United States Government Accountability Office 
GAO 
Report to Congressional Requesters 
January 2006 
DRINKING WATER 
EPA Should 
Strengthen Ongoing 
Efforts to Ensure That 
Consumers Are 
Protected from Lead 
Contamination 
GAO 
Accountability ★ Integrity ★ Reliability 
GAO-06-148 GAO 
DRINKING WATER 
Highlights 
Accountability Integrity Reliability 
EPA Should Strengthen Ongoing Efforts 
to Ensure That Consumers Are Protected 
from Lead Contamination 
Highlights of GAO-06-148, a report to 
congressional requesters 
Why GAO Did This Study 
What GAO Found 
Elevated lead levels in the District 
of Columbia’s tap water in 2003 
prompted questions about how 
well consumers are protected 
nationwide. The Environmental 
Protection Agency (EPA), states, 
and local water systems share 
responsibility for providing safe 
drinking water. Lead typically 
enters tap water as a result of the 
corrosion of lead in the water lines 
or household plumbing. EPA’s lead 
rule establishes testing and 
treatment requirements. This 
report discusses (1) EPA’s data on 
the rule’s implementation; (2) what 
implementation of the rule suggests 
about the need for changes to the 
regulatory framework; and (3) the 
extent to which drinking water at 
schools and child care facilities is 
tested for lead. 
EPA’s data suggest that the number of drinking water systems with elevated 
lead levels has dropped significantly since testing began in the early 1990s. 
However, EPA’s database does not contain recent test results for over 30 
percent of large and medium-sized community water systems and lacks data 
on the status of water systems’ efforts to implement the lead rule for over 70 
percent of all community systems, apparently because states have not met 
reporting requirements. In addition, EPA’s data on water systems’ violations 
of testing and treatment requirements are questionable because some states 
have reported few or no violations. As a result, EPA does not have sufficient 
data to gauge the rule’s effectiveness. 
Implementation experiences to date have revealed weaknesses in the 
regulatory framework for the lead rule. For example, most states do not 
require their water systems to notify homeowners that volunteer for periodic 
lead monitoring of the test results. In addition, corrosion control can be 
impaired by changes to other treatment processes, and controls that would 
help avoid such impacts may not be adequate. Finally, because testing 
indicates that some “lead-free” products leach high levels of lead into 
drinking water, existing standards for plumbing materials may not be 
sufficiently protective. According to EPA officials, the agency is considering 
some changes to the lead rule. 
On the basis of the limited data available, it appears that few schools and 
child care facilities have tested their water for lead, either in response to the 
Lead Contamination Control Act of 1988 or as part of their current operating 
practices. In addition, no focal point exists at either the national or state 
level to collect and analyze test results. Thus, the pervasiveness of lead 
contamination in the drinking water at schools and child care facilities—and 
the need for more concerted action—is unclear. 
What GAO Recommends 
Among other things, GAO 
recommends that EPA improve its 
data on key aspects of lead rule 
implementation, strengthen certain 
regulatory requirements and 
oversight, and assess the problem 
of lead in drinking water at schools 
and child care facilities. In 
commenting on a draft of this 
report, EPA generally agreed with 
our findings and recommendations. 
Water Distribution System from the Treatment Plant to Household Plumbing 
* Possible sources of lead: 
- pipe or service line 
- solder or brass fittings 
- water meter 
- service main (rarely) 
www.gao.gov/cgi-bin/getrpt7GAO-06-148. 
To view the full product, including the scope 
and methodology, click on the link above. 
For more information, contact John B. 
Stephenson at (202) 512-3841 or 
stephensonj @ gao.gov. 
Source: EPA. 
United States Government Accountability Office Contents 
Letter 
1 
Results in Brief 4 
Background 7 
Inadequate Data Impair EPA’s Ability to Oversee Implementation of 
the Lead Rule 13 
Weaknesses in the Regulatory Framework for the Lead Rule May 
Undermine Public Health Protection 24 
Limited Data Indicate Few Schools and Child Care Facilities Test or 
Take Other Measures to Control Lead in Their Water Supplies 45 
Conclusions 57 
Recommendations for Executive Action 58 
Agency Comments and Our Evaluation 59 
Appendixes 
Appendix I: Scope and Methodology 61 
Appendix II: Detailed Analysis of Corrective Action Milestone Data 
Reported to EPA, by State, through June 2005 64 
Appendix III: Number of Lead Rule Violations Reported to EPA Between 
1995 and June 2005 (by State) 70 
Appendix IV: Information on Selected EPA and State Enforcement 
Actions, by IVpe, from 1995 to June 2005 72 
Appendix V: Comments from the Environmental Protection Agency 73 
Appendix VI: GAO Contact and Staff Acknowledgments 76 
Tables Table 1: Corrective Action Milestone Data Reported by the States 
through June 2005, by System Size and Type of 
Milestone 17 
Table 2: Differences in Reported Information on Lead Service Line 
Replacement, as of June 2004 18 
Table 3: Percentage of Systems with Violations from 1995 to June 
2005 21 
Table 4: State Activities to Ensure that Water Systems Are Taking 
Lead Samples at Appropriate Sites 25 
Table 5: State Role in Selecting Sites for Reduced Monitoring 26 
Table 6: States That Require More Frequent Monitoring to Evaluate 
the Effects of Treatment Changes 29 
Table 7: State Views on Extent to Which Water Systems Are 
Notifying Homeowners of the Results of Lead Testing 30 
GAO-06-148 Lead in Drinking Water Contents 
Table 8: Examples of Different Reporting Practices for Lead 
Testing in Combined Water Distribution Systems as of June 
2005 36 
Table 9: Applicability of Standards for Lead-Free Plumbing 
Products 38 
Table 10: Summary of NSF Test Results Regarding Lead Content of 
Plumbing Products Voluntarily Submitted to NSF for 
Certification 40 
Table 11: Information on Recent Efforts to Test for and Remediate 
Lead in Drinking Water in Five School Districts 52 
Figures Figure 1: Water Distribution System from the Treatment Plant to 
Household Plumbing 8 
Figure 2: Process Drinking Water Systems Follow to Comply with 
EPA’s Lead Rule 10 
Figure 3: Number of Community Water Systems That Exceeded the 
Lead Action Level During the Initial Monitoring Period 
(1992-1994) and Their Most Recently Completed 
Monitoring (2002-June 2005), by System Size 14 
Figure 4: Summary of State Efforts to Address Lead in Drinking 
Water at Schools and Child Care Facilities 49 
Abbreviations 
ANSI American National Standards Institute 
EPA Environmental Protection Agency 
LCCA Lead Contamination Control Act 
NSF NSF International 
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GAO-06-148 Lead in Drinking Water GAO 
Accountability * Integrity * Reliability 
United States Government Accountability Office 
Washington, D.C. 20548 
January 4, 2006 
The Honorable James M. Jeffords 
Ranking Minority Member 
Committee on Environment and Public Works 
United States Senate 
The Honorable John D. Dingell 
Ranking Minority Member 
Committee on Energy and Commerce 
House of Representatives 
The Honorable Hilda L. Solis 
Ranking Minority Member 
Subcommittee on Environment and Hazardous Materials 
Committee on Energy and Commerce 
House of Representatives 
When testing in the District of Columbia during 2003 revealed that over 
4,000 households had elevated levels of lead in their drinking water, the 
ensuing publicity prompted questions about how well local drinking water 
systems are protecting consumers from lead contamination nationwide. 
The adverse health effects associated with exposure to lead can be severe, 
including delays in normal physical and mental development in infants and 
young children, and damage to kidneys and reproductive systems for the 
population at large. Although rarely the sole cause of lead poisoning, lead 
in drinking water can be a significant contributor to a person’s total 
exposure—and can account for as much as 60 percent of the exposure for 
infants who drink baby formula or concentrated juices mixed with water. 
Because children are most vulnerable to adverse health effects from lead 
exposure, the adequacy of controls over lead in water supplies serving 
schools and child care facilities is particularly important.1 In response to 
the discovery of lead contamination in the District of Columbia, the 
Environmental Protection Agency (EPA) launched a broad examination of 
the implementation of drinking water regulations it issued in 1991—known 
as the Lead and Copper Rule—to determine whether elevated lead levels 
'For purposes of this report, we are referring to day care centers, nursery schools or pre- 
schools, and school-based after school programs as child care facilities. 
GAO-06-148 Lead in Drinking Water are a national problem.2 EPA issued the rule as part of its efforts in 
implementing the Safe Drinking Water Act, and established testing and 
treatment requirements to control lead and copper in public water 
supplies.3 
Responsibility for ensuring safe drinking water is shared by EPA, the states, 
and, most importantly, local water systems. In general, EPA sets standards 
to protect drinking water quality and to ensure the proper operation and 
maintenance of public water systems. EPA also oversees state 
implementation of the Safe Drinking Water Act and applicable regulations 
where states have assumed primary responsibility for enforcement. The 
states ensure that local water systems meet EPA and state requirements, 
provide technical assistance, and take enforcement action, as necessary. In 
addition, the states collect information on the results of drinking water 
monitoring, among other things, and report the information to EPA. At the 
local level, public water systems operate and maintain their facilities in 
accordance with federal and state requirements, periodically test the 
drinking water to ensure that it meets quality standards, install needed 
treatments, and report required information to the states. 
In contrast to most drinking water contaminants, lead is rarely found in the 
source water used for public water supplies. Instead, lead enters tap water 
as a result of the corrosion that takes place over time when materials 
containing lead in the water distribution system or household plumbing 
come into contact with water. For example, lead can leach out of service 
lines, pipes, brass and bronze fixtures, solders, or other materials, and 
contaminate drinking water. To address this problem, EPA established 
requirements for corrosion control treatment, source water treatment, lead 
service line replacement, and public education. The lead rule requires 
water systems to test the tap water at a specified number of locations that 
are at high risk of lead contamination.4 In general, if lead concentrations 
exceed 15 parts per billion in more than 10 percent of the samples, a water 
system has exceeded the action level and must (1) provide public 
education materials to its customers and (2) conduct additional testing to 
2Because this report examines only those requirements and activities applicable to lead, we 
will henceforth refer to this rule as the “lead rule.” See 40 C.F.R. § 141.80 et. seq. 
342 U.S.C. §300fe£. seq. 
4Under the lead rule, high risk sites include single-family homes that contain copper pipes 
with lead solder installed after 1982 or lead pipes—or that are served by lead service lines. 
GAO-06-148 Lead in Drinking Water determine if treating lead contamination from the water’s source may be 
necessary. Water systems that exceed the action level may also be required 
to install corrosion control treatment to reduce the water’s corrosiveness. 
When treatment is not effective in controlling lead levels, a water system 
must annually replace at least 7 percent of any lead service lines it owns. To 
further address the problem of lead in household plumbing, the Congress 
amended the Safe Drinking Water Act in 1986 and 1996 to, among other 
things, ban the use of lead solder and plumbing materials that are not “lead- 
free.” 
