect. Cladorites. Nob. Stipes ramosus; ramis sub- cylindraceis, transverse rugatis. Fucoides Alleghaniensis. Nob. Fronde compressa, rugata; apice recurva, obtusa; ramis inequalibus, digi- tatis et fastigiatis, enervibus, nudatis. Place in the Series.—Compact sandstone, subjacent to the coal formations. Locality.—One of the eastern ridges of transition moun- tains crossing the Juniata river, near the Susquehanna, about 40° north latitude, and about 77° west longitude, from Greenwich ; one hundred and fifty miles from Phi- ladelphia; ten miles east of Lewistown, north side of the Juniata river, Mifflin county, state of Pennsylvania. This fossil Fucus presents one of the richest specimens * Including a general group of fossil Algje. 50 394 FUCOIDES ALLEGHANIENSIS. of vegetable organic remains, that has hitherto come under my notice; not only is there a fragment of stone two and a half feet long by one and a half feet wide, with the sur- face completely crowded with the forms of this plant, but they lie upon each other three or four layers deep. They project in bold relief from the surface, with their distal extremities disposed in every direction; they appear to have been of different ages, and vary in size accordingly from two to five inches in length, the largest being eight- tenths of an inch in thickness. In breadth they vary from one to five-tenths of an inch : they are generally gently arched from the base towards the apex, and more or less recurved at top; in every instance the apex is curved downwards and sinks into the stone. The superior surface of both the stalk and branches is cylindrical, transversely wrinkled by irregular channels, and marked by a longi- tudinal depressed line. In the most perfect and distinct specimens, the digita- tions of the stalk, and fasciculation of the branches, are displayed in a beautiful manner ; they have grown in such profusion and are so crowded together, that the com- mencements or bases of the stalks are for the most part concealed ; so that in a specimen, which is five inches long, the stalk of the plant, previous to the first digita- tion or branch, is only seven-tenths of an inch in length; the largest stalk exposed to view being one inch and eight- tenths. The branches are all compressed laterally as well as the stalk, and are fasciculated or closely applied side by side at the commencement, and gradually diverge more or less towards their distal extremities, and in some instances are given off in the following order, commencing from the right,—one—two—three, &c, gradually increasing in size ; descending again to the stalk, there is a much larger branch, which soon subdivides into four irregular branches of various sizes: but in this respect there exists no unifor- FUCOIDES ALLEGHANIENSIS. 395 mity : in every case, however, the stalks very soon divide into two or more branches; the latter are more or less wrinkled apparently according to age, the rugae being more or less obsolete in the largest,—profoundly deve- loped in the smaller or younger specimens. The plants are fractured in many places, and in various directions, but the fractured portions do not display any evidence of organization ; nor is there any appearance of leaves, nervures, or fructification. The mass of the frag- ment of rock in which these fossils occur, is about half a foot in thickness, and weighs something less than two hun- dred pounds ; it is of a very compact texture, and readily strikes fire under the hammer. When I first observed this geological specimen, on my return from an excursion to the Alleghany Mountains, in the month of August of the year 1829, it constituted part of a pavement before the door of a tavern : the landlord informed me, that the stone came rolling down the mountain, (which is here very pre- cipitous) within a few yards of the house, and that view- ing it as a very ornamental specimen, he had placed it in the earth before his door to attract public notice ; and I confess that at the short distance in which I first viewed the specimen, it appeared to represent a beautiful piece of artificial sculpture. There exists a vertical fracture on one portion of the stone, which has evidently occurred subsequently to the petrifaction of the plants, and is filled at present with quartz, forming an irregular vein. Brongniart has already determined with sufficient ac- curacy, the existence of thirty-six species of fossil Fuci, (Vid. Histoire des vegetaux fossiles, ou Recherches Bo- taniques et Geologiques sur les vegetaux renfermes dans les diverses couches du globe. Par M. Adolphe Brong- niart.) To this author, together with the work of Baron Stern- berg, I have been indebted for details of great interest concerning these extinct vegetable species. M. B. con- 396 FUCOIDES ALLEGHANIENSIS. fesses his inability to divide this family into distinct genera, inasmuch as the characters proper to define them accu- rately, occur too rarely to admit of a precise classification; but he has divided the general group of fossil Algae, to which has been given the name " Fucoides," into sec- tions, founded on the form of the branches; which sec- tions are found to correspond with sufficient accuracy to one or more genera of living Algte. Only two species of fossil Fuci, have been hitherto ob- served in North America, viz. F. dentatus, and F. Serra. M. B. describes these as occurring in the "Transition limestone of Canada," and as being very different from any of the existing species. Both in the north of America and of Europe these fossils have been discovered in some of the most ancient strata of the globe. In Europe, among the lower secondary formations (terrains de sediment in- ferieur,) the bituminous Schists of Mansfield, and the an- thracite coal mines of Scania, are the only strata which contain impressions of Fuci. They become more com- mon in the strata which separate the Jura limestone from the chalk, where some remarkable species have been discovered. According to M. Keferstein, the " Grau- wacke" of the Apennines, which often contains Fuci, belongs to the transition formations, which, judging from its relations to the carboniferous limestone enclosing be- lemnites, probably corresponds to the Lais formations. At Bignor, in England, these fossils are found in the Ferruginous sand, according to Mr. Greenough; and at Voisons, Switzerland, according to MM. Dufresnoy and Elie de Beaumont, they are found in the green sand for- mation, which separates the Jura limestone from the chalk. M. Brongniart remarks, that if we admit these fossil Fuci to belong to an epoch nearly contemporaneous with the marine lignites underlying the chalk of the isle of Aix, the submarine flora which characterizes this period indi- cates a vegetation very different from that of the existing FUCOIDES ALLEGHANIENSIS. 397 species on those coasts, and which approaches rather to those of the equatorial regions, than to those of the frigid zone. In the chalk itself, only a single vestige of a plant of this family, the " F. lyngbyanus," has been discovered; this appears allied to a genus peculiar to the equatorial regions. In examining the fossil Algae of the superior secondary regions, M. Brongniart arrives at a very different result: most of these species are from Monte-Bolca, and display great analogy to those genera at present existing on the Mediterranean coasts. Thus i( marine vegetation, like the terrestrial, displays stronger affinity to that of our climate in proportion as the formations in which they occur are more recent. They present, on the contrary, characters more analogous to those of the vegetation of equatorial climates, in proportion as they belong to an epoch of more ancient formation/' In the course of the present investigation, I have been led further to admire the great harmony that is found to preside over all the laws which regulate organic life. It may be readily anticipated to what immense extent the study of fossil botany, added to that of fossil zoology, is cal- culated not only to enlighten us as regards the antedilu- vian climates, but to direct us finally to a certain know- ledge of the comparative ages of the various strata which constitute the crust of the globe we inhabit. 398 FUCOIDES BRONGNIARTII. Description of a new extinct Fossil Vegetable, of the Family Fucoides. PI. fig. 2. Fucoides Brongniartii. Natural order, ALGiE.—Linnaeus. Family, Fucoi- des.—Sternberg and Brongniart. Algacites, Schlo- theim. Section, Cladorytes.—Harlan. F. Brongniartii.—Fronde elongata, sub-quadrangula- ris, canaliculata, transverse rugosa; ramulis inequalis, sparsis, remotis, compressis, rugatis, recurvis, nudis. Place in the series.—Compact sand-stone, subjacent to the coal formation: occurring in slabs from one to three inches in thickness, the upper surface being tinged ferru- ginous. Locality.—Western part of the state of New York: the fossil is also stated to abound on the Welland canal, Ca- nada. This fossil fucus is readily recognised as a species allied to the F. alleghaniensis, which I originally described in the Journal of the Academy of Natural Science, vol. vi., from which it differs principally in the elongation and uniformity of the stem, its sub-quadrangular form, in gene- ral, and in being more compressed and elevated on the surface of the stone. The branches of the present species are less fastigiated, and more remote from each other: in no instance are the tops of the branches exposed to view in the specimens which have come under my cognizance. The largest stem is one-third less in its greatest visible diameter in the present species, and they intercept, cross, or run into each other in various directions, so as occa- sionally to assume an appearance not unlike the asterias. fl^ sUf Fio. J. yucoidfsJltyhiMiiMsis Fio.Z- FuecidisfirvMi nun ft/ vtCP^i/.rlLilhT. FUCOIDES BRONGNIARTII. 399 I have seen a very perfect specimen of this fossil, from the vicinity of Lockport, N. Y., in the possession of W. R. Johnson, Esq.; and Mr. Peale's museum of New York possesses a very large slab of these fossils. I am indebted to the politeness of P. A. Brown, Esq., for the opportu- nity of describing this species, who obtained it in the state of New York, during a geological excursion last summer. Specimens in the cabinet of the Academy of Natural Science, cabinet of Mr. P. A. Brown, &c. In consideration of the great obligation under which Dr. Brongniart has placed all admirers of oryctology, by the publication of his invaluable " Vegetaux fossiles," I have taken the liberty to designate this species by his name. EXPLANATION OF THE PLATE. Fig. 1st. Fucoides Alleghaniensis. 2d. Fucoides Brongniartii. 400 PARADOXIDES TRIARTHRUS. Notice of nondescript Trilobites, from the state of New York, with some observations on the Genus " Triar- thrus," fyc. Having recently enjoyed an opportunity of inspecting several new species of Trilobites, in the cabinet of the Lyceum of Natural History of New York, which were obtained from Utica in that state, and which were sup- posed, at first view, to belong to the new genus Triar- thrus, proposed by Dr. Green, in order to include a pe- culiar species; I have been enabled to correct the errone- ous impressions on which this genus is constructed, and which were, perhaps, unavoidable from the imperfection of the fossil specimens of this kind which have hitherto come under the observations of authors. Among the nume- rous specimens above referred to, occurs one complete impression of the whole animal, from which it is clearly demonstrated that the only portion of this animal previ- ously discovered, consisted of the buckler and not of the body. The latter having been composed of softer mate- rials, has, in most instances, been obliterated; consequently the characters which were supposed to distinguish a pe- culiar genus, under the name of Triarthrus (vide Green's Monograph of N. A. Trilobites, p. 86,) having been drawn from the head or buckler of an individual under the erroneous impression that it constituted its abdomen and tail, cannot by any means be brought to practicable application, and the genus Triarthrus becomes obsolete. But this is the less to be regretted in the present in- stance, inasmuch as by modifying and contracting the cha- racters on which the genus Paradoxides of Brongniart, or Entomostracites of Wahlenberg, is constructed, it will PARADOXIDES TRIARTHRUS. 401 readily include not only the present species of triarthritic reference, but also of the Paradoxides Boltoni, and P. sca- raboides, which do not possess all the generic characters of Paradoxides as now extant. The above named species differ generically, in the form and proportions of the ab- domen and tail, from each other and from those parts in the present species. Generic characters, in order to be practically useful, should always be brief; in accordance with this rule, the following modification of the characters of Paradoxides is offered. Genus Paradoxides. Buckler, destitute of oculiform tubercles, anterior bor- der semicircular, middle lobe marked with transverse fur- rows or bands. Abdomen, composed of transverse bands or articulations continuous with those of the lateral lobes. Under such modification we are prepared to introduce the new species before us. 1. Paradoxides triarthrus. (H.) PI. fig. 5. Buckler hemispherical, middle lobe nearly twice the width of the lateral lobes, and marked with three trans- verse lines, the two superior interrupted in the middle, lateral lobes plain, narrower above, subventricose. Ab- domen, with at least four articulations, those of the mid- dle being continuous with those of the lateral lobes, which diminish in descending order; tail continuous with the abdomen, inferior margin rounded. The whole animal is rather broader than long; length of the body nearly equal that of the buckler; three or four small spines arranged transversely on the middle of 51 402 PARADOXIDES ARCUATUS. the body; the specimen, like all such occurring in slate, is compressed and somewhat distorted. Di?nensions.—Total length of the impression rather less than five-eighths of an inch ; greatest breadth rather less than six-eighths. Locality.—Utica, state of New York. Geological series.—Carboniferous slate. Cabinet of the Lyceum of Nat. Hist., New York ; plas- ter casts in the Cab. of Geol. Soc. of Pennsylvania. A second impression of the body without the head, oc- curs on the reverse surfaces of a schistose slab, more per- fect and less compressed than the body with the head attached, and which is figured now for the first time. Vide pi. fig. 4. 2. Paradoxides arcuatus. (H.) PI. fig. 1, 2, 3. Several other triarthritic specimens accompanied the above from the same locality ; they consist of the bucklers only, and bear some analogy with the i( Triarthrus Beckii" of Green, (Vide Monograph, p. 87, fig. 6, cast No. 34.) The description of this species is herewith transcribed, with the necessary corrections to render it intelligible. " Cauda [capite] subrotunda, bipunctata ; articulis abdo- minis [frontis] tribus, absque lobis lateralibus consuetis, sed lobo arcuato utrinque opposito." The P. arcuatus, however, differs from his description and figure in the greater proportional size and form of the lateral lobes of the buckler, which are fully half the breadth of the middle lobe, ventricose, and prominently arcuated on their exterior borders, narrowing above and complete- ly surrounding the middle lobe, of which it forms the an- terior border: whilst these portions in the description of the T. Beckii, are represented by the author as " forming narrow cuneiform appendages to the sides." This de- scription does not accurately correspond with, at least, PL, 3 ■4- Xcw Species of TnloliUes J'1'/ 'i J P-'f'itU'.i-w't.i' ur,-Uttln.f- .!'"■{. boUu of ParaUfjridis triartfiriur. +V'f. Parad^u/is trcurthru? J'"v J'nur ','m.t Becfxlt X° Pitruv/fjewtiS SearafmUa. PARADOXIDES SCARABOIDES. 403 some of the impressions of this species which are repre- sented on the cast referred to. The figure of T. Beckii (Vide pi. fig. 6,) is added, in order to show how closely it is allied with the buckler of the Paradoxides scaraboides of Brongniart and Desmarest, (Vide Histoire Naturel des Crust. Fossil., p. 34, pi. 3, fig. 5.) These authors quote as a synonyme, the Ento- mostracites scaraboides of Wahlenberg, who thus charac- terizes his species : ii caecus, capite hemispherico, antice rotundato ; fronte subovata, antrorsum angustiore ; cauda utrinque sinuato-tridentata." The author adds, i( per- fect or entire specimens are rarely found. From beds of fetid aluminous ampelite." Vide pi. fig. 7. 404 TOUR TO THE CAVES IN VIRGINIA. Tour to the Caves in Virginia, and Geological Sketch of the Route. Being a Letter to the Editor of the Ameri- can Monthly Journal of Geology. Washington, May 28th, 1831. My Dear Sir,—In answer to your request, to have some details of our tour through part of the state of Vir- ginia, I think I can do no better than send you a copy of my Journal, assured that you will make full allowance for the inadvertencies occasioned by the rapidity of our pro- gress, and the very limited time at our disposal. I left this city, with a friend, on the 17th inst.; the bridge across the Potomac having been destroyed by ice during the winter, we were obliged to cross at Georgetown in a flat-boat, and arrived at Fairfax Court-house at 9, P. M., on a dark night, and over a very bad road. The principal hotel here had recently been destroyed by fire; we succeeded, however, in getting tolerable lodgings. I was awoke during the night by the Caprimulgus Vociferus, (Whip-poor-will.) which perched for some time in the vicinity of my window. Thus far, this bird has appeared to us, more common in Virginia and Maryland, than in Pennsylvania : but the noies of the partridge we have not once heard ; they appear all to have perished during the severe snow storm of last winter.* Wednesday, 18/A.—Started early, and arrived at War- rington, Fauquier County, to dinner. Dr. W. of this village, presented us with several interesting specimens of minerals and rocks, also a fossil molar tooth of an ele- * We are afraid this will be found to have been very generally the case. Our favourite retreat, Brandywine springs, in Delaware, was last year the paradise of partridges; they were abundant, and having been but little disturbed, were very confiding. But we have received sad accounts, this season, from the farmers, of their skeletons being found under the fences.—Editor. TOUR TO THE CAVES IN VIRGINIA. 405 phant, found in this vicinity. Warrington is situated on an elevated plain, from whence the views are very beautiful. Nothing could be more kind than our reception here. Thursday, \9lh.—Left Warrington at day-break,— roads mountainous, and in Pennsylvania would be con- sidered very bad. It gave us pain to see so many listless, idle persons, passing their days about the taverns. Men playing at marbles like boys, and exceedingly prone to cursing and swearing. In Pennsylvania, we are not happy without some useful occupation, and our people know how to help themselves. Here the climate, and the sad burden of negro slavery, which oppresses the white man still more, have made him dependant upon others ; and if a gate is to be opened, or the slightest thing to be raised from the ground, Sambo, or Governor, or Major, or Colonel, or some pseudo dignitary of the African stock, is called from his work to do it. In approaching the Blue mountains, the hills appear to be composed of the following strata; at least we crossed them in the following succession, our route lying in a di- rection south of west. 1. A red sandstone: our course lay for many miles parallel to this stratum ; in these parts of Virginia, it constitutes the surface rock, the disintegra- tion of which generally forms the common soil of the country, and gives the red appearance to the newly ploughed lands. The soil bears good grain and clover. 2. Talcose rock. 3. Greenstone. 4. Slate. 5. Decom- posed greenstone, or red earth, as it is called. It is of a brick-dust colour, covered with loose fragments of quartz, and is apparently the same earth in which the gold is found in Carolina and Georgia. This extreme point of the gold region displays itself here on the main road, in the vicinity of a blacksmith's shop, ten miles north of Cul- pepper Court-house, about twenty miles in a parallel line from the gold region of Spotsylvania. It rained during the short time we could dedicate to this locality, in which 406 TOUR TO THE CAVES IN VIRGINIA. some slight traces of the metal were observed. We dug through several feet of this hill, and beneath the loose quartz, we observed several veins of decomposed mica- cious rock, alternating with veins of quartz, both dipping at an angle of about 65°. The mica, in these glittering sands, is thought to be gold dust, by a great many of the country people. The specimens we obtained in our researches, demon- strate that the gold region here resembles in every im- portant particular, equivalent formations, both in S. America, and in Russia, on the east side of the Ural mountains. The true mineral structure of our gold for- mations, I first learned at the geological lectures you de- livered in Philadelphia, this last spring. Much rain fell, and we were exposed to a hurricane, accompanied with thunder, lightning, hail, and rain. The mountain torrents on these occasions, swell the streams, and soon render the fords impracticable. The country people not being accustomed to rely upon bridges, are careless in the directions they give to travellers, and fatal accidents frequently happen. We were upon one occasion of this kind benighted, and compelled to take refuge in the house of a respectable widow, but she received us cheer- fully, and entertained us after the best manner she was able. Most of the slaves were poorly clad, whom we noticed in the fields ; some females were ploughing and harrowing ; they looked squalid and miserable. Friday 20th.—Arrived early in the morning at Orange Court-house, where we breakfasted. We deviated a little from our route, in order to pay a visit to Mr. Madison, at his seat, Montpelier. On presenting a letter of introduc- tion from General P., we were received with true Vir- ginian hospitality, and with a cordiality that charmed us. The farm of Montpelier is under excellent cultivation and repair. The clover and maize crops are thriving, but the wheat fields, like most of those we have seen, have TOUR TO THE CAVES IN VIRGINIA. 407 suffered from the fly. The mansion-house is in a fine position, on an extensive and elevated plain, almost moun- tain-locked. The distant views are very grand. The venerable patriot, dressed in the garb of by-gone days, was an object of great interest to us ; his conversation was that of a very high bred man, dignified and easy, and ap- pearing to seek information, rather than to convey it. The slaves here wore a very different aspect, from those we had before seen. Pursuing our journey, we arrived at Charlottesville, at 7| P. M., after a fatiguing day's journey of forty-five miles, over bad roads. After tea, we walked about a mile to the University, to pay our re- spects to some friends; here we met with a very pleasant society, consisting chiefly of the families of the professors. Saturday, 2\st.—Charlottesville is rather a superior place. It contains good buildings, and its society is re- fined. Everywhere we found hospitality. Desiring to make a short excursion on horseback, we discovered that all the Rosinantes were engaged by the students. Our wants, however, were no sooner known than supplied, by the polite and voluntary offers of private gentlemen. Im- mediately after breakfast we set out on a visit to Monti- cello, the seat of the late Mr. Jefferson, which is built on the summit of a high mountain, distant from Charlottes- ville about one mile; but in following the directions of the various windings, to graduate the ascent, it is about three miles; two mountains nearly join each other; the right hand one is called Carter's mountain, that on the left is Monticello ; when about two-thirds up the mountain, we dismounted in the woods, at the family grave-yard, enclosed by an ill-built stone wall, where lies, in obscure repose, the neglected remains of the patriot and philoso- pher ; there are also the graves of several of the family. The whole scenery around this lonely spot, presents a gloomy and melancholy aspect. We were informed that Mr. Jefferson requested on his death-bed, (or left a note 408 TOUR TO THE CAVES IN VIRGINIA. to that effect,) that all appearance of pageantry, and use- less ceremony and display, should be scrupulously dis- pensed with, on the occasion of his funeral. He further requested, that no other memorial should be erected to his memory, than a plain, granite column, with a simple inscription, signifying his having been the author of the Declaration of Independence—founder of the Virginia University, &c. It appears to most strangers who visit this spot, the most unpardonable neglect, that this last re- quest should not have been immediately attended to. We were informed at Charlottesville, that the mechanics in the vicinity, had offered to complete the work gratuitously, but as yet nothing has been effected, notwithstanding five years have elapsed since the death of Mr. J. The whole establishment of Monticello is rapidly verging toward ruin, and this splendid building, which originally cost, as we were informed, upwards of 50,000 dollars, has actually been offered for sale, together with 1,100 acres of land, for the trifling sum of 11,000 dollars. In the hall there still stands a column of verd antique, surmounted by a mar- ble bust of Mr. Jefferson, by Ceracchi. From the summit of this isolated eminence, the views are inimitably grand and imposing; the village to the north-west appears at the very foot of the mountain, and the university, which lies about one mile further west, is also plainly distinguishable ; the views in these directions are then closed by the Blue mountains, forming a pleasing back ground to the picture: towards the east and south, the horizon is extended to an immense distance, and the eye is at length tired with tracing the faint outlines of the tops of receding hills and mountains. Towards the south, in Bedford county, Va., are observable two pyramids, at least eighty miles distant; they are known as " Otter's Peaks." On our return to Charlottesville, we again visited the university. The numerous buildings attached to it are TOUR TO THE CAVES IN VIRGINIA. 409 constructed of different orders of architecture, which, whilst they serve as useful specimens of the arts, give va- riety and interest to the scene. The library, situated in the rotunda, is constructed on a large scale, and already contains many very rare and valuable works, in the various departments of literature and science, principally selected by Mr. Jefferson. The cabinet contains but few objects in Natural History of much interest, with the exception of a finely preserved head of the Argali, or "Big-horn," from the Rocky Mountains, brought by Lewis and Clarke; also some bones of the Mastodon. The lower jaws of two of these have the remains of the inferior tusks, which cha- racterize several individuals of this genus ; they are pre- cisely similar to those described from an individual skull in possession of Mr. Peale, of New York, and which has been erroneously supposed to have belonged to a distinct genus of extinct fossil quadrupeds. At 4, P. M., we took leave of our kind friends, and pursued our way to Wyer's Cave, by the road to Port Republic, and slept the same night at Coxe's, a good ta- vern sixteen miles from Charlottesville, close to the Blue mountain. Sunday, 22. Recommenced our journey at 7, A. M., and soon reached the base of the Blue mountains, at Rock- fish Gap, and gained the summit on foot, hammer in hand. The eastern slope of this mountain at the above named Gap, developes the following rocks: red sandstone; green- stone ; old red sandstone ; slate rock ; and granite : some of these rocks run into each other, and occasion many pe- culiar varieties. A fine clear view of the Alleghany mountains, is pre- sented from the summit of this ridge. We arrived at Wanesborough at 10, A. M. This place is situated on the south branch of the Shenandoah, at the head of na- vigation, three miles distant from the Caves—it was set- 52 410 TOUR TO THE CAVES IN VIRGINIA. tied by soldiers of the revolution, who received the farms as bounty lands. Monday, 23. After an early repast we proceeded to Wyer's Cave, situate on the south branch of the Shenan- doah, approached by a road of difficult access; there is an iron forge a little below, and a tavern within eight hundred yards of the spot, kept by Mr. Bryant, who rents the farm on which the caves are found. The three slaves whom we had hired at Port Deposit, had preceded us, and awaited us at the entrance of the caves, furnished with tools for digging; the principal object of our visit being to ascertain if the caves contained fossil bones. The fre- quent descriptions I had read of this cave, had prepared me on the present occasion to experience disappointment. The entrance is difficult of access, and dirty—the floors are constantly interrupted by precipitous risings and de- pressions, and by large broken masses of the limestone in which the caves occur. In some of the chambers the floors are loaded with wet tenacious clay, and the stalac- tites are for the most part discoloured by the water which percolates the rock from the red sandstone above. We made the slaves dig in two places in the lowest part of two chambers the most likely to contain fossils. The floor is for the most part destitute of stalagmite, but abounds in many places with loose fragments; occasionally, indeed, with large rocks fallen from above. In the first chamber, which is sunk considerably beneath the adjacent rooms, the labourers dug five feet deep, at first through a clay soil, which became moister below, intermixed with nu- merous fragments of stalactite ; they did not reach the bottom rock here. The next digging occurred at the ex- treme end of the first left branch of the cave, and after excavating three feet deep, they came to solid rock. We now ascended ladders, and crawled and scrambled through several chambers, most of which presented such a mono- tonous aspect, that we grew fatigued, and proposed to our TOUR TO THE CAVES IN VIRGINIA. 411 guide to return. The original or natural entrance, con- sists of a mere fissure in the rock, of a size only sufficient for the passage of a fox ; a circumstance which diminishes the chance of finding fossil bones. It was to Mr. Wyer's following a ground-hog, (Arctomys Monax,) to a hole in this hill, that the discovery of the cave was owing, in February, 1806. The disturbed and confused appearance of the interior of the cave, as well as of the huge masses of mountain rock which are found on the surface, can only be accounted for, by supposing powerful subterranean disturbances. On our return wTe visited Madison's cave, about two hundred yards nearer the hotel. Unlike the other, this cave has no artificial door at its entrance, to prevent the ingress of strangers ; the "old cave," as it is now called, being con- sidered as beneath notice, since the discovery of the new one. The entrance of both is more than one hundred feet above the level of the river; the ascent to either is very precipitous. The entrance to Madison's cave is ca- pacious, the surface of the floor is less rugged, and is also, for the most part, destitute of stalagmite ; saltpetre has been obtained from the earth taken from the floor of this cave. From the appearance of things, we thought that the occurrence of fossil bones in this locality was not impro- bable, and we set our labourers to digging in two of the lowest positions of the two first chambers. In the deepest room, the floor consists of clay—then at three feet depth, of red earth, or decomposed red sandstone, one foot in thickness, which lies on the original floor of the cave, re- sembling a compact red sandstone. Whilst the digging was going on, we followed our guide along a narrow high gallery, by a continuous descent of some hundred feet, until further progress was interrupted by a body of crystal water, which is said to be of immeasurable depth, and beyond which no one has yet explored ; some terrible tale of silent suction existing in this water, has become pre- 412 TOUR to THE CAVES IN VIRGINIA. valentin this neighbourhood, and effectually paralyzes the efforts of the exploring Homo troglodytes. Our researches continued actively for five hours, when we returned to the hotel, fatigued, covered with mud, and disappointed in our expectations of obtaining fossil relics. We dined at 2, P. M., and immediately conti- nued our journey, and after a ride of fourteen miles ar- rived at Harrisonburg, via Port Republic, over a road indescribably bad. The weather has been so cool since our arrival in these mountainous regions, especially sub- sequent to the thunder storm, which we encountered north of Charlottesville, that fires are kindled at all the hotels at which we halt, and cloaks are an agreeable appendage during the day. Contrary to theory, the season is less advanced on the south west limestone region of these mountains, or what is known as the great valley of Vir- ginia, than it is on the more northern exposure; the leaves on many of the trees have been destroyed by the frost of the 12th inst. At Harrisonburg, formerly called Rocktown, there resides a French family, emigrants from Strasburg, on the Rhine, who settled here three years ago with the intention of cultivating the grape vine. Their vineyard has been totally destroyed the present season, by the recent severe frost, just at the moment they ex- pected to reap the fruits of their labours. The sudden vicissitudes of temperature to which this elevated situa- tion, as we are informed, is constantly liable, will at all times render it unfriendly to the cultivation of the vine. We left this village at half past seven A. M., and after a ride of ten miles, arrived at the " Big Spring," which should rather be called a river, so large is the body of water which rises suddenly from the foot of a limestone hill, and continues in a stream of some yards in breadth, and half a foot deep, with force sufficient to turn two large mills immediately below : this stream of water is exceed- ingly cool, and does not contain any fish ; it is artesian, or TOUR TO THE CAVES IN VIRGINIA. 413 ever flowing, and is always very pure, excepting, as a Dutch girl informed me, "just before it was going to rain," when, she said, it became turbid. It has only ceased to flow once, in the memory of the oldest settlers, when it remained dry three days, to the great terror of the farmers who hold mill seats immediately on it. This stream is situate on the main valley route, Rock- ingham county, about five miles west of the Massonetto mountain, which ridge is parallel to the Blue mountains, and nearly fifty miles long. Continuing our route, three miles from the " Big spring," on a line with the moun- tain, we halted to dine at an inn, kept by Mr. T. K. Fuller, an emigrant from the State of New York, who says he has resided in Virginia nine years, and detests the slavery system, seeing that the Dunkards who reside in this vicinity, and who abjure slavery, possess farms in every respect superior to those of their neighbours. Mr. F. possesses a taste for natural curiosities, and has his bar room filled with what, in your geological lectures, you styled "n. k's." Mr. Fuller appeared concerned, to think that people will have it that he knows something of the science of mineralogy, of chemistry, &c, &c, but he frequently repeated, " it is all a mistake ; it is all natu- ral." We left this station, after having made an arrangement with Mr. F. for exchange of N. K's, on our return to Phi- ladelphia—he possessed some fine specimens of Ammo- nites, and a Trilobite, from the Massonetto ridge, in the vicinity, which, under the names of "fossil toad, and fossil snake," he hugged to his bossom with parental fond- ness ; no reasonable sum would induce him to part with them; he at length consented to exchange them for " sea- shells, corals, &c, or any queer thing that comes from the great ocean." Having passed through New-Market, and crossed the north branch of the Shenandoah, at 7 P. M. halted for the night at Pitman's. We have travelled the 414 TOUR TO THE CAVES IN VIRGINIA. whole day over roads cut or worn through limestone, un- covered by soil, and in the worst condition ; the limestone is quite black, of the variety called Hydraulic, from the water cement which is made of it. This formation conti- nues nearly the whole length of the Massonetto ridge, and has evidently been subjected to violent disturbing powers from below, and subsequently, water worn on its surface: the strata are occasionally a foot or two thick, and dip to- wards the mountain, SE. to the NE., at an angle of 45°; at other times the strata emerge vertically—again they appear in large irregular masses, sometimes almost com- minuted, and frequently resembling slate so strikingly, as to be mistaken for it until more closely inspected, hammer in hand. In one place they form a narrow pass, over which the public road lies, and which is known here by the name of " the Narrows :" it is about twenty feet wide, and displays a perpendicular precipice on each side, nearly eighty feet high, with a small river on either side, unconnected at this place. This " narrow passage" is four miles south of Woodstock, ten miles north of Mount Jackson. On the great valley road, there is another re- markable display of this curious hydraulic limestone rock ; this is a denuded hill, through part of which the public road passes; on the very summit of which there is yet a small sprinkle of red diluvium—but all the slope is naked, and the faces of the projecting strata are water-worn and smooth. The roots of pine trees, which once occupied this slope, are still seen wedged in the crevices of the rock ; this denudation was occasioned, as the neighbours assured us, " by the bursting of a cloud," whose awful consequences they witnessed, to their great loss and ter- ror. I could refer their account to no natural phenomenon, unless it be to the bursting of a water spout. The dis- turbed strata of. this limestone, are here well contrasted TOUR TO THE CAVES IN VIRGINIA. 415 with it in its natural state. Arrived at Winchester, at 7 P. M. Thursday 26th.—After breakfast set out for Harper's Ferry, distant thirty miles; passed through, and dined at Charleston ; much rain had lately fallen in this vicinity, and the roads, bad at best, are almost impassable ; two miles per hour we found to be rapid travelling in their present state. The black lime rock continued almost to Harper's Ferry. The view at this gap suddenly burst open before us in all its glory, as we gained the summit of a hill about a mile distant, and richly repaid us for all our fatigue and toil. The rocks which overhang the river, are composed of green slate, somewhat talcose, which dis- integrates rather fast in exposed situations, and masses are continually falling. This slate rests on a fine-grained, solid granite, very appropriate for the great rail road, which is to pass here. Friday 27th.—We left this enchanting scenery about 10 A. M., lodged the same evening at Leesburg, and ar- rived at Washington at 1 P. M. on Saturday 28th, one of the hottest days experienced the present season. The last four miles previous to entering Georgetown, the road leads along the Potomac canal, through gneiss and granite rocks: higher up the river, it is said that anthracite has been discovered. 416 INQUIRY INTO THE An Inquiry into the Functions of the Brain in Man, and in the Lower Order of Animals. Delivered as a Lec- ture before the Academy of Natural Sciences of Phila- delphia, 1824. " If the science of life, and with it some of the most important departments of human knowledge, be destined to make any decided progress towards perfection; it must be by the road of experience, aided and enlightened by general philosophy. The way, indeed, is in some parts intricate, and its length indefinite, but whether we reach the end or not, our very efforts, and the active state of mind they main- tain, will be a sufficient recompense; as the pleasure of the chase, and the healthy vigour it imparts, reward us even when the game escapes."—Lawrence. " TvwQi a-murov. Strive not God to scan, The proper study of mankind, is man." I propose, for this evening's lecture, the considera- tion of the Brain as the organ of intelligence ; to treat of it, as of any other viscera, with the physical construction of which we are acquainted; for which purpose it is not sufficient to confine our observations to the human subject; it is absolutely necessary, in order to obtain any accuracy of information, to trace the faculties as they exist, through the whole of the order Vertebralia. To a want of such information, and to a neglect of this mode of proceeding, may be attributed those errors, absurdities, and false in- ductions, with which metaphysical and psychological works abound. It forms no part of the author's intention to enter, on FUNCTIONS OF THE BRAIN. 417 the present occasion, into any discussion relative to the nature of the soul, its mode of existence, connexion with the body, &c. ; the almost u/iiversal belief of its immor- tality, being based on an evidence totally dissimilar from the facts and observations of which this essay is composed. Though we are as ignorant of the nature of the soul, as we are of the Deity ! yet have we the same proofs of the existence of either. All nature in silent eloquence fur- nishes indisputable testimony. That it is a principle en- dowed with immortality* and capable of existing after death, in a state separate from the body, we learn from the God of nature/ With such conviction we may well rest satisfied, and with suitable modesty direct our inves- tigations to those palpable branches of this mysterious sub- ject that lie within the grasp of reason : otherwise the splendid efforts of genius may in vain waste their strength in the unprofitable pursuit of theoretical speculations, and add little or nothing to the solid and accumulating mass of inductive observations. Ignorance or levity could alone instigate us to pronounce recklessly on a subject, which is so intimately associated with the present happiness, and fu- ture prospects, of millions of the human family ; concern- ing matters of faith it is in vain to dispute ; all that an indi- vidual need claim, as a rational, consistent, and dignified being, is the unqualified right to obey the dictates of his own conscience, and firmly and openly to maintain that belief which is the result of unbiassed feeling, reflection, and observation—this surely is an honest zeal, and, whether mistaken or not, should challenge the respect and admi- ration, and not the odium and persecution of our fellow men. But if the dread of popular prejudice, if the fear of detecting facts which may militate against our pre- conceived notions or antiquated opinions, can prevent us from freely discussing a physiological question so very in- teresting and important, where shall we seek for the boast- ed pre-eminence of human reason? 53 418 INQUIRY INTO THE As light and knowledge are extended ; as superstition and bigotry, which for ages have swayed their ebon scep- tre over the intellectual faculties of man, yield to the em- pire of reason, and lights of science ; the odious epithets of sceptic ! infidel! and atheist! will no longer be heaped upon the blameless head of the inquirer after the functions of the brain ; whose investigations have, in reality, no more connexion with the existence of the soul, than the re- searches of the anatomist, who treats of the physiology of the liver, the spleen, and the pancreas. He must have base and contracted ideas of the majesty of the Great Su- preme ! who supposes that an honest and sincere search after truth on any subject, can prove offensive to the canons of the Most High ! The lively exertions of genius are the most exuberant sources of intellectual delight; the very pursuit of natural science is an exercise of vir- tue ; and has a tendency to advance us, by improving our taste, to higher degrees of perfection. The short space of time allotted to these lectures will oblige me to treat of this comprehensive subject in a very cursory manner. I shall not dwell on the physical con- struction of the brain. To those entirely ignorant of ana- tomy, it will be sufficient to know, that it is composed of medullary fibres, cellular membrane, and blood-vessels, —and that it is larger in man, in proportion to the nerves which go off from it, than in any other animal. Two principal ideas have been entertained by philoso- phers, respecting the nature of the brain and its faculties. The arguments of the first go to prove, that the brain, the seat of the faculties of the mind, is an organ, essentially one and simple in its construction, and producing all its phenomena, by the various actions of the same part. They compare the actions of the nervous fibre, to mus- cular motion; the hand, for instance, is moved by mus- cular fibres solely; yet how varied and extensive are the FUNCTIONS OF THE BRAIN. 