In addition, under the Lead Contamination Control Act of 1988, the 
Congress required the recall of drinking water coolers with lead-lined 
tanks, banned the manufacture and sale of water coolers that were not 
lead-free, and required states to establish programs to assist local agencies 
in testing and correcting for lead in water supplies in schools and child care 
facilities.0 While the Consumer Product Safety Commission was 
responsible for managing the recall, EPA was responsible for distributing a 
list of banned coolers and publishing and distributing guidance on 
detecting and remediating lead contamination in school drinking water 
supplies. 
In March 2005, we issued a report that focused on the lead contamination 
problem in the District of Columbia’s drinking water supplies.6 For a 
national perspective on controlling lead in drinking water, you asked us to 
determine (1) the extent to which EPA has sufficient data to oversee 
implementation of the lead rule, (2) what implementation of the rule to 
date suggests about the need for changes to the regulatory framework, and 
(3) the extent to which drinking water supplies at schools and child care 
facilities are tested for lead and their users protected from elevated lead 
levels. For information on the data EPA uses for oversight of lead rule 
implementation, we analyzed EPA data on the results and frequency of lead 
testing, the status of corrective actions, and violations. We determined that 
the data on results and frequency of testing were sufficiently reliable to 
show compliance trends. However, we found that other data on corrective 
Generally, schools and child care facilities that operate their own water systems are 
required to test their drinking water under EPA’s lead rule. EPA estimates that there are 
approximately 10,000 such systems in the United States. 
6GAO, District of Columbia’s Drinking Water: Agencies Have Improved Coordination, but 
Key Challenges Remain in Protecting the Public from Elevated Lead Levels, GAO-05-344 
(Washington, D.C.: Mar. 31, 2005). 
GAO-06-148 Lead in Drinking Water actions and violations were not sufficiently reliable to assess the status of 
efforts to implement and enforce the lead rule. For information on 
experiences in implementing the lead rule and the need for changes to the 
regulatory framework, we analyzed the responses to a 2004 EPA 
information request on states’ implementation policies and practices, the 
results of EPA-sponsored expert workshops, and relevant documents. We 
also obtained test results from NSF International on lead content and lead 
leaching of plumbing fittings and fixtures. To assess data reliability, we 
obtained information on NSF International’s procedures for data quality 
control and determined that the data were sufficiently reliable for 
illustrative purposes. For information on efforts to control lead in drinking 
water at schools and child care facilities, we analyzed the results of a 2004 
50-state information request by EPA, an EPA workshop that focused 
specifically on schools and child care facilities, and relevant documents. 
We supplemented the information collected under each objective by 
contacting state and local drinking water officials in 10 states. We selected 
eight of the states—California, Illinois, Iowa, Massachusetts, Michigan, 
New York, Pennsylvania, and Washington—because they either had a 
relatively high number of water systems with test results that exceeded or 
fell just below the lead action level, or they added to the geographical 
diversity of our selections. We also obtained information from Connecticut 
and Florida, two states that EPA identified as particularly active in 
addressing potential lead contamination in water supplies serving child 
care facilities. In all 10 states, we obtained information from state drinking 
water program managers, state public health or education officials, and 
local school districts that have efforts under way to test for and remediate 
lead contamination. (App. I contains a detailed description of our scope 
and methodology.) We performed our work between June 2004 and 
November 2005 in accordance with generally accepted government 
auditing standards. 
Results in Brief 
While EPA’s data suggest that the number of drinking water systems with 
elevated lead levels has declined significantly since the early 1990s, the 
agency does not have a complete picture of how states and water systems 
are implementing the lead rule because data on key aspects of water 
systems’ compliance with regulatory requirements are incomplete or 
questionable. According to EPA’s data, the number of systems exceeding 
the lead action level dropped by nearly 75 percent from the initial 
monitoring conducted during 1992 to 1994—shortly after the lead rule took 
effect—and the period from 2002 to June 2005. However, our analysis 
GAO-06-148 Lead in Drinking Water disclosed that EPA’s database does not contain.recent test results on over 
30 percent of the community water systems, apparently because states 
have not met reporting requirements. EPA’s data on the status of water 
systems’ efforts to implement the lead rule are similarly incomplete. The 
agency requires the states to report certain “milestones” to indicate 
whether a water system’s lead levels are acceptable or whether the system 
is implementing required corrective actions, such as installing corrosion 
control treatment and replacing lead service lines. Through June 2005, 
however, EPA’s database did not contain any milestone information on 
more than 70 percent of the nation’s community water systems. Finally, 
because some states reported few or no violations of lead rule testing and 
treatment requirements over multiple years, the completeness of these data 
is questionable. EPA has been slow to take action on these data problems 
and, as a result, lacks the information it needs to evaluate how effectively 
the lead rule is being implemented and enforced nationwide. 
The experiences of EPA, states, and water systems in implementing the 
lead rule have revealed weaknesses in the regulatory framework, including 
both oversight and the regulations themselves, which may be undermining 
the intended level of public health protection. Consequently, some changes 
to the regulatory framework are necessary. First, the sites used for lead 
testing may no longer represent the sites with the highest risk of 
contamination. For example, when the sampling locations approved 
initially are no longer available or appropriate, water systems identify new 
sites and states may not be tracking the changes to ensure that new sites 
meet high risk criteria. Another concern is that most states do not require 
their water systems to notify the homeowners who volunteer for periodic 
lead monitoring of the test results and do not know the extent to which 
such notifications are actually occurring. In addition, the effectiveness of 
corrosion control can be impaired by changes to other treatment processes 
and, in some states, testing and other controls that would help avoid such 
impacts may not be adequate. Finally, existing standards for plumbing 
fixtures and devices may not be protective enough, according to some 
experts, because testing has determined that some of the products defined 
as “lead-free” under the Safe Drinking Water Act can still contribute high 
levels of lead to drinking water. To improve implementation of the lead 
rule, EPA is considering a number of changes to its regulations, such as 
requiring advance notice of treatment modifications that could affect 
corrosion control. EPA is also considering changes to its guidance to 
improve and clarify specific aspects of the lead rule. 
GAO-06-148 Lead in Drinking Water Although data are limited, it appears that few schools and child care 
facilities have tested their water supplies for lead—or adopted other 
measures to protect users from lead contamination—either in response to 
the Lead Contamination Control Act of 1988 or as part of their current 
operating practices. Little data are available to assess (1) the scope and 
effectiveness of the effort to recall water coolers or (2) the extent and 
results of any testing. In addition, although the act required states to 
establish programs to assist local agencies in addressing potential lead 
contamination at schools and child care facilities, this provision was 
declared unconstitutional in 1996 and state efforts were generally limited. 
Current efforts to detect and remediate lead in drinking water at schools 
and child care facilities appear limited, based on the results of EPA’s 50- 
state information request and our discussions with 10 states. In recent 
years, some of these facilities have tested voluntarily, and school districts 
in some cities such as Boston, Philadelphia, and Seattle, have detected 
elevated lead levels at some drinking water outlets. However, little 
information exists on the pervasiveness of the problem nationwide because 
no focal point exists at the national or state level to collect and analyze the 
test results or share information on effective remediation strategies. State 
and local officials say that dealing with other environmental problems in 
their facilities—including lead paint, asbestos, and mold—is a higher 
priority because more information is available on the nature and extent of 
these hazards. 
We are making a series of recommendations to improve oversight and 
implementation of the lead rule. Among other things, we are 
recommending that EPA take steps to ensure that data on key aspects of 
lead rule implementation are timely and complete so that the agency is 
better able to assess the effectiveness of the rule and state oversight and 
enforcement efforts. Other recommendations focus on strengthening 
aspects of the regulatory framework, such as lead monitoring 
requirements, review of treatment changes that could affect corrosion 
control, and standards for plumbing fittings and fixtures. Finally, we are 
recommending that EPA collect and analyze existing data to assess the 
extent of lead contamination in drinking water at schools and child care 
facilities and appropriate remedial actions. In commenting on a draft of this 
report, EPA generally agreed with our findings and recommendations. In 
particular, EPA acknowledged that it needs better data to assess the 
effectiveness of lead rule implementation and enforcement. In addition, 
EPA agreed that the aspects of the regulation that we identified as needing 
improvement warrant additional attention and noted its plans to address 
most of these areas by modifying the rule or collecting additional 
GAO-06-148 Lead in Drinking Water information. EPA did not address our recommendations regarding lead 
contamination and remedial actions at schools and child care facilities. 
Background 
Under the Safe Drinking Water Act, EPA is responsible for regulating 
contaminants that may pose a public health risk and that are likely to be 
present in public water supplies. EPA may establish an enforceable 
standard—called a maximum contaminant level—that limits the amount of 
a contaminant that may be present in drinking water. However, if it is not 
economically or technically feasible to ascertain the level of a contaminant, 
EPA may instead establish a treatment technique to prevent known or 
anticipated health effects. In the case of lead, EPA established a treatment 
technique—including corrosion control treatment—because the agency 
believed that the variability of lead levels measured at the tap, even after 
treatment, makes it technologically infeasible to establish an enforceable 
standard. EPA noted that lead in drinking water occurs primarily as a 
byproduct of the corrosion of materials in the water distribution system or 
household plumbing, some of which is outside the control of the water 
systems. Figure 1 illustrates the distribution system for drinking water and 
potential sources of lead contamination. 
GAO-06-148 Lead in Drinking Water Figure 1: Water Distribution System from the Treatment Plant to Household Plumbing 
* Possible sources of lead: 
- pipe or service line 
- solder or brass fittings 
- water meter 
- service main (rarely) 
Source: EPA. 
EPA’s lead rule also established a 15-parts-per-billion lead action level, 
which is based on the 90th percentile level of water samples taken at the 
tap. Water systems must sample tap water at locations that are at high risk 
of lead contamination, generally because they are served by lead service 
lines or are likely to contain lead solder in the household plumbing. The 
number of samples that must be collected varies depending on the size of 
GAO-06-148 Lead in Drinking Water the water system and the results of earlier testing. Small or medium-sized 
systems whose test results are consistently below the action level may be 
allowed to reduce the frequency of monitoring and the number of samples 
collected.' 
To determine their test results at the 90th percentile level, water systems 
must multiply the number of samples taken during a monitoring period by 
0.9 and identify the result at that level, after ranking the results of the 
individual samples they collected in ascending order. For example, a water 
system required to take 50 samples would rank the results from 1 (for the 
lowest result) to 50 (for the highest result); the 90th percentile level is the 
45th result, 5 below the highest test result for that monitoring period. When 
the 90th percentile results for a water system are above 15 parts per billion, 
the system has exceeded the lead action level and must meet requirements 
for public education and source water treatment. Under the public 
education requirements, water systems must inform the public about the 
health effects and sources of lead contamination, along with ways to 
reduce exposure. Source water responsibilities include, at a minimum, 
water monitoring to determine if the lead contamination is from the water 
source rather than—or in addition to—service lines or plumbing fixtures.8 
Water systems that exceed the action level may also be required to install 
corrosion control treatment, except for large systems that may qualify as 
having optimized corrosion control based on other criteria.1' When either 
corrosion control or source water treatment are not effective in controlling 
lead levels, the lead rule calls for water systems with lead service lines to 
begin replacing them at a rate of 7 percent annually (unless the state 
requires a higher rate). 
’In addition, all systems that have installed corrosion control treatment and consistently 
meet water quality control parameters specified by the state may also qualify for reduced 
monitoring. 
8If testing indicates that the source water is contributing to elevated lead levels, then water 
systems may be required to install additional treatment. 
9Large water systems exceeding the action level must install corrosion control treatment 
unless (1) they already had such treatment in place prior to the effective date of the lead rule 
and have conducted related activities equivalent to those specified in the lead rule or (2) 
they can demonstrate that their source water is minimally corrosive, thereby reducing the 
likelihood that lead will be introduced into the drinking water from corrosion of lead- 
bearing plumbing materials. 
GAO-06-148 Lead in Drinking Water Figure 2: Process Drinking Water Systems Follow to Comply with EPA’s Lead Rule 
Conduct tap 
monitoring at 
high risk sites 
Do test 
results 
exceed action 
level? 
Continue periodic 
monitoring 
Meet treatment 
technique 
requirements 
Provide public education 
Test source water 
Install corrosion control: applies to 
all medium and small systems, 
and large systems that do not 
meet other criteria 
Is source 
water affecting 
lead levels? 
No action 
No action 
Do test results 
still exceed 
action level? 
Do test results 
still exceed 
action level? 
No action 
Install 
treatment 
Replace lead service lines 
(if system has such lines) 
Replace lead service lines 
(if system has such lines) 
Source: GAO. 
The states play an important role in ensuring that the lead rule is 
implemented and enforced at the local level. Among other things, they are 
responsible for (1) ensuring that water systems conduct required 
monitoring and (2) reporting the results to EPA. If the systems must take 
GAO-06-148 Lead in Drinking Water corrective action to address elevated lead levels, the states are responsible 
for approving or determining the nature of the treatment or other activities 
that will be required, ensuring that they are implemented, and periodically 
reporting relevant information to EPA. The Safe Drinking Water Act 
authorizes the states to assume primary responsibility for enforcing the 
drinking water program—including the lead rule—if they meet certain 
requirements, such as adopting drinking water regulations at least as 
stringent as EPA’s and having adequate procedures to carry out and enforce 
the program’s requirements. All states except Wyoming have assumed 
primacy for managing their drinking water programs. 
In addition to requiring the regulation of lead in public water supplies, the 
Safe Drinking Water Act also contains provisions to limit the extent to 
which materials in the water distribution system and household plumbing 
contribute to lead levels at the tap. Specifically, the act banned the use of 
solder and other materials in the installation or repair of public water 
systems or plumbing that are not lead-free. In this regard, the act 
established a material standard by defining “lead-free” to mean solders and 
flux containing no more than 0.2 percent lead, and pipes and pipe fittings 
containing no more than 8.0 percent lead.10 In addition, the act called for 
development of voluntary performance standards and testing protocols for 
the leaching of lead from new plumbing fittings and fixtures by a qualified 
third party certifier or, if necessary, promulgated by EPA. A third party 
certifier set such a standard in 1997, limiting the amount of lead that the 
fittings and fixtures may contribute to water to 11 parts per billion. 
To address the potential risks of lead contamination in water supplies 
serving schools and child care facilities, Congress passed the Lead 
Contamination Control Act of 1988.11 Among other things, the act banned 
the manufacture and sale of drinking water coolers containing lead-lined 
tanks and other water coolers that are not lead-free and required (1) EPA to 
publish a list of such coolers and distribute it to the states, (2) the 
Consumer Product Safety Commission to issue an order requiring 
manufacturers and importers to repair or replace lead-lined coolers or 
recall and provide a refund for them, and (3) the states to establish 
programs to assist local agencies in addressing potential lead 
1042 U.S.C. § 300g-6(d). 
u42 U.S.C. § 300j-21 et seq. 
GAO-06-148 Lead in Drinking Water contamination.12 In 1990, EPA identified six models of water coolers from 
one manufacturer that contained lead-lined tanks, but the agency was 
unable to obtain information on the number of units produced. Regarding 
water coolers that were not lead-free, EPA identified three manufacturers 
that produced coolers containing lead solder that could contaminate 
drinking water. The manufacturers reported producing at least 1 million of 
the coolers. 
Following the discovery of elevated lead levels in the District of Columbia’s 
drinking water, EPA undertook a year-long evaluation to gain insight into 
how states and local communities are implementing the lead rule and to 
determine whether the problems identified in the District of Columbia are 
occurring elsewhere. EPA’s activities included 
• a series of expert workshops on key aspects of the rule (monitoring 
protocols, simultaneous compliance, lead service line replacement, 
public education, and lead in plumbing fittings and fixtures), 
• a review of state policies and practices for implementing the lead rule, 
• data verification audits that covered the collection and reporting of 
compliance data for the lead rule in 10 states, and 
• an expert workshop and a review of state efforts to monitor for lead in 
drinking water at schools and child care facilities. 
Participants in EPA’s expert workshops included representatives of federal 
and state regulatory agencies, drinking water systems, researchers, public 
interest groups, and others. 
12Coolers are considered “lead-free” if any parts or components that may come in contact 
with drinking water have no more than 8 percent lead or include solder, flux, or interior 
surfaces with no more than 0.2 percent lead. 42 U.S.C. § 300j-21(2). 
GAO-06-148 Lead in Drinking Water Inadequate Data Impair 
EPA’s Ability to 
Oversee 
Implementation of the 
Lead Rule 
Although EPA’s data on the results of testing indicate that the lead rule has 
largely been successful in reducing lead levels, the reporting of these data 
has not been timely or complete. In addition, key data on the status of 
water systems’ efforts to implement the lead rule, including required 
corrective actions, are incomplete. EPA’s data on lead rule violations are 
also questionable because of potential underreporting by the states. The 
lack of data on key elements of lead rule implementation makes it difficult 
for EPA and others to gauge the effectiveness of efforts to meet and 
enforce the rule’s requirements. 
Although EPA’s Data 
Suggest a Decline in Lead 
Levels, States’ Reporting on 
the Results of Lead Testing 
Has Not Been Timely or 
Complete 
When the lead rule was first implemented, initial monitoring disclosed that 
several thousand water systems had elevated lead levels—that is, more 
than 10 percent of the samples taken at these systems exceeded the 15- 
parts-per-billion action level. EPA’s most recent data indicate that the 
number of water systems that exceed the lead action level has declined by 
nearly 75 percent since the early 1990s. The systems that currently have a 
problem with elevated lead levels represent about 2 percent of all water 
systems and serve approximately 4.6 million people. Figure 3 shows the 
results (by system size) of the initial lead monitoring, conducted from 1992 
to 1994, and more recent testing from 2002 through the quarter ending in 
June 2005.13 
13EPA provided us with a data run as of August 9, 2005. According to EPA, these data 
represent, for the most part, compliance information reported through June 30, 2005; 
however, states may have made a limited number of additions or corrections to the data 
through the run date. 
GAO-06-148 Lead in Drinking Water Figure 3: Number of Community Water Systems That Exceeded the Lead Action 
Level During the Initial Monitoring Period (1992-1994) and Their Most Recently 
Completed Monitoring (2002-June 2005), by System Size 
Systems exceeding action level 
1992-1994 
2002-2005 
Source: EPA. 
Notes: (1) Figure 3 includes data on active community water systems in the 50 states and the District 
of Columbia. The size categories for the water systems are based on population served, with large 
systems serving populations of greater than 50,000, medium systems from 3,301 to 50,000, and small 
systems less than or equal to 3,300. 
(2) Data for initial monitoring under the lead rule cover the period from 1992 to 1994 because the 
testing was phased in by system size. Large water systems began monitoring in January 1992, 
medium systems in July 1992, and small systems in July 1993. 
(3) Many water systems have obtained approval to reduce the frequency with which they are required 
to monitor for lead from every 6 months to once a year or once every 3 years. Thus, to capture the 
most recent round of testing for all water systems, we included data from 2002 through June 2005, the 
most recent data available at the time of our analysis. A few small systems have received approval to 
reduce their monitoring to once every 9 years and may not be included in these statistics. 
(4) Some water systems may have tested their lead levels multiple times during the periods covered in 
this analysis; however, we included only the results of the initial monitoring and the most recent test 
result for each system. 
GAO-06-148 Lead in Drinking Water (5) We determined that the data are sufficiently reliable for the purposes of examining trends in lead 
action levels. 
EPA, state, and water industry officials generally see the decline in the 
number of systems with elevated lead levels as evidence that the lead rule 
has been effective and point to corrosion control treatment as the primary 
reason. Another indicator of success is the number of water systems 
approved for reduced monitoring. Under the lead rule, water systems can 
obtain state approval to reduce both the frequency of monitoring and the 
number of samples included in the testing when test results show lead 
levels consistently below the action level. According to EPA’s data, nearly 
90 percent of all water systems have qualified for reduced monitoring. 
After several years of experience with the lead rule, in January 2000, EPA 
made significant changes to the information states were required to report 
for inclusion in the agency’s database. Among other things, EPA added a 
requirement for states to report, for large and medium-sized systems, all 
90th percentile test results, not just the results for systems that exceed the 
action level. EPA said that it planned to use these test results to show how 
levels of lead at the tap have changed over time for large and medium 
systems and, by extrapolation, for small systems. 
Although the new reporting requirements took effect in January 2002, EPA’s 
database contained 90th percentile test results for only 23 percent of the 
large and medium systems by January 2004.14 EPA officials explained that 
states were still having difficulty updating their information systems to 
accommodate the new reporting requirements and, for EPA, obtaining the 
data was not a priority at that time. Following the detection of elevated 
lead levels in the District of Columbia, however, EPA made a concerted 
effort to obtain more complete information from the states, and, as of June 
2004, EPA reported that it had data for nearly 89 percent of the large and 
medium systems (based on an analysis of test results submitted from 
January 2000 through May 2004). However, we also analyzed data on the 
results of lead testing and found that EPA’s database does not contain 
current information for a much larger percentage of large and medium 
water systems. Specifically, we found that for the period from January 2002 
14EPA issued minor revisions to the lead rule, including changes to the reporting 
requirements, in January 2000. While the revisions generally took effect as of April 2000, one 
exception was the reporting requirements. Although states were encouraged to begin 
meeting the new requirements sooner, they did not officially take effect until January 2002. 