419 applications of this organ. Such analogies are founded in error, and are only calculated to mislead. To me, nothing is more clearly demonstrated, than that the brain, the material organ of the understanding, is as complex in its composition, and made up of as many dis- tinct and separate organs, as there are special faculties of the mind. This position is as clear, as that no two atoms can occupy the same space at the same time. Of the nu- merous facts upon which my conviction is founded, I beg leave to advance a few of the most prominent, which at the present moment offer themselves to my recollection. And first, can we conceive of an organ one and simple ; at the same time asleep and awake, or at the same time diseased and healthy ? Yet who hath not occasionally ex- perienced periods of broken slumber; when some of the mental faculties, no longer restrained by reason and judg- ment, (these for the time being suspended,) take their flight into the regions of fancy, and operate with unusual activity,—when " the queen of sleep, Imagination, roves in frantic sorrows, or delirious loves." The fact is, that sleeping or awake, all the mental phe- nomena occurring in health or disease, prove that the mind is made up of separate faculties; and that these fa- culties have separate and distinct localities, numerous facts abundantly testify. How otherwise are we to ex- plain the circumstance of several faculties being in ope- ration at one and the same time ? Can we not, at once, see, hear, taste, smell, feel, weep, and laugh? The too frequent occurrence of mental alienation, fur- nishes us with melancholy proofs that the faculties of the mind, like the various organs of the body, are not only subject to disease, but that, like the functions of the body, one or more may be diseased, whilst the others enjoy their healthy operations : hence we have partial insanity, or monomania. The hospitals are filled with these unfortunate beings, 420 INQUIRY INTO THE displaying the various grades of derangement, from simple absence of mind, to the total eclipse of the understanding; from the mere obfuscation of intellect, to the entire wreck of all that is noble or dignified in our nature ! Further: Accidental injuries of the brain, according to the part affected, have produced sometimes a debility, at others a total destruction of certain faculties ; for instance, a blow on that portion of the orbit of the eye, within which is located the organ of memory for words or names, has been followed by complete forgetfulness of proper names, whilst the other faculties of the brain remained uninjured. One of the most celebrated botanists of Europe, whose verbal memory knew no bounds, was afflicted with a stroke of apoplexy. He entirely recovered his intellect, with the exception of his memory for names; with the adjec- tives, the qualities and characters of plants, he remained familiar; but forever after was unable to name them. Again, effusions of serum into the cavities of the brain, produce consequences which vary according to the man- ner in which the accident occurs; whether the effusion was slow or rapid : whether the pressure it occasions is partial or general. Instances have occurred of effusion into the anterior ventricles of the brain, obliterating to a considerable de- gree all the superior order of faculties, whilst the propen- sity to procreate the species (or amativeness, as it is called,) continued more than usually active—which propensity be- ing seated in the cerebellum, under the tentorium or hori- zontal process of the dura mater, did not suffer compres- sion from the fluid accumulated in the cerebrum or brain proper. In certain conditions of the material instrument of the mind, minor faculties which have for a long time lain dor- mant and supposed to have been lost, have been suddenly recalled. Dr. Rush used to mention an instance of one of his fellow students at Edinburgh, who had once pos- FUNCTIONS OF THE BRAIN. 421 sessed some knowledge of the French language, so as to speak it indifferently, but who for many years had en- tirely forgotten it; this gentleman becoming intoxicated in a frolic, spoke the French language with the greatest fluency, to the exclusion of the English ; this state con- tinued until he was carried to bed and fell asleep. A circumstance somewhat similar fell under my own observation, in the case of a friend labouring under deli- rium. I may here call your attention to a fact which was one of the earliest to impress my mind with the importance of Phrenology in explaining the animal functions. It is a fact well established in Comparative Anatomy, that the vocal organs of all those birds arranged under the extensive order Passeres, are constructed precisely on the same principle; that is to say, all are furnished with a double glottis, a superior and inferior, the latter being furnished in every individual with six muscles, &c. Here then we witness a numerous host of individuals, all pos- sessed of similar musical instruments: yet few, very few indeed, are capable of displaying a musical talent; not more than one out of fifty is capable of producing a tune; and even of those species which are possessed of the highest musical proficiency, the males alone are capable of exerting it, the females, for the most part, remaining mute. Examples of this are observed in the linnet, the mocking-bird, bull-finch, gross-beak, &c. Cuvier, who has noticed this circumstance particularly in his " Le§ons d'Anatomie Comparee," confessed his in- ability to afford any philosophical explanation on the com- mon theories of the operation of the brain, and refers it to the operation of a particular instinct: thus acknow- ledging the existence of a special and distinct faculty; and demonstrating that the faculty of music resides in the brain, and not in the vocal organs. We are led to draw the same conclusions when we ex- 422 INQUIRY INTO THE tend our observations into the inexhaustible field of Com- parative Anatomy. Time will only allow me to adduce one more example. In our dissections of the anthropomorphous animals, we cannot but be struck with the fact, that the anatomical structure of the organs of voice, in some of these animals, is precisely similar to the same organs in man ;—yet, who ever heard of a monkey possessed of the faculty of speech? I am aware, that it was long ago asserted by Camper, that the throat of the simia satyris, or orang outang, is fur- nished with a sac, opening into the glottis, and which was supposed by this author for ever to "spoil him for speak- ing." But this explanation cannot stand ; as most of the other simiae have, as above stated, the vocal organs simi- larly constructed to those of man. When we reflect on the intimate knowledge which ex- isted relative to the physical structure of the monkey tribe ; especially of one of the orangs, (simia troglodites,) a minute and laboured dissection of which was perfected one hundred and twenty-five years ago, by Dr. Edward Tyson; it is somewhat surprising that so much should have been said concerning the discovery by Camper of a sac communicating with the larynx of the simia satyrus: which was thought to offer a physical obstruction to the faculty of speech, in this class of animals. The perfect similarity which obtains between the or- gans of voice, as they exist in man, and in the simiaB ge- nerally, was particularly noticed by Tyson; who remarks, " As to the larynx in our pygmie, unless I enumerate all the cartilages that go to form it, and the muscles which serve to give them their motion, and the vessels which run to and from it, and the membranes and glands ; there is nothing that I can further add, but only say, that I found the whole structure of this part exactly as it is in man: and the same too I must say of the os hyoides. The re- flection that the Parisians make on the observation of this, FUNCTIONS OF THE BRAIN. 423 and its neighbouring parts, in the dissection of their mon- keys, I think, is very just and valuable ; and if there were any other advantage for the forming of speech, I cannot but think our pygmie had it: but upon the best inquiry, I was never informed that it attempted any thing in that way. Though birds have been taught to imitate the hu- man voice, and to pronounce words and sentences, yet quadrupeds' never ; neither has this quadrumanus species of animals, that so nearly approaches the structure of man- kind, abating the romances of antiquity concerning them. " The Parisians therefore tell us, that the muscles of the os hyoides, tongue, larynx, and pharynx, wThich must serve to articulate a word, were wholly like those of man ; and a great deal more than those of the hand, which, ne- vertheless, the ape, which speaks not, uses almost with as much perfection as a man; which demonstrate that speech is an action more peculiar to man; and which more dis- tinguishes him from brutes, than the hand, which Anaxa- goras, Aristotle, and Galen, have thought to be the organ which nature has given to man, as to the wisest of all ani- mals, for want, perhaps, of this reflection.* For the ape is found provided by nature, with all those marvellous organs of speech, with so much exactness, that even the three small muscles, which take their rise from the apo- physes styloides, are not wanting; although these apo- physes are extremely small: this, particularly, does like- wise show, that there is no reason to think, that agents do perform such and such actions, because they are found with organs proper thereunto: for according to these phi- losophers, apes should speak, seeing that they have the instruments necessary for speech."—Tyson's Anat. of a Pygmy. There, are some birds, on the contrary, whose organs of voice are altogether differently constructed, which are, * Lord Byron says, the vulgar hand first betrays the plebeian blood in patrician families, and that this truly lordly feature may be often found in peasants' cottages. 424 INQUIRY INTO THE nevertheless, gifted with the faculty of speech, such as the crow and parrot kind. The question here arises, does the faculty of speech merit being ranked as a distinct organ, or is it only to be considered as a modification of the organ of music? Many facts of similar import might be adduced, but I trust I have already advanced enough, in order to main- tain the truth of our position, viz. that the facilities of the brain are not only distinct, and in a manner independent of each other, but that there do exist separate localities and special organs for the development or manifestations of such faculties, though their names and localities may not as yet be correctly or scientifically disposed. As far as facts drawn from analogy can influence our opinions, we shall have the strongest reasons to conclude, that the instinctive operations, throughout their very ex- tensive range, the anima brutorum atque hwnanorum, are directed by one universal principle, whether we view its operations in the honey-bee constructing the hexago- nal cell, or the reputed lords of the creation elevating the majestic palace. The web spun by the active and cau- tious spider, and the elegant cocoons wove by many in- sects, will furnish no mean comparison, and even surpass in delicacy the richest articles of the kind produced by human art and skill; with thousands of other equally in- teresting phenomena, which testify in the most eloquent manner to the presence and omnipotence of the first Great Architect throughout all the works of the universe; and may serve to captivate and improve the affections, whilst they convince the understanding. If this be true in theory, how is it in fact? Let us ob- serve for a moment the operations of the brain, as we de- scend the scale of animated existence; do we not find all those instinctive faculties of the brute creation, which as- similate most to human understanding, to be located in that region of the skull marked out in man for the seat of the FUNCTIONS OF THE BRAIN. 425 knowing faculties? We may also remark, that the latter faculties are wonderfully developed at the expense of the higher order or intellectual: this is the case, at least, with very few exceptions, and if we occasionally observe an elevation of the anterior and upper region of the skull, of either man or brute, without a corresponding pre-emi- nence of intellect, we can only refer it to the absence of a proper organization. Thus, in order to constitute a Newton, a Franklin, or a Shakspeare, it requires not only " an inch or two of brain in the right place," but " II faut aussi qu'il soit bien organisee," as some French physiolo- gist has aptly expressed it: at any rate, the difficulties which Phrenology has to encounter from such irregulari- ties, are by no means greater than those which check the career of every metaphysician warm in the pursuit of any favourite system. " Deus est anima brutorum" is the language of an elo- quent author; but I may perhaps be allowed to remark, that the exclamation savours more of poetry, than of phi- losophy : if it were true that the Almighty fiat had, " ab origine," impressed his mandates upon his creatures, which were to impel them, independent of any sensible or mate- rial organization, as the means of acting:—the instinct of all animals of similar species, would, we should suppose, lead to similar results in all animals in every climate, in- dependent of organization : but the contrary of this is the fact. Numerous instances might be produced to show that instinct alters, as the organization changes, and that it will even lead the animal to change its habits according to ne- cessity or convenience. Thus instinct directs the Asiatic Ostrich to lay her eggs in the sand, and trust to the sun alone, and give herself no trouble about incubation ; whilst the same bird, by the same instinct, is led to sit on her eggs day and night in southern Africa. Rabbits dig holes in the ground for warmth and protection, but after con- 54 426 INQUIRY INTO THE tinuing long in a domestic state, that resource being un- necessary, they seldom employ this art. It would appear that even an oyster is susceptible of profiting by experience. Diquemare long ago observed the singular fact, that " oysters, which are attached to rocks occasionally left dry by the retreat of the tide, always re- tain within their shells a quantity of water sufficient for respiration, and that they keep the valves closed till the return of the tide : whereas those oysters which are taken from greater depths, where the water never leaves them, and are afterwards removed to situations where they are exposed to these vicissitudes, of which they have had no previous experience, improvidently open their shells after the sea has left them, and by allowing the water to escape, soon perish."—Vid. Journal de Physique, xxviii., 244. From an examination of the brain of quadrupeds, birds, and fishes, M. Cuvier draws the following conclusions, which mark the peculiar features of each of these classes: " 1st. The character which distinguishes the brain of Mammalia from that of the other red blooded animals con- sists, " a. In the existence of the corpus callosum, the fornix, the cornua ammonis, and the pons varolii. " b. In the tubercula quadrigenia being placed upon the aquseductus sylvii. " c. In the absence of ventricles in the optic thalami, and in the position of these thalami within the hemi- spheres. " d. In the alternate white and grey lines within the cor- pora striata. " 2. The character peculiar to the brain of birds con- sists, " a. In the thin and radiated septum, which shuts each anterior ventricle on the internal side. " 3. The character of the brain of reptiles depends, FUNCTIONS OF THE BRAIN. 427 "a. On the position of the thalami behind the hemi- spheres. " 4. The character belonging to the brain of fishes con- sists, " a. In the tubercles of the olfactory nerves, and the tu- bercles situated behind the cerebellum. "5. The three last classes have, in common, the fol- lowing characters, by which they are distinguished from the first: " a. Neither corpus callosum, nor fornix, nor their de- pendencies. " b. Some tubercles more or less numerous, situated be- tween the corpora striata, and the optic thalami. " c. The thalami containing ventricles, and being distinct from the hemispheres. " d. The absence of any tubercle between the thalami and the cerebellum, as well as the absence of the pons varolii. " 6. Fishes have certain characters in common with birds, which are not to be found in the other classes. These are, " a. The position of the optic thalami under the base of the brain. " b. The number of the tubercles placed before these thalami, which are commonly four. " 7. Fishes and reptiles have, for a common character, distinguishing them from the two first classes, the absence of the arbor vit3B in the cerebellum. "8. All red-blooded animals have the following cha- racters in common : " a. The principal division into hemispheres, optic tha- lami, and cerebellum. " b. The anterior ventricles double; the third and fourth single ; the aquseductus Silvii: the infundibulum ; and a communication between all their cavities. " c. The corpora striata, and their appendices, in the form of a vault, called hemispheres. 428 INQUIRY INTO THE "d. The anterior and posterior commissures, and the valve of the cerebrum. " e. The bodies named pineal and pituitary glands. " f. The union of the great single tubercle or cerebellum, by two transverse crura, with the rest of the brain, which gives origin to the two longitudinal crura of the medulla oblongata. " 9. It appears, also, that there exist certain relations between the faculties of animals, and the proportions of their common parts." If the slightest degree of variation in locality, alteration of structure, or perfection of organization of the brain of different individuals of the same species leads to results of such high import, as we are led by observation to believe is really the case in man—need we be surprised that the perceptible gradation of cerebral structure observed in the inferior orders should be accompanied with a corres- ponding gradation of intellectual phenomena? need we wonder at the instinctive faculties of brutes, which lead some of them to the performance of actions, which set at defiance the intelligence of man, with all his boasted pre- rogatives? The instincts of some of the former may be inferior in number, being confined to such only as are im- mediately necessary to the preservation of the species; but they act in some instances with such inconceivable energy, as to extort from us the confession that they are really something super-human! In a very short time after the brute animal has been ushered into an independent existence, we know that the physical structure has attained its acme of organization ; the brain partaking of this perfection, fits the animal for the performance, at this early period, of all those opera- tions which are for ever after to characterize its species. Whilst man, on the contrary, by that mysterious law of nature, which fixes the duration of existence, for the most part, in direct proportion to the length of time necessary FUNCTIONS OF THE BRAIN. 429 for an animal to arrive at maturity, is condemned to a long, painful, and defenceless infancy! is sent into the world helpless and naked, the mere rudiment of his fu- ture greatness! his brain, in particular, a pulpy, incon- sistent jelly, a "rudis indigestaque moles." The assimi- lating function alone enjoying full activity, is it to be won- dered that this little parasite should be confined to the single instinct of filling its digestive tubes? its very ear- liest inclination is for the breast, the nipple is seized with avidity—a vacuum is formed, and the stomach filled ; the infant sleeps, is soon awakened to embrace anew the foun- tain of life—and such is the early history of that animal, whose apprehension is ere long to emulate the God of the universe! As the organization advances, we observe the mind becoming slowly developed: as the former is per- fected, so is the latter matured; advancing thus, faculty by faculty, function by function, he has now become capable of estimating the relations of cause and effect; the remotest transactions of history, far removed into the night of time, are in a moment called up, and arrayed before him, in all the colours of the painted landscape: surrendered to his imagination, the fancy is permitted to expatiate in a world of its own creation. He no longer confines his observations to the present and the past, but is occupied with the destinies of the future ; seduced into the unfathomable abyss of infinity, he visits the luminaries of Heaven—and contemplates, detached from his senses, the immutable laws of the Universe. He weighs the planets,—measures their distances—and calculates with wonderful accuracy their most complex evolutions—now watching the flights of time—now grasping at eternity! Sensible of his august origin and immortal destiny, he raises his thoughts to the Deity, and struggles to unveil the mysteries of omnipotence. From the full blaze of in- tellectual energy he is soon recalled to mourn over the wreck of departed glory: already has the leaden veil of 430 INQUIRY INTO THE 1 time obscured his vision ; his senses successively decay ; the fire of passion is extinguished by the frost of years; the sun of genius no longer dissipates the mists of mortal- ity—he drinks largely of Lethe's stream, and is again the weak, defenceless infant, from which he sprung; he ve- getates yet a little longer, then sleeps to wake no more! Here the destinies of the past, the present, and the future, unite in one point; guileless infancy and hoary age ; the sceptred tyrant, and the fettered slave ; the idolater and his God! find a common level, and mingle their ashes to- gether. "Sic transit gloria mundif" This is no fancied picture, but a true copy from na- ture's grand original: it must have been evident to the repeated observations of you all, that the operations of mind and matter are inseparably connected. I think it could be easily demonstrated that reason is not peculiar to man ; and that instincts are common to all animals, differing only in the energy and number (with possibly some other modifications) respectively assigned to each.* Although many animals have some of the senses more fully developed than man, Comparative Anatomy furnishes a demonstration that there is no animal in which they all exist in so great a degree of perfection. Hence we are led to conclude, that man is more intimately acquainted with the properties of the material world in general, than any of the inferior animals. * For the facts which clearly demonstrate that brute animals are possessed of rational faculties, consult Spence and Kirby's beautiful work on Entomology, Dr. Fleming's Philosophy of Zoology, Dugald Stewart's Philosophy of the Human Mind, and Smellie's Philosophy of Natural History; to the last named author we have been indebted for many facts illustrating the intellect of brutes. FUNCTIONS OF THE BRAIN. 431 Of the Mind of Brutes, as Illustrated by their Mental Phenomena. We shall divide these into two classes, the Intellec- tual and Instinctive. 1st. Attention.—In lower animals this faculty not only exists, but displays itself to our observation in various ways. What is it but the exercise of attention, when we see a cat watching for a mouse, or a kestrel hovering in the air? In both cases, the faculty now under consideration is ex- ercising its control over the organs of sight. When we witness the fox-hound engaged in the chase, we see atten- tion regulating the organs of smell ; and, regardless of the other perfumes arising from the ground, permitting only the scent of the cunning fugitive to make a deep impres- sion. The dog who has lost his master in a crowd, prac- tises the same restraint upon his organs of smell, some- times, also, on his sense of hearing, as he is able to detect his master by his voice, even when others are speaking at the same time. Reasoning from analogy, we may conclude that the fa- culty of attention reaches as low in the scale of animal life as the organs of sensation. It is necessary, in the more perfect animals, for the regulation of every impression; hence it is probable that it exists wherever there are organs to receive an impression. 2. Memory.—The existence of the faculty of memory in the lower animals can scarcely be doubted, as instances daily occur of its display in our domestic quadrupeds, as the elephant, horse, and dog.* It is likewise exhibited * In illustration of the extent of the memory of the elephant, Mr. Corse, in his valuable observations on the natural history of that animal, states the following cir- cumstances, to which he was an eye witness:—" In June, 1787, Fattra Mungul, a male elephant taken the year before, was travelling in company with other ele- phants towards Chittegong, laden with a tent and some baggage for our accommo- 432 INQUIRY INTO THE by birds. We have evidence of a peregrine falcon, which was lost in the month of March, recognising its master, when retaken in the end of September. Indeed, in all those animals which are capable of being tamed, there must exist this faculty to enable them to recognise former sensations. The memory, in the lower animals, likewise performs its operations in the same manner as with us, by the help of what is termed the Association of Ideas. Thus we have seen a spaniel exhibit all the ecstacy of joy when he observed his master put on any article of dress which he was accustomed to wear during the hours of sport. These things recall to him the enjoyments of the field, as dis- tinctly as the sight of the gun. We see the same animal dation on the journey. Having come upon atigei's track, which elephants discover readily by the smell, he took fright, and ran off to the woods, in spite of the effoits of his driver. On entering the wood, the driver saved himself by springing from the elephant and clinging to the branch of a tree under which he was passing. When the elephant had got rid of his driver, he soon contrived to shake off his load. As soon as he ran away, a trained female was despatched after him, but could not get up in time to prevent his escape. She, however, brought back his driver and the load he had thrown off, and we proceeded, without any hope of ever seeing him again. Eighteen months after this, when a herd of elephants had been taken, and had remained several days in the enclosure, till they were enticed into the outlet, there tied, and led out in the usual manner, one of the drivers, viewing a male ele- phant very attentively, declared he resembled the one which had run away. This excited the curiosity of every one to go and look at him; but, when any person came near, the animal struck at him with his trunk, and, in every respect, appear- ed as wild and outrageous as any of the other elephants. At length, an old hunter coming up and examining him narrowly, declared he was the very elephant that had made his escape about eighteen months before. Confident of this, he boldly rode up to him on a tame elephant, and ordered him to lie down, pulling him by the ear at the same time. The animal seemed quite taken by surprise, and in- stantly obeyed the word of command with as much quickness as the ropes with which he was tied permitted, uttering at the same time a peculiar shrill squeak through his trunk, as he had formerly been known to do, by which he was imme- diately recognised by every person who had ever been acquainted with this pecu- liarity." Phil. Trans. 1799, p. 40. The same observer furnishes satisfactory evi- dence that another elephant, a female, taken in 1765, and which was turned loose in 1767, when retaken in 1782, recollected the customs of her former bondage, and lay down at the command of her driver. " He fed her from his seat, gave her his stick to hold, which she took with her trunk, and put into her mouth, kept and re- turned it as she was directed, and as she formerly had been accustomed to do." —Ibid. FUNCTIONS OF THE BRAIN. 433 practising an attempt at recollection by smelling at a stran- ger, and, at last, after many efforts, recognising him as an old friend. We have known a dog to recognise an ac- quaintance in the dark, after a long absence, by the tone of his voice. 3. Imagination.—In the lower animals the faculty of the imagination certainly exists, although, from the im- perfect communication which subsists between us and them, its operations, as distinct from memory, cannot be traced with any degree of certainty. The pointer, who exhibits impatience to travel when his master takes his gun in his hand, recollects the pleasure of his former sports, and wishes to have them renewed. What is it but imagination that persuades him that they may return, and even points out the channel of their course ? A dog howls when his master is absent, and will anxiously look for his return in particular directions. Here is anticipation of a future event, and action founded on the certainty of its occurrence. We have seen a dog, evidently entertaining suspicions that his master would prevent his being a com- panion in his journey, steal away unobserved, and wait on the road at a considerable distance from the house. Here we have the anticipation of the master's going from home : apprehension of being detained : the prospect of gratifica- tion from the journey : an expectation of his master's road, and the success which would crown the plan; all of these efforts of the imagination; in fine, it is indisputable that dogs are subject to dream. As we descend in the scale, these displays of the imagination can scarcely be perceiv- ed, unless in actions which suppose a succession of events similar to those which have occurred. There is one very striking difference between this faculty as it exists in man and in the lower animals. With us, it is frequently exerted on speculative truths : in them, on present, or future sensations. With us, sometimes on things which we know will never happen : with them, on things which the probabilities of experience warrant. 55 434 INQUIRY INTO THE PART SECOND. Ideas of Reflection. 1. Personality.—Uncultivated minds have not very correct notions of these ideas of reflection : but, still they do arise even in such, and, in various ways, influence their future operations. The inferior animals likewise possess similar ideas of reflection. It is true, that they appear to be equally acted upon by the impressions produced by the secondary as well as the primary qualities of matter: nor have we any evidence that they act upon distinction, but they know that there is a difference among the qualities. They are, to a variable extent, acquainted with them, and regulate their conduct by this knowledge which they possess. They readily perceive changes in the objects with which they are familiar. They are acquainted with individuals, or their identity, as the dog is acquainted with his master— with groups, as in the case of the shepherd's dog, who is capable of marking the individual of a flock pointed out to him by his master, and steadily pursuing it. Even the notion of number is not unknown, as appears from the wolf uniting in bands in the chase,—and, while afraid of attack- ing men in company, appearing fearless of the resistance of a straggler. 2. Time.—The inferior animals evidently have a know- ledge of time. Those which leave a particular dwelling at stated intervals, measure the distance they ought to travel, and return with regularity to their home. The sun appears to be their great regulator, as they are in- fluenced by the changes which take place with his light and heat. Fishes, and other animals which live in the sea, or search for food on its shores, appear to regulate them- selves by the motions of the tide. The regularity of the FUNCTIONS OF THE BRAIN. 435 crowing of the cock has been long admired,—but it ap- pears difficult to point out the measure of time by which it is governed. 3. Power.—That the lower animals possess some notions of power, and of cause and effect, may be inferred from various actions which they perform. " Thus, for example, we have seen the hooded-crow (corvus cornix,) in Zet- land, when feeding on the testaceous mollusca, able to break some of the tenderer kinds by means of its bill, aid- ed, in some cases, by beating them against a stone ; but as some of the larger shells, such as the buckie, (Buccinum nudatum,) and the wilk, cannot be broken by such means, it employs another method, by which, in consequence of applying foreign power, it accomplishes its object. Seiz- ing the shell with its claws, it mounts up into the air, and then loosing its hold, causes the shell to fall among stones, (in preference to the sand, the water, or the soil on the ground,) that it may be broken and give easier access to the contained animal. Should the first attempt fail, a second or a third are tried, with this difference, that the crow rises higher in the air in order to increase the power of the fall, and more effectually remove the barrier to the contained morsel. On such occasions, we have seen a stronger bird remain an apparently inattentive spectator of the process of breaking the shell, but coming to the spot with astonishing keenness, when the efforts of its neighbour had been successful, in order to share in the spoil.* Animals, in general, seem to have a tolerably cor- rect notion of their own powers, as we do not often see them attempting to accomplish objects for which their strength is inadequate. Thus, we have seen a pointer, which, if a hare was wounded, would pursue with the ut- most keenness, but if otherwise, would witness her escape without exertion. It is the knowledge of the variety of * Pennant, Brit. Zool. iv. p. 114, mentions similar operations performed by crows on muscles. 430 INQUIRY INTO THE power which sometimes makes a horse run away with a bad rider, when he would not make the attempt with a good one." A wasp was observed to light on a gravel walk, and seize a large fly and endeavour to carry it off—a great in- convenience was experienced from the wind, which im- peded the flight of the wasp : it accordingly alighted, cut off both wings of the fly, which offered the greatest ob- struction, and renewed the attempt at flight; the load was still too heavy—the animal alighted a second time, and lop- ped off the head of the fly, and eventually regained the nest.* In countries infested with monkeys, many birds, which in other climates build in bushes and clefts of trees, sus- pend their nest upon slender twigs, and, by this ingenious device, elude the rapacity of their enemies. The nymphs of water-moths, commonly called codbait, cover themselves, by means of gluten, with pieces of wood, straw, small shells, or gravel. It is necessary that they should always be in equilibrium with the water in which they live. To accomplish this purpose, when their habi- tations are too heavy, they add a piece of wood ; when too light, a bit of gravel. A cat was known to frequent a closet, the door of which was fastened by a common iron latch; a window was situ- ated near the door; when the door was shut she gave her- self no uneasiness; as soon as she was tired of her confine- ment, she mounted on the sill of the window, and with her paw dexterously lifted the latch, and came out. "A black-snake was seen climbing up a tree, evidently with the view of procuring the young birds in the nest of a Baltimore bird. This bird, it has already been observed, suspends its nest at the extremity of the branch of a tree. The branch to which the bird of which I am now speak- * See the bee and the gravel stone. Virg. Georgics. FUNCTIONS OF THE BRAIN. 437 ing had affixed its nest, being very slender, the serpent found it impossible to come at the nest by crawling along it: he therefore took the advantage of another branch which hung above the nest, and twisting a small portion of his tail around it, he was enabled, by stretching the re- mainder of his body, to reach the nest, into which he in- sinuated his head, and thus glutted his appetite with the young birds."—B. S. Barton's Tracts, vol. 1st, p. 68. " One of my friends possessed a very intelligent monkey; the animal being very fond of nuts, he used to amuse him- self by placing them beyond the reach of his chain; after many useless efforts, which only served to stimulate inven- tion, the monkey, seeing a servant passing by with a towel under his arm, seized the towel, and made use of it to bring the nut within his reach—after having thus obtained the nut, he used to crack it with a stone—one day after a hard rain, the earth being softened, the nut was driven in, so as to prevent him cracking it,—sensible of the cause, he placed a stone beneath, and thus readily obtained his ends." —Discours et Memoires par Vauteur de VHistoire de VAstronomie. 4. Truth.—The inferior animals possess a knowledge of truth, but in a more limited degree than man. They do not direct their organs of perception to so many ob- jects, or examine the same object under such variety of aspects. But that they possess much knowledge derived from experience, all will be ready to admit, who have traced the operations of memory which they exhibit. Be- sides, we witness its display in the caution of an old horse, in comparison with a young one,—and of the older ani- mals which we wish to ensnare, compared with the more ignorant ones, which more easily fall into our hands. The absence of experience enables us to deceive the latter, its presence in the former teaches them to avoid the error. b. Testimony.—Among the inferior animals, there are some species which, during life, are solitary and fixed to *'5a INQUIRY INTO THE the same spot, as the common oyster. These can derive no information from the testimony of others. Their know- ledge of external objects must be limited to the results of their own sensations. But in the case of all monogamous or polygamous animals, whether gregarious or otherwise, a considerable dependence is placed on the testimony of others in a variety of circumstances. Thus, in the case of wild geese, or crows feeding in a field, the knowledge of approaching danger observed by one, is speedily com- municated to the whole, who immediately act upon the information. Errors in testimony, among the lower animals, are fre- quently committed, as the result of erroneous information or experience. Thus, a cock will often give warning of danger to the hens under his charge, if a pigeon flies ra- pidly over his head, mistaking it for a rapacious bird. In other cases, the sentinel may be deceived by false appear- ances, and, considering that there is no danger approach- ing, fail to do his duty.* There are few instances of attempts to give false testi- mony among the inferior animals, which do not appear to arise from the impulse of the instinctive rather than the intellectual powers. The fox, however, in a tamed state, will often scatter food within the reach of his chain, and then remain motionless until an unwary chicken approach- * Dr. Edmonston, in his " View of the Zetland Island," gives a very striking il- lustration of this neglect of the sentinel in his remarks on the shag. " Great num- bers of this species of the cormorant are sometimes taken during the night while asleep on the rocks, and the mode of accomplishing it is very ingenious. Large flocks sit, during the night, on projecting rocks of easy access, but, before they commit themselves to sleep, one or two of the number are appointed to watch. Un- til these sentinels are secured, it is impossible to make a successful impression on the main body; and to surprise them, is therefore the first object. With this view, the leader of the expedition cieeps cautiously and imperceptibly along the rock, until he gets within a short distance of the watch. He then dips a worsted glove in the sea, and gently throws water in the face of the guard. The unsuspecting bird, either disliking the impression, or fancying from what he conceives to be a disagreeable state of the weather, that all is quiet and safe, puts his head also under his wing, and soon falls asleep. His neck is then immediately broken, and the party despatch as many as they choose."—Vol. ii. p. 253. FUNCTIONS OF THE BRAIN. 439 es the cunning observer. This is an attempt to deceive, not so much by scattering about food, as by lulling asleep all suspicion by his quietness. 5. Duty.—Among the lower animals, we do not observe any instance of their acting contrary to their experience. In a domesticated state, where laws have been imposed upon them, they obey from various motives ; the prospect of reward, the dread of punishment, and ultimately habit. They are aware of the conformity or disagreement of their actions, to the standard by which they are tried. Exam- ples of this kind are daily exhibited in the ox, horse, and dog. 6. Deity.—There is no evidence to prove that the brutes have any idea of a Supreme Being. Our notions of a Deity are not referrible to any particular intellectual faculty ; but are solely the result of a greater perfection of all the mental faculties ; hence all our ideas of reflection are more perfect and extensive. If the facts which we have adduced in support of the statements be admitted, it follows that the intellectual powers of man differ, not so much in kind, as in degree, from those of brutes. In the examination of the active powers or instincts, it has been demonstrated, that man and brutes possess appe- tites, desires, and affections, regulated by the same laws, and destined to accomplish the same objects in the ani- mal economy, exhibiting, however, slight shades of differ- ence, according to the species. The superiority of man over the brutes in reference to the active powers (except perhaps some of the desires) is so small, that doubts may be entertained respecting his claims of supremacy. Man, therefore, is far exalted above the brutes by a su- perior degree of perfection in his intellectual faculties ; by a greater power of restraint over his instincts; and by readier methods of combination, and of communicating his ideas and feelings, rather than by a difference in the na- ture of his mental constitution! 440 EFFECTS OF POISONS Experiments to ascertain the Operation of various Poisons on living Vegetables ; performed in 1830 and 1831. I completed last year the following series of experi- ments, in order to test the powers of vegetable life in re- sisting the effects of vegetable and mineral poisons. The positive nature of the results which were obtained, is cal- culated, in my opinion, to throw considerable light on the physiology of plants: a department of science, at the pre- sent time, too much neglected, even by the members of the medical profession; and by the practical horticul- turists, for the most part, entirely overlooked. The application of certain poisons to plants and flowers, in order to destroy noxious insects and larvae, is not un- frequently recommended ; and doubts have been express- ed as to the injury that might occur to the plants them- selves by such treatment: it has even been positively asserted that the destruction of the plant is the necessary consequence of the application of certain vegetable poisons in some instances. In the progress of science, next in importance to the accumulation of true knowledge, is the necessity to disen- cumber ourselves of error. If the results of the present experiments possess no other merit, they will be esteemed interesting on this account alone. I have been led to the present investigation by perusing a notice of experiments of a similar nature, by M. Marcaire Princep, a professor of botany in Geneva, in the " Bulletin des Sciences Na- turelles," for March, 1830, of which the following is an extract: " The experiments detailed in this memoir, have for their object to prove that the juices or extracts of plants, ON LIVING VEGETABLES. 441 poisonous to animals, are equally so to the vegetables from which they are obtained. Thus M. Marcaire Princep has succeeded in killing branches, and even entire individual plants, of the datura stramonium, hyosviamus ?iiger, and momordica elaterium, by plunging them into distilled water, charged with the juices and extracts of these plants, or even by watering them with this narcotic water." " M. Goeppert, of Breslau, has published in the annals of Poggendorff, an account of experiments from which he derived very different results." But neither of these authors extended their experiments to the introduction of poisons into the substance of the plants. I first confined myself to a repetition of the experiments of M. Princep, but obtained results entirely at variance with his. I now determined to pursue the subject on a more extensive scale. In the garden of the Philadelphia Alms-house Infirmary, I selected a number of young and thriving plants, and assisted by the gardener, and several of the resident physicians, I applied the following named poisons, as hereafter specified, taking care to wound the bark of the perennial, and the interior parts of the annual plants, so that the poison should be directly applied to the wounded sap-vessels. The poisons used were, the extracts of stramonium, belladonna, and cicuta; the es- sential oil of nicotiana tabacum, diluted hydrocyanic acid, and powdered oxydum arsenici. Experiment 1. September 18th, 1830. A strong, thick solution of the extract of belladonna and cicuta, (German manufactory,) was introduced into the bark and pith of different stems of the stramonium, at 12, meridian. 2. Extract of belladonna introduced into the stem of the palma christi. 3. Powdered white oxyd of arsenic was freely spread about the root of a young palma christi, and the plant watered. 