See 65 Fed. Reg. 1991 (Jan. 12, 2000). 
GAO-06-148 Lead in Drinking Water through June 2005, EPA’s database lacks any test results for nearly 31 
percent of the large and medium water systems.15 We could not determine 
whether the data are missing because states have not reported the results 
or because testing has not occurred. When asked whether states have been 
updating test results in a timely manner since 2004, an official representing 
EPA said that the timeliness of recent test data is unknown; the agency has 
not been tracking whether states are adequately maintaining data on the 
results of lead testing. 
Regarding the information required for small water systems—which is 
limited to test results exceeding the action level—officials from both the 
Office of Ground Water and Drinking Water and the Office of Enforcement 
and Compliance Assurance indicated that some data are probably missing 
but could not provide specific estimates. An official from the Office of 
Ground Water and Drinking Water commented that EPA’s database likely 
includes most of the required small system data because action level 
exceedances trigger follow-up activities and states are more likely to pay 
attention to those cases. 
EPA Does Not Have 
Complete Information on 
the Status of Water Systems’ 
Efforts to Implement Lead 
Rule 
As part of EPA’s efforts to improve its indicators of lead rule 
implementation, the agency restructured its reporting requirements and 
reduced the number of “milestones” that states are required to report from 
11 to 3. EPA established three corrective action milestones, including (1) a 
DEEM milestone, meaning that the system is deemed to have optimized 
corrosion control; (2) an LSLR milestone, meaning that the system is 
required to begin replacing its lead service lines; and (3) a DONE milestone, 
meaning that the system has completed all applicable requirements for 
corrosion control, source water treatment, and lead service line 
replacement.16 
150ur analysis included active community water systems. Of the water systems lacking data, 
157 are large and 2,457 are medium-sized systems. 
lbFor the purposes of this report, we are using the term “corrective action milestones” 
although, in some instances, water systems can be reported as meeting a milestone without 
taking or completing a corrective action. For example, water systems do not necessarily 
have to install treatment to be deemed to have optimized corrosion control. They may be 
eligible for a DEEM designation because their lead levels are consistently low or they can 
demonstrate that they have minimally corrosive water. 
GAO-06-148 Lead in Drinking Water EPA officials told us that the vast majority of water systems should have at 
least one milestone in the database. They indicated that in most instances, 
systems should have a DEEM designation because they have installed 
corrosion control or qualify for meeting the milestone otherwise. However, 
we found that, overall, EPA has information on corrective action 
milestones for only 28 percent of the community water systems 
nationwide—and lacks any milestone data on the remaining 72 percent. 
Table 1 summarizes the results of our analysis. 
Table 1: Corrective Action Milestone Data Reported by the States through June 2005, by System Size and Type of Milestone3 
Systems with milestones 
Systems without any 
milestone data 
Total systems with 
one or more 
milestonesc 
System 
size 
Number of 
water systems 
Number Percent 
DEEMb 
LSLR 
DONE 
Number Percent 
Large 
841 
600 71.3 
202 
7 
206 
241 28.7 
Medium 
7,620 
5,335 70.0 
2,122 
15 
1,850 
2,285 30.0 
Small 
42,991 
31,195 72.6 
11,254 
21 
8,838 
11,796 27.4 
Total 
51,452 
37,130 72.2 
13,578 
43 
10,894 
14,322 27.8 
Source: GAO analysis of EPA data. 
aThis table reflects the milestone data that states reported for active community water systems. 
bln the case of the DEEM milestone, states are required to report the basis for their determinations that 
systems have optimized corrosion control and EPA established three reason codes for that purpose. 
We found that EPA’s database contained the required reason codes for 100 percent of the 13,578 
systems with a DEEM milestone. 
°Because individual water systems may have multiple milestones in EPA’s database, this column 
represents the number of unique systems with one or more milestones to avoid “double counting.” 
The extent to which milestone data were reported to EPA varied from state 
to state. We found that 22 states had not reported milestones for any of 
their water systems and another 8 states had reported data on about 10 
percent of their systems. (See app. II for a state-by-state breakdown of 
reported milestone data.) 
EPA officials believe that most water systems have actually taken the steps 
necessary to meet the criteria for the DEEM milestone, at a minimum, and 
attribute the lack of milestone data to non-reporting by the states rather 
than noncompliance by the water systems. They also suggested that some 
of the 22 states we identified as having reported no milestone data, based 
on our analysis of EPA’s current data, may have reported corrective actions 
GAO-06-148 Lead in Drinking Water prior to 2000, when EPA modified the number and type of milestones. 
However, we reviewed archived data in EPA’s database and found that 8 of 
the 22 states had also not reported any milestones prior to 2000, and 
another 11 states had reported data on no more than 10 percent of their 
systems. Overall, the 50 states had reported milestone data for only 5.7 
percent of their community water systems prior to 2000. 
Moreover, some information in EPA’s database is inconsistent with other 
reported data. Specifically, we found differences between the information 
on lead service line replacement in EPA’s database—systems having an 
LSLR milestone—and the information states reported in the agency’s 50- 
state review of lead rule implementation policies and practices. As table 2 
shows, seven states reported requiring lead service line replacement in 
response to EPA’s June 2004 query but did not have any LSLR milestones in 
EPA’s database in the same time frame. 
Table 2: Differences in Reported Information on Lead Service Line Replacement, as 
of June 2004 
States reporting required lead service 
line replacement activity in EPA’s June 
2004 information request3 
States reporting LSLR milestone in 
EPA’s database as of June 2004b 
Arizona 
Connecticut 
Illinois 
Illinois 
Iowa 
Massachusetts 
Massachusetts 
Michigan 
Minnesota 
Minnesota 
Montana 
Montana 
New York 
Pennsylvania 
Pennsylvania 
Utah 
Wisconsin 
Virginia 
12 states 
6 states 
Source: GAO analysis of EPA data. 
aln response to EPA’s information request, 11 states reported that some water systems were 
voluntarily replacing lead service lines—or, in two instances, the “goosenecks” connecting the water 
main to a service line. The 11 states included one state (Michigan) that also reported requiring one or 
more systems to replace lead service lines. 
GAO-06-148 Lead in Drinking Water bThe District of Columbia was also identified in EPA’s database with an LSLR milestone. 
In addition, after following up with state officials, we found that EPA’s 
database did not contain accurate data on the number of water systems 
required to replace lead service lines because the states were not providing 
timely updates or correcting erroneous information. 
Data on Lead Rule 
Violations Are Questionable 
Because of Potential 
Underreporting by the 
States 
Periodic audits by EPA—and our own analyses—raise questions about the 
completeness of EPA’s data on lead rule violations. To assess the reliability 
of its drinking water data, EPA regularly conducts data verification audits 
that evaluate state compliance decisions and the adequacy of states’ 
reporting to the national database. In addition, EPA prepares a national 
summary evaluation of the reliability of drinking water data every 3 years. 
While past data verification audits have not assessed compliance decisions 
under the lead rule, to the extent that states’ reporting practices are 
relatively consistent across regulations, the audits may shed some light on 
the types of problems likely to be found in the reporting of lead rule data. 
According to the most recent national summary of data reliability,17 which 
covered audits conducted from 1999 to 2001, the estimated error rate for 
health-based violations—involving maximum contaminant level or 
treatment technique requirements—was 35 percent, down from 60 percent 
in the prior national report, which covered audits conducted from 1996 to 
1998. For monitoring and reporting violations, the estimated error rate was 
77 percent, down from 91 percent in the prior report. The March 2004 
report said that most violation errors resulted from incorrect compliance 
determinations by the states, meaning that the state should have cited a 
violation but did not. Other problems included “data flow” errors (when the 
state correctly identified a violation but did not report it to EPA) and errors 
in EPA’s database (such as violations that were incorrectly reported or not 
removed when rescinded). 
Another analysis from EPA’s March 2004 report did include the lead rule 
and the results also raise questions about the completeness of EPA’s data 
on lead rule violations. The report states that by means of a tool that tracks 
the number of violations reported in each state over a period of several 
17EPA, Drinking Water Data Reliability Analysis and Action Plan (2003), EPA 816-R-03- 
021 (Washington, D.C., March 2004). The report’s estimates of data quality have an 80 
percent confidence level and a 7.5 percent margin of error. 
GAO-06-148 Lead in Drinking Water years, EPA determined that 14 states had not reported any treatment 
technique violations under the lead rule during a 6-year period from 1997 to 
2002.18 The report noted that this potential non-reporting should be 
evaluated further and recommended that EPA and the states conduct 
annual evaluations of all instances of potential non-reporting. EPA’s Office 
of Ground Water and Drinking Water asked the regional offices to follow up 
with the states regarding the potential underreporting, as recommended in 
the March 2004 report on data reliability. For the most part, however, the 
regions’ responses did not address the lack of treatment technique 
violations under the lead rule in the applicable states; two of the regional 
offices did not provide written responses. Officials from EPA’s Office of 
Enforcement and Compliance Assurance were not aware of the violations 
analysis. The officials told us that because of limited resources, they focus 
their efforts on helping to ensure that states address the worst compliance 
problems—water systems identified as significant noncompliers as a result 
of the frequency or severity of their violations. 
A lack of violations—or a relatively low number of water systems with 
violations—does not necessarily mean that states are not meeting reporting 
requirements, or that their compliance monitoring and enforcement efforts 
are inadequate. However, analyzing the violations data and following up on 
the results could provide some useful insights into the reasons for 
differences among the states; it could also help identify problem areas and 
best practices. We updated EPA’s analysis of violations and, as table 3 
shows, the percentage of water systems that have had one or more 
violations over the past 10 years varies from state to state, particularly in 
the case of monitoring violations. 
18EPA includes several types of violations in its treatment technique category, including 
failure to install optimal corrosion control treatment, failure to meet water quality control 
parameters, failure to replace lead service lines, and failure to meet public education 
requirements, among other things. 
GAO-06-148 Lead in Drinking Water Table 3: Percentage of Systems with Violations from 1995 to June 2005a 
Monitoring violations 
Treatment technique violations 
Percent of systems 
with violations6 Number of states 
Percent of systems 
with violations6 Number of states 
0 
1 
0 
11 
> 0 to 5 
10 
> 0 to 1 
16 
> 5 to 10 
6 
> 1 to 5 
14 
> 10 to 20 
11 
> 5 to 10 
6 
> 20 to 30 
9 
> 10 
3 
> 30 to 40 
7 
>40 
6 
Total 
50 
Total 
50 
Source: GAO analysis of EPA data. 
aWe used 1995 as the starting point for our analysis because all water systems should have completed 
their initial monitoring by the end of 1994. 
bSome water systems in EPA’s database have multiple violations. To avoid double counting, we 
identified the percent of unique systems with one or more violations. 
Appendix III contains a state-by-state analysis of lead rule violations 
reported from 1995 to June 2005. 
More recently, EPA conducted data verification audits during the fall of 
2004, which focused exclusively on states’ compliance determinations 
under the lead rule in five states and included the lead rule as part of the 
audit in another five states. However, the results are not yet available. EPA 
officials have been analyzing the data and obtaining comments on the 
preliminary findings from the states; they expect to issue a final report by 
the end of calendar year 2005. 
Lack of Data Affects EPA’s 
Ability to Evaluate the 
Effectiveness of Lead Rule 
Implementation and 
Enforcement 
In changing its reporting requirements in January 2000, EPA recognized 
that it needed better indicators of the lead rule’s implementation. 
Regarding the 90th percentile results of lead monitoring, EPA noted that in 
terms of routine reporting, these data are the only measure it has for 
showing the lead rule’s effectiveness and said that, without such data, the 
agency would have no way to measure progress.19 Similarly, EPA 
1965 Fed. Reg. 1991 (Jan. 12, 2000). 
GAO-06-148 Lead in Drinking Water maintained that having information on water systems’ corrective action 
milestones, along with quarterly violation and follow-up information, 
would provide data on the status of lead rule implementation and allow the 
targeting of compliance and enforcement activities.20 Given the reduced 
number of milestones, EPA indicated that it would be critical for states to 
report the information completely and in a timely manner, and that the 
agency would be following up with the states to ensure that such reporting 
was occurring. 
Despite the importance of the 90th percentile results and corrective action 
milestones to evaluating the lead rule’s implementation, our analyses 
confirmed or identified significant and longstanding gaps in the amount of 
information available. Although EPA attempted to ensure that it had 
complete data on the results of lead testing, following the publicity 
surrounding the incidence of lead contamination in the District of 
Columbia, the problems with incomplete test result data have continued 
and the agency has not followed up on the missing milestone data. EPA has 
also been slow to take action on the potential underreporting of violations. 
As noted earlier, following its March 2004 report on data reliability, EPA did 
not determine the reasons for the lack of violations reported by some 
states. EPA’s previous summary evaluation, which was issued in October 
2000, identified similar indications of underreporting and called for 
targeted attention to the applicable states and regions to address the issues 
and develop action plans.21 
EPA needs complete, accurate, and timely data to monitor water systems’ 
progress in implementing the lead rule, identify potential problem areas 
and best practices, and take appropriate action. In particular, not having 
complete or reliable data on corrective action milestones or violations 
makes it difficult to assess the adequacy of EPA and state enforcement 
efforts. However, officials from EPA’s Office of Enforcement and 
Compliance Assurance told us that the amount of enforcement resources 
devoted to the drinking water program—including enforcement of the lead 
rule—has declined in recent years. They also told us that while they hold 
monthly meetings with their counterparts in EPA’s regional offices and 
2063 Fed. Reg. 20043 (Apr. 22,1998). 
21EPA, Data Reliability Analysis of the EPA Safe Drinking Water Information 
System/Federal Version (SDWIS/FED), EPA 816-R-00-020 (Washington, D.C.: Oct. 2000). 
EPA found that from 1993 to 1998, 1 state had not reported any lead monitoring violations 
and 21 states had not reported any treatment technique violations related to the lead rule. 
GAO-06-148 Lead in Drinking Water state officials to discuss the more significant violators, the officials have 
not systematically evaluated state enforcement efforts with regard to the 
lead rule. See appendix IV for information on EPA and state enforcement 
actions, by type, from 1995 to June 2005. 
EPA and state officials attribute the problems with lead rule data to the 
complicated nature of the rule, the incompatibility of EPA and state 
information management systems, and resource constraints. For example, 
EPA officials noted that it is difficult to ensure that the database contains 
complete information—and includes data on every system that is required 
to test for lead in a particular period—because the frequency of required 
testing can vary depending on whether a system has qualified for reduced 
monitoring (and maintains that status in future periods). The same 
circumstances also make it difficult to develop trend data. EPA and state 
officials indicated that the January 2000 minor revisions to the lead rule, 
which made significant changes in states’ reporting requirements, 
exacerbated existing problems with the transfer of accurate and timely 
data from the states to EPA. For that and other reasons, modifying the 
states’ data systems to incorporate the new reporting milestones has been 
delayed. In addition to problems with the structure of the information 
systems—and technical problems in actually transferring data from the 
states to EPA—EPA and state officials acknowledge that reporting water 
systems’ milestone data has been a low priority. The officials explained that 
since January 2004, states have been focusing their limited resources on 
reporting the 90th percentile test results for large and medium water 
systems. 
EPA and the Association of State Drinking Water Administrators have been 
working on a Safe Drinking Water Information System modernization effort 
that should address at least some of current data problems, according to 
EPA officials. Among other things, the modernization will make it easier to 
transfer data between states and EPA so EPA’s data will be more timely. To 
improve the accuracy of the data, EPA’s system will have a component 
designed to validate state data before it is entered into the federal database. 
As of October 2005, EPA had completed the transition to its modernized 
system for the entry of new data. 
GAO-06-148 Lead in Drinking Water Weaknesses in the 
Regulatory Framework 
for the Lead Rule May 
Undermine Public 
Health Protection 
Based on their experiences in implementing the lead rule, EPA, state, and 
water system officials have identified six aspects of the rule for which 
oversight could be improved or the requirements modified to increase 
public health protection. Specifically, their experiences indicate that (1) the 
sampling sites used for lead testing may no longer reflect areas of highest 
risk, (2) reduced monitoring may not be appropriate in some instances, (3) 
the homeowners who participate in tap monitoring may not be informed of 
the test results, (4) controls over when and how treatment changes are 
implemented may not be adequate, (5) data on the effectiveness of lead 
service line replacement programs are limited, and (6) states vary in how 
they apply the lead rule when water systems sell drinking water to other 
systems. In addition, some of the officials responsible for implementing the 
lead rule and other drinking water experts believe that existing standards 
for plumbing fixtures may be outdated. EPA is considering modifications to 
the lead rule that will address some of the problems we identified. 
Sampling Sites May No 
Longer Reflect Areas of 
Highest Risk 
Under the lead rule, water systems must select sampling sites that are 
considered to be at high risk for contamination. The rule defines Tier 1 sites 
as single-family structures served by lead service lines, and/or containing 
lead pipes (or copper pipes with lead solder installed after 1982).22 
According to participants in EPA’s workshop on monitoring protocols and 
state officials we interviewed, one problem is that EPA has never updated 
its site selection criteria and at least one of the criteria is outdated. 
Specifically, enough time has elapsed so that lead solder in plumbing 
installed from 1983 to 1986 is no longer “fresh” (lead solder was banned in 
1986). Experts believe that, by now, solder from that period has been 
coated by a naturally occurring film that prevents lead leaching. Moving the 
sampling sites to other Tier 1 locations—for example, homes served by 
lead service lines—could be problematic. In the preamble to the lead rule, 
issued in 1991, EPA cited a survey by the American Water Works 
Association which estimated that only about 20 percent of the nation’s 
community water systems have lead service lines. Moreover, although the 
lead rule required water systems to do a “materials evaluation” to identify 
an adequate pool of high risk sampling sites, according to EPA the 
22If a water system does not have a sufficient number of Tier 1 sites in its sampling pool, the 
system may use Tier 2 sites, which are buildings (including multi-family residences) that 
meet the Tier 1 criteria. If necessary, the system may obtain samples from Tier 3 sites, which 
are single-family structures that contain copper pipes with lead solder installed before 1983. 
GAO-06-148 Lead in Drinking Water evaluation did not assess pipe materials system-wide, and many systems do 
not have a complete inventory of their service lines. 
A related problem is that sampling locations have likely changed over time 
as sites are no longer available or appropriate, and states may not have 
procedures in place to ensure that these locations continue to represent the 
highest risk sites.2 * In this regard, EPA requested information from the 
states on how they “ensure that site locations were correctly followed 
during system sampling rounds.” As table 4 shows, a significant number of 
states may not be tracking changes in water systems’ sampling locations. 
Table 4: State Activities to Ensure that Water Systems Are Taking Lead Samples at 
Appropriate Sites 
Activity Number of states 
State uses tracking mechanisms such as special forms 
or unique codes to control sampling sites 14 
State reported a less rigorous or less defined means of 
oversight3 11 
State requires notification when systems change 
sampling locations but does not otherwise track sampling 5 
State does not review or track sampling15 8 
State did not answer question or provided information 
that was nonresponsive 12 
Source: GAO analysis of EPA's information request on state implementation policies and practices. 
aFor example, some states reported comparing the actual sampling locations with the sampling plans, 
some said that they advise their systems to continue sampling at the locations used during the initial 
sampling rounds, and others reported “reviewing” each round of sampling but did not mention 
comparing the sites to the sampling plans. 
bTwo of these states (California and Vermont) reported that they lacked the resources to ensure that 
their water systems are taking samples at the correct locations. 
Another uncertainty is whether systems that are on reduced monitoring— 
and have been allowed to reduce the number of samples they collect—are 
taking samples from locations that represent the highest risk sites based on 
23For example, homeowners may drop out of the sampling program, homes may be tom 
down or become vacant, or homeowners may install water softeners or other treatment 
devices that reduce lead levels. 
GAO-06-148 Lead in Drinking Water previous testing.24 According to the lead rule, these water systems must 
take their samples from sites included in the pool of high risk sampling 
sites identified initially. Although the systems have some indication of 
which sites within the pool have historically tested at higher or lower lead 
levels, the rule is silent on how sites within the pool are to be selected for 
reduced monitoring, except that they must be “representative” of the sites 
required for standard monitoring. In addition, the rule provides that states 
may specify the sampling locations. EPA requested information from the 
states on what role they play in selecting the sites used for reduced 
monitoring. We analyzed the states’ responses and found that, in most 
instances, the states’ role is limited; table 5 summarizes the results of our 
analysis. 
Table 5: State Role in Selecting Sites for Reduced Monitoring 
Activity 
Number of states 
State requires that highest risk sites, based 
on previous test results, are selected 
3 
State policy ensures that some of the 
highest risk sites, based on previous test 
results, are selected® 
9 
State provides general guidance and may 
review the water systems’ selections15 
19 
State plays no role in selecting sites for 
reduced monitoring 
12 
State did not answer question or provided 
information that was nonresponsive 
7 
Total 
50 
Source: GAO analysis of EPA’s information request on state implementation policies and practices. 
aAmong other things, some states require systems to select every other sampling site after ranking the 
sites by result from prior testing or alternate sites in each round of sampling. 
bFor example, many of these states instruct their water systems to focus on Tier 1 sites first (if their 
sampling pool also contains Tier 2 or Tier 3 sites) or say that the sites must be representative of those 
in the pool or of the distribution system. 