56 442 EFFECTS OF POISONS 4. Arsenic introduced into the stalks of two young to- bacco plants, near the roots. 5. Two young stramonium plants were selected: arsenic was introduced into the stalks and stems of one, and spread about the root of the other, and the plant watered. 6. Dilute hydrocyanic acid introduced into an incision made into the stalk of a stramonium. 7. Dilute hydrocyanic acid poured on the root of im~ patiens balsamina. (Lady-slipper.) 8. Strong oil of tobacco introduced into the stalk of palma christi. 9. Idem, into the stalk of stramonium. 10. Idem, into the stalk of a young tobacco plant. 11. Idem, into a branch of ficus carica. (Fig-tree.) 12. Idem, placed freely round the root of a young pyrus, (pear-tree,) the earth being loosened and watered. 13. Idem, placed round the root of palma christi. 14. Idem, introduced into the stalk of euphorbia seri- cea. 15. Arsenic freely spread round the root of the mimosa sensitiva—exposed to the rain and dews. It is not necessary to enter more minutely into details of these experiments, some of which were frequently re- peated, with great care. The same result universally followed in every instance. Not one plant, shrub, or flower, displayed signs of the least injury from the varied applications of the different poisons; some, indeed, ap- peared to thrive better for the attentions which were ren- dered them. I shall only add a list of plants, on which some of the experiments were subsequently repeated at my request, by Mr. John Carr, at Bartram's botanic garden. 1. With extract of belladonna.—Zinea elegans, impa- tiens balsamina, vinea rosea, and kcelruteria paniculata. 2. With extract of cicuta.—Zinea elegans, tagites, vinea rosea, and salvia splendens. ON LIVING VEGETABLES. 443 3. With oil of tobacco.—Amaranthus and Zinea. These additional experiments, performed by a skilful practical botanist, confirm the observations previously made: hence, we are permitted to conclude, first, That the experiments detailed by Professor Princep, are er- roneous. Second, That substances which act as lethal poisons to animal life, are not so to-vegetables. We cannot but admire the wisdom, order, and harmony of creation! fixed to the earth by immutable laws, plants and flowers would have soon ceased to exist, had their susceptibilities, like those of animals, rendered them liable to the agency of poisons, to contact with which they are so much exposed. " We had the satisfaction of assisting, during the pre- sent month, together with Professor Del Rio, at a repeti- tion of those curious experiments on vegetable substances, with vegetable and mineral poisons. They were con- ducted by Dr. Harlan, assisted by Dr. Moore, in the garden of the Philadelphia Alms-house Infirmary, and the results corresponded precisely with those obtained in Sep- tember, 1830. " The plants to which the poisons were applied, were palma christi, stramonium, nicotiana tabacum, balsamina impatiens, brassica, geranium, and carduum benedict. " The poisons used in the experiments, were ol. tabaci, oxyd. arsenic, extr. stramonium, extr. cicuta, corros. sub. in sol., ol. terebinthi, and a strong solution of opium. " Each of these poisons was separately introduced into the circulation of individual plants, by incisions made in the stems, under the leaves, and by similar, separate ap- plications of them to their roots; by infusions, and by powder also, in the case of arsenic. In some instances the poisons were placed around the roots only, viz. corros. sublimate, arsenic, sp. turpentine, and oil of tobacco. " In none of these instances was any of the plants poison- 441 EFFECTS OF POISONS, &C. ed. One of the young geraniums faded, after constant im- pregnation, for three days, of the earth about its roots, but this is evidently attributable to its soil being rendered unfit for the support of vegetable life. " We must therefore adhere to the reasonable opinion, that plants have the property of segregating from the soil or atmosphere, those principles which are proper for their healthy state, and of rejecting those which are injurious to their organization. If plants yield to the deleterious influence of those principles which are injurious to other organized bodies, it is because—as in the case of the young geranium—they cannot appropriate those salutary principles, upon which their existence depends, and which enables them to exercise their natural functions, one of which is, to reject that which is injurious to them. We speak now of the circulation of plants, and not of mecha- nical application of poison to their parts. Oil of turpentine applied several days to the bark of many trees, and espe- cially the linden tree, will soften, and eventually destroy the part; but the experiments tried with the balsamina, or lady-slipper, the palma christi, the cabbage, and to- bacco plant, whose roots were liberally supplied with spirits of turpentine, prove that it did not affect them through their circulation. Dr. Harlan's attention to this subject, will be properly appreciated by those engaged in the study of the physiology of plants. "G. W. FEATHERSTONHAUGH, " Editor of the Monthly Journal of Geology and Natural Science." EXPERIMENTS WITH PHOSPHORUS ON A CAT. 445 Experiments with Phosphorus on a Cat. A paper read before the American Philosophical Society, February 17, 1832. No small degree of interest has recently been excited by the appearance among us of M. Chaubert, of Paris, who professes to have discovered antidotes for some of the most lethal poisons, and his powers of resisting their ef- fects have been succesfully demonstrated for several years past, throughout the greater part of Europe. Since his arrival in this country, M. C. has repeated most of his experiments, both in this city and in New York,—particu- larly those with prussic acid and phosphorus, the former of which he exhibits to animals; the effects of the latter he generally tests upon his own system, swallowing with perfect indifference from twenty to forty grains. M. C. has favoured me with the following remarks relative to the operation of this poison on himself. It produces, in the first place, exhilarating effects, succeeded, sooner or later, by a transitory sense of depression or faintness. In the course of a few hours, however, the most powerful and painful aphrodisiacal effects are the consequence: if the dose has been very large, frequently repeated, and espe- cially if he has permitted three or four hours to elapse previous to taking the antidote, his bones become affected with pain and soreness throughout the skeleton, so as to render the usual pressure almost insupportable: his com- plexion also changes to a bilious hue, and his bowels be- come costive. All that M. C. has informed me of, con- cerning the nature of his antidote for phosphorus, is, that it is of an animal nature. 446 EXPERIMENTS WITH PHOSPHORUS ON A CAT. Many conflicting opinions are entertained by medical men, in regard to the extent of the deleterious effects of this poison on the animal body ; some have even pronounc- ed the substance to be inert, when taken into the stomach in a solid state ; and others are of opinion, that its mixture with oil renders it less noxious; while M. C. positively affirms, that oil renders it a hundred fold more virulent. Some writers affirm, that one quarter of a grain is suffi- cient, in some cases, to destroy the life of man ; and by some German chemist it is stated, that the water in which he had washed phosphorus, being drank by chickens, proved fatal to them. I have heard lately of a patient in Paris, to whom one grain was administered twice daily, for impotency, with fatal effects. Confused by these conflicting statements, I was desirous of obtaining some satisfactory results ; for this purpose, I procured a full-grown female cat, and on Tuesday, Feb- ruary 15th, at 10 A. M. administered eleven grains of phosphorus, cut into small pieces, and mixed with a table- spoonful of milk and water. The animal experienced no uneasiness for the first eighteen hours, nor could I observe any symptoms, referrible to the poison ; she however pass- ed urine, during the evening, which emitted the smell of phosphorus, and some irritation existed about the external organs of generation. On Wednesday, she displayed con- siderable uneasiness ; drooped, cried, and during the morning experienced a fit of epilepsy; these symptoms increased apace, and on Thursday night and Friday morn- ing, she was, for the most part, senseless, and expired in spasms at 1 P. M. about three days after taking the poison. The following pathological symptoms were observed on dissection :—The intestines, for the most part, empty, and much contracted; the liver and kidneys gorged with blood; the former covered with small bright punctuations of blood; the uterus contained three embryons about two EXPERIMENTS WITH PHOSPHORUS ON A CAT. 447 weeks old; (the term of gestation in these animals being fifty-six days.) On opening the stomach, the mucous tunic was observed generally inflamed : particularly so about the great curvature, and pyloric portion, which also dis- played numerous holes, or abrasions, some of them much larger than the pieces of phosphorus which she had swal- lowed ; two or three spots were sphacelated, near the pylorus ; the mucous coat was also softened'in its structure; this coat was highly inflamed, and preternaturally softened throughout the duodenum ; the same appearances extend- ing the whole length of the intestinal canal, which was nearly empty, with the exception of the rectum, which was distended with hardened faeces, of which it does not appear that there had been any discharge after the ad- ministration of the poison: not the least appearance of phosphorus, in a solid state, could be detected in the stomach or intestines, nor even in the faeces when exposed to a high temperature; the poison was most probably all dissolved in the stomach, as the animal was not observed to vomit until the end of the second day of the experiment, and then food only was ejected. The heart and lungs were collapsed; the brain and spinal marrow more than usually dry and pale; several lumbrici were observed in the stomach and intestines, all dead, though the animal was still warm. From this experiment it results, that phos- phorus, though not an active poison, is fatal to these ani- mals, when taken into the stomach ; that it excites violent inflammation in the mucous membrane, and ulceration of such portions as the solid phosphorus comes in contact with, occasionally attended with sphacelus; that the gas- tric liquor is capable of dissolving solid phosphorus : and that when it passes in a state of solution into the intestines, it occasions inflammation and softening of the mucous coat generally, contracting the bowels, and inducing constipa- tion ; and that the glandular, muscular, and osseous sys- EXPERIMENTS WITH PHOSPHORUS ON A CAT. terns among those parts not immediately in contact, are principally affected by the operation of this poison.* It does not appear that phosphorus exerts any very powerful operation on the uterus, as in this instance no symptoms of abortion were the consequence of so large a dose, notwithstanding the spasms which formed part of the Symptoms. * The London Medical and Physical Journal, conducted by T. Brady, M. D. R. Batty, M. D. and A. A. Noehden, M. D. Vol. I. page 85, has the following passage:— "From a lettei from Citizen S. lately published in the * Annates de CMmie,' it appears that no less than twenty-seven of bis poultry, including a turkey-hen, all died in the course of a few days, in the most dreadful convulsions. Curiosity in- duced him to open them, when every thing appeared in a sound state, without any indication of the slightest malady; he perceived, however, that the internal mem- brane of the gizzard was somewhat tough and shrivelled, like most animal sub- stances when exposed to the action of heat. In all the different subjects, the sto- machs were luminous; the grains, not fully digested, glittered on falling down to the ground; and those which at first sight presented no light, almost instantly ex- hibited both light and the smell of phosphorus when heated. This convinced Citizen S. that there could be only one cause for all these effects, and that they were all produced by the circumstance of his having, four or five days before, thrown out some water through a casement into the poultry yard; which water had served to wash and purify several substances, on which operations of phosphorus had been performed. The phosphorus contained in these waters, in a state of na- ture, he considcied as solely occasioning the death of such a number of domestic animals." EXPERIMENTS ON THE PULMONARY CIRCULATION. 449 Experiments performed on Living Animals, to prove that the Circulation of the Blood, through the Lungs, is immediately and entirely suppressed during Expira- tion. I have been induced to offer the following experiments, with the hope that the original object of them may be con- sidered of so much importance, as to induce some one, possessed of talent, industry, and leisure sufficient, to in- stitute a course of experiments, in order to throw some light on a subject, of which, as yet, we are entirely ig- norant. I am perfectly aware that hypothesis, of whatsoever kind, ought not to be admitted into science without the most rigorous examination ; and that doubt has a right to close the door of credence, until the passport of demon- stration is produced, sealed by nature or experiment. For the accuracy of my experiments I can vouch ; it is for others to judge of the correctness of my deductions. The fact that the arteries are empty and the veins filled with blood after death, (provided the death of the animal has not been sudden or violent, as from the effects of elec- tricity, a blow on the stomach, the operation of certain gases, &c.) is well known to every one the least conversant in anatomy; but the cause of this phenomenon has hitherto escaped the attention of the anatomist; at least no satis- factory explanation has ever been offered. It was with a view to obtain some information on this subject, that I was encouraged to perform the operations I am now to relate ; and although I was disappointed in the main object, other circumstances were brought into consideration during the experiment, equally interesting to the practical anatomist 57 450 EXPERIMENTS ON THE or speculative physiologist; and I flatter myself I have detected one error in physiology. It was the opinion of many, and inculcated, for several years, in the lectures of our much lamented Professor of Anatomy, Dr. Wistar, that the circulation of the blood, through the lungs, was not prevented during expiration, or the collapsed state of those organs; and that death, in such instances, was caused by the deteriorated or deoxy- genated venous blood finding its way into the left cavities of the heart, and thence into the coronary arteries. If my experiments be correct, this reasoning is certainly er- roneous. It is true they differ widely in their results from those of Dr. Goodwin, but this subject was not im- mediately connected with the object of his experiments. I am happy to state, that after having communicated my experiments to Dr. Wistar, he was induced to change, in part, his opinion. He informed me, that from Goodwin's experiments, he had been induced to believe the contrary for many years. Much interest was shown on his part; and, after frequent conversation with him on the subject, he was kind enough to urge me to pursue my experiments extensively, and publish them ; since which time various circumstances have prevented my giving the subject fur- ther attention ; and I am induced now to make them pub- lic with the hope that some one, more capable, will insti- tute a course of experiments to determine the problem yet to be solved, " why, after death, the arteries are empty and the veins filled with blood." Experiment 1st. Having secured a full-grown, healthy cat, in a horizon- tal position, I passed a ligature around the trachea, taking care that the lungs were in a state of expiration ; I im- mediately opened the thorax, and exposed the heart to view; when the following appearances presented them- PULMONARY CIRCULATION. 451 selves. Both the auricles and ventricles contracted sepa- rately and naturally at first, but in less than five minutes the left auricle ceased; in fifteen minutes the left ven- tricle also; and in twenty minutes after the operation, neither could be again made to contract by any stimuli whatever. But the right auricle and ventricle continued their systole and diastole, incessantly, for fifty minutes; the consequence of which was, the right cavities, together with the two cavae, became exceedingly distended ; for, long previous to the left cavities having ceased to contract, not a single drop of blood entered the left auricle, which was very flaccid and empty. The circulation through the lungs, was, in this instance, entirely suspended: here we may remark, if the lungs did admit of as free circula- tion during expiration as during inspiration, why, in the foBtal state, does so small a portion of blood find its way through them? I am unable, in this experiment, to determine why the right cavities should continue their systole and diastole so much longer than the left; unless it is that they still con- tinue to receive a portion of the vis vitae from the blood by which they were distended; as they are both, caeteris paribus, possessed of the same powers of life, being ani- mated from the same source. I now thought that the phenomenon in question was explained, by supposing the blood continued to circulate in the veins, whilst no more was propelled into the aorta and arterial canals; the latter were, of course, emptied. But I was soon convinced, that though the principal ob- jection was obviated, the experiment did not explain in what manner that portion of blood, forced into the aorta by the last contraction of the left ventricle, found its way, independent of any vis a tergo, through the whole extent of the arterial canals to the mouths of the veins. This constitutes the problem to be solved ; and it was of this, in particular, that Dr. Wistar asserted he had never heard 452 EXPERIMENTS ON THE any satisfactory explanation offered ; although he had availed himself of frequent opportunities of conversing with men of science upon the subject; some of whom ar- gued, the pressure and action of the surrounding muscles as the cause ; others the pressure of the external air ; but he remarked, " the elasticity of the coats of the arteries would resist any such pressure, and prevent the oblitera- tion of their calibers.* On dissecting the heart, the left cavities were found nearly empty of blood ; what remained was in consequence of their contractions being too feeble to force it out; the right cavities, on the contrary, were enormously distend- ed ; the lungs, when cut into, displayed a sanguineous, frothy appearance, similar to that observed in the lungs of drowned animals. Experiment 2d. Having procured another full-grown, healthy cat, in the presence of two medical gentlemen I passed a ligature around the trachea, the lungs being in a state of expira- tion, and proceeded to expose the heart to view; and here I had an opportunity of observing, that the pericar- dium is perfectly transparent, and, like the cornea of the eye, becomes dim only at the approach of death. In this experiment it was some time before we perceived I had not removed it, as it lay flaccid over the heart, whose motions were distinctly observed through that membrane.! Although the nature of that principle, which animates the animal and vegetable kingdoms, may be too abstract for our investigation, yet its effects and its laws are of the utmost importance to the physiologist; and is a subject re- quiring our most serious consideration. * Gravitation of the blood from the large to the smaller branches is most proba- bly the cause of the emptiness of the former. t This experiment was made in the year 1816. PULMONARY CIRCULATION. 453 Deprive the animal structure, for an instant, of this un- known, imponderable, and invisible principle, we cannot but be struck with the great change that immediately su- pervenes, previous to decomposition ; the adnata, over the cornea, becomes dim ; the pericardium loses its transpa- rency ; the bladder permits the urine to percolate through its coats; the stomach and the gall bladder lose, in a great measure, their adhesive affinity, and allow their contents to transude the pores, and become effused upon the intes- tines ; the muscular fibre cannot now resist near the same force as during life. Which demonstrate that there exists a vital or animal, as well as a chemical affinity in the liv- ing body; so different are living from dead membranes; and hence the fallacy of any experiment performed on dead parts, with a view to determine their functions whilst in a living state. I commenced operations at five minutes before nine o'clock, P. M. In less than five minutes after the trachea was tied, the left auricle ceased to contract, as in the former experiment; in fifteen minutes the left ventricle ceased its contractions; and here the circulation through the lungs was suppressed. In twenty minutes the right ven- tricle ceased to contract, but the right auricle continued its systole and diastole, not only fifty minutes, as in the former experiment, but for seven hours, four of which it continued its contractions distinctly, and independently of any other external stimulus than its contents, or the atmosphere to which it was exposed; whilst every other part of the body, the heart itself, except the right auricle, was cold, dry, and lifeless. The object of the experiment not being to determine the length of time the heart could contract after the cessation of respiration, but to prove that the circulation through the lungs was not only inter- rupted, but altogether suppressed, during a state of com- plete expiration, it was discontinued. My assistants left me, at the end of an hour, to continue my observations 454 EXPERIMENTS ON THE alone; being perfectly satisfied, from the great distention of the right cavities, the regurgitation of the blood in the cavse, the violent efforts of the right cavities, and the flac- cid state of the left side of the heart, that no more blood had passed through the lungs. I still, however, felt an inclination to see how long the contractile power would remain in the right auricle, and observed it attentively from nine P. M. until four in the morning; most of which time it contracted of itself, and was highly susceptible of external stimuli. On touching it with the point of the scalpel it contracted briskly ; to- wards the latter part its contractions became less frequent, with intervals of some seconds, which intervals increased until one o'clock, A. M., after which it no longer con- tracted independent of external stimuli. On dissection, the left cavities were found flaccid and empty ; whilst the right cavities, the two cavse, with the pulmonary artery, were distended. The blood, in the right cavities, did not coagulate so long as the power of contraction remained. This engorgement of the right cavities would not have taken place did the lungs allow as free circulation, when compressed by expiration, as when expanded by inspira- tion ; and that it does not depend on the want of power in the right auricle, to force it onward, is shown by institut- ing artificial respiration, which continues the circulation ; also by the resuscitation of animals, which have remained a long time under water. Conclusion. From these experiments I infer, that death or asphyxia, from drowning or hanging, is not induced from the dete- riorated or venous blood finding its way to the coronary arteries of the heart, nor from pressure on the brain, and loss of nervous energy solely, as it is of no importance whether the animal be decapitated or not, provided arti- PULMONARY CIRCULATION. 455 ficial respiration be continued ; the circulation goes on equally well for a time. But in every case of asphyxia there is a negation of oxygen, and consequent paralysis of the lungs ; and the effect is the same, whether this nega- tion proceed from the inhalation of mephitic air, from the exclusion of all gas, as in drowning, hanging, tying of the trachea, or from interrupting the nervous spirit, by pass- ing a ligature around the eighth pair of nerves ; they all induce a paralysis* of the lungs, and a consequent suspen- sion of their action. This paralysis is, therefore, in every instance, the immediate cause of death ; whether it pro- ceed from the simple negation of oxygen, or destruction of nervous energy ; the one may produce or occasion the other. For although by inflating the lungs after decapi- tation, the circulation may be made to continue, it does so no longer than the right cavities of the heart possess a power of contraction sufficient to propel the blood through the expanded lungs ; and until the vital energy of these organs is expended; which must soon happen. For no sooner does the paralysis of the lungs take place, than that power, by which the life of animals is produced and con- tinued, and which I suppose to be derived from the at- mosphere, is put a stop to, and the blood, which animates all the solids, no longer receiving its supply, death, or the total extinction of the vital principle, is the consequence. On the other hand, if the lungs be left in a state of expi- ration, the circulation is immediately suppressed; as in this instance, besides the paralysis, the air cells, with the extremities of the arteries and veins, are compressed. It will be recollected, that the length of time for which the hearts of the animals dissected continued their con- tractile power, differed widely ; the one fifty minutes, the other seven hours. And as it is impossible to determine what length of time the human heart may retain its vis * By paralysis of the lungs I mean a suspension of their vital action. 456 EXPERIMENTS ON THE insita, after every other phenomenon of life may have ceased, from asphyxia, we should be encouraged to at- tempt resuscitation in cases otherwise desperate. The frothy, sanguineous appearance, noticed in dis- secting the lungs of the animals which were the subject of these experiments, has, by some authors, in their dissec- tions of drowned persons, been mistaken for the water which they supposed to have passed into the lungs ; but it is not peculiar to the lungs of drowned animals. It may be observed, more or less, in death from all kinds of as- phyxia ; it is occasioned by the halitus, or vapour, which escapes from the exhalents, not being carried off by the function of respiration, being condensed and collected in the cells, or from an effusion of serum into their cells. As the deteriorated or venous blood never reaches the left side of the heart in these cases, it cannot occasion those morbid effects upon the brain, so frequently spoken of by Bichat and other writers. Admitting that venous blood was propelled into the left cavities, I believe it would not produce its deleterious effects so immediately as is generally supposed ; as, in those cases of infants, and, perhaps, of pearl divers, where the communication of the two auricles is continued through the foramen ovale, and by which a mixture of venous, with arterial blood, in the left ventricle, is produced, death is by no means the im- mediate consequence. The passage of water into the lungs has no share what- ever in inducing death from submersion. I filled the lungs of a cat by injecting water into the trachea; it threw her into convulsions, and the water was immediately expelled. Those parts about the glottis are so exceed- ingly irritable, that whilst life remained, no water could pass into the trachea ; and, in fact, it is not to be found in dissections after death, until putrefaction has taken place. As the heart is the last muscle which loses its power of PULMONARY CIRCULATION. 457 contraction, and as the circulation cannot be continued whilst the lungs are compressed ; the first indication in our attempts to resuscitate should be, 1st. Mechanical inflation of the lungs; 2nd. To restore the temperature of the body by the warm bath, friction, &c.; 3rd. Stimuli, external and internal, as enemata of brandy, &c.; 4th. To evacuate the contents of the stomach. 58 458 ON ABSORPTION. Report of the Committee of the Academy of Medicine of Philadelphia, on the Means by which Absorption is effected. The Committee of the Academy of Medicine of Phila- delphia, appointed to investigate, by experiment, the question, " Whether the veins absorb, and whether posi- tive evidence can be obtained that the lymphatics perform that function, or that the lacteals absorb any thing but chyle"— Report—That they have spent considerable time upon the inquiry intrusted to their charge, and have performed a considerable number of experiments relating to this sub- ject, but intending to prosecute it further, had not distri- buted their attention in due proportion to all the parts of which it is composed, when unavoidable engagements, on the part of all the members, and the sickness of one of them, rendered it impossible, at the present time, to pro- ceed. Not being able to promise themselves a speedy re- newal of their undertaking, or to assign, at present, the precise time when they can renew it at all, they have concluded to make a report, embracing the subject in its present unfinished state. Some points, we trust, not without importance, will be found fully established, according to the ordinary opera- tions of human reason ;—others will want further confir- mation and elucidation, and some have been only broached. In our experiments, in which we employed forty-three animals, we used much precaution to ensure their accu- racy. The whole of the Committee were present at the greater part of them, and all the important ones were so frequently repeated with similar results, that the mem- ON ABSORPTION. 459 bers, occasionally absent, had opportunities of making up for loss. Several scientific gentlemen, among whom we may name Dr. Chapman, Dr. Brown, of the Transylvania University, Dr. Troost, and W. Keating, favoured us oc- casionally with their presence and assistance. We are particularly under obligations to Dr. Troost and W. Keat- ing, for their very polite and prolonged assistance in our chemical examinations of the fluids. It has sometimes been made an objection to physiologi- cal experiments, perhaps in too general terms, that so great violence is done to the system, that it must materially affect the results; and that phenomena arising from this source, may be mistaken for those, owing to the simple presence of the articles employed, and compatible with a state of life and health. Of the importance of this obser- vation, and the necessity of guarding against such errors, we trust we have been fully aware ; and it will be seen that this reflection has given rise to operations conducted for the purpose of comparison. But at the same time, we presume that this truth should not stand as a general objection to all inquiries of the kind, or to those in which the above caution has been held in view. Other and particular precautions employed, will be men- tioned as we proceed ; and we have only to add, that we have reported experiments which have appeared falla- cious, (noting, however, the fact,) for the sake of candour, in order that we might be sure of not withholding any thing tending to establish doubtful questions. We commenced with repeating and varying some of the experiments of J. Hunter, on the absorption of colour- ed fluids by the lacteals. These we performed with dif- ferent articles, on a goat, a male and a female of the sheep, a dog, and two cats, repeating the operation several times upon each individual, and always without success. We employed the following articles, viz. indigo mixed with starch, with milk, and with water; milk alone, and infusions 460 ON ABSORPTION. of rhubarb, madder, alkanet, and cochineal, the latter, both simple and rendered purple by the addition of carbonate of potass. Our practice generally was, to select a portion of small or large intestine, secure it by a ligature at both ends, inject at or near the temperature of the animal, and then return the part into the abdomen, or attempt to retain its warmth by artificial means. Where the canal contained much fluid, it was removed, but the small quan- tity which is naturally found on the mucous membranes, was suffered to remain. In some instances the lining sur- face was rendered as clean as possible. In all these cases, after a short interval, the lacteals, if originally colourless, continued so, and if filled with white chyle, became co- lourless and transparent. In this result, we are compelled to differ from the recorded authority of Hunter, and to agree with the observations of Magendie, Flandrin, Tiede- man, and Gmelin. An elective process with regard to colour, is well known to take place in the common healthy operations of digestion ; as the alimentary tube is filled with substances of various original colours, and below the duodenum deep- ly stained with bile, and notwithstanding this, the chyle is always of the same pure and uniform white. In his experiments to ascertain this point, Bichat was not more successful than ourselves, or than the above named authors. " J'ai repete souvent cette experience," says this writer, " le fluide injecte, a ete bientot absorbe, mais non la matiere qui le colorait; en sorte que cette matiere, plus condensee apres l'absorption, teignoit la sur- face sereuse; les lymphatiques etant transparens, comme a l'ordinaire."—Anat. Gen. Vol. IV. p. 519. Mascagni was induced to believe the reverse of our conclusions, from the following observations. 1. The hy- dropic fluid varies in density and colour in different ca- vities, and it was always observed, that the neighbouring lymphatics contained a fluid exactly analogous. 2. In ON ABSORPTION. 461 two bodies having an effusion of blood in the thorax, this author observed the absorbents of the lungs engorged with blood. 3. In a man who became emphysematous after having been poisoned, these vessels were distended with air. These cases would appear at first sight sufficiently con- clusive ; but we believe they can be explained without the implication which he draws from them. It is stated by Mascagni himself, that water can be made to pass from the arterial system into the lymphatics; and that this mode was practised, for the purpose of rendering the latter vessels visible. If, therefore, the exhalents, which, in their natural state, transmit only the most extenuated halitus, are capable of so much dilatation as to allow these grosser fluids to pass through them, what is there to pre- vent the same deranged operation in those capillaries which connect the visible arteries with the lymphatics? It is also the fact, according to Bichat, that when the se- rous membranes are inflamed, the subjacent lymphatics may be seen distended, like the arterial capillaries, with red blood. The strongest instance that we have met with upon this subject, is one furnished by Magendie, (Precis Elem. Vol. IV. p. 193,) in opposition to his own views. It is that in which the celebrated Dupuytren found the lym- phatics of the upper part of the thigh filled with a fluid resembling pus, in a case where a large abscess existed, in the course of those vessels. To this case Magendie makes no answer, nor are we prepared to do so; as we can hardly consider the secretion of pus, in the same light as a mere exhalation, or suppose so elaborated a fluid to escape in the manner above described. When differing from a high authority in our statements, it affords additional satisfaction, if we can assign a proba- ble cause for the mistake which we attribute to him. The experiment on which Hunter appears principally to rely, 462 ON ABSORPTION. in the doctrine of the absorption of coloured fluids, is that in which he describes indigo as having been visible to him, in the lacteals. We were at one period deceived, our- selves, and thought we had seen the blue colour in these vessels; but we quickly discovered that they were co- lourless ; and that what we saw was only the faint bluish- ness which transparent substances assume when placed over dark cavities, and was probably reflected from the sky. On holding the mesentery, which we were examin- ing, between our eyes and the light, they were seen to be entirely colourless. In conducting these experiments, as well as some others, our attention wras irresistibly drawn to the entire absence of pain, which the subjects of them enjoyed, while vio- lence of various kinds was done to the intestines. We cut, tied, and pinched them, with the greatest freedom, in different parts ; not only without extorting cries from the animals, but without discovering the least convulsive twitch or other mark of pain. We are not aware that this has been observed by authors. Bichat* asserts this fact of their outer surface, and ascribes it to serous membranes lining the cavities. The same has also been asserted of the heart and the brain.f If this exemption should ex- tend to all those parts supplied by the ganglionic system of nerves, it would form an interesting point of knowledge. F. Magendie, a savant whose name must frequently oc- cur in the pages of all who treat this difficult subject, has predicated much of the force of the reasonings contained in his treatise on physiology, upon the smell of camphor * Anat. Gen. p. 528, Vol. IV. t Some years since, Dupuytren of Paris thought he had made a discovery, when extirpating some cancerous ribs he exposed the heart, and found it insensible to mechanical irritation, The celebrated Harvey observed the same fact many years previously, in the son of Viscount Montgomery, of Ireland: an abscess had exposed his heart to view, when Harvey observed its systole and diastole, and experimented to prove its in- sensibility to mechanical irritation. (Vide Op. Omn. Lond. ed. 1761, p. 399.) ON ABSORPTION. 463 which he states he detected in the blood and breath of various animals exposed to the absorption of that substance, when at the same time it was not discoverable in the chyle. Aware of the existence of much difficulty and uncertainty in indications drawn from a sense so little cultivated, and so irreducible to exact mensuration and comparison as that of smell, we were particularly anxious to confirm this part of our inquiries, by removing causes of error, and by fre- quent repetition. Accordingly, we found, in several in- stances, that a vessel containing blood or other fluids, ap- peared to smell very evidently of camphor, when by re- moving it to a distant part of the room, and either changing the air of the vessel, or pouring its contents into another recipient, the odour was entirely removed; thus proving, that it was situated in the air the vessel contained.* With these precautions, camphor was inserted in a variety of ways, into the bodies of living animals, and with the fol- lowing results, which we have arranged in a table, for the convenience of reference at a glance. Our experiments were, from a variety of causes, irregular in their extent; but it is impossible to judge of their effectual weight with- out embracing the whole. * We found, however, that living blood possessed the power of concealing the smell of a small quantity of camphor, when mixed with it. 464 ON ABSORPTION. Animals. Mode of ex-hibiting Cam-phor. Lactealfluid Fluid of Tho-racic duct. Blooii of gen. circu. Blood of the portal cir. Breath. Ram. Tincture into intestine tied. 18 min. clear. No smell. 31 nun. from lilt Si 11 telle vein. No smell. Kitten. Idem. 58 min. no SlIK'U. 58 min. jugu-lar vein. No smell. 32 mill, me-senteric v> in. No smell. Cat. Half an ounce of tincture into large intes-tine, half an ounce into small, with half an ounce of mint water. lied. 75 mini me-senteric vein. No smell. Terrier female. Half an ounce of tincture into s'omach, and half an ounce into rectum. 40 rain. lymph and chyle mixed. No smell. 30 min. infe-rior mesente-ric vein. No smell. Sec-tion of the liver. No smell. Cat. Tincture per os et anum. 34 min. clear. No smell. 36 min. lymph and chyle mixed. No smell. 39 min. vena portarum. No smell. 40 min. sec-tions of the liver. No smell. Dog. Solid camphor into the cellu-lar substance of the thigh. Tine, per os et anum, and in abdomen. Upwards of 56 min. lymph alone. No smell. 46 min. right auricle. No smell. 56. Idem. Sections of liver, no smell, in up-wards of 66 min. No Smell. Cat. One ounce tincture into abdomen. No smell. 25 min. Left pleura, did smell of cam-phor. Blood of the heart smelled less strongly. Young Dog. Two ounces tincture into abdomen. 45 inin. chyle. No. smell. 10 min. left jugular, 20 min. right jugular, 40 min. trans-verse vein of the neck, no smell. Pleura no smell. Brain no smell. Smell of camphor in 10 min. more strongly in 20 min. Of the two last animals, the only cases in which any camphor was observed to traverse the system, one became instantly insensible, and died, on opening the pleura and admitting air. The other was bled to death from the above mentioned veins. The rest of our subjects were killed at ON ABSORPTION. 465 different periods from commencing the experiment. We have placed the examination of serous cavities under the head of the general circulation. From this table it appears, in positive evidence, that camphor may and does pass through the system of blood- vessels ; but it is impossible to found upon observations like these, any inference relative to the mode in which it enters them. In two experiments with assafoetida, this substance per- vaded the whole system in a short time. A third is sup- posed to have resulted differently, from not having re- ceived and retained a suflicient quantity of the drug. We have not, however, investigated its effects far enough to elucidate our questions by it. We remarked that the smell of assafoetida predominated in the mucous surfaces, and that of alcohol in the serous. We shall now give another table of experiments, which we performed with the prussiate or ferrocyanate of potass. Animals. Mode of application. Fluid of duct, thora-cicus. Serum of Blood, i)'c. Urine. Cat. iwmlowtd one j^rain and a ha.f ot ch. sait in two ounc s of water. 64 min. no blue pro-duced in the Svl-UlU. Cat. Ha.f a drachm of the sa t and three ounces of water into abdomen. More than 35 min. intensely deep biue. More than 35 min. deep blue. •Cat. 1 wo and a half ounces solution into abdomen. More than 35 min. intensely deep biue. More than 35 min. deep blue. •Kitten. 1 1-2 ounce of'so.u-lion into abdomen, fand a part into ceilmar t. xture.) Thoracic duet tied. 35 min. milky, (save a strong bue. 35 min. jugular vt in gave a light biue. Cat. ^uaiititv not ascer-tained injected into stomach. 45 min. faintly, but certain.y b ue. No indication. Strong blue. Cat. i wo ounc sinto ab-j dome n, part expel-. d. 1 hen sol. of 35 rain, strong blue. sulphate of iron into juguiarviin. | No indication. Half grown cat. S > a.lowtd anouiicei„„ ,, „ ofso.ution. [20 mm. no blue. 20 min. no b.ue. f i;.r.} d^velop--d b.Ue. * These two experiments were repeated in the presence of Dr. Brown and Dr. Banks, and the particulars were neglected; but the results were similar. 59 ON ABSORPTION. Animals. Mode of Application Huid ofduitus thoiacicus. Scrum of Blood, ire. Urine. Cat. Swallowed near 2 oz. of solution, and all removed from the stomach except about 1 drachm. 35 min. no indica-tion. 35 min. no indica-tion. 35 mill, no indi-cation. Cat. Swal owtil 2 oz. of solution. 45 nun. no indica-tion. 45 min. no indica-tion. 45 min. no indi-cation. Young Cat. 2 1-2 oz. into perito-neum. Not collected. 36 mm. blue 36 min. blue. Cat. Swallowed 2. oz. of solution. 145 mm. faintiy blue. 145 min. not evident. 145 min. blue. Kitten. 2 oz. into abdomen. More than 10 min. slightly, but dis-tinctly More than 10 min. not satisfactorily indicated. More than 10 min. not dis-coverable. Cat. Swallowed 1 oz. 1 ounce into rectum. Not collected. 60 min.heart, not in-dicated, mesenteric vein not indicated. 60 min. not indicated. Cat. 1 ounce secured in rectum. 46 min. distinct greenish blue. 46 miii. carotid and jugular green. 46 min. deep blue. Cat. 1 1-2 oz. into cellu-lar texture of each thigh. 80 min very strong-ly indicated. 80 min. slightly, liquor pericardii visibly. 30 min. very strongly indicated. Kitten. Placed in a bath of the ferrocy-anate. 35 min. no indica-tion. 35 min. no indica-tion. 35 min. no indication. It is impossible to look over the above tables, without being struck with the obvious manner in which they in- dicate the route by which the chemical substance experi- mented on, entered the circulation. In nearly every in- stance in which it was found in the blood, the contents of the thoracic duct, if examined, exhibited it in a much more obvious degree; while the kidneys appear as the faithful guardians of the purity of the vital fluid, ready to remove it on its first appearance, and accumulate it among the urine. At the same time, the singular anomalies in some of the cases, may afford a useful caution in such re- searches ; where we might have been totally deceived, had two or three such been the only trials which we made. The slowness and difficulty with which this salt was ab- sorbed from the stomach, is also remarkable ; and the last fact gives another example of the non-existence of absorp- tion, in the healthy skin of the animal. One trial was made of the absorption of chromate of po- tass, tested with lead, but without discovering it in the system. ON ABSORPTION. 