24Under the lead rule, systems that qualify for reducing the frequency of monitoring because 
of consistently good test results may also reduce the number of samples they test (and 
accordingly, the number of locations from which they collect samples). Except for the 
smallest systems, which serve populations of 100 or fewer (and are only required to take 5 
samples), water systems can cut the number of samples they collect by half. This means, for 
example, that the largest systems, serving populations of over 100,000, can reduce the 
number of sampling locations from 100 to 50. 
GAO-06-148 Lead in Drinking Water Reduced Monitoring May 
Not Be Appropriate in Some 
Instances 
According to EPA’s lead rule, small and medium-sized water systems whose 
test results are consistently at or below the action level may reduce the 
frequency of monitoring from once every 6 months to annually and, if 
acceptable results continue, to once every 3 years.2 ’ In addition, systems of 
any size that operate within water quality control parameters reflecting 
optimal corrosion control treatment, as specified by the state, may reduce 
the frequency of monitoring under the same schedule.26 The rule also lays 
out conditions under which water systems must return to standard 
monitoring—for example, small and medium-sized systems that have 
exceeded the action level. In addition, states have the flexibility to require 
systems to resume standard monitoring if the state deems it to be 
appropriate.27 We analyzed EPA’s compliance data and found some 
instances that raise questions about the states’ decisions to allow reduced 
monitoring. Specifically, we found that 49 large and medium water systems 
were exceeding the 15-parts-per-billion action level and appeared to be on 
reduced monitoring schedules.28 In addition, our analysis indicates that 104 
large and medium systems with lead levels of 13-15 parts per billion also 
appear to be on reduced monitoring schedules. Although this is allowable 
under EPA’s regulations, according to some state officials, systems with 
lead levels just below the action level should be subject to closer scrutiny 
and, thus, may not be good candidates for reduced monitoring. 
To determine how states exercised their discretion with regard to 
monitoring frequency, we reviewed their responses to EPA’s information 
25Specifically, if the test results are at or below the action level in two consecutive 6-month 
monitoring periods, the systems may reduce the frequency of monitoring to once a year. 
Further, systems that test below the action level in three consecutive annual monitoring 
periods may be allowed to conduct testing only once every 3 years. Small systems may be 
eligible to reduce their monitoring frequency to once every 9 years if (1) they can 
demonstrate that their distribution system, service lines, and drinking water supply 
plumbing (including the plumbing conveying drinking water within all residences and other 
buildings connected to the system) is lead-free and (2) all applicable test results do not 
exceed 5 parts per billion at the 90th percentile. 
26When systems install corrosion control treatment, states must evaluate tap and water 
quality parameter samples to determine whether the system has properly installed and 
operated the treatment. 
27When systems submit new monitoring or treatment data, or when other relevant data 
become available, states are required to review and, where appropriate, revise their 
determinations. 
28In analyzing these data, we compared the most recent test results reported during the 2002 
to June 2005 time frame and data on water systems’ current monitoring frequency. 
GAO-06-148 Lead in Drinking Water request, which asked the states to describe how they determine if reduced 
monitoring is appropriate. According to their responses, the states by and 
large adhere to the requirements of the lead rule and allow reduced 
monitoring whenever a water system’s test results are at or below the 
action level in consecutive monitoring periods.29 Specifically, 40 states 
reported that they follow the federal regulation, 6 states indicated that they 
may be using some additional criteria for their reduced monitoring 
determinations,30 and 4 states did not answer or provided information that 
was nonresponsive. EPA did not ask for the states’ views on whether 
reduced monitoring is appropriate when a water system’s test results are at 
or just below the action level or on circumstances in which states might 
determine that previously approved reduced monitoring is no longer 
appropriate—and the states did not volunteer such information. None of 
the states reported using other criteria, such as test results that are at or 
just below the action level, to delay or rescind approval for reduced 
monitoring. 
A key issue is whether water systems should be required to resume 
standard monitoring following a major treatment change so that the 
potential effects of the change can be evaluated. Given the circumstances 
in which lead contamination became a problem in the District of Columbia, 
when a change in the system’s disinfection treatment impaired the 
effectiveness of corrosion control, such decisions can be critical. In its 
information request on state implementation policies and practices, EPA 
asked the states whether they had ever required a system to conduct more 
frequent monitoring to evaluate the potential effects of a treatment change. 
It would have been useful to know more about the states’ policies and 
practices in this regard, including how often the states required additional 
monitoring and the criteria they used in making such determinations. 
29Although the lead rule states that test results must “meet” the action level (i.e., be at or 
below the action level) for a water system to be eligible for reduced monitoring, 10 states 
reported that reduced monitoring is allowed only when the test results are “below” the 
action level. We did not follow up with these states to determine whether they actually differ 
from the federal rule or their response was in error. 
30In some of these instances, the states’ responses implied—but did not specify—additional 
criteria. Otherwise, two states (Louisiana and South Dakota) reported that water systems 
would be approved for triennial monitoring if their 90th percentile test results were less than 
half of the action level. Michigan limits reductions in the number of sampling locations in 
the case of “combined distribution systems,” in which systems that purchase water are 
interconnected with a water wholesaler. 
GAO-06-148 Lead in Drinking Water However, EPA’s question was limited in scope and, as table 6 shows, the 
states often did not elaborate. 
Table 6: States That Require More Frequent Monitoring to Evaluate the Effects of 
Treatment Changes 
State policy Number of states 
States answered yes without elaborating on 
the frequency of—or criteria for—such 
decisions 11 
States answered yes and included some 
indication of how often they required 
additional monitoring (7 states) or the 
criteria used for these decisions (5 states)3 12 
State answer was ambiguous; it is unclear 
whether state has ever required more 
frequent monitoring after a treatment 
changeb 7 
States answered no, generally without 
elaboration 16 
States did not answer question or provided 
information that was nonresponsived 4 
Total 50 
Source: GAO analysis of EPA’s information request on state implementation policies and practices. 
aFor example, two states indicated that requiring more frequent monitoring was relatively common, 
while others reported that it was required in certain instances or occasionally. Examples of criteria for 
more frequent monitoring include (1) test results following a treatment change that are close to the 
lead action level and (2) installing treatment that is designed or expected to change water quality. 
bResponses from these states referred to state regulations or policy (e.g., “this is embedded in the 
approval process”) but did not directly answer the question of whether the state had ever required a 
system to conduct more frequent monitoring. In several instances, it seems likely that water systems 
have been required to monitor following a treatment change. 
cSeveral states indicated that additional monitoring was recommended or encouraged following a 
treatment change but not required. 
'’Two states did not answer the question and the responses from the other two states only addressed 
monitoring requirements following changes to corrosion control treatment. 
In our discussions with 10 states, we found a variety of policies and 
practices regarding reduced monitoring. For example, officials from 
California and New York told us that they do not approve reduced 
monitoring—or are reluctant to do so—when water systems’ test results 
are close to the lead action level. On the other hand, Connecticut and 
Massachusetts officials indicated that they have systems that are on 
reduced monitoring despite test results close to the action level. Several 
GAO-06-148 Lead in Drinking Water other states indicated that, in the case of large water systems, approval for 
reduced monitoring is linked to whether the systems are meeting their 
water quality parameters—not the results of lead monitoring. On the issue 
of monitoring following a major treatment change, some participants at 
EPA’s monitoring workshop stated that standard compliance monitoring 
does not adequately evaluate the impact of treatment changes and that 
monitoring immediately after major changes should be required. Several of 
the states we contacted also favor increased monitoring under these 
circumstances; Florida and New York, for example, require systems to 
return to semi-annual monitoring following a treatment change. 
Pennsylvania officials agree that the state and water system should revisit 
the treatment approach when monitoring results indicate that a treatment 
change is affecting water chemistry. However, the officials acknowledged 
that they may not find out about the impact of treatment changes in a 
timely manner when water systems are on a triennial monitoring schedule. 
Homeowners Who 
Participate in Periodic Tap 
Sampling May Not Be 
Notified of the Test Results 
According to EPA’s information request on state implementation policies 
and practices, only two states require their water systems to notify 
homeowners of the results of lead testing—Texas (only when results 
exceed the action level) and Wisconsin. At least 17 other states indicated 
that notification may be occurring voluntarily to varying degrees. Table 7 
summarizes the results of our analysis. 
Table 7: State Views on Extent to Which Water Systems Are Notifying Homeowners 
of the Results of Lead Testing 
Extent of notification 
Number of states 
All systems notify homeowners 
1 
Some systems notify homeowners3 
15 
Test results are provided only on request 
2 
State is not aware of any systems that notify 
homeowners 
6 
State does not know what systems are 
doing13 
18 
State apparently misinterpreted EPA’s 
question0 
8 
Total 
50 
Source: GAO analysis of EPA’s information request on state implementation policies and practices. 
GAO-06-148 Lead in Drinking Water aThe states’ answers varied considerably. For example, some states indicated that their larger water 
systems are providing results to homeowners and some indicated that homeowners got the results 
only if they exceeded the action level. 
bln a few instances, the states indicated that they recommended that their water systems provide 
homeowners with test results. For example, Hawaii recommends notifying the homeowner if test 
results exceed 100 parts per billion, both to alert the homeowner and to verify that the sampling 
protocol was followed correctly. However, the states in this category did not have information on 
whether homeowners were actually getting test results. 
CEPA asked if water systems provide homeowners with the lead sampling results derived from “any 
volunteer sampling program.” Based on their answers, it appears that these states may have believed 
that EPA was asking about any testing above and beyond the regular sampling program involving 
residential tap samples. For example, several states said that they were not aware of any systems 
performing volunteer sampling programs and others indicated that their systems will conduct lead 
testing for homeowners on request. 
Controls over When and 
How Treatment Changes 
Are Implemented May Not 
Be Adequate 
In some instances, changes to other treatment processes can make 
corrosion control less effective. According to EPA, state, and industry 
officials, one of the biggest challenges in implementing the lead rule is 
achieving “simultaneous compliance” with other rules, including, in 
particular, rules related to total coliform bacteria, surface water treatment, 
and disinfection by-products. Changing the type of disinfectant a system 
uses to control bacteria, for example, can impair the effectiveness of a 
system’s corrosion control treatment to prevent lead contamination. 
Among other things, states assuming primary enforcement responsibility 
must have a process for ensuring that the design and construction of new 
or substantially modified water system facilities will be capable of meeting 
drinking water regvilations, including the lead rule.31 In addition, in its 
minor revisions to the lead rule, EPA added a requirement that certain 
water systems must notify the state no later than 60 days after making a 
change in water treatment.32 However, the responses to EPA’s information 
request raise questions about the nature and extent of states’ reviews of 
treatment changes. On the one hand, 31 states indicated that they had some 
type of proactive process to review or evaluate treatment changes, before 
or after the treatment was installed, including 15 states that reported 
requiring some or all of the affected water systems to provide information 
on the potential effects of treatment changes on corrosion control.33 On the 
3140 C.ER. § 142.10(b)(5). 
3240 C.F.R. § 141.90(a)(3). 
provided by the remaining 19 states was unclear, generally because their 
responses were limited or based on a literal interpretation of EPA’s question (e.g., states 
responded “in writing,” when asked how systems notified the state about treatment 
changes). 
GAO-06-148 Lead in Drinking Water other hand, it appears that in at least 15 states, the plan review process may 
be limited, or the states may not be receiving notifications from all their 
water systems. For example, some states indicated that their review 
process only covers changes to a system’s physical infrastructure—or 
specifically excludes changes in the chemicals used in a process. Other 
states reported that they are not learning of some treatment changes until 
they conduct comprehensive inspections of the water systems, or that 
small systems in particular are not notifying the state when they change 
their treatment processes. 
Some of the participants in EPA’s May 2004 workshop on simultaneous 
compliance cited a need for additional regulations or guidance to help 
ensure that the effectiveness of corrosion control is maintained when 
water systems make changes to other treatment processes. For example, 
some participants suggested that the lead rule should better define or even 
specify the types of treatment changes that (1) should be reported to the 
state and (2) trigger additional monitoring or analysis. Along those lines, 
Washington state officials told us that certain changes, such as switching 
the disinfectant from chlorine to chloramines or making adjustments that 
affect the water’s pH or alkalinity, may warrant closer review because of 
the potential impact on corrosion control. The officials also noted that 
additional guidance from EPA on these matters would be helpful. Others 
believe that small water systems, in particular, need more guidance on the 
potential effects of various treatment changes, and that operator 
certification and training programs should be updated to address these 
topics. 
Data On the Effectiveness of 
Lead Service Line 
Reolacement Programs Are 
T . . , ® 
Under the lead rule, drinking water systems may be required to replace 
lead service lines if test results exceed the action level after installing 
corrosion control and/or source water treatment. Some of the participants 
in an EPA workshop on lead service line replacement and state officials we 
contacted raised questions about the effectiveness of replacement 
programs, in part because such programs often result in partial 
replacement only. Water systems are responsible for replacing only the 
portion of the service lines they own. While residential customers may, at 
their option, pay the cost of replacing the rest of the service line—typically, 
the portion running from the curb stop or property line to the household 
plumbing system—some evidence suggests that customer participation in 
such programs is generally low. 
GAO-06-148 Lead in Drinking Water According to workshop participants, little conclusive information is 
available on the extent to which removing lead service lines lowers lead 
levels at the tap. In a survey of water systems conducted for the American 
Water Works Association, 18 of 27 respondents indicated that lead service 
lines were not responsible for the highest levels of lead in drinking water, 
and 20 of 29 respondents reported no observed linkage between lead 
service lines and lead levels in drinking water.34 However, the survey did 
not include information on test results before and after replacement of lead 
service lines. The American Water Works Association Research Foundation 
is sponsoring a study of the relative contributions of service lines and 
plumbing fixtures to lead levels at the tap; the projected completion is fall 
2008. 
The limited data on the extent and results of lead service line replacement 
programs make it difficult to draw conclusions about the programs’ 
effectiveness or the need for additional regulations or guidance. As noted 
earlier, EPA’s data on corrective action milestones—including the LSLR 
milestone—are incomplete. Moreover, few states reported requiring 
systems to replace lead service lines in response to EPA’s information 
request on state implementation policies and practices. Specifically, when 
asked if they have any systems that have been required to do lead service 
line replacement, five states answered “yes” without elaborating and seven 
states reported a total of 27 water systems that are (or were) replacing lead 
lines.3’ In addition, although the lead rule requires testing following partial 
service line replacement, it appears that neither the states nor EPA are 
collecting and analyzing these test results. EPA asked states to describe the 
process they use to ensure that water systems are following the 
requirements for lead service line replacement. Among other things, the 
lead rule requires systems to collect samples within 72 hours following 
partial replacement and to notify homeowners and occupants of the 
results. States may waive the requirement that these test results also be 
provided to the states. Of the 12 states that reported requiring one or more 
water systems to replace lead service lines, only one indicated that its 
65 water systems with lead service lines were included in the survey. Although a 
total of 41 systems responded to the survey, the number of responses to individual questions 
varied. 
’ ’In addition, nine states reported that one or more of their water systems were replacing 
lead service lines voluntarily (including one state that also reported requiring systems to 
replace lead lines). Two more states reported that systems with lead goosenecks, which 
connect water mains to the service lines, have either replaced the goosenecks or are doing 
so as they are discovered. 
GAO-06-148 Lead in Drinking Water water systems might be required to report the results of service line testing 
to the state.36 
Some of the officials we contacted raised concerns about whether the 
benefits of replacement are enough to justify what can be a significant 
investment. For example, Iowa drinking water officials commented that 
partial replacement is not a good use of resources because it disturbs the 
line, releasing lead particulate matter into the water, and still leaves half the 
lead line in place. In addition, officials from the Syracuse Water 
Department told us that they are planning to replace lead service lines at a 
cost of $5.3 million, although they are skeptical that the effort will 
significantly reduce lead levels, citing the age of the housing stock and lead 
contributions from internal residential plumbing. The officials attribute the 
city’s problem with elevated lead levels to a simultaneous compliance 
issue. Specifically, adding a phosphate-based corrosion inhibitor to further 
reduce the corrosiveness of the drinking water solves one problem but 
creates another: excessive phosphates in the system’s discharges to a local 
lake. 
Participants at EPA’s workshop on lead service line replacement and some 
of the state and water industry officials we contacted suggested measures 
to help ensure that water systems maximize the potential benefits of 
replacement efforts. For example, some workshop participants called for 
EPA guidance on strategies to encourage full service line replacement and 
motivate customers to have their portion of the line removed. Such 
strategies might include subsidizing a portion of the replacement cost, 
offering low interest loans or property tax relief, requiring disclosure of 
lead service lines in property sales, or providing more information on the 
health effects of exposure to lead in drinking water. Others suggested that 
prioritizing the replacement of lead service lines would help ensure that 
replacement activities focus on the populations most at risk from exposure 
to elevated lead levels. Some utilities are already prioritizing service line 
replacement using criteria such as locations with vulnerable populations, 
including schools and child care facilities, locations where test results have 
exceeded the action level, and lines serving 20 or more people in an 8-hour 
day. 
36Another two states said that they issued regulations or provided guidance instructing 
systems to comply with the testing requirements; three states indicated that they review a 
system’s replacement program during periodic inspections; and six states did not provide 
any information regarding their oversight of lead service line testing. 
GAO-06-148 Lead in Drinking Water States Vary in How They 
Apply the Lead Rule When 
Water Systems Sell Drinking 
w , q f 6 
a er O er ys ems 
We found some differences among the states in how interconnected water 
systems—generally comprising a system that sells drinking water along 
with one or more systems that buy the water—are required to monitor for 
lead and report the results. According to EPA’s proposed definitions, these 
interconnected water systems are known as “combined water distribution 
systems.”37 The variations in state implementation practices create 
differences in the level of public information and, potentially, public health 
protection. Combined distribution systems account for a large and growing 
share of the nation’s community water systems so differences in how they 
implement the lead rule could have broad implications for public health 
protection. Overall, EPA estimates that there are currently about 2,800 
combined distribution systems that encompass about 13,900 individual 
systems, likely accounting for a significant share of all community water 
systems.38 Under EPA regulations that establish general requirements for 
drinking water monitoring, states may modify the monitoring requirements 
imposed on combined distribution systems—typically by reducing the 
number of samples required within the combined system—“to the extent 
that the interconnection of the systems justifies treating them as a single 
system for monitoring purposes.”39 However, in the case of the lead rule, 
EPA strongly discouraged such modifications, commenting that they would 
not be appropriate because the primary source of elevated lead levels at the 
tap is materials within the distribution system. 
At least four of the states we contacted—Massachusetts, Michigan, Oregon, 
and Washington—approved modified sampling arrangements at combined 
distribution systems. For example, the Massachusetts Water Resources 
;!7Under EPA’s proposed definitions, a “water wholesaler” is a water system that sells or 
otherwise delivers treated water to another system on a regular basis (at least 60 days per 
year); a “consecutive system” is a system that buys or otherwise receives some or all of its 
treated water from another water system at least 60 days per year. EPA defines the totality 
of the distribution systems of all interconnected wholesale and consecutive systems as a 
combined distribution system. 
:J8We were unable to confirm the actual number of community water systems in EPA’s 
estimate. According to EPA, they are in the process of developing better data on the number 
and type of water systems involved in combined distribution systems. 
3940 C.F.R. § 141.29. EPA must concur with modified monitoring arrangements. 
GAO-06-148 Lead in Drinking Water Authority, which supplies all of the drinking water for 30 communities,40 
currently takes lead samples at 440 locations under its modified sampling 
arrangement—significantly fewer than the 1,720 samples that would be 
required if each of the consecutive systems tested for lead individually. On 
the other hand, if the combined distribution system represented a single 
water system, only 100 samples would be required. 
EPA does not have comprehensive information on the extent to which 
states are approving modified sampling arrangements at combined 
distribution systems—or the reporting practices used by such systems. As 
table 8 shows, we found differences in how combined distribution systems 
calculated and reported their 90th percentile test results. 
Table 8: Examples of Different Reporting Practices for Lead Testing in Combined Water Distribution Systems as of June 2005 
Water wholesaler 
Number of consecutive 
systems fully supplied by 
the wholesaler3 
How the systems are listed in 
EPA’s database 
How the 90th percentile lead 
levels are calculated and 
reported in EPA’s database 
Detroit, Ml 
72 
Wholesaler and each 
consecutive system are listed 
separately 
Separate lead level calculations 
for the wholesaler and each 
consecutive system 
Massachusetts Water 
Resources Authority (MA) 
30 
One listing for the combined 
distribution system (including the 
wholesaler and the consecutive 
systems) 
One overall result, reported for 
the combined distribution system 
Philadelphia, PA 
3 
Wholesaler and each 
consecutive system are listed 
separately 
Separate lead level calculations 
for the wholesaler and each 
consecutive system 
Portland, OR 
15 
Wholesaler and each 
consecutive system are listed 
separately 
One overall result; same 90th 
percentile reported for wholesaler 
and each consecutive system 
Seattle, WA 
19 
One listing for the combined 
distribution system (including the 
wholesaler and the consecutive 
systems) 
One overall result, reported for 
the combined distribution system 
Source: GAO analysis of data from EPA and the wholesaler water systems. 