467 Much stress has been laid upon the celebrated experi- ments of Magendie, in which he placed a part of a living body in such a situation, as to be connected with the rest of the animated system only by a column of blood, and de- stroyed life by applying poison to the separated part. Of this very striking operation, we have been compelled to postpone the repetition, from causes assigned above ; but, in the meanwhile, we will venture to state the following difficulties respecting it. Magendie himself states, that he could not produce death in a healthy dog, by directing a column of blood of another dog, supposed to be thus poi- soned, into his veins; an anomaly for which we have heard no explanation. 2. We do not know by what precaution the poison was prevented from entering the veins, direct- ly through the openings made in them by the wounds; a mode in which Fontana supposes the bites of serpents often to prove fatal. 3. Finally, this experiment has been re- peated in this city, by Dr. Somerville, who found, in eve- ry instance, that the blood of the separated portion coa- gulated, and that the circulation wTas at an end, and of course the experiment was so too. In two instances, we placed nux vomica in the intes- tines, after securing the vena portarum by a ligature around the capsule of Glisson. Death took place sooner than in a comparative experiment, where the same vio- lence was committed, and with strongly characterized te- tanus and other symptoms of the poison, which, it is hardly necessary to say, were wanting in the comparative cases. The intestines of a cat were soaked in this poison, but with impunity; notwithstanding the very active absorp- tion which we found to go on in the peritoneal cavity. In another instance, about which, however, there is a shade of doubt, (§. 52,) death appeared to be accelerated by the presence of decoction of nux vomica, in the intestine, while the mesenteric veins were secured. We consider ourselves as having established the fact, 468 ON ABSORPTION. that this article acts upon the nerves of the part, and that absorption, if it really takes place with this substance at all, is not necessary to its full and complete effect. The suddenness with which concentrated hydro-cyanic acid destroys life, renders it sufficiently obvious, that it does not act by means of absorption. Nevertheless, we thought proper to make a comparative trial of it, similar to that with nux vomica, and with the same result. In a late number of the Journal de Physique, there is a paper by Magendie, in which he records experiments, going to prove, the much denied existence of infiltration or percolation in the living body. He teaches that ink, muriatic acid, and some other matters, may be made to transfer their sensible properties through various mem- branes of animals. The large strides which this gentle- man takes in his inquiries, render it impossible to use any other method in many parts of physiology, than to follow his footsteps. We have -tried ink in several ways, de- scribed at length, in the account of our experiments, and with the most careful dissection, but always without find- ing that it had infiltrated. The experiment on muriatic acid, which this author mentions, appeared to us liable to a very serious objection. It is well known to surgeons, that a blood-vessel separated, for some length, from all its attachments, commonly loses its vitality, in some part of its extent. Our experimental- ist placed the jugular vein of an animal exposed in this manner, in a solution of muriatic acid, and informs us, that he detected the acid taste within the vessel. We re- peated this experiment, but taking the precaution to leave one half the circumference of the vein with its natural at- tachments. We retained the sanguineous contents between two ligatures, and then endeavoured to imitate his opera- tions in other particulars. No acid taste was found on the inner side. The vegetable blue was so stained with blood, as not to answer our purpose. ON ABSORPTION. 469 With regard to odoriferous substances, we found that camphor and mint could be smelled through portions of the intestinal tube, in which the vital functions were still proceeding. Neither camphor nor assafoetida, in two experiments made with them, could be smelled through the stomach. We conceive that we have thus established the follow- ing facts, in a manner as positive as this kind of evidence admits. 1. That colouring matters are not absorbed by lacteals in the living body. 2. That camphor is absorbed with much irregularity, and in too small quantity to afford proofs of the route of absorption. 3. That assafoetida is more permeating. 4. That prussiate of potass enters by the lacteals and ductus thoracicus. 5. That nux vomica and prussic acid destroy life by their operation on the nerves, and probably in no other way. 6. That the as- sertion of Magendie, that ink will infiltrate in the living body, is incorrect. 7. That the odours of camphor, as- safoetida and mint, infiltrate through the intestines. 8. That the chemical and odoriferous substances just enume- rated, are transmitted into the system with much more delay and difficulty from the stomach, than from the intes- tinal tube, and with still less from the serous cavity of the abdomen. We mentioned on a former occasion, the reasons why we have not prosecuted some of these inquiries further, and it is not necessary to repeat them. Should circum- stances prove favourable, we intend to do so on some fu- ture occasion. It can hardly be necessary, in the present state of science, to defend inquiries of this kind, with the mass of the profession, from the imputation of cruelty. But there are many, whose feelings induce them to wish that torture should never be inflicted upon animals, without being per- fectly sure, that the inquiries to which they are sacrificed are likely to be productive of utility; and they distrust 470 ON ABSORPTION. these investigations generally, as probably futile, and as wasting toil and suffering upon doctrines already demon- strated. To such we can reply, that it has always been our desire, previously to performing a painful experiment, to decide in our own minds, that the object was worthy of it; and with such a belief, we would not shed puling tears over sufferings that are every day freely produced, for the unnecessary amusements of hunting and fishing. LIST OF EXPERIMENTS. First Course. Upon Absorption simply. A. With Coloured Substances. §> 1. The abdomen of a healthy goat being opened, about five inches of the small intestine was filled with starch, deeply coloured with indigo, finely mixed. The lacteals were colourless, and apparently empty. After near two hours, no change was visible in them. § 2. The lacteals of a full grown cat were found finely distended with a white chyle. An ounce of a strong mix- ture of indigo and water, was thrown into a portion of small intestine, and secured there by ligatures. The lac- teals immediately became colourless, and continued so for an hour and thirty-six minutes. §i 3. About six inches of the small intestine of a large dog were examined, and the lacteals found colourless. It was then injected partly full of a strongly coloured mix- ture of milk and indigo, and secured by tying the gut. This precaution was employed, in all those instances in which the contrary is not specified. In one hour and four- teen minutes, one lacteal continued white, and all the rest were transparent. None of them exhibited any shade of colour. § 4. In the goat mentioned in $ 1, about five inches of ON ABSORPTION. 471 the great, and an equal portion of the small intestine, were filled with milk ; the lacteals being of the same transpa- rency as above described. These vessels continued, for a considerable time, to present the same appearance, after the animal was killed. $ 5. A sheep apparently healthy, was opened, and milk introduced into three different portions of intestine. In the upper parts of these, or those nearer the stomach, lacteal vessels containing chyle were seen, intermixed with others which were transparent. A white fluid was in all instances seen to be contained in a few of the lacteals on the mesentery, and in several of those on the gut, for the space of a few minutes. It generally soon disappeared. §6. In a full grown female cat, a quantity of milk was thrown into a portion of small intestine, of which the lac- teals were colourless. They continued colourless. §> 7. In a large dog, a portion of small intestine, near the stomach, was partly distended with warm milk. The lacteals were white and transparent, mixed. They all soon became clear, and continued so till the termination of the experiment, in fifty-three minutes. §. 8. In a full grown female cat, the lacteals were found filled with white chyle. An ounce of an infusion of pow- dered rhubarb was thrown into a portion of the small in- testine, together with the powder. The lacteals imme- diately became transparent, but colourless, and continued so till the end of the experiment, in one hour and forty- five minutes. §> 9. In a female cat the lacteals were found somewhat distended with white chyle. A quantity of strongly co- loured infusion of rhubarb was thrown into the small intes- tine, and the part tied and returned into the abdomen. In other instances the portions of intestine on which we operated, were sometimes returned into the cavity of the abdomen, sometimes covered with warm cloths, and some- 472 ON ABSORPTION. times not well protected from the cooling effect of the at- mosphere. The experiments were generally tried at a time when the thermometer ranged 70° to 85°, Far. The lacteals, in this case, became colourless and almost perfectly transparent. On puneturing them, they emitted abundance of a fluid resembling chyle and water. $10. In a large dog, the lacteals of a portion of small intestine were found white and colourless, mixed. The animal continuing vigorous, strongly coloured infusion of rhubarb was thrown into the segment of intestine warm. The lacteals continued for some time apparently in the same state, and underwent no change of colour. Some white vessels were visible in fifty-four minutes. In this instance, as in many others, the intestine was not emptied of its contents. This was done whenever the part appeared occupied with more fluid than necessarily ad- heres to it. We believe that there was a sufficient quantity present in this case, to afford some chyle. § 11. In a female cat, the whole of whose lacteals were white and distended, highly-coloured infusion of alkanet and cochineal, to the amount of half an ounce, was thrown into a portion of small intestine. The part was then re- turned into the abdomen. After a considerable interval, (about an hour,) the lacteals were uniformly transparent and colourless, and afforded a clear fluid on puncture. § 12. In a large dog, the same employed in § 3, (and who had become faint and weak by previous experiments,) a quantity of infusion of cochineal, the colour of which had been rendered more intense, and converted to purple, by the admixture of pearl ash, was introduced into the small intestine. The animal made efforts to vomit. The lac- teals, which in this instance were originally transparent, continued so, and did not assume the slightest colour. § 13. In a female cat, whose lacteals were uniformly white, and moderately distended with chyle, strongly- ON ABSORPTION. 473 coloured infusion of madder was thrown into the small in- testine, and the part returned into the abdomen. After a considerable interval, these vessels were found colour- less, and afforded, on puncture, a considerable stream of watery fluid. $ 14. The last experiment was repeated on a large dog, whose lacteals were colourless. They continued so. §> 15. The same experiment was repeated on a ram, near his stomach. The lacteals were originally filled with white chyle. In nineteen minutes they were equally so. In fifty-six minutes some were transparent, others faintly white, but all free from colour. B. With Odoriferous Substances. The remaining experiments were all comparative, be- tween the lacteals and blood-vessels. §> 16. A portion of the small intestines of a ram, whose lacteals were generally filled with white chyle, was secur- ed, and a quantity of alcoholic solution of camphor was thrown in. In five minutes, many more white lacteals be- came visible, and all appeared more distended than in the beginning of the experiment. In nine minutes the intes- tine was much less distended, much fluid having been re- moved. In eleven minutes all the lacteals gradually be- came nearly transparent. In eighteen minutes, lymph, of watery appearance, was obtained from lacteals, and no smell of camphor was afforded, although all the parts smelled strongly of it. Camphor in considerable quantity remained in the intestine. The parts subjected to this experiment assumed and retained a bright red colour, ap- parently from the stimulus employed. In thirty-one mi- nutes from the injection of camphor, blood was obtained from a mesenteric vein, which had no smell of camphor. $17. Tincture of camphor was carefully introduced into the small intestine of a kitten, and secured. # In thirty - 60 474 ON ABSORPTION. two minutes, blood from a large mesenteric vein of the part, had no smell of camphor. In fifty-eight minutes, blood from the jugular vein, and fluid from the thoracic duct had no smell of camphor. $ 18. Tincture of camphor, and mint-water, to the amount of about half an ounce of each, had been thrown into the small intestines of a cat, in two places, and secur- ed by tying the gut; also tincture of camphor into the great intestine of the same animal. In an hour and a quarter after the commencement of the experiment, the blood of a mesenteric vein had no smell of either article. $ 19. In a terrier female, half an ounce of tincture of camphor, with as much water, were injected into the sto- mach. The effects of this article on the nervous system were immediately apparent in a high degree. From two and a half to three minutes, the animal was in violent con- vulsions ; then vomited freely, and in thirteen minutes was pretty well recovered. Half an ounce of tincture of camphor was then injected per anum, mixed with an ounce of water. She soon discharged a considerable portion of the mixture; but in four minutes' time the effects of cam- phor on her nervous system, were very apparent. In twenty-seven and a half minutes she was killed by a blow on the occiput. Tincture of camphor was found in the stomach, on open- ing it, after the conclusion of the experiments. In thirty minutes, blood from the inferior mesenteric vein did not smell of camphor. In forty minutes, lymph and chyle, mixed, from the thoracic duct, did not smell of camphor. Sections of the liver did not smell of camphor, which would have been conveyed there, if absorbed by the veins. $ 20. A cat had escaped, and lived three days in a place without food, owing to our not being able to dis- cover her. Her lacteals were, of course, in a state of great exhaustion. Tincture of camphor, and water, mix- ed, were injected into the stomach, and within twenty- ON ABSORPTION. 475 five minutes two clysters of the same were given. She was much intoxicated ; when in twenty-nine minutes she was killed by a blow on the occiput. In thirty-four mi- nutes, a pellucid fluid, from a lacteal, did not smell of camphor. In thirty-six minutes, lymph, with some chyle, from thoracic duct, did not smell of camphor. In thirty- nine minutes, blood from the vena portarum did not smell of camphor. In forty minutes, sections of the liver did not afford the smell. §> 21. Several pieces of camphor were introduced into the cellular substance of the thigh of a dog. Tincture of camphor, and water, were then injected into the abdomi- nal cavity, into the stomach, and into the rectum, the lat- ter being performed twice. In forty-one minutes the dog was killed by a blow on the occiput. In forty-six minutes, blood from the right auricle of the heart had no smell of camphor. In fifty-six minutes large quantities of blood had no such smell. Lymph from the thoracic duct, and sections of the liver, had no smell of camphor. The smell had nearly disap- peared in the abdominal cavity, where it had been inject- ed. A very singular phenomenon, indeed, as this smell was not to be found in any part of the fluids or tissues of the animal. The tincture was greatly diminished in the rectum, as considerably less was found there than had been retained. The breath was carefully smelled; but no camphorated scent discoverable. In order to ascertain whether our senses were in a pro- per state for this investigation, we mixed a small quantity of tincture of camphor with some blood, separately from the animal, and smelled it—no difficulty was found in dis- tinguishing the usual sensations. § 22. An ounce of tincture of camphor, diluted with water, was introduced into the abdomen of a cat, which became instantly insensible. 476 ON ABSORPTION. In twenty-five minutes the left cavity of the pleura ex- haled a smell of camphor. The blood of the heart smelled of the drug, but less strongly. The fluid of the thoracic duct afforded no camphorated smell. §> 23. In a dog between two and three months old, about two ounces of strong camphorated spirits were injected into the cavity of the abdomen, and the wound sewed. In five minutes the effect of the drug existed in a high degree, and the animal became insensible. In ten minutes the mouth and breath smelled of camphor, and in twenty minutes strongly so. Blood was obtained in ten minutes from the right jugular vein ; in twenty minutes from the left jugular, and in forty minutes from the trans- verse vein of the neck; but in none of these instances was the least camphorated or spirituous smell discoverable. The cavity of the pleura was next opened, and afford- ed no smell of the substances injected. In forty-five minutes, one-fourth of a drachm of chyle was collected, but it afforded no smell. The ventricles of the brain afforded no camphorated, nor spirituous smell. The thoracic duct became strongly distended again, after being evacuated in part, not less than twenty-five minutes after the death of the animal functions. $ 24. An ounce of tincture of assafoetida, with an equal quantity of water, was injected into the abdomen of a cat. The breath smelled very strongly of assafoetida in three mi- nutes. The animal was intoxicated within the same time. In ten minutes blood was obtained by cutting the ani- mal's throat; and slightly, but distinctly emitted a peculiar smell, which we compared to assafoetida, but which was modified. The serous cavities smelled of both assafoetida and spi- rits, but principally of the latter. ON ABSORPTION. 477 The mucus, on the contrary, smelled of both, but prin- cipally of the former. The chyle in the thoracic duct emitted the same pecu- liar smell with the blood. The muscles gave no smell of the drug. The urine a powerful one. $ 25. A small dog was compelled to swallow half an ounce of tincture of assafoetida, diluted with water. The animal soon became evidently affected by the drug. Blood was obtained from a vein of the stomach, in little more than thirty-two minutes, and had no smell of assa- foetida. The cavities of the pleura and pericardium were found devoid of the fetid smell. In fifty-six minutes chyle and lymph from the thoracic duct did not smell of the drug. Blood from the carotid artery did not afford the smell, in fifty minutes. The breath, here, of course, was imbued with the odour in the mouth and oesophagus. It is proper to remark, that this animal vomited at twenty-eight minutes, but that much of the article used was found in his stomach after death. § 26. An ounce of tincture of assafoetida was thrown into the rectum of a large cat, mixed with an ounce of strong solution of prussiate of potass. The rectum was then secured with a ligature. In four minutes the smell of alcohol was perceived in the breath, and in twenty-three minutes a smell of assa- foetida had gradually followed. In thirty-three minutes, blood from the carotid artery and jugular vein, mixed, smelled of assafoetida and alcohol. In forty-four minutes the abdominal cavity smelled dis- tinctly of both these articles. In forty-six minutes the urine did not smell of them. The phenomena afforded by the presence of prussiate of potass fall under another head. 478 ON ABSORPTION, C. With Chemical Substances. §> 27. A cat was compelled to swallow one and a half grains of prussiate or ferrocyanate of potass, dissolved in two ounces of water ; a solution, of which half a drop, mixed with two fresh ounces of water, struck a deep blue, on the addition of sulphate of iron. The animal was killed in twenty-seven minutes, by a blow on the occiput. Blood was obtained from the heart, and tested with sul- phate of iron. No appearance of the prussiate was dis- coverable in sixty-four minutes. An infusion of sections of the kidneys, was tested in the same manner, but without discovering the prussiate. No fluids could, in this instance, be obtained from the thoracic duct, or from the bladder. $ 28. A large, healthy cat was procured, the abdomen opened, and three ounces of solution of prussiate of potass, containing half a drachm of the salt, were injected and secured. In thirty-five minutes it was killed by a blow on the occiput, and blood procured from the jugular vein and heart, as soon as possible after securing the thoracic duct. The ligature included the transverse vein of the neck. The serum of the blood from the heart afforded a light blue, when tested with sulphate of iron and water. That from the jugular vein was tested in the same way, when, if it changed to blue, it was scarcely evident. Half a drachm of the semi-transparent contents of the thoracic duct was mixed wtih a drachm of water; when one drop of a solution of sulphate of iron being added to it, afforded a beautiful blue colour. After an interval, these experiments were repeated without the addition of water, and while the chyle, freshly obtained for the purpose, was still fluid. ON ABSORPTION. 479 The colour obtained both from the contents of the ju- gular vein and heart, was deep, and from the chyle, in- tensely so. $ 29. A large, healthy cat was opened, and two ounces and a half of the solution of prussiate of potass injected into the abdomen. The serum of the blood and the chyle, afforded results exactly similar to those in the last experi- ment. The fluids were arrested in their vessels, for the purpose of being extracted, at thirty-five minutes. $ 30. The same experiment was repeated on a half- grown kitten, after previously tying the ductus thoracicus. An ounce and a half of solution was injected. But here it is proper to state, that a considerable quantity of the solution was effused into the cellular structure of the ab- dominal integuments. The kitten was killed in thirty-five minutes, and blood obtained from the jugular vein. This afforded a light blue, on application of the test. The milky fluid from the thoracic duct afforded a strong blue. The urine afforded a light blue. § 31. In order to satisfy ourselves that these phenomena arose from the presence of the extraneous body in the ves- sels, serum of blood, and lymph and chyle from the tho- racic duct, were produced under similar circumstances from a cat, and tested with the sulphate of iron. No change however was produced; thus evincing that the test was not fallacious. $ 32. An ounce of solution of sulphate of iron was in- jected into the peritoneum of a kitten. No indication of this substance was afforded, in thirty-two minutes, by the test of prussiate of potass, applied to the serum. This was repeated by one of our number, with the ef- fect of producing a greenish tinge approaching to blue, probably resulting from the colour of the sulphate itself; 480 ON ABSORPTION. which, however, soon subsided into a thick, mucous sedi- ment, leaving the supernatant fluid clear. § 33. The experiments described in $ 29 and $ 30, were repeated, with results so precisely similar, that it was not thought necessary to describe them more minutely. § 34. A quantity, not precisely determined, of solution of prussiate of potass, was injected into the stomach of a large cat, by the mouth. In forty-five minutes, the test faintly, but certainly, indicated the presence of the prus- siate, in the chylous fluid of the ductus thoracicus. The urine indicated it strongly, but the clear serum of the blood gave no appearance of it at all. It is right to men- tion, that in this instance, the oesophagus being cut, it is within the bounds of possibility that a small particle of dissolved prussiate may have thus found its way into the vessel that collected the chyle, although we believe it was not so. The stomach was found perfectly empty. $35. Two ounces of solution of prussiate of potass were injected into the abdomen of a cat; and in about twenty- five minutes afterwards about one drachm of the solution of sulphate of iron was thrown into the right jugular vein. In two or three minutes the animal was convulsed violent- ly, and part of the solution expelled from the abdomen. In thirty-five minutes from the first injection the ferro- cyanate was detected in the contents of the thoracic duct. The serum of the blood was transparent, and did not indicate the ferrocyanate. $ 36. A half-grown cat was made to swallow an ounce of the solution of Prussian alkali. In twenty minutes she was bled to death, and the prus- siate clearly indicated in the urine, but not in the least visible degree in either the chyle or the serum of the blood. $ 37. A large male cat was forced to swallow near two ounces of solution of prussiate of potass. ON ABSORPTION. 481 In thirty-five minutes, urine, serum of blood, and fluid from the thoracic duct, were collected ; neither of which indicated the presence of the salt in question, in the slightest degree. Notwithstanding this, a great portion of the solution had been removed from the stomach, by animal processes, as not more than a drachm remained in that viscus after death. $ 38. Another large cat was made to swallow two ounces of the prussic solution, and in forty-five minutes, the fluids were tested in the usual manner, but without discovering any absorption of this chemical agent. $ 39. Two ounces and a half of the solution were in- jected into the peritoneal cavity of a young cat. In thirty- six minutes it was detected in the urine, and in the serum of the blood. No chyle was collected. $ 40. A middle sized cat was forced to swallow about two ounces of prussiate of potass. She first became very sick, then recovered, after having a fluid stool, and after- wards slept, but still was unable to walk steadily. In two hours twenty-five minutes she was killed. The urine indicated the salt. The chyle did so, but faintly. It was not evident, to satisfaction, in the serum of the blood. § 41. Two ounces of the prussiate solution were inject- ed into the abdomen of a kitten, which was killed in ten minutes, and the fluids collected as soon as possible. On applying the test, the urine did not contain a discoverable quantity of the prussian alkali, and the serum of the blood, not so as to be evident in a satisfactory manner, while the fluid of the thoracic duct exhibited it slightly, but dis- tinctly. $ 42. A small cat was made to swallow an ounce of the solution, and ten minutes after, another ounce was thrown into the rectum. In an hour, the cat was killed. No sign of the prussiate was found in the serum of blood, from 61 482 ON ABSORPTION. either the heart, or the mesenteric vein, or in the urine. The chyle was lost. $ 43. A large cat, mentioned in 26th section, was com- pelled to retain an ounce of the prussiate solution, mixed with an ounce of the tincture of assafoetida, by means of a ligature on the anus. In thirty-three minutes, the animal was killed, and the fluids prepared for examination within thirteen minutes after. Prussiated potass was found in the urine, forming deep blue, with sulphate of iron, acidulated with nitric and mu- riatic acids. Chylous fluid from the thoracic duct, afforded a distinct greenish blue, with sulphate of iron and nitric acid. Serum of blood, both arterial and venous, from the neck, separately, afforded a green, with sulphate of iron and nitric acid. To discover how much of the colour in the serum was owing to iron, which the muriatic acid contained, this fluid was tried, first with nitric acid, which gave a white albuminous precipitate; secondly, with muriatic acid in addition, which gave a slight green ; when, thirdly, sul- phate of iron was added, which gave a more intense green, tending to blue. $ 44. An ounce and one-half of solution of the prussiate was injected, with much pains, into each thigh of a large cat, and the wound stitched. At one hour and twenty minutes afterwards he was killed. The urine and chyle very strongly indicated the pre- sence of the salt. The serum of the blood exhibited it slightly. It was discovered in the liquor pericardii. $ 45. A small kitten was placed in a bath composed of the prussian solution above mentioned, and after thirty-five minutes, it was removed and killed. No indication of ON ABSORPTION. 483 the salt could be obtained, though examined in the usual manner. $ 46. Two ounces of a solution of chromate of potass were injected into the peritoneal cavity of a large cat. In thirty-five minutes she was killed, and the fluids tested as soon as compatible with accuracy, by means of the subacetate of lead. In neither urine, fluid of the thoracic duct, nor serum of the blood, was the chromate detected. D. With Poisonous Substances. % 47. In a kitten two months old, the capsule of Glisson was included within a tight ligature, so as to put an end to all circulation in the blood-vessels which traversed it. Two-thirds of an ounce of nux vomica had been infused in eight ounces of boiling water, and with this several inches of small intestine were distended. The animal soon began quick respirations, with protru- sions of the tongue, which continued nearly till her death. In fourteen minutes violent spasms took place. In seventeen more, violent spasms, distinctly tetanic, with opisthotonos. In twenty-three minutes the animal expired, after re- peated tetanic spasms. $ 50. A kitten about one month old, was opened, and the capsule of Glisson tied in the same manner as in the last experiment, in order to ascertain how far this violence affected the results above described. More frequent breathing took place, together with pro- trusion of the tongue. In seventeen minutes appeared to breathe tolerably. In twenty-two minutes—has been for some time dying, with slow respiration, progressively de- clining. In thirty minutes ceased to struggle. No tetanic symptoms, and no spasms whatever, were ob- served in this animal. The heart, which was first examin- 484 ON ABSORPTION. ed in this case, continued to palpitate for nearly an hour after death, and was easily excited again to action after it had ceased, by puncturing it with a needle. $ 51. A full grown terrier female, that had had young, and appeared to be in good health, was procured. The lacteals were distended with chyle. The capsule of Glisson was tied, with all its contents, and an ounce of the above mentioned infusion of nux vo- mica injected into the small intestine and secured. The animal died in twenty-eight minutes, with the pu- pils of the eyes dilated, the cornea glassy, and with well characterized tetanus. $ 52. As a few drops of the decoction were spilled, in both instances, and came in contact with the peritoneum ; we made the following trial of the effect of this substance on that membrane. The intestines of a cat, weakened by several preceding experiments, were wet, on their peri- toneal coat, with the infusion abovementioned. No effect wras produced in seventeen minutes. The animal lived a longer time than could have been expected from the vio- lence done her, and died without tetanus or other symp- toms of the poison. $ 53. A cat on which several of the abovementioned experiments with coloured substances had been tried, still retained considerable vigour; when the mesenteric veins of a portion of intestine, four or five inches long, were secured, and the gut distended with the decoction of nux vomica. Death ensued in eleven minutes, although the animal had borne other experiments for an hour and twelve minutes. We are, however, not prepared to say, that this experiment was entirely satisfactory, as its re- sults depended on circumstances which could only be esti- mated by our judgment, and could not be brought under the test of precise mensuration. $ 54. A portion of small intestine, about two inches in length, in a kitten, was separated from the remainder, by ON ABSORPTION. 485 cutting it off; the arteries and veins which were visible, were then secured, including a small vessel which ap- peared in about two minutes after the commeneement of the experiment. Half an ounce of tincture of nux vomica was then injected. In seventeen minutes no-effect was produced. This experiment, although mentioned here for the sake of candour, was far from being circumstanced so as to pro- duce reliance upon deductions drawn from it, as several lacteals, and most, if not all of the nerves, were evidently included within our ligatures, and the part was, very pro- bably, early deprived of vitality. Not having it in our power to obtain either of the species of upas, we thought it proper to make some trials with prussic acid, although we acknowledge that, to our minds, the supposition appears absurd, that an agent whose effect is sometimes so instantaneous, could require for its operation the circuitous route of absorption. The prussic acid which we employed, was the alcoholic solution recommended by Dr. Thomas Cooper, much weak- ened, and was tried in the following manner. One drop was placed first on the eye, and then on the tongue of a young kitten, with impunity. Half a tea-spoonful was then injected into the stomach, and death, with the usual symptoms, followed in one minute. As the acid had been kept for some time previously to this trial, and was care- fully put away, and used within three days, it is presumed no very great alteration in its strength took place. $ 55. The thoracic duct and vena portarum of a kitten, two months old, were tied. The lacteals were white, and very conspicuous. About one fourth of a drachm of the prussic solution was introduced into the small intestine, and the orifice tied. The kitten died in seven minutes, with screaming and struggles, but with no tetanic symp- toms. In twenty-four minutes the heart was examined, and found perfectly motionless, and not susceptible of ex- 486 ON ABSORPTION. citement by puncturing. On opening the intestine operated on, the mucus which had come in contact with the poi- son, was stained reddish brown. The first inch of the bowel was opake and deprived of its peristaltic motion, although the rest manifested it in a high degree. $ 56. The vena portarum of a half grown kitten was tied, and nearly a drachm of alcoholic solution of prussic acid was injected into the small intestine and secured by a ligature above and below. This experiment is inserted for the sake of candour, although we consider the prussic acid much weakened. The lacteals, which were com- pletely distended with chyle, became empty as if para- lyzed. In fourteen minutes a rigid spasm was observed. In fifteen and a quarter minutes the animal, which had been lying quiet, with the last mentioned exception, and appa- rently gradually losing strength, expired. SECOND COURSE OF EXPERIMENTS. On the question, whether infiltration can take place through living tissues, in direction transverse to their tex- ture. A. With Coloured and Chemical Substances. $ 57. Ink was confined upon two parts of the mesen- tery of a living cat. After a considerable interval, the opposite side of this membrane was examined with care, and no mark of infiltration was found. $ 58. More than a drachm of ink was poured into the right pleura of a living female cat, and suffered to remain there nine minutes including seven of apparent death, but during which, the organic life must have continued in the part. The membrane was then carefully dissected from con- ON ABSORPTION. 487 siderable surfaces, both of the lungs and the thoracic pa- rietes ; but no coloured infiltration was discovered. $ 59. Two ounces of ink were injected into the perito- neum of a cat. In thirty-five minutes the animal was dis- covered to be dead. After previously examining another part, the urine was obtained and the bladder examined. The bladder, whose outer surface was entirely black, from having had nearly the whole of the ink in contact with it, owing to the position of the animal, did not show the least mark of infiltration on its inner surface ; nor did the urine either evince its admixture, or the presence of iron alone, as exhibited by the addition of ferrocyanate of potass. No other part was in this instance examined for infiltration. $ 60. An inch and a half of the right internal jugular vein of a ram, were uncovered on the side which lay up- permost, and for one half of its circumference; leaving, however, the natural attachments of the remaining half of the vein, in order to avoid risking the destruction of the vitality of the part. Muriatic acid, mixed with water in the proportion of two drachms to eight ounces, was kept constantly applied to the part. In a few minutes the part exposed became quite black, and in ten minutes the whole section of vein, included, as it had been, from the begin- ning of the experiment, between two ligatures, wTas re- moved and washed. The cavity was then exposed, and the blood and inner surface of the vein applied to our tongues, without the perception of any acid taste. B. With Odoriferous Substances. $ 61. A ligature was made round the small intestine of a kitten, near the stomach, and tincture of camphor intro- duced. The orifice was then tied, and all the parts which had been in contact with the injecting instrument careful- ly cut off, so that not the least smell of the drug was any 488 ON ABSORPTION. longer perceived. In one minute a smell was perceived, but we could not distinctly characterize it as that of cam- phor. In fourteen minutes, camphor was distinctly smelled from the outside of the intestine. In fifty-eight minutes this smell was stronger. The circulation had gone on for all this time, and clear lymph had continued to traverse the lacteals. $ 62. A small vial of tincture of camphor, corked, and externally totally devoid of smell, was introduced into the large intestine of a cat. The gut was then carefully tied, and the cork pressed out of the neck of the vial, without disturbing the ligature. • In fifteen minutes no smell was perceived, but after some time, that of camphor was very obvious. $ 63. Tincture of camphor was then introduced into the small intestine of the same cat, and secured between two ligatures; no vial being obtained sufficiently small to enter this part. The intestine had at first a faint smell of camphor, which disappeared in three minutes. In three quarters of an hour, a slight smell of this drug was discovered, and in one hour and twenty minutes, it became quite distinct and evident; the part during all this time retaining its life and vital actions. $ 64. A terrier female had half an ounce of tincture of camphor, mixed with as much water, injected into the stomach. In twenty-seven and a half minutes she was killed, and other observations having been made on her, which occu- pied the time as far as forty-two minutes, the stomach was examined. It did not smell of camphor, although this substance was immediarely afterwards found in the cavity. $ 65. Mint water was thrown into the small intestine of the cat employed in the last mentioned experiment but one, and secured so that no smell was perceptible. ON ABSORPTION. 489 In about fifteen minutes the smell of mint was perceived, and in forty-four minutes it was very apparent, although the actions of the part continued during the interval. $ 66. A small dog was compelled to swallow half an ounce of tincture of assafoetida. In twenty-eight minutes the animal vomited, being at the same time much under the influence of the drug. No smell could be perceived on the outside of the stomach. In fifty minutes, the carotid artery was divided. In seventy-seven minutes the smell could not be per- ceived on the outer surface of the stomach. In four hours, twenty minutes, it was very indistinct, although the stomach was separated from the body, and partially dried. On opening this viscus, however, the smell was very strong. The above is a correct account of the experiments, carefully compared with the journal of the Committee, from which it was compiled.* RICHARD HARLAN, J. B. LAWRENCE, B. H. COATES. * The Academy of Medicine of Philadelphia, having resolved to investigate the function of Absorption, appointed, in the year 1821, Dr. Harlan chairman of a com- mittee, with authority to name two assistants, for the purpose of instituting a series of experiments on living animals. 62 490 EXPERIMENTS MADE WITH THE Experiments with the Poison of the Rattle Snake; in which the powers of the Hieraceum Venosum, as a Specific, were tested; together with some Anatomical Observations on this Animal. Communicated to the American Philosophical Society, March 1th, 1828. In offering the following observations, it is not my in- tention or desire to add another specific to the numerous antidotes to the poison of the rattlesnake, already before the public. Most of these remedies have proved, on trial, to be either destitute of active properties, or altogether unworthy of serious consideration. I shall therefore briefly notice a few of the most celebrated. The most ancient, at least, if not the most renowned, is the volatile alkali, a remedy prescribed by European prac- titioners more than a century ago, not only as an antidote for the poison of the viper, but against the effects of the bite of venomous animals in general.* The Abbe Fon- tana, about the middle of last century, published a work on the poison of the viper, to which we may refer for many curious experiments on the nature of this poison.\ There are few authorities of the present day inclined to place much faith in the volatile alkali as an antidote for the specific effects of the bite of the viper; but as the constitutional symptoms, produced by the bite of venom- * Vide Diet, des Sciences Medicales, Vol. XXXIV. p. 309; article Morsure. t The following, among other conclusions, are offered by Fontana; the viper al- luded to is the "Coluber berus," of Linn. " 1. The bite of the viper is not poison- ous to its own body, or to that of its own species. 2. The venom is not equally destructive to all animals. 3. The poison is neither acid, alkaline, nor saltish. 4. It has no positive taste, and taken into the mouth does not cause the tongue to swell. 5. It is not inflammable. 6. Mixed with water it sinks to the bottom ; when shaken it renders the water turbid and whitish." Vide Fontana, " Ricerche fisi- ch* sopra il veleno della vipera." POISON OF THE RATTLESNAKE. 491 ous reptiles, are generally adynamic in their nature, this remedy, together with other diffusible stimulants, is cal- culated to counteract this state of the system, and may prove very serviceable in supporting the vital powers, and thus suspend the fatal operation of the poison. To this conclusion I have been led by experiment. The next remedy for accidents of this nature worthy of notice, is the " Prenanthis serpentaria," of Pursh. This plant is held in high esteem by the inhabitants of Virginia, as a remedy for the bite of the rattlesnake, and is known to them by the familiar name of " Lionsfoot." Pursh states that he had an opportunity of being a witness to the efficacy of this plant. A man living in Cove moun- tains, near the Sweet-springs, was bit in the foot by a mockeson, [Cenchris mockeson? Daudin.] a species of snake considered the most dangerous. An inflammation and swelling of the whole leg took place immediately; but by taking the milky juice of this plant, boiled in milk, inwardly, and applying to the wound the steeped leaves, which were frequently changed, he was cured in a few days. The plant is frequently confounded with another species of the same genus, from which it is important to distinguish it; this last the inhabitants name "false Lions- foot." Gronovius, in his Flora, page 113, mentions Dr. Witt's snake-root, under P. autumnalis, or Wildenow's "rubicunda," as a remedy for the bite of the rattlesnake, which shows that he had information of the use made of this plant, though he did not know the genuine species.— Vide Pursh's " Flora Americae Septentrionalis," p. 499. The remedy which next claims our attention, has been considered as of sufficient importance to demand legislative enactment. It appears, that some years ago, the State Assembly of South Carolina purchased from a negro, for an annuity of one hundred pounds for life and his freedom, the secret of his cure for the bite of the rattlesnake. This proved to be the " Alisma plantago," or water-plantain. 492 EXPERIMENTS MADE WITH THE Many of the members are said to have witnessed the effi- cacy of the remedy in the person of the negro, who strip- ped himself naked and jumped into a tub, containing many of these venomous snakes, and received numerous wounds. He cured himself by swallowing one tablespoonful of the expressed juice of the Alisma plantago, and repeated the dose at intervals, until the effects of the poison were coun- teracted. An essay was published on this subject in the sixth volume of the Technical Repository, of 1824, by C. Whitlaw, Esq.,* who states that the common plantain has been used by mistake, to which error he attributes all the reputed failures. My friend Major N. A. Ware informs me, that in Flo- rida and Alabama, a species of Pedicularia, or " Louse- plant," is of considerable repute as an antidote to poisons of this nature. Sweet oil has also been famous as a spe- cific in similar cases. A number of experiments were performed by a viper catcher before the Royal Society of London, in order to prove its efficacy: some account of which was published in the early numbers of the New York Medical Repository.f But passing over this remedy and many others of a similar nature, we come to the consideration of the plant which was the immediate object of my own experiments. • The following extract from Mr. Whitlaw's Essay, is probably sufficient to de- stroy his authority altogether among medical men,—though Uie above statement concerning the experiments I believe to be historical fact. "The specific action of the poison appears to be chiefly confined to the muscles: after the infliction of the bite, powerful muscular contractions take place over the whole body, the muscles are highly inflamed, a coldness and corrugation of the skin surround the part which was bitten, and violent spasms resembling tetanus supervene, followed by mortification. A friend of mine at Savannah, died in con- sequence of being bitten by a snake in the hand: when they took hold of his arm to place him in the coffin, the arm came off at the shoulder joint."—Vide Technical Repos. Vol. IV. p. 258. t In Dr. Duncan's observations on the cure of the bites of venomous serpents, he recommends, as an antidote, the Nux vomica; and as used by the East Indian " Bite-curers," the leaves of the Ophioxylon serpentinum, to which, Dr. D. re- marks, he witnessed the Ichneumon resort, when bitten in a conflict with a cobra de capello. Vide Lond. Lancet, Vol. I. p. 707. POISON OP THE RATTLESNAKE. 493 It must be here repeated, that the Hieraceum venosum is not offered as a specific cure for the bite of the rattle- snake: much further observation is requisite to establish its claims to such high virtues. It is proposed to continue the experiments on the commencement of the approach- ing season, but in the mean while it was thought advisable to publish the present account as the first of a series, in- asmuch as several facts have been elicited, which are considered very important by those who witnessed the experiments. November 2d, 1827.—In company with a number of professional gentlemen, I visited the collection of living rattlesnakes* exhibiting by Messrs. Elnsworthand Murray. The reptiles, to the number of one hundred and fifty, were all taken by the proprietors in their native county of Susquehanna, Pennsylvania, during the current months of August and September. The proprietors profess to be in possession of an infallible remedy for the cure of the symptoms resulting from the bite of the rattlesnake ; they display the utmost confidence, and are on terms of inti- mate familiarity with every individual of the collection ; they take them in their hands and fold them around their necks,—open the mouth of the snake, and expose his fangs to the view of the visiters, &c. In order to satisfy ourselves that there existed no trick or deception in the case, and to prove that the bite of these animals, in their present state of subjection, is really mortal, two living animals were exposed to be bitten, both of whom died within the space of eight minutes. The first received a severe wound on the breast, the snake fastening his fangs in the flesh ; immediately the eyes of the animal (a young cat) were observed to change their expression, lacking lustre, and appearing like the eyes of an intoxicated per- son. In three minutes after the infliction of the wound, * Crotalus durissus, Linn. 494 EXPERIMENTS MADE WITH THE involuntary discharges per anum occurred ; in six minutes urine was also discharged. The pupils of the eyes were dilated, and in eight minutes convulsions and death super- vened. A narcotic or sedative effect of the poison was an early symptom, and this soon degenerated into insensibility. In the second experiment, the kitten was introduced into the box among the snakes, and received wounds from several; one of the proprietors, Mr. Elnsworth, having introduced his hand into the box among the reptiles, with a view of irritating them, received two distinct wounds on the back of the hand, and which were observed to be inflicted by different individual snakes ; the wounds bled slightly. Mr. E. displayed no uneasiness, but loitered about the room and continued the exhibition for some time, and then took an opportunity to retire for a few minutes, and returned entirely out of danger ; two small punctured wounds alone remained visible ; the bleeding had ceased, and the slight tumefaction which had commenced around the wound had entirely disappeared. No marks of suction were discovered, nor were any precautions taken, in pre- sence of the visiters, after the infliction of the wound, with the exception of the application of a ligature around the wrist. In fine, that the proprietors are actually convinced that they possess some means to render the poison of the rattle- snake innocuous, would seem to be proved by the expe- riments above stated, as well as by the perfect composure and unlimited confidence of the man, when fairly wounded by the poisonous animals, which at the same time were in- flicting mortal wounds on the subjects of the experiments. They stated to the company that the specific was of Indian renown, that a decoction of the plant was adminis- tered internally, and that, for a moderate compensation, the secret would be disclosed. Accordingly, on the 15th of December, 1827, a num- POISON OF THE RATTLESNAKE. 495 ber of gentlemen,* including several eminent individuals of the medical profession, convened at my office for the purpose of witnessing experiments made with the poison of the rattlesnake, [Crotalus durissus, Linn.) Some days previous, a number of the most lively and vicious among them were separated, and permitted to drink ; abstinence both from food and water having been strictly enjoined previously, during the period of their confinement, from an idea of the proprietors, that abstinence, particularly as respects water, is calculated to render the poison less destructive. Experiment 1. It was decided that Mr. Elnsworth, who had offered himself as the subject of the experiment, should be first bitten, and afterwards that the same snake should be made to demonstrate its poisonous powers upon a puppy. A large active female snake was taken from the box and placed upon a table in a warm room. At 11 h. 20 m. A. M. the man received a bite from the irritated snake on the index finger of the left hand, about half an inch from the metacarpal bone; the wound resembled a minute incision, or briar scratch about one-fifth of an inch in length ; one fang only appears to have been projected, the animal strik- ing with one or both fangs at pleasure; a little blood exuded. Pulse, just before the bite was received, 104 per minute; but it was observed to vary during the experi- ments to such a degree as to prevent any correct infer- ence to be expected from that source. * The following is a list of the names of those gentlemen who liberally contri- buted towards paying the amount demanded by the proprietors for the disclosure of their " Secret," most of whom, with several others, were present at the experi- ments :— Drs. Chapman, Harris, Meigs, Emerson, Mitchell, Wetheiill, J. R. Barton, Pen- nock, Mease, Captain Basil Hall, R. N., Messrs. S. Wetherill, J. P. Wetherill, and W. Hembel. Notes were taken by several of the gentlemen, and the present state- ments result from a comparison of them all. 496 EXPERIMENTS MADE WITH THE 11 h. 40 m. He says the wound smarts a little, but no signs of a poisonous wound are as yet exhibited. After the lapse of nearly an hour from the commence- ment of the experiment, no symptom denoting the action of the poison occurring, Elnsworth exposed the same hand to a large active male snake. As in the first instance, considerable irritation of the animal was requisite to force him to strike, and at 12 h. 15 m. He received a second wound from a single fang on the back of his hand, directly over a prominent venous branch. A large drop of transparent, yellowish, and glairy fluid was spread over and around the wound, which was doubtless ejected from the poison sack. A little very dark blood slowly exuded from the wound. 12 h. 31 m. Slight swelling is observable immediately around the second bite. 12 h. 48 m. Elnsworth again exposed his hand to the female snake, and received two additional punctures simul- taneously, one from each fang, on the lower extremity of the metacarpal bone of the ring-finger. As in the first instance, neither of these wounds displayed symptoms of the specific effects of the poison; the second bite there- fore, or that received from the male snake, will alone be the subject of further observations in this experiment. 1 o'clock, P. M. The swelling around the second bite has increased considerably, the tumefaction extending up and down along the course of the vein, about an inch and a half in length, and half that size in breadth, the greatest length of the tumefaction being below the wound. The man now complained of pain and numbness along the course of the lymphatic vessels on the inner part of the fore-arm. 1 h. 25 m. Pulse natural, symptoms last described some- what increased; swelling unattended with symptoms of inflammation. 1 h. 30 m. Although the man is perfectly willing to POISON OP THE RATTLESNAKE. 497 permit the symptoms to proceed further, several of the witnesses expressed their unwillingness to bear the respon- sibility of the consequences; he was therefore permitted to have recourse to his remedy, and he immediately swal- lowed a few ounces of the decoction of the root, and ap- peared indifferent about the external application of the same to the wound. He stated that the original stock of the vegetable being exhausted, and the season too far ad- vanced to enable him to obtain more at present, he would be under the necessity of applying portions of the flesh of one of the reptiles (just decapitated for the purpose of an- other experiment) to the wound. 2 h. 30 m. He has held the bloody portion of the snake to his wound incessantly, from which all the swelling has subsided, together with all uneasy sensations, from his hand and arm. 4 o'clock, P. M. The man Elnsworth has remained con- stantly in the room under my inspection. His dinner was offered to him, but he had little disposition for food ; says his stomach is a little sick, probably the effects of the me- dicine. No tumefaction or other symptoms remain ; the wounds resemble slight scratches, without any appearance of inflammation. The vein in which the bite took effect presents a peculiar appearance, being for the distance of an inch between the valves above and below the wound quite empty. Directly above the valve the vein is un- usually prominent, and the pressure, from the application of the flesh, has been removed for more than an hour. It is scarcely necessary to remark, that the application of portions of the snake to the wound, which the man ap- peared to think very important, could exert no other in- fluence than might have been obtained from the applica- tion of the recent flesh of any other animal. The root and leaf of the " specific" were produced and exposed to the inspection of an able botanist, Dr. Charles Pickering, who identified it with the Hieraceum venosum, 63 498 EXPERIMENTS MADE WITH THE or Hawk-weed, AdderVtongue, Poor Robin's plantain, Rattlesnake weed, &c, a common weed in the dry open woodlands.* The same plant is noticed by Schoepf as a remedy for the bite of the rattlesnake. Experiment 2. 11 h. 31 m. A pup, about three or four weeks old, was bitten by the same female snake which had previously bit- ten Elnsworth in the first experiment: both fangs took effect, and the two wounds were about an inch and a quar- ter apart. 11 h. 34 m. Pup urinates, 11 h. 36 m. Cries and staggers. 11 h. 37 m. Belly tense in the vicinity of the wound, and apparently painful; the wound presents an ecchy- mosis, being tumid and of a dark colour. 11 h. 39 m. Pup lies on his side, and continues his plain- tive cries, also emits some froth from the mouth. The ecchymosis increases rapidly, and a pale bloody humour exudes from the wounds. 11 h. 51 m. The animal is quiet and fainting. 12 o'clock, merid. Appears vertiginous, turning round and resting on his extended fore feet; staggering and rest- ing on his side, and turning upon his back. These symp- toms continued with little alteration until 4 o'clock, When the animal died, having previously exhibited some stertorous breathing, but without the oc- currence of convulsions. Dissection. I examined the body fifteen minutes after death in pre- sence of Drs. Morton, Meigs, Emerson, &c. On raising the skin of the abdomen we observed an extensive extra- * Vide Florida Cestrica, by W. Darlington, M. D., p. 84. POISON OF THE RATTLESNAKE. 499 vasation of blood, not coagulated, in the cellular tissue over the whole front of the belly. The colour of the parts ex- posed to the specific action of the poison was a dark red, and the whole appearance in the vicinity of the wound might be aptly compared to that occasioned by an exten- sive and violent contusion. The abdomen being laid open, displayed the abdominal reflections of the peritoneum nearly in the same condition, being very red, and appearing as if soaked in blood. A similar appearance, to a considerable extent, prevailed in the peritoneal coat of the stomach and intestines, the veins of which were congested. The internal coats of the stomach and intestines were natural in appearance. Uri- nary bladder was empty. No coagulated blood was ob- served in any of the vessels throughout the system. Tho- rax presented/no remarkable deviation from a natural state. Cranium.—On raising the skull and dura mater, an extensive dark patch, formed apparently by extravasation or congestion, was observed under the arachnoid mem- brane lying over the cerebral lobes, and extending down in a slight degree between the convolutions. The sub- stance of the brain and spinal marrow appeared natural. The muscular system was rather pale. It will probably be remarked, that the specific action of the poison appears to have expended its deleterious in- fluence on the cellular tissue in this animal: the usual phenomena which characterize death from poisons, such as non-coagulation of the blood, extravasations, &c, were remarkably well developed. Experiment 3. A full-grown cock, having the feathers removed from V over the pectoral muscles, was exposed to be bitten by a rattlesnake, and at 500 EXPERIMENTS MADE WITH THE 12 o'clock, merid. Received two slight wounds from both fangs at the same time; each wound was covered with drops of a transparent fluid ejected from the poison bag. 12 h. 3 m. The bitten part assumed the appearance of a dark purple ecchymosis, and the skin in the immediate vicinity of the punctures was puckered or corrugated. 12 h. 45 m. The parts over the wounds are slightly tumid, and present a black or gangrenous appearance, and are moistened by a yellowish ichor which exudes from the wounds. The animal finally recovered, without having experi- enced any constitutional affection. It should be here re- marked, however, that the punctures did not appear to have penetrated the skin thoroughly. Experiment 4. A black puppy, a few weeks old, received three bites between 12 h. 18 m. and 12 h. 23 m. The last and most severe bite was over the left eye. 12 h. 27 m. Apparently drowsy. 12 h. 40 m. Symptoms progressing slowly. At 4 o'clock, P. M. the swelling over the eye, vertigo, and" general uneasiness, appear to have attained their height. On the day following the animal had recovered without the interference of art. Experiment 5. 4 o'clock, P. M. A stout pup was inoculated with the poison, expressed from the poison bag of a living snake, on the left side of the abdomen. 4 h. 15 m. Local symptoms are evident, and constitu- tional effects are beginning to be manifested. 5 o'clock, P.M. Symptoms much increased: the ani- mal cries with pain and uneasiness; changes its posture POISON OF THE RATTLESNAKE. 501 frequently; moves with a tottering and irregular gait, sometimes lying on its breast with the fore feet extended: these symptoms were occasionally interrupted with drow- siness, and finally the animal went into a deep sleep. 9 o'clock, P. M. The pup commenced licking his wound, the swelling of which, from the ecchymosis, had so increased as to hang down like a large hernia. The succeeding day this animal also recovered, no symp- tom remaining except a slight tenderness in the part where the inoculation had been performed. Had the " specific" been administered in this case, the cure would doubtless have been attributed to its operation. Experiment 6. Poison was squeezed out of the sack of a living snake, and being placed on a piece of meat, was given to a pup to eat: it produced no effect, local or constitutional, upon the animal. Anatomical Observations, $*c. In all venomous snakes there is an opening of considera- ble size situate between the eye and nostril, which pene- trates in the direction of the poison apparatus, at the base of the fang; the use of this opening in the economy of the animal, as far as I can learn, has never been discover- ed ; it has no direct communication with the cavity con- taining the poison, but is connected with the lachrymal passages, so successfully investigated by Jules Cloquet.* On a careful examination of this portion of the anatomy of the Crotalus, I have invariably found at the bottom of this cavity an exceedingly delicate transparent membrane, ex- tending over the osseous cavity in the bone at the base of * Vide Memoire sur l'Existence et la Disposition des Voies Lachrymales dans les Serpens. 502 EXPERIMENTS MADE WITH THE the fang. This membrane, whilst it intercepts any direct communication between the sack and external canal, might at the same time permit the action of the atmosphere on the fluid contained in the sack, to take place through it, and thus to change its chemical properties. This sack communicates with the oculo-palpebral cavity, formed between the eyelid and conjunctiva. The poison of the living Crotalus, tested in numerous instances with litmus paper, &c, invariably displayed acid properties.* General Remarks. In conclusion it appears, that of the number of reptiles exhibited, some possessed the venomous faculty to a con- siderable degree, in others the poison was less active, and in some it had entirely disappeared, and in the latter, the poison sack was found, on dissection, entirely empty. These circumstances are readily explained when we are aware that the reptiles have remained in captivity with- out food for more than three months, during a cold season of the year, and, until within a few days of the experi- ments, deprived of water. It is more than probable that very little poison would be secreted during a state of per- fect abstinence, and that of less activity than when pro- duced under ordinary circumstances. Hence, the same reptiles whose bite occasioned the death of an animal in eight minutes, when the experiments were performed in September, required five hours in order to produce fatal results at the present period. The operation of the poison * Similar observations relative to the acidity of this poison were long ago made by Dr. Brickell, of Savannah, who, speaking of the external application of the so- lution of caustic ley to the bite of the rattlesnake, states, " I was led to this by a chemical examination of the poison of the Crotalus horridus, which showed an acid to be one of its constituents."—Vide New York Medical Repository, Vol. VIII. p. 441. POISON OF THE RATTLESNAKE. 503 on the animal system also varied. In September, when the animals died early after the infliction of the wound, death was preceded by convulsions, which was not the case in the present instance ; but the animal appeared to suffer more pain, and finally fell into a state of stupidity, which continued for several hours, when death was pro- duced by the slow operation of the poison on the system. On dissection, the usual appearances produced by such poisons on the organic structure, were manifest; conges- tions, exudation of blood throughout the system, together with the non-coagulation of this fluid, were among the more obvious results. The cavities of the heart were empty, and fluid blood was observed in the large veins. Two of the Rattlesnakes were decapitated, and the heads being placed with the jaws expanded against the abdomen of a living rabbit, they were observed to bite re- peatedly with the desperation of expiring nature, forcing their fangs into the flesh their whole length ; but in these the poison bag appeared to have been emptied previously, by repeated efforts of the animal to bite, and on dissection were found nearly void. After decapitation it was curious to observe the motions of the body, which were continued from association ; the cut extremity of the trunk, when an injury was inflicted near the tail, was thrown towards the offending body, as if with the intention of inflicting a wound; this experiment was repeated frequently. The heart torn from the body continued its contractions for ten or twelve hours. Of all the animals bitten in these experiments, one only died, though all were more or less affected by the poison. Although the wound which was inflicted on Mr. Elns- worth was attended with the usual local effects, there is no proof that the poison would have proved mortal with- out the use of the remedy, inasmuch as obvious local ef- fects were observed in some of the animals that finally re- covered without the interference of art. Though at the 504 EXPERIMENTS MADE WITH THE same time it will be remembered that the first animal ex- perimented on died from the poison of the same snake which had previously inflicted a wound on the man. As regards any moral influence being exerted over these animals by the proprietors, which enables them to handle the snakes without the fear of being wounded,—one of the proprietors, Mr. Murray, subsequently confessed that no such influence existed ; but that their knowledge of the habits of the Rattlesnake enabled them to handle them with impunity. Thus they are aware that the snake can strike only after certain preparation of the body; they assume an offensive attitude previously to striking a blow, and they seldom or never make an effort to strike when once secured by the hand. The Abbe Fontana has remarked that the poison of the viper is not fatal to its own body, or to that of its own species when bitten ; the contrary of this position is stated on respectable authority to be the case as regards the Crotalus—a result that might have been anticipated from the well known fact that Rattlesnakes, congregated toge- ther in any number, never inflict a wound on each other. Among the most remarkable peculiarities observed in the economy of this animal is its power of abstinence. An individual lived more than two years in the Philadelphia Museum, totally deprived of food. Others in the same institution have been observed united for a considerable time in the act of coition, and subsequently to bring forth young in a living state. In one instance I have witnessed a female with fourteen young at one birth, which is far from being to the same degree prolific as some of the ovi- parous Colubers. In the present stage of the investigation, had I occasion to treat a wound inflicted by a poisonous reptile, my faith in the Hieraceum venosum, as a cure, is not such as to induce me to resort to its employment, to the exclusion of the less equivocal means of suction, pressure, or ligature, POISON OF THE RATTLESNAKE. 505 together with constitutional treatment. Some very inter- esting experiments, which establish the superiority of the last mentioned methods, have recently been made by C. W. Pennock, M. D., and are published in the American Journal of the Medical Sciences for May 1828. Some further Experiments with the Poison of the Rat- tlesnake. Agreeably to a promise made, to continue the experi- ments on the poison of the Rattlesnake, in which the root of the Hieraceum venosum as an antidote was tested, I now offer a few additional observations. It will be observed that though the experiments detailed below afforded different results, in no instance was it found successful, as an antidote, when administered to quad- rupeds. In a few instances the medicine did certainly appear to mitigate the effects of the poison on the system in a slight degree, yet in others not the least benefit was derived from it. The reptiles were fresh healthy animals recently received from the country. Experiment 1. June 5th, 1828.—Two kittens were exposed to be bit- ten by a young male Rattlesnake; several wounds were inflicted on both without any poisonous symptoms follow- ing. A large female snake was next produced ; the bite of this animal was speedily followed by the usual symptoms of similar poisoned wounds in both animals. A decoction of the root of the Hieraceum venosum was freely administered to the animal first bitten, with the ap- 64 506 EXPERIMENTS MADE WITH THE parent effect of rendering the poison less narcotic, and probably of retarding the death of the subject of the ex- periment, and it survived the animal subsequently bitten more than an hour. Experiment 2. At 4 h. 21 m. a small black pup was bitten by an ac- tive male snake. At 4 h. 34 m. a brown dog was bitten by the same snake severely in the foot; the wound bled freely. At 4 h. 37 m. the black dog was again bitten in the foot, the wound being severe. At 4 h. 40 m. black dog was drowsy, and unable to stand. At 4 h. 45 m. brown dog evacuated per anum. At 4 h. 46 m. black dog evacuated per anum. At 4 h. 47 m. administered a quarter of a pint of the decoction to the black dog. At 4 h. 55 m. gave the same dog more of the decoc- tion, say half a pint in all; he is certainly not more drowsy, while the brown dog appears very sick and rest- less ; the black dog swelled a great deal, but shows signs of more liveliness. At 5 h. 25 m. gave the black dog half a wine glassful more; he trembles very m«€h, and the leg is greatly swelled, but he swallows his medicine easily. 5 h. 45 m. black dog drinks of the decoction volunta- rily, and at 6 h. 30 m. went to sleep. The brown dog has become more lively, and limps about the room; the parts in the vicinity of the wounds of both are much tume- fied . About this period both became considerably revived; bloody serum was squeezed out of the black pup's wound, and the swelling thus diminished. On the following morn- ing the black dog was found dead, whilst the brown dog recovered completely. POISON OF THE RATTLESNAKE. 507 Experiment 3. 4 h. 10 m. a pup was bitten over the inner canthus of the right eye. At 4 h. 15 in. the effects of the poison were visible, and at 4 h. 20 m. involuntary discharges of faeces occurred. At 4 h. 35 m. the subject was very sick, the parts much swelled and painful. At 4 h. 30 m. six ounces of the decoction have been taken at intervals of six or eight minutes. 5 h. P. M. two ounces more were swallowed; the swel- ling is excessive about the eye; in other respects the symptoms have mitig Led. 4 h. 40 m. a kitten received a wound from the same snake; several wounds were received in all, and the ani- mal died with the usual symptoms in a few hours. The constitutional symptoms in the pup appeared to mitigate an hour after the wound, but the swelling extend- ed over the whole face. The blood, percolating from the vessels in the vicinity of the wound, became diffused through the cellular tissue, and did not coagulate. Next morning the pup was found dead, having swallowed the last portion of the decoction at 10 P. M. 508 ON THE GENERATION OF ANIMAL HEAT. On the Generation of Animal Heat. Communicated to the Philadelphia Academy of Medicine, in the year 1821. " Opinionum commenta delet dies, Naturse judicia confirmat."—Cicero. Early convinced of the inefficacy of those physiologi- cal theories founded upon the doctrines of chemical life, which have a natural tendency to debase man from his dig- nified and compound condition of soul and body, to a mere complex chemical machine, I was led to examine with care the laws of vitality, and the phenomena resulting there- from—not the least interesting of which is the generation of animal heat, or that function, by means of which the body, during health, maintains a similar and equable tem- perature throughout all parts of the globe. Clothed in the seductive garb of high toned eloquence, or subtle disquisition, error appears to have been insepara- bly connected with those dogmas which allege that the multiplicity of changes, synthetical and analytical, occur- ring in our elementary particles, are produced by means of chemical or mechanical agency ! Numerous examples might be adduced in illustration of this, though I shall rest satisfied with the following well attested fact. While one physiologist estimated the force of the heart, as equal to one hundred and eighty pounds, another re- duced it to eight ounces, and both these conclusions are deduced from reasonings presented in all the imposing forms of the exact sciences! It has well been said, that our ignorance may be concealed, but cannot be removed, by the vain parade of a science foreign to medicine. In the following pages I shall have*frequent occasion to ON THE GENERATION OF ANIMAL HEAT. 509 make use of the terms organization, vital properties, functions, and life. My time, and the limited space allowed in the pages of a journal, will not permit me to enter into the discussion of that already hacknied subject, vitality. But it is necessary here briefly to state, that I consider the above expressions intimately related to each other—vital property is the acting power—organization, the instrument acted upon—function, the mode of action, and the phenomena of life the result. To the pride of man it is not a little mortifying, boast- ing as a mark of pre-eminence the progressive knowledge of his species, that we are obliged to retrace our steps, through the difficult and arduous paths of elementary science, back to the days of the immortal Hippocrates, a period upwards of two thousand years, for a theory of ani- mal heat—which, after the successive labours of the in- numerable hosts of chemists who have flourished since, until the appearance of Hunter and Bichat, (whose ideas on this subject we shall see differ very little from the father of medicine,) possesses more of the semblance of truth, and is more in consonance with the immutable laws of life, than is offered by any author with wThom I am ac- quainted. The generation of animal heat, was thought by Hippo- crates, to depend upon the action of a " vital p?*inciple on organized matter," and hence, that the function is not confined to any particular organ or part of the body. About the period in which Boerhaave flourished, the science of physiology wras subjected to a revolution equalled only by the ebullitions produced by Des Cartes in natural philosophy. The vigorous mind of Boerhaave was not exempt from the infatuation which seized upon the writers of the age, who resolved all the vital phenomena into at- traction and repulsion. To the attrition of the fluids upon the solids of the body: to the friction of the particles of blood against the sides of the vessels: and to fermentation 510 ON THE GENERATION OF ANIMAL HEAT. and putrefaction, was successively ascribed the tempera- ture of animal bodies. To-the first, it was objected, that no perceptible heat has ever been excited by the attrition or agitation of water or oil, quicksilver or other fluids, unless they have under- gone at the same time some chemical change, as in agitat- ing milk or wine till they become sour. The two latter causes, or fermentation and putrefaction, would not be maintained, at the present day, by the least informed chemist. It was thus that hypothesis succeeded to hypothesis, without any thing satisfactory having been offered, till Dr. Black gave to the world his celebrated theory of latent heat. Comparatively ignorant of physiology, he was led to draw false deductions from the most clear premises, though his main principle, that latent heat is converted into free caloric, will be found to stand. Nevertheless, he erroneously confined the calorific function to the pul- monary organs, alleging, that in consequence of a recipro- cal action of the blood in the lungs and of the atmosphere, a portion of the latent heat of the latter was absorbed. Nearly allied to the preceding is Dr. Crawford's theory, the essence of which is, that the capacity of arterial, for heat, is greater than that of venous blood—that there is no difference of temperature between the two ventricles of the heart—and, in fact, that the heat of all parts is nearly the same. " Animal heat is, in like manner, referrible to a pro- cess bearing no remote analogy to a slow combustion, by which a portion of carbon, an inflammable principle ex- isting in the blood, is united with the oxygen of the air, in respiration, and thus carried off from the system."— J. F. W. Herschel, Discourse on the Study of Natural Philosophy, p. 234. This apparently sound, and certainly beautiful theory, gained many advocates, and was admirably calculated to ON THE GENERATION OF ANIMAL HEAT. 511 enlist such as are irattentive to the peculiar laws of life, or warm in the pursuit of a favourite science. But I hold it to be entirely untenable, as at variance with the fun- damental laws of the animated being. " Whatever healthy mutations, whether of the solids or fluids, take place in that admirable workmanship, the human body, are the re- sult, not of chemical but vital agency—an agency inde- pendent of organization." Dulong has lately repeated the well-known experiments of Lavoisier and Delaplace, chiefly with the view of as- certaining whether the quantity of caloric developed by the oxygen, which disappears in respiration, is equivalent to the quantity given out by the body. He employed for that purpose a modification of Count Rumford's Water Calorimeter. The result was, that the quantity of caloric disengaged, by the conversion of the oxygen into carbonic acid, is equal, in carnivorous ani- mals, to between forty-nine and fifty-five parts in a hun- dred (100—) of the heat disengaged by the whole body, during the same interval of time, and in frugivorous ani- mals, to betwixt sixty-five and seventy-five parts; and that the whole quantity of caloric disengaged, by the for- mation of carbonic acid and water together, is equivalent to between sixty-nine and eighty parts only. He thence concludes, that the animal heat is greater than can be ac- counted for by the fixing of oxygen during respiration, and that, therefore, some other source of calorification must exist.—Journal de Physiol. Next, I proceed to state my objections to this pulmonic theory, which has become so fixed and riveted.._on the minds of many of the older, or electro-chemical physiolo- gists, as scarcely to be shaken. The lungs I shall at present consider as grand emuncto- ries, whose principal function consists, in eliminating an excrementitious matter out of the mass of blood. I readily admit, that the oxygen ~ respired, partly disappears, and 512 ON THE GENERATION OF ANIMAL HEAT. that carburetted hydrogen is formed: it also seems proba- ble, that the air respired may assume a more condensed form, or enter into combinations, producing new materials, possessing less capacity for heat. But it has never been proved, that the capacity of arterial blood for heat, is greater than venous blood, though it is reasonable to sup- pose, that the materials to be discharged from the lungs must assume a more fluid form, and thus absorb heat. The sensible temperature of the blood in both ventricles is granted to be the same. Nevertheless, nearly all the phenomena of health and disease militate against the che- mical views of the origin of animal heat—some of the more striking of which I shall notice. We frequently observe a local increase of temperature, as in the act of blushing—in topical inflammation—in chronic hepatitis, which causes a burning of the cheeks, of the palms of the hands, soles of the feet, &c. which cannot be explained by any of the theories of the oxyda- tion of the blood. Heat, moreover, continues to be evolved from the body some time after apparent death from acute diseases. I have dissected bodies warm twelve hours after death, while others which died of a lingering disease, though otherwise under similar circumstances, have cooled in two or three hours. The pulse in certain stages of fever is diminished in force and velocity, the system nearly exhausted, and the lungs in particular, scarcely able to perform their office —and still, we find the temperature of the body morbidly increased. In phthisis, asthma, apoplexy, &c. the same phenomena present themselves. A remarkable instance of the latter disease came under the observation of Mr. Hunter: " a gentleman was seized with an apoplectic fit, and while he lay insensible in bed, covered with blankets, I found," says he, " that his whole ON THE GENERATION OF ANIMAL HEAT. 513 body would in one instant become extremely cold in every part, continuing so for some time, and as suddenly become extremely hot; while this was going on, alter- nately, there was no sensible alteration in his pulse for several hours."* That the heat of the body does not depend upon respi- ration, or the state of the circulation, has, indeed, been noticed by many writers. It is remarked by Dr. Rush,! that " during the fever of 1794, he found, that the burn- ing heat of the skin, called by the ancients, ' calor mor- dens,' and from which this disease, in some countries, had derived the name causus, was more common this year than the last; it was sometimes local, sometimes general; it had no connexion with the state of the pulse, or circu- lation, for it was most intense at a time when the patient had no pulse." We are told by Dr. Chisholm that he "found the skin to be warm, whilst the pulse was at fifty-two degrees; and that it was sometimes disagreeably cold, when the pulse was as quick as in ordinary fever." Exactly the same was observed by Senac in intermit- tents, "I have often seen," says he, " the lower extre- mities extremely cold, and the upper ones parched with heat."f By some experiments of Mr. Hunter, it is proved, that the egg, during incubation, has the power of generating heat, in which case, pulmonary influence is out of the question. " Having taken," he observes, " some eggs from under a hen, when the chick was about three-fourths formed, I broke a hole in the shell, and introducing the ball of the thermometer, found that the quicksilver rose to ninety- nine and a half degrees. In some that were addled, I found the heat not so high by two degrees, so that the * Animal (Econ. p. 91. t Med. Inq. p. 212. t Senac, p. 25. 65 514 ON THE GENERATION OF -ANIMAL HEAT. life in the sound egg, assisted in some degree to support its own heat."* He entertains the opinion that this power of generating heat is peculiar to an animal while alive: it is a power only of opposition and resistance, since it is not found to exert itself spontaneously, but must always be excited by the energy of some frigorific agent or disease. (i It does not depend upon the motion of the blood, as some have supposed; because it likewise belongs to ani- mals who have no circulation, and the nose of a dog, which is always nearly of the same heat, in all temperatures of the air, is well supplied with blood. Neither can it be said to depend upon the nervous system, for it is found in animals that have no brain or nerves ; it is then most pro- bable, that it arises from some other principle, a principle so connected with life, that it can, and does exist, and act independently of circulation, sensation, and volition, and it is that power, which preserves and regulates the inter- nal machine. This power of generating heat is in the highest perfection, when the body is in health; and in many deviations from that state, we find that its actions are extremely irregular."f Much has been said by the advocates of the pulmonic theory, concerning the temperature of the blood in the left side of the heart, being higher than that in the right. Experiments to ascertain this point, differ very much in result. It is asserted by Drs. Crawford and Davy, that there is no difference of temperature, while some, on the other hand, have maintained that the temperature was highest in the right ventricle. If any difference exists between the arterial and venous blood, in the cavities of the heart, as respects their spe- cific caloric, excepting what arises from the difference of specific gravity,^: it can only be accounted for by the su- * Animal CEconomy, p. 103. + Idem. X The specific gravity of venous blood, without its fibrine, is 1050, that of ar- terial 1047. ON THE GENERATION OF ANIMAL HEAT. 515 perior power of the left ventricle, its parietes being com- posed of much more numerous muscular fibres, its actions much stronger, and the formation of animal heat in the part might be greater. The temperature of parts differs according to the de- gree of vital action present. Mr. Davy found in his ex- periments, that in the stomach of an ox, the pyloric com- partment was of a higher temperature than the left ven- tricle itself. Thus when the latter immediately after death was 103, the former full of food was 104.5, from the sti- mulus of its contents and increase of vital action. This enables us to explain the fact, that the tempera- ture of young animals in whom all the vital actions are most energetic, is higher than in adult animals, and much greater than in old persons—which was remarked by Hip- pocrates, " qui crescunt, plurimum habent calidi innati, senibus autem paucus color." In confirmation of this remark, we have the experi- ments of Davy,* who found in one instance, the heat un- der the axilla of a child just born, 98.5, after twelve hours, 99 degrees, and after three days the same—during the whole of which time, it appeared in perfect health. On five other children of the same age, similar observa- tions were made: in two instances of weak infants, the tem- perature one hour after birth did not exceed 96 degrees, which is two degrees below the standard heat of a man in perfect health—probably from the general debility of the subject of the experiment. Of late, we have a theory, which attributes the produc- tion of animal temperature to the influence of the nervous system. The work of Dr. Wilson Phillip on this subject, has attracted no inconsiderable share of attention. He supposes it to be generated by the action of the nervous * Eclectic Repertory, 1816. 516 ON THE GENERATION OF ANIMAL HEAT. influence on the blood, by which the formation of secreted fluids is effected, and consequently that heat is a secretion. An hypothesis like this, could only have been framed on limited views of the animal economy. We are very liable to error, by drawing hasty conclusions from a few isolated facts, as they occur in the higher grade of ani- mals, without availing ourselves of those convincing evi- dences which are to be collected, by observing the phe- nomena presented in similar functions, in a more extensive survey of animal existence. Thus in the theories of ani- mal heat, we have confined ourselves generally to the phe- nomenon as it exists in the vertebral animals. Had Dr. Phillip carried his observations on the animal economy a few steps further, he would have saved himself the necessity of retracting opinions which cannot be sup- ported by a more comprehensive view of the subject. In relation to the lowest class of animals and vegetables, in which no nervous system has been discovered, Mr. Hunter found that the most imperfect are capable of an evolution of caloric. It seems to me that it is by no means established, that secretion is materially dependent on the nervous influence: on the contrary, many facts are op- posed to the supposition. Man is emphatically from the beginning, a secreted ani- mal. In the foetus in utero, assimilation probably is the only active function existing, at least, the whole glandular system, in the human foetus, is quiescent: it is not till the blood has received the influence of the atmosphere, that we have urine, bile, saliva, &c. The nervous influence being essential to the evolution of heat, how is it that the chick in ovo is capable of evolv- ing it? in which the heart may be seen performing its functions, when no appearance of brain, or spinal marrow, can be traced. If the sanguiferous and nervous systems were co-existent, the formation of the animal must begin ON THE GENERATION OF ANIMAL HEAT. 517 at more than one point, which is contrary to the simplicity observed in the established laws of nature. Were the nerves at all concerned in the formation of animal heat in the human subject, the influence must re- side in those of organic sensibility solely, since we not un- frequently witness a total loss of nervous energy, while the power of evolving heat remains. We have a case detailed by Dr. Parry, in which there was an extinction of pulse in one arm, with a coldness, though complete power of motion existed in it, while the other arm was warm, and had a perfectly good pulse, without, however, the power of voluntary motion.* I witnessed a case some years ago, in the Pennsylvania hospital, which tended to prove that neither respiration nor nervous energy has much connexion with the function under review. It was a patient with a fracture of the dor- sal vertebrae, and consequent pressure of the spinal mar- row. The inferior extremities were totally deprived of nervous influence: and yet, the portions of the body above the injury were of a natural temperature, while all the parts below the fracture indicated by the thermometer a morbidly increased temperature. It is as needless as it would be easy to multiply facts of this nature. In our speculations on animal temperature, we must at present be content with the knowledge of facts. To refer it to some general principle, belongs probably to the des- tiny of future ages. I cannot forbear, however, to cherish the suspicion, that heat is caused by a distinct and peculiar action of living matter. If it be called a secretion, it is a peculiar one, though like the secretions in general, it is modified, increased, or diminished, by the operation of the passions and other states of mind, &c. Considered as a secretion, animal heat most probably enters the system with the chyle, in a latent form, and is * Parry on the Pulse, p. 139. 518 ON THE GENERATION OF ANIMAL HEAT. set free by the action of the vessels upon their contents. What else produces those changes in the blood denomi- nated secretions? Every one now seems convinced by direct experiments, that vessels so modify their contents, that the liquids and substances which the absorbents take up, become lymph, a fluid resembling blood, in their transit through the vessels, and that the chyle imbibed from the bowels is undergoing continual modifications, as it proceeds through its channels to the sanguiferous sys- tem.* There are secretions which not only are modified, but entirely wanting as we descend in the scale of beings. Birds, for example, have no salivary glands, and precisely the same occurs respecting the formation of animal heat, in that class denominated cold-blooded animals, as frogs, toads, lizards, snakes, &c, which " have no power of ge- nerating heat within themselves,"! notwithstanding they breathe with lungs. What effect low diet or starvation has, in diminishing the power of forming animal heat, is generally known. Do we not often meet with persons, who have been accus- tomed to abstemious living and otherwise temperate habits, with hands continually as cold as a lizard? Warm-blooded animals, inhabiting the ocean, perhaps from this circumstance alone, require a greater power of economizing food, as the very action of keeping up ani- mal heat may require an additional supply of nourishment. In searching Bichat for his authority, I was glad to find that I did not very essentially differ from so distinguished a physiologist. " Le degagement du calorique," says this author, J " est done une phenomene exactement analogue a ceux dont le systeme capillaire general est le siege." * B. Franklin's theory of animal heat, 1784, or half a century ago, is not impro- bable. " Is not the natural heat of animals thus produced, by separating in diges- tion the parts of food, and setting their fire at liberty?" Vide Franklin's Essays, Boston, 1825, p. 300, "Loose Thoughts on the Universal Fluid," &c. t Home's Comp. Anat. J Anat. General, Vol. II. 523 and 524. ON THE GENERATION OF ANIMAL HEAT. 519 Again, " Le calorique arrive done au systeme capillaire combine avec la matiere des secretions, avec celle des ex- halations et celle de la nutrition. Le sang est le fiuide commun qui resulte des toutes ces combinaisons. Dans le systeme capillaire general, chaque partie se separe, le calorique pour se repandre dans tout le corps et sortir ensuite au dehors; les fluides, des secretions pour sortir par les glandes ; ceux des exhalations s'echapper parleur surfaces respectives ; les nutritifs pour sejourner dans les organes." Further, " Chaque systeme a son mode particulier de chaleur. Certainment il se separe moins de calorique dans les cheveux, les ongles, l'epiderme, que dans tout autre systeme. Les organes blancs, comme les tendons, les apo- neuroses, les ligamens, les cartilages, etc., en fournissent aussi moins probablement que les muscles. Examinez les pates des oiseaux ; ou il n'y a que ces parties blanches ; elles sont Men moins chaudes que le reste du corps." He, however, admits that some latent heat may pass into the system through the medium of the lungs, and at- tempts to explain in this manner the connexion between the size of the lungs and the quantity of heat disengaged. But it is not unlikely we shall find on examination, that the degree of heat evolved, is in proportion also to the quan- tity of ingesta. Not long ago I heard it argued by a distinguished che- mist, that animal temperature is produced by the assimi- lating functions, on the principle that fluids converted into solids give out heat. But it was objected, that it is an acknowledged fact, that the absorbents are as active in converting the solids of the body into fluids. Each of these theories are, I think, to be discarded for the same reason, namely, that the ultimate particles of all bodies are similar, whether solid or fluid. It may be added, that the temperature of a part is not increased proportionately to the assimilating function in 520 ON THE GENERATION OF ANIMAL HEAT. energy, and conversely, as instanced particularly in the case of paralysis cited above. I have thus endeavoured to show, chiefly by a train of negative reasoning, and I hope not unsatisfactorily, that the generation of animal heat, and the function of respira- tion, have very little if any connexion with each other, and in some animals, none at all. Believing ignorance to be preferable to error, no small point is surely gained, if former theories are proved to be fallacious, or at least in- adequate to explain the phenomena of the case. It is not to be expected that this subject will be divested of ob- scurity, till we become much better acquainted with the laws of life, the importance of which, to physiology, and to the theory and practice of medicine, cannot be too highly estimated, though such inquiries have been by many condemned as purely speculative. We do not hesi- tate to calculate the fall of an apple from the tree—the projection of a ball from the mouth of a cannon—or the revolution of the moon in her orbit; knowing as little of gravitation, attraction, and projection, as we do of the cause of muscular motion, animal temperature, or any of the vital operations.* * More than ten years have elapsed since this essay on animal heat was first pub- lished in the Medical and Physical Journal of Philadelphia, then edited by Profes- sor Chapman; during this interval many similar essays have appeared, both at home and abroad, in none of which have we been able to detect any additional facts; whilst many of the most important data here detailed, have been, for the most part, entirely overlooked. ON THE VARIETY OF COMPLEXION, &C. 521 Remarks on the Variety of Complexion, and National Peculiarity of Feature. {Lecture delivered before the Academy of Natural Sciences, A. D. 1822.) " The intellectual worth and dignity of man, are measured, not by the truth which he possesses, or fancies that he possesses, but by the sincere and honest pains he has taken to discover truth."—Treviranus. Transported into the midst of a busy metropolis of India, where men, from various portions of our globe, pass, as it were, in review before the spectator, the very first circumstance, perhaps, that would strike the eye of the most superficial observer, would be the variety of tints, or shades of colour, and peculiarity of feature, which characterize the mixed multitude. The causes of the variety of complexion have, at all times, occupied the attention of physiologists: but, as is frequently the case with men of genius, they have treated it too abstractedly. Led away by their powers of ratio- cination, they have drawn their conclusions from analogies rather than from facts ; and though we may be often de- lighted—sometimes even conquered by their logical pow- ers, yet but little light has been thrown upon the subject in dispute; and the cause of national physiognomy and complexion remains as much a subject of discussion as ever. Considering the field still open to a fair and candid in- vestigation, I have ventured to enter the lists—endeavour- ed to collect and arrange some facts—performed some ex- periments, and made a few observations, which it is now my intention to communicate. I shall not in this investigation stop to inquire whether all mankind are to be considered as of one natural species 66 522 ON THE VARIETV OF or not; that is, whether the physical diversities which so curiously distinguish the several races of men, are specific differences, or only varieties. That one pair at least of every living species must at first have been created, and that one single pair was sufficient for the population of our globe, in a period of no considerable length, is evident, from the frequent calculations of political arithmeticians. " The author of nature," says Sir William Jones,* (< creat- ed but one pair of our species, yet had it not been among other reasons, for the devastations, which history has re- corded, of water and fire—famine and pestilence, the earth would not now have had room for its multiplied in- habitants." Notwithstanding the learned and elaborate dissertations of many naturalists and philosophers to the contrary,! it is now satisfactorily proved by modern zoologists, that all the diversities of mankind are but varieties of one origi- nal stock. Indeed, agreeably to the zoological definition of the term species, it could not be otherwise. " A fixed external form belongs to each animal, and is continued by generation : certain forms, the same as those existing in the world at the present moment, have existed from time immemorial; such at least is the result of the separate and combined proofs furnished, by our own ob- servation and experience, respecting the laws of the ani- mal kingdom, by the voice of tradition and of history, by the remains of antiquity, and by every kind of collateral evidence. " All animals belonging to one of these forms, constitute what zoologists call a species. This resemblance must not be understood in a rigorous sense, for every being has its individual characters of size, figure, colour, proportions; * Vide Families of Nations. t Among whom we may mention Voltaire, Buffon, Blumenbach, Lord Kaimes, and many English authors. COMPLEXION AND FEATURE. 523 in this sense, the character of variety is stamped on all nature's works. She has made it a fundamental law, that no two of her productions shall be exactly alike, and this law is invariably observed through the whole creation. Each tree, each flower, each leaf, exemplifies it—every animal has its individual character: each human being has something distinguishing in form, proportions, counte- nance, gesture, voice—in feelings, thought, and temper —in mental as well as corporeal physiognomy. This variety is the source of every thing beautiful and interest- ing in the external world—the foundation of the whole moral fabric of the universe."* But to return. Three principalagents have been men- tioned as the cause of complexion, namely, 1st, Climate; 2nd, Solar heat and light; and lastly, Civilization ; each of which has been maintained by equally respectable au- thority.! The following facts induce me to believe that the first cause, or climate alone, exerts very little influence in this respect. 1st, Is colour more influenced by climate or by the blood of the parents ? The colour of the skin of an infant just born of the blackest parents amidst the burning sands of Africa, is so light, as scarcely to be distinguished from the European infant; from which fact, some natural- ists might argue in favour of climate slowly inducing the change; but if the opinion I entertain of the formation and seat of the,pigmentum nigrum be correct, it must be ex- plained upon opposite principles. The colouring matter of the skin is generally admitted to be a glandular secre- tion ; and as that which ascends the calibre of the hair, imparting colour thereto, is secreted in the bulb of the root of each respective hair, that lying beneath the cuti- cle, is also secreted, and probably contained in capillary tubes, of which tubes, the rete mucosum may consist. * Lawrence's Lectures. t "Climate, nourishment, and mode of life." Buffon, Vol. XX. p. 240. 524 ON THE VARIETT OF Thus it is remarkable that the several hues of the different varieties, bear a close and nearly uniform relation to that of the hair and iris, as well as to the whole temperament of the individual. The colouring matter being a secretion, it consequently is not found in the human foetus in utero, as, in common with nearly the whole glandular system, those glands which secrete the pigment are as yet in a state of inac- tivity. Do we not observe the same in that large and im- portant viscus, the liver, which in the foetus affords no bile? in the kidneys, which form no urine? in the exha- lents, which throw out no perspiration? &c, &c. It would appear that atmospherical influence was abso- lutely necessary to the true secretory function, which may act by producing such changes in the blood as adapt it to the formation of the various matters of secretion. In the foetus in utero, the blood circulating in the arteries and veins, has but one colour ; it is, (according to Bichat's experiments) incapable of coagulation ;* unctuous to the touch, and wants (according to Fourcroy) some of the saline principles contained in adult blood. Immediately after the commencement of respiration, the foetal blood assumes the red colour, is capable of coagulation, &c, &c. The functions of the foetus in utero are consequently very limited, assimilation being the only one which enjoys full activity; and here, probably, the liver performs a vicarious action for the stomach. I confine my remarks, in the present instance, to the human foetus only, being well aware, that in the lower orders of the animal crea- tion, the foetus at birth is by far more perfected ; in these * BichaVs Anat. General, vol. ii. As far as the human foetus is concerned, I have had frequent opportunities of verifying this important fact; but in performing some living dissections upon the pregnant cat, I have repeatedly observed the foetal blood of that animal to coagulate as perfectly as adult blood, the only difference being, that the blood of the kittens, as it left the vessels, was exposed to the air in a living state. Blood from the human foetus will coagulate partially after very few inspirations. COMPLEXION AND FEATURE. 525 the glandular system has already commenced operations ; hence the necessity in some for the allantois to contain the urine. In such animals we must not be surprised to observe the colours of the skin also more or less stamped. Although it is with great difficulty that we are able to demonstrate the rete mucosum in the European race, ne- vertheless, "that some colouring matter exists beneath the skin, there can be no question, otherwise how can we account for the difference between the fair and the swarthy, or the more remarkable peculiarity of the albino:"*—the freckles of the skin, the large blotches or stains which not unfrequently occur in the face and other parts of pregnant women, and the discoloration of the skin from the internal use of nitrate of silver ? The existence of the rete mucosum in the white race, so frequently denied by authors, has, however, been de- monstrated occasionally in the European by skilful ana- tomists : a specimen of this kind remains to the present day in the Hunterian museum.f The difficulty of demon- strating it in the European depends upon the delicacy of its texture, being entirely destroyed by heat, maceration, or putrefaction, the usual agents for demonstrating the same but more consistent membrane in the Ethiopian. If not deceived, I have discovered it several times in the European on the living subject, by raising the epidermis with a blister, especially upon the back of the hands and neck. In the albino the rete mucosum is most probably absent, as is the pigmentum of the choroid coat of the eye. The same phenomenon occurs also in the cicatrices of the negro, which sometimes remain fifteen or twenty years, or for life, of a dead-white colour, unless the new-formed * Lawrence's Lectures, p. 278. In Brewster's New Edinburgh Philosophical Magazine, it is stated, that " that able physiologist, Mr. Lawrence, denies the ex- istence of the rete mucosum in the European." t Wc had occasion to examine this specimen in 1833. 526 ON THE VARIETY OF part should regain its pristine vascularity, and strength of organization.* From some observations I made a few years past upon a portion of skin taken from the buttock of a piebald ne- gress who died in this city, I was convinced, that in all such cases, the metamorphosis from black to white, which we observe occasionally to take place in the negro, is de- pendent upon the total absorption of the rete mucosum, and a destruction of the glandular system, which originally secreted it. The cutis vera also in this case is far less vascular, which occasions the dead-white colour displayed through the translucent epidermis.f But to return to our objections against climate as an important agent in producing variety of colour: and 2dly, " Diversities of manners, religion, and language, and mu- tual animosities which may have originated from long sub- jection to hostile governments, and may have been trans- mitted from distant times, produce aversions between the inhabitants of neighbouring countries, and prevent inter- course and intermarriages. The difference gradually in- creases, the effect accumulating while the cause continues; the people diverge in the characters of person; and na- tional physiognomy becomes established. ( Vide Prichard. Phys. Hist, of Man.) The inhabitants of some parts of India, Calcutta for example, present all the intermediate shades from ebony black, to orange yellow, and that independent of climate, as they all enjoy a similarity of climate and mode of life; particularly as it occurs in the Brahmin caste, whose re- ligious tenets oblige them to follow strictly a peculiar mode * It has been doubted by some whether the cutis vera once destroyed is ever after re-formed. Professor Lawrence, of London, is very explicit on this subject;— " Cicatrization, which is the elongation of the sound skin over the ulcer, and which never takes place except from the sides of the wound." (Vide Lawrence's Lectures on Surgery.) + Mr. Hunter found the rete mucosum in the cicatrices of negroes. (Vide Aber- nethy's Lectures on Surgery, p. 61.) COMPLEXION AND FEATURE. 527 of life. " The different castes of people in Hindostan, who are settled in the same country, or who wander over it, have been prevented by the strict prohibitions of their religion from intermarriages with each other for many ages; the result of this long continued experiment is il- lustrative of the foregoing remark—each of these castes has acquired (though all of them are subject to the same local causes) a distinct set of features; all easily recognised by those who are conversant with them." The characteristic physiognomy of the inhabitants of the different states or provinces of Italy ; the difference of feature which we remark between the English and Scotch, and between the French and Italians; together with that remarkable characteristic physiognomy of the Jews, though scattered among the nations of the earth, must have arisen from the same cause. The following anecdote from Dr. Gregory's lectures, will afford a good exemplification of the subject. The professor had made a long journey from the capital of North Britain to a remote village, to visit the principal inhabitant of the hamlet. The latter was a lady far ad- vanced in life, who resided in an old baronial castle. On entering the hall his attention was attracted by a picture of a former lord of the place, who had at a former period been chancellor of Scotland. It held a conspicuous place among the family portraits, and was remarkable for a pro- tuberant aquiline nose, and for a very peculiar set of fea- tures. But what excited the notice of the professor more strongly, was a singular resemblance, which he could not fail to observe, between the countenance represented in the picture, and that of the lady whom he was about to visit; the latter was descended in a direct line from the prototype of the portrait; the picture had held the place in which it was fixed for at least a century and a half. Going afterwards to other houses in the village, our author was surprised to find the same cast of features prevalent 528 ON THE VARIETY OF in several other families; and on inquiring, was informed that the old chancellor had been the father of several ille- gitimate children, who had disseminated thus widely the visage of their common progenitor. We cannot imagine diversity of origin, or any consider- able effect arising from difference of soil and climate in either of these instances, and perhaps the distinct physi- ognomy which characterizes the several nations, may in great part be accounted for on the same principles. Variety in food, and the hereditary tendency of pecu- liar corporeal structure in the brute species, produce still more remarkable varieties; it is thus that we have the white, the black, the broad-tail, the hornless, and the many-horned sheep, together with every variety in the quality of the wool, induced from one or other of these causes; the same remarks may be extended to any of our domestic cattle. Human art alone can do but little in modifying the individual; but by diligently taking advan- tage of the natural tendency, to transmit any qualities which happen to arise, a very considerable influence is exercised over the race : we have only to select carefully those individuals which happen to be possessed in a more remarkable degree of the property or quality which it is desirable to perpetuate, and reserve them for the future propagation of the stock. The effect continually increas- ing, a particular figure, colour, proportion of limbs, or any other attainable quality, is established in the race, and the conformity is afterwards maintained by removing from the breed any new variety which may casually spring up in it. The utility and extensive application of this law of the animal economy, is well understood by the skilful and scientific agriculturist. Some authors are of opinion, that all the varieties which occur among the nations of the earth, were originally the result of accident, rendered per- manent by procreation, examples of which in brutes, we have in white rabbits and ferrets. COMPLEXION AND FEATURE. 529 3dly. Sheep in Iceland are covered with a kind of long and stiff hair, whilst the same animal is subjected to a similar change in the hot countries of India. 4thly. If the wool of the negro be caused by the heat of the climate, as authors have asserted, it is very singu- lar that the wool of sheep is converted into hair by a simi- lar cause! The fact is, that climate, solar heat and light, atmospheric influence, passions of the mind, and substances taken into the stomach, which act sympathetically or other- wise upon the superficial capillaries, can have no more in- fluence upon the colouring matter already secreted in the rete mucosum, than they can have on the urine in the bladder, or any other secreted fluid : it is true, that expo- sure to the rays of the sun and to the atmosphere in any climate darkens the complexion ; and in fair skins pro- duces indelible freckles ; yet such changes, together with others induced by the causes above enumerated, act pri- marily upon the organs which secrete the colouring mat- ter, and consequently are constitutional causes; and pro- bably of all such causes, the action of mind upon matter, will be found the most general, most permanent, and the most powerful. Passions of the mind are capable of inducing a change of colour both in the hair and skin. A woman of this city (some years ago) had the hair of her head completely changed in colour during the course of one night: her case was that of difficult parturition; though her corporeal pain did not probably equal the anxiety and distress of mind. (Vide Coxe's Med. Museum, vol. 3d, p. 219— where several similar instances are related.) Cases some- what analogous are not unfrequently met with. The passions act also upon the kidneys, inducing change of colour, and altering the chemical properties of the urine; they act also more or less powerfully upon the whole glandular system ; indeed the influence of mental affections does not stop here, but is extended even to the 67 530 ON THE VARIETY OF embryon or foetus in utero, modifying not only the osseous fabric, but changing the colour of a part, or of the whole of the body. Innumerable cases of this kind must have come within the knowledge of every physiologist. It is curious that this phenomenon was known even to some of the ancients, and the means of which Jacob availed him- self, in order to increase the number of spotted goats and sheep, must be familiar to all. (1739, A. C.) V. 37. " And Jacob took him rods of green poplar, and of the hazel and chesnut tree ; and peeled white streaks in them, and made the white appear which was in the rods. V. 38. " And he set the rods which he had peeled be- fore the flocks in the gutters, in the watering troughs, when the flocks came to drink; that they should conceive when they came to drink. V. 39. " And the flocks conceived before the rods, and brought forth cattle, ringstreaked, speckled and spotted." (Vide Genesis, Chap. 30.) The effects of fright upon the foetus in utero are some- times incredible; I have seen one case, and heard of others from respectable authority, wherein disorganization ap- peared to have been induced by this affection. A woman pregnant, was admitted into the Pennsylvania hospital with a severe burn which extended nearly over one side of the body: abortion soon took place; when the foetus was observed to have one side of the body displaying the usual appearance, as of a part which had been exposed to boiling water, the skin was highly reddened and the cuti- cle in part abraded. A similar case occurred about the same time under the care of Dr. Atlee of this city. " Mr. John Hunter, in his lectures, recites instances of children who have never seen their parents, resembling them exactly in form, manners, and in peculiar whimsical habits. He also mentions the fact that children have ac- quired the same diseases at the same period of their life, COMPLEXION AND FEATURE. 531 to which the parent had also been subject at the same age. Such instances are not only curious as demonstrative of the powers and progress of the vital actions, but they also deserve general consideration." " Nature has implanted in the breast of every man, a love for youth, health, and beauty of form ; she has made us to delight in amiable disposition, and to admire various kinds of intellectual excellence. She has given us pro- pensities which tend to perfectionate the human race." (Vide Abernethy, Zool. Led.) But alas! how little the moral restraint, how perverted the sense, how morbid the taste of men; whilst the most fostering care and unremitted exertions are extended to the breed of our horses, sheep, cattle, and other domes- tic animals ; the improvement of our own species by the same adequate means is utterly neglected or denied: and for the consideration of mere lucre, or the allurements of vanity, we are wedded to malignity, folly, or insanity, and consigned to disease, deformity, and death premature; " Quid non mortalia pretora Cogis; auri sacra fames;" but if, like Prometheus, we presume to give life in oppo- sition to the laws of Heaven, we shall receive the same punishment; for our children will become the vultures which prey upon our vitals. 5thly. Negro slaves imported into our country, under- go considerable changes in colour and osseous fabric, under peculiar circumstances apparently independent of climate. Take, for instance, two pair of negroes,—allow one pair to be exposed to all the influence of climate by hard labour on the plantation ; the other pair are to be educated as house servants, and not exposed to the rigours of climate. The progeny of the former will, from generation to gene- ration, retain the full characters of the negro form,— 532 ON THE VARIETY OF namely, retreating forehead, anterior prominence of the malar bones, expanded nasal apertures, flat ossa nasi, pro- minence of the maxillary bones, obliquity of the incisor teeth, want of mental prominence, gibbous and crooked tibiae, projecting os calcis, and flat foot; whilst the latter pair, or house servants, even in the first generation, will have approached considerably to the European form, sim- ply by being in, and enjoying the atmosphere of civiliza- tion. Dr. S. S. Smith was one of the first to remark, that " the field slaves live on the plantations, and retain pretty nearly the rude manners of their African progenitors. The third generation, in consequence, preserve much of their original structure ; though their features are not so strongly marked as those of imported slaves. But the domestic servants of the same race are treated with lenity, and their condition is little different from that of the lower class of white people. The effect is, that in the third generation, they have the nose raised, the mouth and lips of moderate size, the eyes lively and sparkling, and often the whole composition of features extremely agreeable. The hair grows sensibly longer in each suc- ceeding race—it extends to three, four, and sometimes to six or eight inches."* It has been asserted by persons resident in the West Indies, that a similar change is very visible among the negro slaves of the third and fourth gene- ration in those Islands, and that even the first generation differs considerably from the natives of Africa. If climate did exert such an active influence in pro- ducing, and in continuing those important differences of which we are treating, the change of complexion would have kept pace with the changes of climate; but this we are convinced is not the case. No one will call in question the * Vide Smith on the cause of the variety in the complexion and feature of the human species. COMPLEXION AND FEATURE. 533 fact, that the climate of Europe has undergone immense changes within the memory of man ; and coeval to the earliest records of his history, we are informed by the sa- cred historian of the occurrence of ice in the Mediter- ranean sea, as hard as the rocks. (Vide Book of Job.) Ovid, complaining of the hardships of his banishment, re- fers to the severity of the cold, the Black sea being frozen sufficiently hard to bear the cattle. Philadelphia and Lisbon are nearly on the same parallel of latitude : in the latter situation, the fall of snow is looked upon as a very rare occurrence, and the formation of ice is scarcely ever known ; whilst the Delaware is almost an- nually congealed. Many facts might be produced in proof of the amelioration of our own climate. That America, from the great lakes to the gulph of Mexico on the one hand, and from the sea-coast to the Rocky mountains on the other, includes almost every variety of climate, will scarcely be denied ; and that there exists a great uniformity of complexion in the savage in- habitants throughout this immense region is equally cer- tain ; yet the customs, habits of life, and mode of thinking, are nearly the same. I consider these strong facts, which, at the same time that they discard climate as an active agent, give additional strength to the theory which attri- butes the diversity of complexion to the state of society. During the fall of the Roman empire, the barbarians who involved it in ruin, crossed the Volga with their heavy wagons upon the ice. We are well aware that the congelation of water is a rare occurrence at the present time in like latitudes. Besides these historical facts, some of which are corroborated by Gibbon, (Decline and Fall of the Roman Empire,) we have others equally convincing, derived from the aid of natural science. Cuvier has dis- covered the osseous remains of the Lapland reindeer in countries south of the Mediterranean; those animals do not now inhabit south of the Baltic sea. It would be fo- 534 ON THE VARIETY OF reign to the subject of the present essay to enter into an investigation of the causes which have produced these slow but stupendous revolutions; and we have only to re- mark again, that the change of climate has not been at- tended with a corresponding change of complexion. Having, I trust, made it evident that climate alone can exert very little direct influence upon complexion, we have next to show that solar heat and light are equally inadequate to produce the various changes. 1st. Those parts entirely out of the influence of solar heat and light, are constantly of a deeper black than any other part of the body, (ut vulva feminse et raphe scroti maris,) and the streak of black along the spine will serve to detect the African origin, even to the fourth and fifth generations: 2d. African animals with the skin partly marked, as the monkeys, are not blackened by the sun; there are even white animals in the hottest parts of Africa: but a white woman has never been known to produce a black child without connexion with a black.* 3d. The black colour is not peculiar to the torrid zone. South America, even in the most scorching latitudes, does not produce real negroes; and those transported to North America, have preserved for many years their original complexion. The Portuguese established upon the burn- ing coasts of Africa, have not changed their characters, unless by intermarriage. We find, in fact, a race of ne- groes in Van Dieman's land, under a climate colder than France or England. We come now to the last agent mentioned, viz. Civili- zation. Animals, in a state of nature, obstinately retain their original colour, even when transported to a foreign climate. Thus the English rabbits bred in this country, * Dr. Pearson, in Philos. Trans. Vol. LV, relates several instances of white wo- men bringing forth children wholly black, by connexion with a black. COMPLEXION AND FEATURE. 535 have not approached in the least to the colour of the American rabbit. That matchless philosopher in his own department, Cuvier,* remarks, that the most superficial characters are the most variable; colour depends very much upon the light; the thickness of the skin upon the heat; the size upon the abundance of nourishment: but in a savage animal, these varieties even are very limited by the nature of the animal, which does not abandon voluntarily those places where it is enabled most conveniently to obtain all that is necessary to the maintenance of its species, and which extends itself no farther than it can find the re- union of such conditions. Thus, although the wolf and the fox inhabit from the torrid to the frozen zone, scarcely do they display, in this immense interval, any other va- riety than a little more or a little less beauty of pelage. On comparing the cranium of the fox of the north and the fox of Egypt with those of France, no other than indivi- dual difference is observable. Savage animals confined to closer limits vary still less; particularly the carnivora; a larger mane is the only dif- ference between the hyena of Persia and that of Morocco. Wild herbivorous animals experience a little more evi- dently the influence of climate, because there is joined thereto a variety of nourishment, which differs as much in quantity as quality ; thus elephants are larger in some forests than others; they have the tusks a little longer in those places where the nourishment is more favourable to the formation of ivory. It is the same as relates to the horns of the reindeer or the stag. But compare together two elephants of the same species the most dissimilar, and no difference is observed in the number or articulations of bones ; in the teeth, magnes. ustae. gss.; mix them in a pint of water, and take from a wine glassful to a tea cupful every two hours. Or, $fc. rad. rhei. contus. §ss., fol. sennae 3j., sem. cardam. 3ij.; de- coct in one pint of water. The dose is one wine glassful every two hours, until the bowels are evacuated. At this stage of the disease, patients will require large doses of the cathartic ; and, if administered earlier in the case, or previous to the free administration of mercury and opiates, no quantity that the stomach is capable of containing can be made to produce a cathartic effect on the bowels. I have frequently witnessed the whole quan- tity of both the above prescriptions taken, together with the addition of castor oil, without any effect. As the ex- citement of ptyalism is of vital importance in violent cases, the blisters on the abdomen are to be dressed with mercu- rial ointment, and mercurial frictions, to a greater or less extent, are to be resorted to ; especially if any torpor or insusceptibility in this respect is observed in the patient. 576 ON DISEASES PRODUCED BY LEAD. As valuable adjuvants in such obstinate constipations, the use of turpentine injections, or injections of molasses and water, with half an ounce of table-salt, is next to be resorted to. In some cases, where the heat of the abdo- men was very great, attended with soreness on pressure, anxiety, and restlessness, with other symptoms denoting approaching enteritis, the most decided advantages have been obtained by the use of large and frequently repeated injections of cold pump water. In this manner heat is ab- stracted, and inflammation prevented or arrested. Affu- sions of cold water on the lower extremities have also been resorted to with success in similar constipated cases. This treatment, under ordinary circumstances, will seldom fail of success. One patient recovered after having displayed every character of the hippocratic countenance : a state of things, in the present instance, induced by gastric sym- pathies ; the patient^ previous to being relieved, having ejected from the stomach a large quantity of matter, re- sembling thick green paint. Cases still more violent and difficult of management re- main to be noticed. I allude to those attended from the commencement with severe irritability of the stomach and bowels, and with obstinate vomiting, the stomach ejecting every article taken. I have employed laudanum, pepper- mint, calomel and opium, and oil of turpentine, together with the external application of spices and rubefacients. When all these remedies have failed, I have succeeded in allaying the irritability almost instantly, by a remedy which would not have been " a priori" resorted to in this disorder. I allude to the powdered saccharum saturni. To the use of this article in cases similar to those detailed above, I was first led, by observing its calming effects when used to relieve the tormina, tenesmus, and gastric irritability, occurring in dysentery. The very successful results of the use of sugar of lead iftthe obstinate epidemic of the year 1820, has been al- ON DISEASES PRODUCED BY LEAD. 577 ready detailed in the preceding essay. It is there stated, that I had even resorted to the use of sugar of lead in colica pictonum, complicated with this excessive degree of gas- tric irritability; but added that I was not prepared, at that time, to speak with sufficient confidence to recommend its general use. Since this period, I have frequently used the saccha- rum saturni in dysentery, and always with the most desira- ble results; and the estimation in which I at that time held this remedy, has been frequently confirmed by the testimony of other practitioners, more especially of those of the southern states. In those cases of lead-colic, to which I have particularly referred above, I have found no remedy so well adapted to the purpose, as the sugar of lead. After having in vain endeavoured to allay gastric irritability by calomel and opium, assisted by the usual remedies, I resort to the use of the following prescription: {& cal. ppt. gr. v., pulv. opii. gr. ij., pulv. sacch. sat. gr. iij.—m. ft. pulv. : to be repeated every two hours until relief is obtained; which is generally the case after two or three powders have been taken. Injections of saccharum saturni, with opium in solution, have also been successfully used for a similar purpose. I have already administered this remedy with success in bilious fevers of high grade, where excessive irrita- bility of the stomach precluded the internal use of all other remedies. Under similar circumstances, I propose to ad- minister this remedy in yellow fever, the next opportu- nity which presents itself. In one case of cholera morbus, in an advanced stage, I administered an enema of 9i. of saccharum saturni, with 3ij. of tincture of opium. By this treatment, once re- peated, it appeared to me that the life of the patient was preserved. After the administration of this remedy in colica picto- 73 578 ON DISEASES PRODUCED BY LEAD. num, and when the stomach is calmed, the usual remedies are resorted to. The substances ejected from the stomach, in these cases, consist, for the most part, of vitiated bile, the quantity being at times exceedingly great. When the bowels have at length given way to the effects of medicine, at times, enormous quantities of feculent mat- ter, with flatus, are discharged, and if not moderated, the catharsis would endanger the life of the patient. For this purpose, if pain still remains, I give castor oil and laudanum, or, if the stomach reject this, small doses of spirits of turpentine and olive oil, alternated with lauda- num. But should torpor of the bowels still remain after the violence of the disease has been overcome, I have found a useful remedy in a mixture of castor oil and spirits of turpentine, in the proportion of a table-spoonful of the former, to a tea-spoonful of the latter. In more obstinate cases of torpidity of the bowels, under these circumstances, I have resorted to the use of croton oil, with signal ad- vantage. This was particularly the case in two patients, who, after recovery from a severe attack of colica picto- num, had a relapse, without any subsequent exposure to white lead—having been seized with catarrh from expo- sure to cold and damp. I stated, in the commencement of this essay, the pecu- liar liability of one form of this disease to terminate in paralysis of the extremities, most generally of the fore- arms. One instance only has occurred under my own superintendence ; but I have had occasion to treat several cases of this nature which had been under the care of other physicians. These patients finally recovered, with the exception of one, under the use of powdered nux vomica, caustic issues on each side of the nape of the neck, and purging medicines, continued for two or three months. Notwithstanding the utmost care and attention on the part of the medical attendant, this disease will frequently ON DISEASES PRODUCED BY LEAD. 579 terminate in inflammation of the intestines ; but this is by no means necessarily fatal, provided the attention be at- tracted in time to this symptom. Post-mortem examina- tions, at least such as occurred under my own inspection, have invariably displayed mortification of the intestines, provided mania a potu had not supervened and carried off the patient. Four cases only have terminated fatally under my own treatment. Three of these were habitually intemperate; and the other, an ignorant German, unac- quainted with the dangerous nature of his complaint, suf- fered himself to be neglected for three days previous to making application for relief. From the severity of the disease, together with the use of the necessarily violent remedies, dysentery, with co- pious discharges of blood, is not unfrequently induced; in which case, no remedy is more effectual in relieving pain and suppressing the discharge, than the pulverized saccharum saturni, in combination with calomel,.opium, and ipecacuanha. Should the blood discharged, after long continued constipation, present a grumous or coffee- ground appearance, it indicates commencing mortifica- tion, which, for the most part, speedily ends in the death of the patient. In writing the above, I have carefully avoided discuss- ing the various and conflicting opinions of authors, in re- lation both to the pathology and treatment of these dis- eases ; wishing to confine myself to a record of observa- tions which have been elicited by actual experience. It is unnecessary to add, that I feel by no means satisfied in any of the systems of practice mentioned in the Diction- naire des Sciences Medicates. 580 ANSWER TO MERAT'S CRITIQUE. Answer to Merat's Remarks on a Paper, entitled " Ob- servations on Colica Pictonum," fyc. In the "Journal Generale de Medecine," for the month of July, 1828, I perceive that the editor has done me the honour to translate my essay on the diseases produced by lead, published in the North American Medical and Sur- gical Journal, for January, 1828. Appended to this memoir in the French journal, there is a note by M. Le Dr. Merat, author of a treatise on "colique metallique." In referring to the article on lead colic, in the " Dictionnaire des Sciences Medicales," we intended no offence to the author of the very valuable ob- servations contained in it; we considered that article a fair representation of French practice. M. Merat appears to think that I should have offered more detailed observations on the disease denominated co^ca pictonum. Having carefully noted the peculiari- ties of the disease as observed in my practice, arising pro- bably from corresponding peculiarities in constitution, in variation of climate, locality, &c, it appeared to me un- necessary to enter into a more particular detail of symp- toms which characterize a disease so well known as colica pictonum. Such varieties as I have noticed, occur more or less generally in all diseases, under similar circum- stances. M, Merat reprobates in the strongest terms the admin- istration of the acetate of lead in those cases of colic where the stomach of the patient rejects every thing introduced into it. The annotator remarks, " This salt, which itself causes the disease, given to cure it! We must confess that there is in this recommendation a subversion of ideas ANSWER TO MERAT's CRITIQUE. 581 calculated to astound the imagination of the boldest prac- titioner. Unless we adopt the theory of Hannemann, who asserts, that a medicine susceptible of producing a disease, should be the proper one to cure it; we cannot conceive of a curative measure more in opposition with all received doctrines." M. Merat, in offering these remarks, has permitted his imagination to obscure his judgment. We believe he is too judicious a practitioner to be astonished at a doctrine so commonly acted on. Does not he himself advise the free administration of opium, a powerful astringent, in colica pictonum ; a disease whose principal character consists in constipation? Do not practitioners occasionally apply a blister to cure certain inflammations? Nux vomica taken internally in certain quantities will produce palsy and tetanus, yet I can speak with certainty of the beneficial effects of this medicine in these affections, when properly administered. Excessive use of ardent spirits induces mania a potu ; here too the bane will prove the readiest antidote. It will be recollected further, that I have not recommended the acetate of lead as a remedy for colic ; but merely as a palliative in those rare cases of excessive gastric irritability in which all other remedies are useless; because rejected as soon as offered. Finally, in no case have I observed injurious consequences to arise from the administration of acetate of lead, when its use was clearly indicated. 582 BITE OF A RATTLESNAKE. Case of the Bite of a Rattlesnake (Crotalus durissus, Linn.) successfully treated. On Monday, the 13th of September, 1830, Daniel Steel, a showman of living animals, in this city, was se- verely bitten by a large male rattlesnake, immediately be- low and on the metacarpal joint of the index finger of the left hand: the accident occurred about four o'clock, P. M. on a warm day, whilst he incautiously seized the rep- tile by the neck, not so close to the head but that the ani- mal was able to turn upon him. Immediately after the bite the blood flowed freely from both the fang-punctures: the parts in the immediate vicinity of the punctures be- came tumid and livid, notwithstanding the efforts of the patient at suction with his mouth—which faintness obliged him soon to relinquish. On my arrival, about half an hour after the accident, I found him extremely pale and faint, and was informed that he had fainted several times: the whole of the back of the hand was puffy and tumid, with infused non-coagulable blood, which appeared to have in- filtrated from the vessels, and forced its way through the cellular tissue ; a ligature had been previously applied on the wrist; another was now placed on the arm, the fore- arm having already commenced swelling. The situation of the wound rendered the use of cups inapplicable, ancl the flow of blood was so rapid as to make their application inexpedient. The punctures were sepa- rated some distance from each other, which rendered it requisite to excise two large portions of integument, the incisions extending down to the tendinous fascia; the blood, which flowed freely after the operation, did not appear disposed to coagulate ; cold water was now poured BITE OF A RATTLESNAKE. 583 on the wounds, in a continued stream, from the mouth of a pitcher, held at a considerable elevation, and the swollen parts in the vicinity of the wounds were forcibly pressed, in order to expel the effused blood. The patient again became very faint, and was laid in a recumbent posture. The wounds were next washed with spirits of hartshorn, several doses of which were administered internally ; but being now informed that the patient had drunk freely of sweet oil, the hartshorn was omitted, until the stomach should be evacuated by drinking warm water. A poultice of bread and water was next applied, to encourage the bleeding, and the patient put to bed. At ten P. M. I was sent for in haste; the patient was thought by his attendants to be dying. The bleeding from the wounds had been ex- tensive, the tumefaction had extended up to the arm, the inner and inferior portions of which were discoloured by effused blood: the patient vomited incessantly; he com- plained of insatiable thirst, and drank cold water every few minutes: he had pain and stricture at the pit of the stomach, great restlessness and anxiety, cold skin, with the exception of the wounded arm, which was very pain- ful : add to which, there existed delirium, singultus, diffi- culty of breathing, and pulse at the wrist scarcely percep- tible. The poultice, bandages, and all ligatures, were immediately removed ; the back of the hand was blacker and more swollen, and the skin of the fore-arm was hot and tense. As a substitute for the poultice, and in order to suppress the bleeding, which appeared to endanger the life of the patient by the debility it occasioned, large flat pieces of fresh meat, were bound on the wounds, hand, and fore-arm; before this operation was completed, the patient exclaimed, " that feels comfortable." The indi- cations arising from the present symptoms were: 1st, to allay irritation and thirst; 2d, to arrest the vomiting; 3d, to procure sleep, if possible ; and 4th, to excite the san- guineous system to resist the depressing power of the poi- 584 BITE OF A RATTLESNAKE. son, which had so emphatically manifested itself on the system in general. A mustard plaster was directed to be applied to the pit of the stomach; sixty drops of laudanum to be administered every half hour, until the vomiting be arrested ; after which the following bolus, to be taken every two hours until sleep should be induced: Jt. Pulv. opii, six grains. Pulv. gum. camph. eighteen grains. Pulv. carb. ammonii, thirty grains. M. ft. in three boluses. Sig. as directed. Of these pills he took three before the effects desired were manifested. On the morning of the second day his pulse was raised; the extreme thirst and irritability of the sto- mach were allayed, and reaction of the system in several respects was manifested, but the tumefaction of the arm had extended to the shoulder, with broad black streaks up to the axilla: stricture at the breast, and great local pain were now the chief complaints. The application of raw meat was renewed, as it afforded comfort to the pa- tient, and appeared to reduce the swelling of the hand, and, by pressure, had nearly suppressed the hemorrhage. In order to allay the pain and tension of the whole arm, he was directed to expose it naked to the fumes of burnt wool, in a convenient apparatus; which was attended by such marked alleviation of symptoms, that the patient him- self was desirous jto have the operation frequently repeated, and continued for two or three days; the swelling always diminishing after each application : it caused the arm to perspire profusely, and covered it with a blackish soot impregnated with ammonia, resulting from the decompo- sition of the wool. During the intervals, the arm was rub- bed with volatile liniment. The raw meat having become offensive from its disposition to ferment and putrefy, was omitted, and flaxseed poultices substituted ; the anodyne boluses wTere continued in half doses through the day, and the quantity increased at night to produce sleep. The system again became depressed, and appeared to struggle BITE OF A RATTLESNAKE. 585 with the effects of the poison; as the patient had been somewhat addicted to intemperance, he was allowed milk- punch to support his strength. On the third day, a great- er degree of reaction was obvious; the bowels were eva- cuated by castor oil; the dose of the anodyne was dimi- nished, and by carefully nursing the arm, in less than a week suppuration supervened, and the patient was able to leave his bed. Remarks.—In the case above detailed, the resort to suction by the mouth, and the application of cups being prevented by uncontroulable circumstances, and the local and constitutional symptoms being already in some degree developed, there was no alternative but to resort to those general principles of treatment, which, when properly and timely administered, will seldom fail of success; there was no " specific" at hand, nor do I place any confidence in the thousand " infallible remedies" which are offered in such cases. (The reader is referred to an antecedent essay in this volume, for observations on several of these remedies, and a detail of experiments with one of the most noted of these specifics, made by the author in 1828.) Of the many instances of wounds from the bite of the rattlesnake, perhaps not more than one out of ten would prove mortal if left to nature ; and perhaps not more than one out of five cases would be followed by constitutional symptoms. It has been also satisfactorily ascertained, that of the many hundred men and animals bitten by rabid ani- mals, not more than one case out of twenty is followed by hydrophobia: a fact, in itself, sufficient to account for the origin of the innumerable " specifics" in both the cases under consideration. Nevertheless, several instances of death from the bite of the rattlesnake, in adult men, have unquestionably occurred within my own recollection. 74 586 ClANGRENA SICCA. Gangrena Sicca, or G. Senilis. Dry gangrene, occurring in aged and enfeebled bodies, is generally referrible to ossification of the arteries of the extremities ; but this affection is not peculiar to old age : at different periods of life the fingers and toes are liable to dry-rot, from ossification of the arteries of the heart or of the aorta; in either case death is generally the conse- quence. In the latter instance we have observed a sudden and violent termination of life unexpectedly, the consti- tution of the patient being apparently not materially af- fected. Another cause disposing to this morbid affection, con- sists in certain articles of diet, and, among others, horned rye is a most frequent cause: this is a diseased state of the grain, induced by insects ; it is also a powerful medi- cine in some affections, administered under the name of Secale cornutum, or Ergot. There are, no doubt, other impure articles of diet capable of inducing the same mor- bid diathesis. It is further not improbable that external noxious applications may be followed by gangrena sicca. When this disease occurs in any other case than that of old age or arterial ossification, the constitutional symptoms either precede or attend the mortification, and a success- ful treatment depends upon our knowledge of the charac- teristic symptoms, and of the means of combating them. The following is an illustrative case :— Oct. 27, 1834.—Mary Snyder, aet. 22 years. Admit- ted a patient in the Philadelphia Alms-house Infirmary. She was born and had resided in Catawissa county, Penn- sylvania, where she remained until four years since; at which time she removed to Philadelphia. Occupied in washing and house work. Her general health had been GANGRENA SICCA. 587 good, with the exception of rheumatism during the last year of her country residence : she had never seen a case or heard of one, similar to her present disease. About three weeks since experienced a numbness and uneasiness in the hands, and particularly in the extremities of several of the fingers, with now and then pricking pains, as if from a wound of a needle; which symptoms were aggra- vated on attempting to seize on any thing. She continued to experience these symptoms about one week before she observed any discoloration of the affected parts, when « small vesicle was first observed on the extremities of the fingers, resembling a fester; afterwards a small black or bluish spot appeared, which soon became perfectly black, hard, and insensible. Oct. 27th.—When she entered the house, the two first fingers of the left hand were perfectly black, hard, and insensible, as far as the roots of the nails ; the ring-finger, also, tender and painful to the touch. The skin of all the digits hardened. On the right hand the index and fourth fingers were partially discoloured at the tips. There was no local redness. The pain in the fingers increased at night—sleep disturbed—tongue furred—spirits much depressed—appetite impaired or absent—pulse 120— strength low. Oct. 28th.—11, A. M. I visited and prescribed for the patient. Jfc. Pulv. G. Camph. gr. iv. Pulv. G. Opii. gr. ss. Pulv. Sal. Volat. gr. vi. M. ft. pulv. Sig. One every three hours. Also, Jfe. Pil. Coerulae. gr. v. Pulv. Rhei. gr. v. M. pil. One every night at bed-time. And in the mean time to expose her hands frequently in a covered vessel to the fumes of burning tar and wool. 588 GANGRENA SICCA. Nov. 4th.—The treatment has been uninterruptedly continued up to the present date, with sensible improve- ment of the general system :—pulse reduced to 100—skin more natural, and softer—appetite improved—bowels re- gular, (from being torpid)—tongue clean, &c. Locally', nearly all the fingers of both hands became discoloured, but not blackened—the skin in the vicinity of the dry gangrene became red and inflamed, and slightly tumified —the gums were touched by the blue mass—the progress of the mortification was arrested, and the dead parts came off kindly. The patient was resigned to the care of Dr. Gibson, my successor, who merely applied blisters to the neigh- bouring parts, and proposed no additional measures. Dec. 15th.—Recovering, with the loss of three ultimate phalanges of as many fingers. During the month of October, 1835, we have had oc- casion to treat, successfully, another case of gangrena sicca, by the same constitutional remedies, independent of any application to the affected part. The patient was a man, aet. 53, a sailor by profession. The disease was situated on the ridge of his nose, near the tip—in which he first experienced pain, without being able to refer it to any cause; the part, subsequently, became successively yellow, red, and black; a portion, the size of a sixpence, sloughed off, down to the cartilage. VISCERAL PROLAPSUS. 589 Case of extraordinary Visceral Prolapsus, complicated with Omental Hernia, successfully treated. Philadelphia Alms House Infirmary, August, 1829. Eliza Gallagher, aet. 26, was admitted into the surgical wards. She has been accustomed to take three or four drachms of opium every week. She has been subject to dysentery for the last four months, attended with much tormina and tenesmus, during the greater part of which period she has laboured under prolapsus ani. She has had no medical assistance. The patient remained in this state until about a week since, when the uterus descended. This morning, 27th, a sudden exacerbation of all her symp- toms occurred; in this situation she walked a mile to the Infirmary, without much inconvenience. At 10, P. M., I was requested to visit her as the prescribing surgeon ; on examination, a horrid and confused mass of disease pre- sented itself—nearly a third portion of the viscera appear- ed to have left the abdominal cavity. On examining more at leisure the protruded parts, they were recognised as an extensive prolapsus of the rectum, bladder, and uterus: but what added increased interest and difficulty to the case, was a mass of omentum, six inches in length, thick- ened and hardened by inflammation and deposition of co- agulable lymph, which appeared to be attached to the protruded rectum, several inches above its termination— which, on closer inspection, was seen to pass through an ulcerated opening in the gut, by which it had been stran- gulated, and to the borders of which it slightly adhered. A ligature was applied to the strictured part, and the protruded portion removed by excision, after which all the remaining parts were, with some difficulty and pain, 590 VISCERAL PROLAPSUS. gradually restored to their natural situation. A candle was introduced into the rectum, and the parts retained in situ by compresses and the T bandage ; constant applica- tion of lead-water and spirits of camphor was directed, and the following powder to be taken immediately: Pulv. opii. and pulv. camphor, aa gr. iij., acetas. plumbi. gr. ij. M. At 3, A. M., she took, in addition, one drachm of tinct. thebaic. 28th.—8, A. M.—The patient is as comfortable as could be expected; is easy from the narcotics, but complains of abdominal soreness when moved ; pulse begins to rise, and the system to re-act; the parts remain in situ. 11, A. M.—Pulse is small, but very tense; complains of much pain and tenderness of the abdomen ; tongue red, and disposed to dryness; thirst considerable.—Ordered venesection §xx.; the powder to be repeated; warm fomentations of hops to be kept constantly to the abdomen, and w7arm lemonade for drink. Evening.—Has been asleep, off and on, ever since she took the last powder; complains of great soreness when she moves, but is easy when quiet; tenderness extends all over the abdomen ; head free from uneasiness ; bowels remain quiet; pulse small, quick, and tense; the blood drawn is not buffed or sizy.—Ordered forty leeches to the lower part of the abdomen. 2, P. M., the patient sleeps. 29th.—9, A. M.—Feels better this morning; tender- ness much diminished; the dressings have been neces- sarily disturbed, and the uterus again prolapsed. It was returned, and the bandages re-applied. Skin is cool ; pulse small, slightly tense, 108 per min. ; stomach irrita- ble, with great thirst. She is indulged with warm tea, and takes occasionally the effervescing draught; also the following powder: Acetas. morph. gr. ss., pulv. camph. gr. iij., acetas. plumbi. gr. ij. M. 5, P. M.—Complains considerably of pain, the effects VISCERAL PROLAPSUS. 591 of the last narcotic dose being worn off. The opium powder to be continued, also the fomentations and wash of lead water and spirits of camphor. 7\, P. M.—Bowels open; the stool very thin and dark- coloured, and fetid. 30th.—Slept well last night, and feels better. Another alvine evacuation similar to that of yesterday. Pain has nearly disappeared ; complains only of soreness in the uterine region ; of nausea, and emptiness—having eaten nothing since she entered the ward. Ordered to repeat the powder, with the addition of oleaginous mixture, and be allowed beef tea, crackers, &c. 7, P. M.—Has taken only two table-spoonfuls of the oleaginous mixture, by which she was purged four or five times ; pain in the hypogastrium increased, with consider- able tormina and tenesmus; pulse small, 110 per min.— Ordered a tea-spoonful of laudanum, and to use the fol- lowing as a suppository : Pulv. opii. et ext. hyosciami. aa gr. iij. 10, P. M., purging continues; ordered to re- peat the last prescription. 31st.—Pain diminished ; bowels still open ; pulse 112. Ordered to take one tea-spoonful of laudanum, and con- tinue beef tea. 7, P. M., alvine evacuations more na- tural; pain has disappeared; pulse full and tense; omit beef tea. 12, P. M., pain returned. Ordered a tea-spoon- ful of laudanum. Sept. 1st.—Has some pain and soreness; alvine dis- charges still improving. Ordered to repeat the suppo- sitory, and take gr. ss. of sulph. morph. 11, A. M., some fever, but little pain ; pulse tense and quick. Ordered nitrate of potass gr. x. every three hours, and barley wa- ter for diet. 7, P. M., pain and purging have returned ; pulse tense; has taken If grs. of sulph. of morph. with- out benefit. Ordered nitre to be discontinued; to re- peat the laudanum, and have forty-five leeches applied to the abdomen. 592 VISCERAL PROLAPSUS. Sept. 2nd—Became easy after taking two doses of the laudanum ; purging continues ; pulse of good volume, and 108 per min. 1, P. M., complains of pain and soreness in the iliac regions; pulse small and tense, 128 per min. Ordered forty leeches to the seat of pain, and to repeat the laudanum, to relieve the purging and griping; com- plains, also, of fluttering and palpitation of the heart, for which she is to take a tea-spoonful of the following mix- ture, occasionally: liq. anodyn. Hoff. 3iij., laud. 3i. M. Sept. 3rd.—All the symptoms relieved, and continued gradually to improve until the 7th of Sept., when she was considered cured. The patient remained some months in the Infirmary, and was employed as nurse. STERILE MAMMiE, 593 Case of Prolific Uterus and Sterile Mammse. The present case of abnormal function is briefly noticed as one of those remarkable instances of the aberrations of nature, which are occasionally to be met with in civilized society. Oct. 27th, 1820.—My professional services were re- quested by Mary Ann Gready, aged thirty years, native of the north of Ireland. She assures me that she is the youngest daughter of twenty-two children, thirteen of whom attained maturity: her mother never secreted a drop of milk wherewith to nourish her infants. Mary Ann, the subject of the present observations, I have just delivered of her thirteenth child, a perfectly formed fe- male. Out of these thirteen progeny, two were aborted, from accidents ; two were premature ; four are living; and five died from disease. On the third day after par- turition, the mammae are observed to swell a little, and to become slightly painful; on the fourth day they subside again. About the third week after parturition, a stomachic affection supervenes, such as pain, eructation, nausea, vo- miting, and other dyspeptic symptoms, which continue until she again becomes pregnant, which has always oc- curred in five months after delivery. No uncommon ap- pearance of the mammae is perceptible—they being ade- quately developed. 75 594 EXTRA-UTERINE FETATION. Case of Extra- Uterine Fetation. June 5th, 1820—I assisted Dr. Parrish in the exami- nation of the body of Mrs. Henrietta Ware, widow of the late Captain David Ware, near the Swedes' Church, Swanson street, Philadelphia. Autopsy twenty-four hours after death. The patient had been under the care of many physicians during the long period of suffering to which she had been subjected; whose opinions of the case were various, none apparently being convinced of the true state of the patient. The last prescribing physician was Dr. Thomas T. Hewson, who was absent from the city when the patient died. The history of the case, which we received from the friends of the patient, is as follows. Seventeen years ago, that is to say, in the year 1803, Mrs. Ware was married. At the usual final period of gestation, Dr. Dunlap was consulted as accoucheur, who, upon examination, declared that none of the usual symptoms of approaching labour could be distinguished, notwithstanding the regular oc- currence of pain, &c.—and the tumor was referred to some other cause, to ovarian dropsy, or enlargement of some other part. Professor Wistar was subsequently con- sulted, who concurred in the opinion of the accoucheur; and the patient was treated accordingly, but without re- lief. The uterine system soon resumed its natural function, and the patient had only ceased to menstruate three months previous to death. The disease finally assumed a hectic form, which eventually terminated a life of much anxiety and pain. The patient herself, as well as her most intimate friends, EXTRA-UTERINE FETATION. 595 always insisted that a living child had existed in utero, a conclusion to which they were led by what they conceived to be indisputable evidence. Although the patient had continued for many years in the connubial state, she never subsequently conceived. Her body was examined at her own request. Autopsy.—On the examination of the abdominal tumor externally, the existence of bone within was evident to the touch. On grasping the integuments, which had become extremely thin from absorption, the bones of the foetal cra- nium could be made to overlap each other. There existed two small fistulous openings through the linea alba, just below the umbilicus, through which there had been for some time an extremely fetid discharge ; the integuments adhered firmly over the anterior part of the tumor, par- ticularly at the upper portion. The tumor occupied a central position in the abdomen, but forced, by long continued pressure of the muscles, deep into the cavity of the pelvis, and measured about seven inches in diameter. Some portions of intestines adhered to the sides of the tumor; these were left attached, and the whole mass re- moved from the body. The bladder occupied its usual position. The uterus was perfectly natural in size and structure—not the least appearance of a cicatrix was ob- servable on opening its cavity; on the right side, the fal- lopian tube, the ovary, and ligamentum rotundum were natural: on the left, the ovary had either been removed by pressure and absorption, or destroyed in the dissection; the os tincae and vagina were also of natural appearance. On opening the sack, the contents proved to consist of a full grown male foetus, presenting the position of a breech presentation, or fourth position of Baudelocque. It was more or less destroyed by putrefaction in those parts which had been exposed to the fistulous openings in the sack: the parietal bones were nearly bare, the scalp being nearly oyO EXTRA-UTERINK FETATION. destroyed;—the soft parts in general, as well as the carti- laginous epiphyses, were destroyed or altered in texture in those parts most exposed to the influence of the external air—previous to the openings into the sack, and conse- quent admission of atmospheric air, the whole foetus was doubtless in a perfect state of preservation. The brain filled the cranium, and the dura mater and pia mater pre- sented nearly a natural appearance;—the brain was soft, and of a reddish complexion; the chin and face were bent upon the thorax, and by pressure had left an indentation upon the sternum. These parts remained in the most per- fect state of preservation, all the features being perfectly natural. The skin of the face, breast, and abdomen, was of a dark dirty-white colour, the integuments of the same parts being of considerable firmness. The thighs were thrown upwards so as to cover the forehead: the genital organs, together with one hand and one foot, were well preserved. The spine and ribs, and all such bones as are early ossi- fied, were perfectly sound. The sack was next removed and separately examined; it was less than one-half the thickness of a gravid uterus, thinned by ulceration in some places, entirely ulcerated through in others: two valvular openings penetrated the tendons of the abdominal muscles; two others communicated with the cavity of the intestinum ilium, which was attached to the right side of the tumor by means of its portion of mesentery, for the length of fif- teen inches; the upper portion only of the gut itself ad- hered to the sack, through which was the ulcerated open- ing above mentioned. Through these passages the foetus might in time have been gradually expelled or discharged by the efforts of nature alone, had not the system sunk under the effects of irritation. On the inner side and up- per portion of the sack, near to the opening into the gut, was observed the placenta, considerably diminished in size, it is true, and altered in texture, though entire; it EXTRA-UTERINE FETATION. 597 was of a whitish colour, and of almost a carti'aginous con- sistence; directly opposite to the placenta, on the outside, the sack firmly adhered to the iliac portion of the mesen- tery, about one inch clear of the gut. The umbilical cord, that portion of it next the placenta, was destroyed, but several inches of it remained attached to the umbilicus; one turn was also left around the neck of the foetus. On the inner side of the sack, in several places, was observed some calcareous lamellated incrustations. The prepara- tion was preserved in spirits, and remains in the cabinet of Dr. Hewson. In this rare and melancholy case, it is much to be re- gretted that the true situation of the patient was not im- mediately comprehended, as the Caesarian operation ap- pears to have been not only justifiable, but would have been attended with but comparatively little danger, pro- vided the adhering portions of the sack were left in the abdomen: but the difficulty of ascertaining the nature of the tumor in the early stage, must have been considera- bly augmented by the thickness of the abdominal parietes in a natural state, or previous to their partial absorption from pressure. The lungs of the foetus were of a healthy appearance and structure; the liver was small, but not deranged in structure: the remaining viscera were natural. The present case, perhaps, constitutes the only instance of real extra-uterine fetation on record ; that described as such by Mr. Turnbull, appears more like a case of rupture uteri. (Vide Mem. of Lond. Med. Soc. Vol. III. p. 176, which refers to fifty or sixty cases of extra-uterine fetation and rupture uteri, not one of which was abdomi- nal, or came to full period.) 598 EXTRA-UTERINE FETATION. EXPLANATION OF THE PLATE. Fig. 1. Anterior view of the tumor, out of the body—one-fourth the size of nature. A. The abdominal tendons, thrown back. B. A portion of the intestinum ilium. C. The mesentery. D. A duplicature of the peritoneum. E, F, G. The uterus, os tincse, and vagina. H. The fallopian tube. I. The lateral ligament, torn, so as to show K, the ovary. Fig. 2. Posterior lateral view, out of the body—one-fourth the size of nature. L. The rectum. M. The mesorectum. N. The intestinum ilium. O. The mesentery. Fig. 3. Foetus—one-half the size of nature. Fit>'/ U Sck< vi' .Ya/crr 4 .. "^MW '-:*m ■^. #.J6 AW/..4'-. ''^ S/,xe <'/'J7iyti/r<- i',! -^ .;# '■ 'V..V' :'f. / ;%\ lig::J. ''* SimefAhturi fl, 3 «|Sfe-i '"" : ■f: ¥0r-- '<... ■ ' ■*@&r--7 ■i MM. '^fe ...V"^';-. ■ ■i -.-•.-■ ■."'. . ANTHRAX AND MALIGNANT PUSTULE. 599 Observations on the Treatment of Anthrax and Malignant Pustule. Anthrax or carbuncle are names by which we desig- nate an indurated inflamed tumor, characterized more particularly by a burning sensation in the part, and lo- cated in the skin and sub-cuticular cellular membrane. In the pain, heat, and redness, attendant on this affection, and which has been compared to the sensation produced by the application of a burning coal, has originated the names by which it is generally designated. Carbuncle is most common in aged and debilitated con- stitutions, especially in such as have been enervated by previous free living and indolence; but is by no means peculiar to such. The inhabitants of Hindostan, who are strictly confined to an exclusively vegetable diet, are very liable to this affection after the age of forty. We have rarely witnessed a case of carbuncle, in any instance, under the age of thirty. The immediate cause of this af- fection is occasionally referrible to local irritation, but frequently no local cause is assignable. The disease is always attended, and usually preceded, by impaired ap- petite, and other symptoms of derangement in the chyli- poietic viscera, with more or less irritative fever. It has been long observed that the usual antiphlogistic measures, applied for the purpose of reducing local in- flammation, will fail in bringing to a resolution a carbun- cular swelling, when once fully established. The " methodus medendi" has been various and con- tradictory. Observing the tendency of this kind of in- flammation towards ulceration and mortification, some 600 ANTHRAX AND MALIGNANT PUSTULE. practitioners have considered the cause of the disease to be essentially one of debility ; a notion as dangerous as it is unfounded. It is true that in elderly persons, or in im- paired constitutions, a state of feebleness often supervenes, requiring a generous diet and the administration of wine, bark, and other stimulants; but in most cases, a treat- ment more or less antiphlogistic, will be found requisite. Purges, alteratives, and sudorifics, will generally correct the vitiated state of the digestive apparatus, whilst the most approved method of local treatment remains yet a subject of dispute. From the work of one of the most eminent of modern authors, we quote an extract to show the treatment pur- sued by the practitioners of England. We allude to the valuable lectures of Wm. Lawrence, Esq., as delivered at St. Bartholomew's Hospital.—"There is, however, a mode of treatment which is fully effectual in relieving the patient at the moment, and in preventing the further pro- gress of the disease; at least in a great number of cases. This consists in making a free incision through the whole of the inflamed cellular membrane, and the skin covering it. Such incisions produce a considerable discharge of blood from the parts, and these no doubt relieve the local inflammation ; they set at liberty the parts which have been in a state of inflammatory tension, and thus they give great and immediate relief to the patient. After the per- formance of these incisions through the carbuncular swell- ings, which, by the way, I should mention to you, are in an extremely sensible state, patients generally feel them- selves comparatively easy and free from a condition of the greatest suffering. These incisions have the further ef- fect of giving free issue to, at all events, a great number of the suppurations that are disseminated throughout the carbuncular mass ; and thus they tend to bring the com- plaint to a crisis, and to prevent the extension of the in- flammation in circumference. General experience has so ANTHRAX AND MALIGNANT PUSTULE. 60f fully established the advantage of this treatment, both as to the immediate relief afforded to the patient by it, and as to its influence in preventing the extension of the dis- ease, that it is now very universally practised ; and that person may justly be said to be ignorant indeed of his pro- fession, who would neglect to proceed to its performance to its full extent, in carbuncular diseases. Now you must proceed pretty boldly in making these openings, for if you make a small opening, so as merely to let out a little blood, you may just as well do nothing at all. You must cut through the whole length and the whole depth of the part, and, therefore, you will often have to cut two or three inches in depth. Unless you do this, so as to get to the base of the hardened cake, you do not accomplish the pur- pose ; and if it should require the depth of three or four inches, it is of no consequence, you must go down to it." Any rule of practice, emanating from an authority so deservedly estimated as that of the learned lecturer just quoted, demands respectful consideration ; but judging from our own experience in such cases, which has been by no means of limited extent, in the treatment of car- buncle, we cannot conceive of a surgical operation of a more cruelly painful nature—amputation of the limb is not to be compared to it—we never attempted it but once, and feel assured we shall never again resort to it: and we are happy to be able to assert, that such an operation can never be requisite. Having applied the remedy which I now offer as a substitute, in every variety, and in every stage of the disease under consideration, I have not in a single instance met with disappointment; nor have I ever failed in effecting a cure, unless in a very few cases, in which extensive mortification had already existed for some time previous to its application, and occurring in very aged and enfeebled persons. Applied in the earlier stages of the disease, it immediately arrests the specific action, and establishes healthy suppuration, whilst in the ulcera- 76 002 ANTHRAX AND MALIGNANT PUSTULE. tive stage, it very soon changes the morbid action, and at a still more progressed stage, it separates the sloughs, and produces a healthy sore. The remedy to which we allude, consists in the liberal application of the caustic alkali, followed by the imme- diate application of a bread and milk poultice, for which, the application of a mixture of Basilicon ointment and spirits of turpentine is occasionally substituted, in order to hasten the separation of the sloughs; this, with the ne- cessary attention to the constitutional symptoms, the treat- ment of which is to be modified according to the state of the system, is all that is requisite to the cure of carbuncle. The same treatment is so entirely applicable to malig- nant pustule, as to render further observations on this affection unnecessary. I have applied it with equal effi- cacy in cases of sloughing cheek of infants : also to vene- real sloughing ulcers—first cutting through the dead cel- lular mass, in order to apply the fluid caustic to the living parts beneath. Whilst alluding to inflammations disposed to terminate in gangrene or sloughing ulcers, I embrace the opportu- nity to add the testimony of my experience of the very important improvement in the mode of treatment in a pe- culiar case not unfrequently leading to fatal results: this improvement is due to Dr. J. Hartshorn of this city, by whom my attention was first called to this method twenty years since in his practice in the Philadelphia Alms House Hospital. The case alluded to is that of urinary infiltration into the cellular membrane, either in the peri- neum, scrotum, or neighbouring parts. The treatment consists in making free incisions through the skin over the effused fluid, followed by light pressure, and occasionally in the application of caustic alkali to the wounds, to faci- litate the discharge of the sloughs, which are always the consequence of such infiltration. CASES OF POISON, &C. 603 Cases of Poison from eating the Seeds of the " Euphor- bia latus." It is not generally known that this species of noxious euphorbia exists in the vicinity of Philadelphia. The following cases illustrate the effects of this poison on the human system. October 16th, 1819.—Saturday evening, was called in haste to visit the son of M. L., aged five years; in the afternoon the child had eaten six small seeds, part of a quantity which his sister, aged about eight years, had picked from a weed on the common, and presented him with, after having eaten a much larger quantity herself. The girl soon vomited and threw them off the stomach, but the boy retained them a considerable time, when they at length occasioned the most violent retching and vomit- ing, with excessive purging, so as to suspend respiration for a short time, and occasion suffusion of the face. Some hours had elapsed, after the accident, before I saw the pa- tient, at which time the vomiting had ceased, and stupor had supervened, with dilated pupil; he was with difficulty aroused by cold effusions. An emetic was administered, followed by a small dose of calomel and castor oil. The day following the patient appeared quite recovered. On visiting the spot from whence she had obtained the "berries," I obtained specimens of the plant, and a quan- tity of the seed, and on presenting them to the late Abbe Correa de Serra, he pronounced the plant to be the Eu- phorbia talus, a species which he had not before noticed so far south as Pennsylvania. 604 ANEURISM OF THE PULMONARY ARTERY. Case of Aneurism of the Pulmonary Artery. September, 1814.—Assisted Dr. Parrish in the exami- nation of the body of Capt. Man—a middle-aged person of robust constitution. His disease had never confined him to his house, and the day preceding his death, he called on Dr. P. and complained of dyspnoea, and pain in the back of his neck. His symptoms were referred to stricture of the oesophagus, and Professor Wistar, who was consulted, advised the use of the probang; the pa- tient deferred this operation, and during the same night was attacked with increased difficulty of breathing, and exacerbation of all his symptoms. A bleeder being sent for, he lost some blood, with temporary relief—but in a short time after, he expired in convulsions. Autopsy, about eighteen hours after death, very unex- pectedly developed an aneurism of the pulmonary artery —the sack of which had extended so far back as to press upon the oesophagus, and produced symptoms of stricture in that part. There was considerable effusion in the lungs, and a lump of coagulated blood in the trachea, near the glottis—which most probably occasioned his sudden death. The effusion was occasioned by the rupture of the aneu- rismal sack, which was adhering to the air-cells of the lungs. There are very few cases of aneurism of the pulmonary artery on record. In the present instance, it was a for- tunate circumstance that the probang was not used, other- wise the patient would, most probably, have expired in the hands of the operator. OBSERVATIONS ON MALIGNANT CHOLERA. 605 Observations on the Malignant Cholera, as it occurred in Philadelphia, in 1832. The epidemic, Malignant Cholera, which was first re- cognised under this name, as a disease " sui generis," in the vicinity of Calcutta, in the year 1817, and whose de- structive influence progressed slowly towards the west— overrunning the greater part of Asia and Europe, destroy- ing several millions in its march—crossed the Atlantic, and reached the shores of the new world, in the year 1832; on the 8th of June of which year, the first case of the malignant epidemic occurred in Quebec, Lower Ca- nada. The most scrupulous inquiry into the history of this scourge, as it prevailed in North America, does not furnish us with any well authenticated facts to prove its importation: or that the disease, under ordinary circum- stances, is capable of communication by contagion; and although the progress of the epidemic appears to have been in some degree modified by human intervention, yet we can only refer, as the cause of so universally prevalent a disease, and one so imperceptibly modified by climate and country, to the combined operations of the telluric and celestial influences. Immediately on the receipt of the intelligence of the prevalence and devastating ravages of the pestilence in Quebec and Montreal—both of which cities were simul- taneously afflicted, the City Councils of Philadelphia, with a discrimination and alacrity which cannot be too highly estimated, established a " Sanitary Committee," whose judicious operations were very effectual in calming the excited feelings of the public. At their second meeting, 606 OBSERVATIONS ON MALIGNANT CHOLERA. this Board appointed a " Consultation of Physicians," on whose recommendation it was resolved by the Board to " send a mission of three experienced physicians to Ca- nada, at the expense of the city, to inquire into the ori- gin, nature, progress, &c, of the prevailing epidemic." And, accordingly, on the 22nd of June, Drs. Jackson, Meigs, and Harlan, members of the consulting board, were deputed on this mission, and left Philadelphia on the 23rd of June. They arrived at Montreal on the 28th of the same month, and immediately entered on the duties of their mission. At this period the disease had subsided as to the number of cases, but was by no means lessened in malignity. Our personal observations were more immediately directed towards the patients admitted in the " Cholera Hospital," commonly known by the name of " the Shed," which consisted of a miserably construct- ed hut, immediately on the left bank of the river St. Lawrence, in the suburb of St. Ann, one and a half miles from the city. This hospital, which might almost be called a living cemetery—so great was the mortality which destroyed its wretched inmates—was deficient in every thing essential to an establishment of this nature. It proved, however, a good school for observing the disease in its most malignant form, and for investigating its morbid anatomy. Including emigrants and transient visiters, the inhabi- tants of Montreal are estimated at 26,000. It was sup- posed that about 2000 citizens abandoned their homes on the appearance of the epidemic. The degree of mortality may be estimated by the following official register of deaths, during a period of seventeen days, which, how- ever, did not include all the cases during that period. llth, 8 deaths. June 18th, 112 deaths. June 25th, 36 death* 12th, 2 19th, 141 26th, 44 13th, 27 20th, 100 27th, 39 14th, 56 21st, 89 --- 15th, 101 22nd, 55 Total 1047 in 17 16th, 80 23rd, 39 daya. 17th, 81 24th, 37 OBSERVATIONS ON MALIGNANT CHOLERA. 607 It is not our object, here, to trouble our readers with mi- nute details concerning this professional visit to Canada— a full account of which may be found, by reference to the Report of the Mission to the City Councils, which was published in pamphlet form, including the writer's visit to the Caughnawaga Indians, on the right bank of the river St. Lawrence, who suffered much by the prevailing epi- demic. We except, however, a few of the numerous cases of post mortem examinations which we witnessed or instituted ourselves—these having never been pub- lished. Post Mortem Examinations made at the " Shed," in Griffin town, Montreal. Case 1st.—June 29th, 1832—7, A. M.—Present at this dissection, besides the operator, Dr. Beaubien—Drs. Coleman, Jackson, Meigs, Mifflin, and Harlan. The subject, O'Connor, a shoemaker, an Irishman, aet. twenty-three years, resident three years in Montreal, lately resident in Griffintown, not very far from the Hos- pital. He was sick eighteen hours. Died in ten minutes after reaching the shed, at seven A. M. Took no medi- cine. The face pale, with deeply sunken eye. The body rigid, hands contracted, the face not presenting the ap- pearance of great age, or wrinkles—the finger nails of a dark colour, approaching to blackness. The autopsy commenced twelve hours after death. On exposing the body, the belly and back were of a bluish-red colour. Did not notice the extraordinary shrinking of the surface and extremities, so often spoken of by writers. The abdomen of an absolutely natural fulness and plumpness. Spinal Marrow. The spinal canal of the vertebrae having been opened, a OBSERVATIONS ON MALIGNANT CHOLERA. considerable quantity of blood was found on the outside of the theca. Upon cutting off the spinal marrow about op- posite to the tenth dorsal vertebra, and drawing it out of the canal, there was a very white and cotton-like tissue, by which it adhered to the anterior part of the canal. There was no bloody effusion into this cellular tissue. The pia mater of the cord injected and red. The cord, on being cut open longitudinally, was bluish, with evident injection of the vessels ; the whole was firm. Thorax and Abdomen opened, by a sweep of the knife extending from the cartilages of the upper ribs on the left, along the side of the abdomen and edge of the pelvis, around the body in a corresponding direction on the op- posite side up to the top of the sternum, by which the an- terior covering of the abdomen and the sternum were turned up over the face. In this manner we had a full view of the contents of the belly and chest, in their natu- ral situations. The tint of the whole coup d'asil was a red- dish blue, or rather violaceous, so as to strike all the spec- tators. The peritoneum was dry—the lungs not grey, but red- dish like the lungs of young children; when cut into they were bloody; they were of a natural consistency: they did not crepitate ; they collapsed when exposed. Heart of a natural size, flaccid to the feel—coagula in the right ventricle, and much fluid black blood—in the left also there were coagula of black fluid blood, " which," to use the language of Dr. B., " is very scarce." The in- testines—in mass of a dark violaceous hue. The perito- neum, as before remarked, blue, but where it laid over the proas muscle, it presented on being lifted up, the ap- pearance of very extensive ramifications of vessels, exhi- biting the same blue or violaceous tint. The intestines, externally, were universally injected. The spleen being small and dark blue. The mesenteric glands seen were very numerous, and enlarged to double their natural size OBSERVATIONS ON MALIGNANT CHOLERA. 609 in most of the specimens. Mucous surface of the stomach dark violet. A living lumbricus, in the upper jejunum, and four others much lower down in the small intestine. Boiled potatoe (a small piece,) in the stomach ; glands of the stomach enlarged; patches of red discerned in va- rious situations in the mucous surface, the mucous lining easily scraped off with the finger nail. Mucous surface of the whole intestine violet; the muciparous glands of the ilium near the ptulpian valve, inflamed, with arborescent injection. Liver collapsed ; gall bladder distended with yellowish brown bile. Brain.—Dura mater violet. Pia mater violet and in- jections visible; large venous trunks full of black blood; the whole of the blue cholera colour. A horizontal cut into the brain carried quite across, showed the bluish tint both in the cortical and cineritious portions, and the pons varolii decidedly cholera blue upon being incised. On turning the body on its anterior face, for the pur- pose of opening the spine, water flowed from the mouth: much gruel like fluid in the small intestines. Case 2d.—June 30th, 6| o'clock, A. M.—L. Williams, aged 40; white man. Arrived from Bristol three weeks ago: was attacked at 11 P. M., 28th, and died at4 o'clock, P. M., 29th : illness of seventeen hours : underwent very little treatment: symptoms of deep-blue malignant cholera. External Aspect.—Muscles contracted and hard, re- sembled that of a subject lying for weeks on the dissect- ing table, and beginning to putrefy: colour of the face like that of a person wrorking in charcoal dust: chest and abdomen the same, but of a lighter colour. Spinal marrow exposed from the third cervical verte- bra to the last dorsal: externally, collection of turgid blood-vessels: the cord removed, the pia mater was ob- served to be injected: the central gray substance of a violet hue, vessels injected. The parietes were turned up from the pelvis to the 77 610 OBSERVATIONS ON MALIGNANT CHOLERA. neck, and the contents of the cavities exposed. The pe- ritoneal membrane drier than usual: the intestines dis- tended with gas : the small intestines externally exhibited a violaceous aspect, and the vessels injected: the colon whitish internally : the mesentery red, deeply tinged, and the veins distended with blood: mesenteric glands enlarg- ed, evidently tumified, but not hardened. The lungs were of their usual bluish hue : collapsed and crepitated between the fingers: their appearance perfectly natural. The ca- daveric settling on the posterior part of the lungs much less than usually is found after deaths from acute diseases. The anterior portion, when cut into, contained but little blood : no frothy mucus exuded from the bronchial tubes: the bronchial and tracheal mucous membranes of a deep red. Pericardium injected ; vessels arborescent: the mem- brane of a pink colour, which resembled washings of flesh. The heart of natural size and firmness: right ventricle con- tained coagulum of a yellowish-white colour, and of de- cided firmness; none in the pulmonary artery. The lining membranes of the arteries transparent: no coagulum in the left ventricle, but the pulmonary veins filled with them. The blood in the mesenteric veins coagulated: vena cava contained thick, half-coagulated blood; its lining membrane clear white. Blood in the femoral vein coagu- lated : lining membrane white: in splenic vein partially coagulated. Stomach contained a fluid like dirty rice- water : mucous membrane light pink tinge : stellated in- jections in the cardial extremities: enlargement of the follicular glands, giving to the surface of the stomach in the large curvature, a roughened aspect, resembling sha- green : texture of the mucous membrane bore traction: the duodenum mucous membrane presented numerous red patches of firm consistence. The contents of the superior portion of the small intestines, a dirty whitish fluid of the consistence of thick gruel; at the termination of the ilium OBSERVATIONS ON MALIGNANT CHOLERA. 611 the colour of this fluid was reddish or bloody-brown, and the same brown fluid was found in the colon : the mucous membrane of the small intestines throughout, varying from a lighter tint in the upper, to a black, with numerous black points. On the ilium, whitish elevated tumors surrounded with an areola of deep red at its termination: in the ilium several inches were occupied with small glandular tumors: enlargement of muciparous glands, having a dot in the apex ; they resembled strongly the vesicles of small pox on the third day: the mucous mem- brane of the colon highly coloured of a deep red ; rough, with a shagreen appearance: the colour diminished on approaching the rectum. Bladder contracted; contained an ounce of turbid urine: liver nothing unusual in colour and structure; rather small: gall-bladder distended with bile of a natural ap- pearance : kidneys natural: spleen unusually small; very little blood in it. Brain.—Dura mater natural: arachnoid membrane very slightly opaque: pia mater not unusually injected : me- dullary substance firm white : iliac and femoral veins na- tural. The above very careful dissection was made by Dr. Beaubien. Case 3d.—Dissection of a sailor brought to the shed along with the above subject; they belonged to the same ship, were attacked at nearly the same hour on the night of the 28th, and died next day at \\ o'clock, half an hour after his companion. Benjamin Nichols, aged twenty-five years, stout built. Muscles of the thighs and legs drawn into knots, hard and rigid : they had continued to contract considerably after death, as the attendants at the shed reported. The dis- section was made by Dr. Harlan, but as our object was to ascertain the condition of the organs of the abdomen and chest, the dissection was not made as thoroughly and mi- nutely as the foregoing. 612 OBSERVATIONS ON MALIGNANT CHOLERA. The external appearance presented the general aspect of indigo blue; face and hands a purple black : the abdo- men warm, though dead twelve hours. The parietes be- ing raised and turned up, the peritoneum exhibited the absence of its serosity ; the small intestines externally an ash colour, pink tinge, while the internal was white ; they were distended with flatus: the bladder was contracted and empty ; its internal surface in a natural state. The alimentary canal laid open, the same kind of con- tents as in the preceding case prevailed. A thin, rice- water-looking fluid in the stomach : the whitish-looking gruel substance in the intestines: the mucous membrane of the stomach was red, with stellated injections and patches : the jejunum light red, and vessels injected : the extremity of the ilium covered over with pimples, formed by the swelling of the glands of Brunner; the apex of each occupied with a minute bluish spot, semi-transparent; the surrounding membrane at the base of a deep red : arbores- cent injection of the vessels: the lungs perfectly natural, collapsed, crepitated : the bronchial membrane deep red : blood in the heart grumous: no firm coagula. Case 4th.—Dissection of a lad aged nineteen, English, and lately arrived; nine days had elapsed from his first attack to his death. The symptoms of Cholera had dis- appeared—he had left the Shed for two or three days; was brought back yesterday, 27th, in the morning, and died in the evening. The bluish colouring, so common in the recent cases, was absent: the general appearance of the body wTas a dirty-w7hite. Cadaveric discoloration of the back not deep. The parietes raised as in previous instances ; the peritoneum was of a natural aspect; the external appearance of small intestines, reddish, of the large, white ; the mesenteric glands enlarged and harden- ed. The stomach laid open, contained a thin bilious fluid of healthy colour; the mucous membrane, slate coloured, with patches of a deep red—consistency firm—resisting OBSERVATIONS ON MALIGNANT CHOLERA. 613 traction ; the ilium, at its insertion into the colon, present- ed numerous ulcerations, from the fourteenth of an inch in size, to a few lines. Jejunum, resembling the ilium, with numerous black pimples, the muciparous glands enlarged—some of the still higher membranes speckled black; the contents of the ilium, a fluid of the colour of Spanish-brown : the colon was not contracted; it contain- ed a thickish fluid of a healthy bilious colour ; the mucous membrane whitish in colour, firm in structure; the liver natural in colour and consistency ; gall bladder distended with healthy bile : lungs collapsed, crepitated naturally; the heart contained small coagula, soft, and of recent formation. This boy, the day of his last admission, ap- peared nearly in a state of exhaustion : attempted to walk, but had to lie down from absolute debility. Case 5th.—Clain, aged 67, an Irish emigrant; large body : appearance of a hale man ; attacked with symptoms of Cholera, but did not die until the tenth day. Saw him in the Shed. First visit he was constantly vomiting; had cramps in the legs : hands cold, shrivelled, and bluish : lips of a good colour ; a light tinge of red in the cheeks. I attempted to press the abdomen, but desisted from his exclamation of pain ; pulse at this time of good volume: tongue dryish, red, and furred—thirst. Died on the 29th of June. The small intestines were of a deep purple : the colon black. The stomach contained a bilious fluid ; the mucous membrane, in the above portions, dirty-white: in others dull red ; consistency good ; the small intestines, in the lower portion, contained a thick fluid of sanguineous colour: the ilium of a deep purple-red; the colon had within it an analogous matter, nearly blueish ; the mucous membrane of the lower portion of the small intestines elevated into firm ridges, one-eighth to one-sixth of an inch in breadth, of a deep black in the middle ; the colour of the upper portion was bright green, having a strong re- semblance to moss growing on blackened bark: these ele- OBSERVATIONS ON MALIGNANT CHOLERA. vations were caused by blood effused and coagulated un- der the mucous tissue; in the extremity of the ilium, mulberry shaped clusters of the Brunnian glands, of a deep black, with the moss-green appearance on the point of each ; colon appeared roughened with black elevations resembling the valvulae conniventes, but of a coal black colour, formed by blood coagulated beneath the mucous tissue. During the residence of the mission in Montreal, all its members experienced cramps in the legs, impaired di- gestion, and other symptoms of the premonitory stage of the disease ; but notwithstanding the delirium and fever, accompanied with a single watery, colourless, and inodor- ous dejection, to which the author of these remarks was subjected, in consequence of a lacerated wound inflicted in opening a putrid corpse, we all escaped a more serious attack, by avoiding, as far as the nature of the case would admit, all the exciting causes, but particularly by a regu- lation of our diet, and by the application of flannel rollers to the abdomen. The author of these remarks was in Calcutta, in 1817, the year of the commencement of this epidemic in that vi- cinity ; he has since witnessed the treatment of cases which occurred in Paris, London, Canada, New York, and Phila- delphia, and feels assured, that strict attention to the fol- lowing prophylactic measures, by those who may be un- avoidably exposed to its malign influence, can not fail to prove advantageous, viz. avoid drinking large quantities of any fluid, never fully satisfying the thirst; abstain from all purgative medicines, but especially those of a saline nature; moderation in eating, keeping the skin healthfully excited; avoiding all exposure to atmospheric vicissitudes; keeping the abdomen, especially, protected: gastric irritation being immediately relieved by flannel bandages; avoiding all raw or uncooked vegetables; avoid- ing fatigue, overstimulus, and all the depressing passions; OBSERVATIONS ON MALIGNANT CHOLERA. 615 and by the timid, infirm, or convalescent, a retreat to the mountains. Individually, I found good port wine, weak- ened with hot water, or boiled souchong tea, the most agreeable and wholesome beverages when affected with cholerine. Having completed the object of our mission to Canada, we lost no time in turning our backs on this " City of the dead." At New York, where we arrived on our return, July 7th, we delayed one day, in order to visit the patients in the Cholera hospitals—the disease having anticipated us in its southern progress. Immediately on our return, the mission drew up the following brief results of their observations, for the use of the Sanitary Committee, who directed it to be pub- lished, in order to moderate public excitement—subse- quent reflection offers me nothing to add to a document, which was considered at the time, fully efficient for the objects of its authors. SANITARY COMMITTEE. " The following report of the Medical Commission ap- pointed to visit Montreal and Quebec, was read, and ordered to be published. SAMUEL DAVIS, Secretary of Sanitary Committee. July 8, 1832. " The Medical Commission appointed by the Sanitary Committee to visit Canada, for the purpose of making in- vestigations concerning the epidemic disease prevailing there, in anticipation of a more detailed report, which will be laid before the Committee in a few days, present the following general conclusions as the result of their ob- 616 OBSERVATIONS ON MALIGNANT CHOLERA. servations, which they flatter themselves will tend to allay the public anxiety. " 1st. The disease so lately an epidemic in Montreal and Quebec, and which now prevails in the city of New York, and is extending throughout the country, is malig- nant cholera, the same that has ravaged Asia, and spread its devastations over Europe, under the name of Asiatic and Spasmodic cholera. " 2d. That they have not been able to ascertain any positive unequivocal fact to justify a belief that it is a dis- ease communicated by contagion, or is one of importation. "3d. That during the prevalence of the epidemic constitution or influence, a general predisposition exists in the whole community, from which very few individuals are exempt, productive of a liability to the disease. "4th. That this predisposition is manifested by em- barrassed and difficult digestion, sense of heat, fulness, uneasiness or pain in the abdomen, irregularity of bowels, a furred and pasty tongue, a sense of general debility, with frequency of cramps or contractions in the muscles of the extremities, especially at night. "5th. That this state of predisposition will not give rise to an attack of the disease, without the application of an exciting cause. " 6th. That the exciting causes of the disease are mo- ral excitements, especially from the passions of fear and anger; intemperance in the use of fermented and spiritu- ous liquors, or in eating, overloading the stomach ; acid drinks, or large draughts of cold water ; the use of crude indigestible food, whether animal or vegetable, particu- larly the latter ; the use of drastic and saline cathartics; excessive exertion or fatigue in the heat of the day ; ex- posure to the night air, sitting in currents of air, and particularly sleeping with too light covering, and with the windows raised, except the rooms are very small and OBSERVATIONS ON MALIGNANT CHOLERA. 617 confined. Most of the attacks occur in the night, from eleven or twelve o'clock to three or four in the morning. " 7th. That prudence in living during the epidemic period, which continues from six weeks to three months, the wearing of flannel, particularly on the body, keeping the feet warm and dry, the avoidance of improper food and drinks, tranquillity of mind and body, the resort to elevated situations and mountain air, or where this is im- practicable, sleeping in the upper stories of houses, are almost certain guaranties against the assaults of the disease, and disarm the pestilence of its malignity. " 8th. That the disease, when abandoned to its course, passes through different stages, in all of which it is easily controlled, except one—the cold stage, or period of col- lapse, and which is in almost every instance preceded by the symptoms of the forming stage, when the disease, if timely treated, is arrested with facility. " 9th. That the symptoms of this forming stage should be generally promulgated, and persons instructed of the necessity of an immediate attention to them. It is igno- rance in this respect, amongst the labouring and lower classes of society, leading to indifference and inattention, together with their habits of life, that plunge so many be- longing to those conditions, in the desperate situation so frequently met with, when medical aid and human skill are utterly unavailing. Those symptoms are, a sudden looseness of the bowels, the discharges becoming thin, watery, and colourless or whitish, with little odour—ver- tigo or dizziness—nausea, oppression, pain and cramps of the stomach, with retching and vomiting of a fluid gene- rally resembling dirty rice water, attended or soon followed by cramps of the extremities, particularly of the legs and thighs. " 10th. When the foregoing symptoms appear, appli- cation for remedial assistance must be made immediately. The delay of an hour may usher in the cold stage, or pe- 78 OBSERVATIONS ON MALIGNANT CHOLERA. riod of prostration and collapse, from which it is almost impossible to resuscitate the expiring energies of the eco- nomy. " 11th. That every preparation should be made by the public authorities, in anticipation of the appearance of the disease, providing the means of treatment for those who cannot command them, so that aid may be promptly administered to all, the moment of attack. These means are—a number of small hospitals, or houses of reception, in various parts of the city; stations where nurses, phy- sicians, and students, with suitable medicines and appa- ratus, can be procured in the night without delay; the evacuation of certain localities, where the occurrence of numerous cases indicates a pestiferous influence, and the furnishing to the poor, as far as practicable, wholesome and nourishing food. " By the adoption and observance of the foregoing means of precaution and prevention, in addition to the sanative measures already in operation, the commission are con- vinced that the prevalence of the disease will be greatly circumscribed, its mortality diminished, and the public guarded against panic and alarm, the great sources of danger—and, under the blessing of Divine Providence, the pestilence will be shorn of its terrors, and mitigated in its destruction. "SAMUEL JACKSON, "CHAS. D. MEIGS, "RICHARD HARLAN. "July 8th, 1832." In anticipation of an early visit from the epidemic, and at the suggestion of the Board of Consulting Physicians, the Sanitary Committee ordered the establishment of eight municipal Cholera hospitals, in various and distant por- tions of the city, to be under the control of as many physicians in chief, and including all the members of the OBSERVATIONS ON MALIGNANT CHOLERA. 619 "Consulting Medical Board." These temporary estab- lishments for the accommodation of the improvident classes of society, were all completely equipped, and liberally provided, each with three or four graduates in medicine attached, one of whom, at least, was at all times present, in anticipation of the scourge, whose ravages at this time were laying waste, or scattering the inhabitants of a neigh- bouring city. The earliest occurrence of Cholera in Phila- delphia was about the middle of July : and on the 28th of this month, the first cases were received in the hospital under my charge. The details of a few of the cases are here introduced as specimens of the disease and of our treatment: remarking, that although opportunities for post mortem examinations were occasionally embraced, as no striking deviation from the appearances observed in the autopsies made in Canada occurred, it is unnecessary now to repeat them. The notes of the following cases were taken at the time, by the resident physicians in rotation. Cases of Malignant Cholera, treated in the Municipal Hospital, No. 7—Situate at the S. E. Corner of Schuylkill 7th and Race streets, from the 28th of July to the 28th of August, 1832. Case 1st.—Obadiah Morgan, a native of New Jersey, aged 27 years, a river boatman by occupation; occasion- ally intemperate; was seized with symptoms of Cholera on Friday morning, July 27th, after breakfast, (at which he partook of cucumbers ;) the diarrhoea under which he laboured continued throughout the day and night; had constant liquid stools all the night previous to admission. After breakfast, on the day of his admission, he vomited frequently, ejecting principally his food; about half an hour previous to vomiting, he was seized with cramps, chiefly in the muscles of the legs; he was brought from the wharf on Schuylkill—Chesnut street, and admitted at OBSERVATIONS ON MALIGNANT CHOLERA. 1 P. M., Saturday, July 28th, into the hospital, No. 7, with the following symptoms, viz.— Pulse scarcely perceptible ; universal coldness of the surface of the body ; breath cold ; voice sunken, feeble, and sepulchral; cramps in the legs, violent; blueness about the mouth and lower portions of the face; ringing in the ears ; tongue moist, cold, and covered with a white fur; adnata of the eyes, of a pearly hue ; skin of the fingers, &c, shrunk and corrugated ; eyes sunken, and surround- ed with a livid circle; countenance haggard and dis- tressed ; vomiting and purging had ceased previous to ad- mission ; breathing easy ; mental faculties entire. Treatment commenced at 1, P. M.; mustard plasters moistened with spirits of turpentine, were applied to the region of the stomach and to the calves of the legs; bags of heated sand to the lower extremities, with hot bricks to the soles of the feet, and dry heat to the abdomen, as soon as possible after admission, and the following dose of our compound cholera powder, to be repeated at first every fifteen minutes. Jl Pulv. gum. camph. gr. iij. gum. opii. gr. i. Calomel, ppt. gr. iij. P. carb. ammoniae gr. vi. Two of these powders were administered. 2 P. M.—Pulse 120; patient bathed in a profuse and warm perspiration, excepting around the mouth and lower part of the face, which continue cold: complains much of the pain of the sinapisms; is harassed with excessive thirst: breath warm, tongue cold; no cramps or spasms; skin on the hands, &c, still corrugated:—was ordered, Jfc Bi-carb. potassae 3i. Aq. purse, gviij. M To take a tablespoonful every fifteen minutes. 3 p. M.—Pulse 120; coldness of the lower part of the face has disappeared ; tongue warm ; breath warm ; thirst GBSERVATIONS ON MALIGNANT CHOLERA. 621 continues ; complains much of the hot applications. Tem- perature of the body under the axillae, &c., 97° of Far. • directed to continue the use of the alkaline solution. 4 P. M.—Pulse 120; cramps have slightly returned, with coolness of the lower part of the face and tongue. Renewed the hot bricks and sand, and administered an- other compound powder. 5 P. M.—Pulse 120; no cramps ; face cold ; thirst ex- cessive. Ordered Aq. cinnamomi, §i., spts. ammon. aro- mat. 3i. Continue the alkaline solution. 6| P. M.—Pulse the same ; coldness of the face, &c, disappeared; surface of the body generally warm: has been sleeping, and complains of feeling too warm. Con- tinues the alkaline solution 8 P. M.—Pulse 118 ; restless ; without pain ; thirst ex- cessive ; passed a small quantity of urine for the first time since admission ; disposition to spasm has returned ; tem- perature under the tongue and axilla 97°. 9| P. M.—Disposed to sleep : pulse l'i%, l^o disposi- tion to spasm ; bowels evacuated by an injection of salt and tepid water, and 3i. of sal a^ratus ; ret'.irr, of coolness of the tongue and lower part of the face ; orders: a repe= tition of the compound cholera powder, 11 P. M.—Pulse the same : tongue warm 5 thirst con- siderable ; has slept; temperature under the tongue 98°. July 29th. 1 A. M.—Pulse 110; sleeps at intervals; has some thirst; is easy in other respects; . rdcred §i. of Spina's elixir, diluted with water, 4 A. M.—Pulse 104 ; rests well; skin warm and soft; has some thirst; ordered a repetition of the purgative elixir. 5 A. M.—Symptoms favourable ; pulse 100 5 sleeps oc- casionally ; medicine has not yet purged. 6 A. M.-—Pulse the same ; passed a copious fetid stooi of a dirty brown colour ; also half a gill of urine. 8 A. M.—Continues to improve; has slept quietly ; OBSERVATIONS ON MALIGNANT CHOLERA. pulse 88, full and soft; tongue covered with a yellow fur; the countenance has lost the hippocratic expression of yesterday ; the corrugation of the skin has entirely disap- peared. The patient commenced to take light animal food, and on the 30th July, was considered cured. He remained in the hospital for several days discharging the duties of nurse. Case 2d. Isaac Anderson, a black man, aged forty- three, by trade a coal heaver, employed on the Schuyl- kill ; has had a diarrhoea for a week past; but was seized this morning, August 2d, at 5 o'clock, with vomiting and purging, attended with most violent spasms of the upper and lower extremities. He was admitted into the hospital at 8| A. M., with the following symptoms, viz. pulse not perceptible at the wrist; violent spasms in the extremi- ties ; tongue moist, cold, and covered with a white fur; breath cold ; voice weak and sepulchral; skin of fingers and toes corrugated and sodden ; purging constant, stools copious and involuntary, liquid resembling rice-water, with flocculi. Treatment.—Dry heat to the body, hot bricks and sand- bags to the extremities, mustard plaster moistened with spirits of turpentine to the epigastric region, and Jfc spt. ammoniae aromat. ji, aq. cinnamomi §i, to be taken imme- diately ; and an injection to be administered, consisting of pulv. sacch. sat. 9i, tinct. kino, gi, tinct. opii 3ij, aq. calid. giv; also to take internally $& pulv. opii, gr. ij, pulv. kino, gr. x, sacch. sat. gr. vi, syrup zingeb. 3i, and a compound cholera powder every fifteen minutes. Frictions with mercurial ointment and decoction of Spanish flies and oil of turpentine were continued for half an hour without any effect. The dejections, which were so constant and copious, are now restrained : pulse con- tinues scarcely perceptible: complains much of the sina- pisms, and of heat, although the surface of the body re- OBSERVATIONS ON MALIGNANT CHOLERA. 623 mains cold : perspires about the head only : the medicines failed to produce the slightest reaction, and the patient died in universal spasms at half past nine, A. M., August 2nd. Case 3d.—Thomas Black, set. 29.—Robust constitu- tion : from Arch street prison r admitted at four, P. M., August 2d, with cramp in the stomach, (for which an emetic had been administered in prison :) involuntary and copious stools : universal coldness : colliquative sweat, and sodden fingers: pain in the head, and giddiness: pulse weak, 100 per minute : thirst distressing. Ordered the compound cholera powders, with the alkaline solution: the terebinthinate mustard plaster to abdomen. 7, P. M., pulse 70, and full, with warm perspiration : tongue, &c. remaining cold : dry heat, &c. continued. 8, P. M., Im- proving : perspiration continues : tongue warm ; and the corrugation of the fingers and toes has disappeared. August 3d.—Took a dose of Spina's elixir, which was once repeated: after its operation took wine and water, and light nourishment. August 5th.—Discharged, cured. Case 4th.—Lucy Bradley, aet. 40.—Intemperate ha- bits: admitted August 6th, at 9. A. M., with the follow- ing symptoms :—Pulse weak, 120 per minute : skin of the toes and fingers blue and corrugated: voice reduced to whisper: surface of the body cold: tongue cold, moist, and furred : cramps in the inferior extremities : purging constantly: stools of the consistence and appearance of rice water: more or less vomiting: eyes sunken, and of the cholera pearly aspect: head giddy : mind composed. The child of this patient, aet. two years, was admitted at the same time, in the collapsed or last stage of the disease, and died before any remedies could be administered. Lucy was ordered dry heat, sinapisms, compound cho- lera powder, sodaic solution, &c. Reaction commenced 624 OBSERVATIONS ON MALIGNANT CHOLERA. very shortly after, and she continued gradually improving under the usual treatment, until August 7th, when all symptoms of cholera had disappeared, and mania a potu supervening, she was sent to the convalescent hospital at Bush Hill, where she finally recovered. Case 5th.—Margaret Cullen, aet. 55.—After eating heartily of meat and potatoes at dinner, was seized with vomiting and rice water purging: admitted into the hos- pital at 6, P. M., August 13th, with the following symp- toms :—Continual vomiting and purging, with cramps: pulse scarcely perceptible: voice not impaired: breath warm : skin warm : tongue cold : fingers corrugated : eyes sunken, &c. Ordered dry heat, sinapisms, compound cholera powders, frictions, simple and medicated, and hot ginger tea for drink. The system never reacted, and on the 14th the patient died. Case 6th.—William Campbell, aet. 53.—Labourer from the Shantee; admitted August 12th, 11, A. M. After eating some green peas, was shortly afterwards attacked with vomiting, rice water purging, cramps, thirst, &c. Ordered dry heat, effervescing draught, sugar of lead and opium, to allay irritation of stomach, without the desired effect: compound cholera powders. The patient con- tinued very restless, complaining much of thirst. An emetic of salt and mustard brought off large quantities of fetid matter from his stomach, after which he was much relieved ; and finally recovered under the ordinary treat- ment. The epidemic Cholera displays too much monotony of symptoms, to render the detail of numerous cases interest- ing. Of the patients who entered the Municipal Hospital No. 7., in every stage of the disorder, the treatment was occasionally varied in every possible manner—the gene- ral plan was on the stimulating principle, but occasionally OBSERVATIONS ON MALIGNANT CHOLERA. 625 bleeding, cupping, and other depleting measures were resorted to. The salt and mustard emetic, so successfully used on the European continent, was also resorted to in many instances with decided advantage. Of the numer- ous medicated ointments and liniments in vogue, we found no particular advantage in them, further than the irrita- tion of the skin which they effected. The too frequent and long continued application of heat to the surface of the body, was, in many instances, de- cidedly injurious. Cold drinks, or ice-water, and even frictions with cold water to cold surfaces, were attended occasionally with palliative effects. The gastric irritability was best relieved by small doses of opium and calomel, small doses of Hoffman's anodyne, spirits of turpentine, &c, and irritants to the epigastrium : or where the sto- mach appeared distended, by the administration of the warm salt water and mustard emetic. In the Cholerine, or forming stage of the disease, we found no medicine so effectual as the prepared oyster- shell and cinnamon water, made into a julep, with elixir paregoric, gum arabic, and sugar.* * Regarding the injection of medicated solutions into the vascular system of pa- tients in the last stages of Cholera, together with the transfusion of blood, our per- sonal experience does not authorize their recommendation. That patients have oc- casionally escaped under such treatment, respectable testimony leaves no room for doubt, but that they are ever to be depended upon as safe remedial measures, in like cases, we have no reason to believe. But in anticipation of the use of such vascular injections, we prepared an instrument, free from the very dangerous ob- jection, applicable to most other similar instruments, of the passage of air into the veins, during the operation. This instrument consists in a modification of the French gum elastic cloth injection apparatus, which operates by hydrostatic pres- sure—a stop-cock being applied to the middle of a silver curved pipe, at the end of the funnel-shaped bag, and the fluid being introduced, the cock is turned, in order to allow the escape of a portion of the fluid, previous to the introduction of the fine extremity of the pipe into the vein ; this forces the air before it, and capillary attrac- tion retains the solution in the tube, to the exclusion of the air, when the cock is stopped; the requisite degree of pressure may be kept up, by the gradual introduc- tion of the fluid into the bag, as it flows into the veins; in this manner we intro- 79 OBSERVATIONS ON MALIGNANT CHOLERA. The following table includes numerous cases admitted from the Arch street prison, in a moribund state, and ut- terly beyond the reach of medicine. duced several pounds of saline solution into the vascular system of a healthy adult sheep, through the crural vein. The animal suffered no inconvenience from the introduction of air, but died the day following, from the effects of the operation —the blood being rendered unfit to contribute to the various functions of life. ACCOUNT of Admissions, Results, &.c, of Patients at Cholera Hospital No. 7, R. Harlan, M. D. Physician in Chief. Hospital closed at the recommendation of Dr. Harlan, August 31st, 1832. No. NAMES Date of Age. ,.7i State on Date of Event. of OF Adinis. PROFESSION. -- Sex. Colour. Birth Place. When Admis- Event. REMARKS. Cas. PATIENTS. sion. Yrs. Attacked. sion. 1 Obadiah Morgan, July 28 Boatman. 27 M White New Jersey, July 27 Collapsed Cured .Inly 30 Occasiemallv intemperate. 2 Hugh Al'Caifrey, August 1 Millwright. 36 M White Ireland, " 18 Collapsed Died August 2 lnte'inpcratc. Case desperate. 3 Thomas Black, " 2 Labourer. 21) M White Philadelphia, August 2 Collapsec Cured G > From Arch St. Prison. Intemperate. Transfer-( red to City Hospital. 4 Mary Eagles, " 2 Pauper. 35 F White Ireland, 1 Typhoid Cured " (i Intemperate. From Prison. 1 'I'ciuperatc, with an infant unweaned. Admit--. led 7 or 8 hours after collapse. After out-door 5 Priscilla Robinson, " 2 Nurse. 42 F White Philadelphia, " 1 Collapsec Died " 7 I f treatment. Died in a typhoid state. 6 Isaac Anderson, « 2 Labourer. 43 M Black Philadelphia, 2 Collapsec Died 0; ) Coal-breaker. Worked at night on Coal Wharves ~ , (Schuylkill.) Desperate-. 7 Jane Armstrong, « 2 Unknown. 40 F White Philadelphia, " 2 Collapsec Died „ J V From Arch St. Prison. Intemperate. Died in a ''| ) typhoid state. 8 Elizabeth Carr, " 2 Unknown. 32 F White Philadelphia, 2 Collapsec Died " 3 From Prison. Intemperate. Desperate. 9 Japhet Smith, " 3 Boatman. 36 M White New Jersey, 2 Collapsec Died " ;. <, From a sanel-boat lying at Chestnut St. AVharf, ) (Schuylkill.) Intemperate. 10 Peter Keyler, " 3 Pensioner. 76 M White Philadelphia, 3 Collapsec Cured " ( From Prison. Intemperate. 11 John Keyser, " 3 Boatman. 35 M j White Germantown, 1 Collapsec Cured t S From Chestnut Street Wharf, (Schuylkill.) Oc-) casionally intemperate. 12 Joseph Johnson, " 4 Labourer. 3:1 M White 4 1st Stage Cured 6 From Prison. Intemperate. 13 Peregrine Sandford, " 4 Cordwainer. 36 M White Philadelphia, 2 Collapsec Died " 4 From Prison. Intemperate. Third stage. 14 John Dobbins, « 4 Blacksmith. 30 M White Philadelphia, " 4 Collapsec Died u a ^ Intemperate. Admitted twelve hours after at-*l ) tack. Desperate. 15 Eliza Rilev, " 5 Unknown. 30 F White Philadelphia, " 5 Collapsec Cured " 6 From Prison. Intemperate. 16 Jane Welsh, " 5 Unknown. 50 F White Philadelphia, 5 Collapsec Died " 5 From Prison. Intcmpeiate. Died typhoid. 17 W. White, 5 Labourer. 35 M Black Philadelphia, " 4 Collapsec Died " 5 From Prison. Intemperate. Desperate. i From Prison. Refused medical aid. Passed into 18 Thomas Watson, 5 Labourer. 50 M 'Black Philadelphia, " 4 Collapsec Died " 7; < blue collapse on the 7th instant, in the even-f ing, and died. Desperate. 19 Thomas Smith, " 5 Labourer. 29 M |White Philadelphia, A Collapsec Cured " f, From Prison. Intemperate. 20 Patrick Keim, 5 Labourer. 44 AI While Philadelphia, " 4 Collapsec Died " 5F10111 Prison. Intemperate. Desperate. 21 George Comly, " 5 Labourer. 31 M 'White 'Ireland, " 4 Collapscc Died " 5 From Prison. Intemperate. Desperate. 22 John Merriman, 5 Labourer. 2:1 M 'White 'Ireland, 5 Collapsec Died " 5 From Prison. Intemperate. Desperate. 23 James M'Callion, " 5 Clerk. 19 M White .Ireland, " 5 1st Stage Cured " t> From Prison. Intemperate. 24 fohn L. Moore, 5 Unknown. 19 AI White ^Washington, " 5 1st Stage Cured " 7 From Prison. Intemperate. 25 VV. Taylor, " 5 Cordwainer. 29 M White Franklbrd, 5 1st Stage Cured " 6 From Prison. Intemperate. 26 T'len Dvvyning, " 5 Unknown. 40 F White 'Ireland, 5 Collapscc Died " (i From City. Intemperate. Desperate. 27 iclen Hanna, " 5 Cook. 24 F White llrcland, 5 Collapsec Died " TjFrom Prison. Died in Typhus Fever. 28 John Russell, 5 Turnkey at Pris. 35 M '.Vhite Philadelphia, " 5 Collapsec Died " 5jAdmitted moribund. 29 Edmund Taylor, " 5 Steward. M .Vhite England, " 6 1st Stage Cured " 7 Temperate and healthy habits. | ( From Market St., near Schuylkill. Transferred " 6i ' to City Hospital with Alania a Potu. Intern- 30 jucy Bradley, " 5 Servant. 40 F White Ireland, 6 Collapsed Cured 1 perate. Cured of Cholera symptoms, 31 Bradley's Child, " 6 2 M White Philadelphia, 6 Collapsed Died " ( 32 tugh AFGonegal, 6 Labourer. 13 AI White Philadelphia, 6 Collapsec Died " loiTyphoid state. 33 Vlargaret Stewart, 6 Servant. 24 F White Ireland, 6 1st Stage Cured " 7i'I'ransferred to City Hospital. 34 Sarah Thompson, 7 Servant. 16 F Black Philadelphia, 6 1st Stage Cured " 7 Returned home. 35 David Lamed, 7 Blacksmith. At White Philadelphia, 7 1st Stage Cured " SjTransfcrrcd to City Hospital. 36 Hobcrt Moore, 8 Boatman. 42 AI White Philadelphia, 8 Collapsec Died " 8,Intemperate. 37 ■iamuel Mills, " 8 Boatman. 18 At White Philadelphia, 8 Collapsec Died 8 Temperate. 38 Vlargaret Shorten, 9 Nurse. 31 F White Ireland, " 9 1st Stage Cured " 9 Intemperate, occasionally. 39 fane Fullerton, 9 Nurse. 55 F White Ireland, 9 2d Stage Died " 15 S Debilitated constitution. Occasionally intempe-( rate. One of our Hospital Nurses. 40 Robert Radcliffe, 9 Mechanic. 42 AI While Philadelphia, 9 Collapsed Died 9 Intemperate. 41 3arby Farrol, " 10 Labourer. 45 AI White Ireland, " 10 Died " 10 Intemperate. 42 iugh Lee, " 11 12 AI White Philadelphia, " 11 Collapsed Died " 11 ' 43 Margaret M'Farlan, " 12 41 F White Ireland, " 12 Collapsed Died " 13 Intemperate. 44 Vlargaret Peterson, " 12 Washerwoman 43 F Black Philadelphia, " 8i2d Stage ' Cured " 18 45 William Campbell, " 12 Labourer. 53 M White Philadelphia, " 12 1st Stage Cured " 12 Rather intemperate. 46 Uharles Carlisle, " 12 Matmakci. 23 AI Black Philadelphia, " 12CoIlapsed Died " 12 Intemperate, occasionally. 47 Roderick Waller, " 12 Mechanic. 3!) AI Black Philadelphia, " 1211st Stage Cured " 12 Intemperate, occasionally. 48 Vlargaret Wood, " 12 Washerwoman. 23 F White Philadelphia, " 11 2d Stage Reliev. Discharged by her own request 49 Vlary Cullen, " 13 52 F iwhite Philadelphia, » 13 Collapsed Died " 14 Very infirm. 50 Oliver Akins, " 15 Labourer. 54 AI White .Philadelphia, " 1.5 1st Stage Cured " 15 Dccasionally intemperate. 51 Matilda Gilchrist, " 15 32 F White IPhilailolphia, " 5 Collapsed, Died '• 15 Typhus. Half-starved. 52 John Rudolph, " 15 Labourer. 3il AI White Urcland " 15 1st Stage Reliev Transferred by request. 53 John Campbell, " 16 Labourer. 40 AI White Philadelphia, " 16 1st Stage Cured u 17 Drinks, occasionally. 54 John Griffiths, " 11) Vagrant. 29 AI While Ireland, " 16 1st Stage Cured " 17 Found drunk, in Broad, near Vine street 55 Benjamin Atkinson, " 17j Labourer. 37 AI White New Jersey, " 16 Collapsed; Died " 1 7 Very intemperate. 56 Barney Conway, " 17 Labourer. (il AI White Ireland, " 17 1st Stage Cured " ]s Occasionally intemperate. 57 John Sproat, " 17 Vagrant. 55 A! AVhile Ireland, " 17 1st Stage Cured " 19|Vcrv intemperate. Found drunk in street. 58 Michael Banm, " 18Quarryman, 19 AI White Ireland, " 17 Collapsed Died " IS Perfectly sober. 59 Mary Ann Levering, " 18 Vagrant. 25 F While Philadelphia, " 11 2d Stage Cured " 211 Very intemperate. 60 Francis Carrabee, " 18 Labourer. 25 M White Philadelphia, " 18 1st Stage Cured " 211 Intemperate. 61 Robert Gilelirist, " 19; 8 AI While Philadelphia, " 19 Collapsed Died " 201 1 62 Ann Gilchrist, " 19 7 F AVhile Philadelphia, " 19 1st Stage Cured " 20 V Came from an impoverished and filthy home. 63 Gilchrist, Infant, " I'll 2 in. White Philadelphia, " 19 1st Stage Cured " 2l)| > 64 Roderick Glansey, " 20 Furrier. 23 vr AI White Ireland, " 20 1st Slage Cured " 2irPemperate. 65 Edward Owens, " 20 Porter. 64 AI Black Philadelphia, " 20 2d Stage Died " 21 Intemperate. 66 John Lowden, " 23 Mechanic. 3G M White Philadelphia, " 22 1st Stage Cured " 24 67 Rosey M'Donrick, " 23 Servant. 30 F White Ireland, " 23 1st Stage Cured " 2/ : v. INE NATIONAL LIBRARY OF MEDICINE N A T I O N A I I I B R A R Y OF M E D I C , N E N A T I O N A L 1,1, A R Y OF M E 0 I > s \&s 5 xvn in i3ia iw jo Aavaan ivnouvn indioin io iitiim ivnouvn in is ioim jo Aavaan ivni :ine national library of medicine national library of medicine national library of medi CINE NATIONAL LIBRARY OF MEDICINE N A T I O N A I II B R AR Y OF M E D I C I N E N A T I O N AI 11 BR A R V OF M E < .u. ..n IIKIdll 1WMAIIVN INniOIW JO 1 » V » ■ I 1 1VN I NATIONAL LIBRARY OF MEDICINE N A T I O N A I L I B R A R Y O F M E 0 I C I N E N A T I O N A I I I B « A R Y O F M E D I C n indiqiw jo Aavaan tvnou vn inoiosiuo aivhii ivnouvn inijioin io »iviiii ivnoii ANY OF MEDICINE 1 /VJV\ 1 /VI NE NATIONAl LIBRARY OF MEDICINE NATIONAL LIBRARY OF MEDICINE NATIONAL LIBRARY OF MEDIC VN INDIQiW JO ANVNBIT TVNOUVN 1NI3IQNW JO JIVIII1 TVNOUVN 1 N I 3 I Q 3 \N JO ABVBBIT TVNOU * iX/ i NE NATIONAL LIBRARY OF MEDICINE NATIONAL LIBRARY OF MEDICINE NATIONAL LIBRARY OF MEDIC NE NATIONAL LIBRARY OF MEDICINE NATIONAL LIBRARY OF MEDICINE NATIONAl LIBRARY OF MEDIC NE NATIONAL LIBRARY OF MEDICINE NATIONAl LIBRARY OF MEDICINE NATIONAl LIBRARY OF MEDIC a