40According to a Massachusetts Water Resources Authority official, the 30 communities 
receive corrosion control from the Authority and are part of the modified sampling 
arrangement approved by the Massachusetts Department of Environmental Protection. The 
Authority also provides more limited services to 17 other systems, including water that is 
mixed with local supplies in some cases and emergency water supplies in other cases. Each 
of these other systems has its own lead rule compliance program. 
GAO-06-148 Lead in Drinking Water aThe water wholesalers may also partially supply other systems or provide emergency supplies, and 
may sell water to certain non-transient, noncommunity water systems—systems that serve at least 25 
people for more than 6 months in a year—and generally are subject to the same requirements as 
community water systems. 
Not only do the reporting practices approved by the states affect the 
amount of information available to the public—they can also have 
implications for the corrective actions that are taken to reduce lead levels. 
For example, reporting one overall result for lead testing can be misleading 
if the 90"1 percentile levels at individual consecutive systems would have 
exceeded the action level. In the case of the Massachusetts Water 
Resources Authority, although EPA’s database contains the overall result 
for the combined system, authority officials calculated the 90th percentile 
results for each of the consecutive systems and determined that lead 
concentrations at some of them exceeded the action level.41 State officials 
in Massachusetts told us that until recently, none of the consecutive 
systems whose individual test results exceeded the action level were 
required to meet public notification or public education requirements or to 
replace lead service lines—as long as the result for the combined system 
met the action level. Although EPA regional officials concurred with such 
arrangements when they were first established, EPA is now considering 
how to ensure that the lead rule requirements will be applied to each 
community within a combined distribution system. Based on discussions 
with EPA regional officials, Massachusetts has already changed its policy 
and will be revisiting agreements with combined distribution systems. 
Outdated Plumbing 
Standards Hinder Efforts to 
Reduce Exposure to Lead in 
Drinking Water 
The standards applicable to plumbing products are important to utility 
managers who are responsible for ensuring the quality of water at the tap 
but have little control over household plumbing. However, existing 
standards may not be protective enough, according to some experts, 
because testing has determined that some of the products defined as “lead- 
free” under the Safe Drinking Water Act can still contribute high levels of 
lead to drinking water. For example, although the act prohibits the use of 
solder or other plumbing materials in the installation or repair of any public 
water system if it is not lead-free, lead-free is defined to include materials 
that contain small amounts of lead. That is, solders and flux may contain up 
to 0.2 percent lead, pipes and pipe fittings may contain up to 8 percent lead. 
41In this case, the individual communities did notify their customers of the 90th percentile 
results for the applicable consecutive system. However, EPA’s database does not contain 
this information so it is not readily available to the public at large. 
GAO-06-148 Lead in Drinking Water In addition, plumbing fittings and fixtures may leach lead up to 11 parts per 
billion into drinking water and still be deemed lead-free, according to 
voluntary standards established by an independent organization and 
accepted by EPA.42 
NSF International (NSF)—a not-for-profit, non-governmental organization 
involved in standards development and product certification—established 
the standard in 1997.43 NSF used a voluntary consensus process that 
included representatives from regulatory agencies, industry, water 
suppliers, consultants, and other users of the products governed by the 
standard. 
One problem with the current regulatory framework is that certain devices 
used in or near residential plumbing systems are not covered by all 
standards for lead-free plumbing. Table 9 shows how the standards 
governing lead content and lead leaching apply to specific categories of 
products. 
Table 9: Applicability of Standards for Lead-Free Plumbing Products 
Type of plumbing product 
8% limit on lead 
content 
11 ppb limit on lead 
leaching 
Endpoint devices, such as kitchen and 
lavatory faucets, water dispensers, drinking 
fountains, and residential refrigerator ice 
makers3 
X 
X 
In-line devices, such as meters and valvesb 
X 
Source: EPA and NSF International. 
aNSF defines endpoint devices as mechanical plumbing devices, components, and materials that are 
typically installed with the last liter of the distribution system and are intended by the manufacturer to 
dispense water for human consumption. 
bNSF defines in-line devices as devices installed on a service line of building distribution system 
downstream of the water main and before endpoint devices. They include devices in a building used to 
measure or control the flow of water in treatment, transmission, or distribution systems and are in 
contact with drinking water. 
4242 U.S.C. § 300g-6(a),(d),(e). 
43See NSF, ANSI/NSF Standard 61: Drinking Water System Components - Health Effects 
(Ann Arbor, Mich.: 1997). NSF focuses on food, water, indoor air, and the environment. NSF 
is accredited by the American National Standards Institute (ANSI) to provide third-party 
certification to NSF Standard 61. 
GAO-06-148 Lead in Drinking Water Some of the products that are not covered by the voluntary leaching 
standard have been found to contribute high levels of lead to drinking 
water during testing. For example, tests conducted by NSF indicate that 
certain meters and valves may contribute high levels of lead to drinking 
water. At our request, NSF compiled test results for a nonprobability 
sample of water meters and valves that had been submitted for evaluation. 
While all of the products in the sample were well below the 8 percent limit 
on lead content, the test results showed that the amount of lead leached 
from the selected water meters ranged from 0.4 parts per billion up to 39 
parts per billion and, in the case of valves, ranged from a low of 4.1 parts 
per billion to as much as 530 parts per billion. An NSF official commented 
that although these products are representative of what is submitted to 
NSF for testing, they are probably not representative of what is available in 
the marketplace because some manufacturers have two product lines—a 
low-lead line for buyers who specify products that meet NSF Standard 61 
and a higher-leaded line for other buyers. 
Another issue is that NSF’s testing protocol for lead leaching may not 
accurately reflect actual conditions and may need to be modified. One 
recent study identified several aspects of NSF’s testing protocol that should 
be reevaluated, including, for example, the chemistry of the water in which 
tests are conducted. After demonstrating that potentially unsafe devices 
could pass NSF’s test, the study concluded that the protocol “lacks the 
rigor necessary to prevent installation of devices that pose an obvious 
public health hazard.”44 NSF officials told us that they are aware of the 
concerns and have already made some clarifications and changes to the 
protocol. NSF has also established a task force, the Drinking Water 
Additives Joint Committee, which will be reviewing the protectiveness of 
NSF Standard 61 and related testing. 
Representatives of NSF, water utilities, and researchers also took issue 
with the standard for lead content, noting that it has not been updated to 
reflect current manufacturing capabilities and practices. According to the 
American Water Works Association, manufacturing technology in the 
plumbing industry has improved since the lead-free definition was 
established nearly 20 years ago, and today’s plumbing products contain less 
lead as a result. Data on the lead content of plumbing products voluntarily 
submitted to NSF for evaluation, shown in table 10, suggest that 
44Dudi, A., Schock, M., Murray, N., and Edwards, M., Lead Leaching from Inline Brass 
Devices: A Critical Evaluation of the Existing Standard, Journal AWWA (August 2005). 
GAO-06-148 Lead in Drinking Water manufacturers can produce products with lead levels well below the 8 
percent standard. 
Table 10: Summary of NSF Test Results Regarding Lead Content of Plumbing Products Voluntarily Submitted to NSF for 
Certification 
Results of testing on faucets 
Results of testing on meters and valves 
Lead content 
Cumulative number 
Cumulative percent 
Cumulative number 
Cumulative percent 
1.0% or less 
2,069 
37.3 
930 
75.1 
3.7% or less 
5,495 
99.0 
1,104 
89.1 
8.0% or less 
5,551 
100.0 
1,236 
99.8 
Total products tested 
5,551 
100.0 
1,239 
100.0 
Source: NSF. 
Note: This table contains cumulative data on the number and percent lead content of faucets, meters, 
and valves voluntarily submitted to NSF for certification. The data should not be generalized beyond 
this group. 
According to NSF, the extent to which lead leaches from products 
containing lead is not directly proportional to the level of lead used in any 
one alloy contained in the product.45 NSF identified several factors that 
contribute to the level of leaching, including the corrosiveness of the water, 
lead content, the extent of the leaded surface area, and the process used to 
manufacture the product. However, the state regulators, water industry 
representatives, and other experts we interviewed generally agreed that 
lowering the existing standard for lead content is feasible and would 
provide an extra margin of safety. Both the Copper Development 
Association and the Plumbing Manufacturers Institute acknowledged that 
most plumbing products are below the 8 percent limit on lead content but 
prefer that plumbing standards focus on performance—the leaching of 
lead—rather than content. 
We did not attempt to determine the extent to which the standards for lead- 
free plumbing products are enforced. According to NSF, the use of 
plumbing products within a building is generally regulated at the state, 
county, and city levels through plumbing codes. NSF representatives also 
said that all model plumbing codes reference NSF Standard 61 for pipes, 
45McLellan, C., Purkiss, D., and Greiner, P., Interim, Report on Extraction Results on Leaded 
Products Submitted for Evaluation Under NSF/AN SI61, NSF International (Ann Arbor, 
Mich.: June 2005). 
GAO-06-148 Lead in Drinking Water fittings, and faucets.40 NSF reports that most faucets sold at the retail and 
wholesale level are certified to meet Standard 61, but fewer valves and 
other in-line devices are certified to the standard because it is not required 
in model plumbing codes. 
State efforts to implement more stringent standards for plumbing products 
appear limited, based on our discussions with federal and state regulators 
and representatives of the water industry and plumbing manufacturers. We 
identified two states in which such activities have occurred: 
• In California, the Attorney General sued 16 manufacturers and 
distributors of kitchen and bathroom faucets in the early 1990s, alleging 
that lead leaching from brass components of their faucets violated 
California law.47 The suit resulted in settlement agreements with the 
companies and a related court decision in which they agreed to reduce 
leaching levels. According to an official with the California Attorney 
General’s Office, the limit on lead leaching is 5 parts per billion for 
residential kitchen faucets and 11 parts per billion for all other faucets. 
• According to officials with the Massachusetts Board of State Examiners 
of Plumbers and Gas Fitters, in 1995 the board established a 3 percent 
limit on the lead content of endpoint and in-line devices installed inside 
the home. Board officials acknowledge that enforcement of the standard 
is difficult because products containing more than 3 percent lead may 
be sold in Massachusetts stores as long as the products are not installed 
in Massachusetts homes. Moreover, the packaging does not indicate 
lead content or certification to the state standard. 
At the local level, some water systems are installing no-lead meters—which 
contain less than 0.25 percent lead—because of concerns about the 
potential impact of leaded brass meters on lead levels at the tap. In some 
instances, the water systems are targeting their meter replacement to 
buildings housing schools and child care facilities. 
46Model plumbing codes include the International Plumbing Code and the United Plumbing 
Code. 
47See Cal. Safety & Health Code § 25249.5 (part of the initiative known as Proposition 65 
adopted by popular vote in 1986). 
GAO-06-148 Lead in Drinking Water EPA Is Considering 
Modifications to the Lead 
Rule to Address Some 
Problem Areas 
Based on its year-long evaluation of the lead rule and how it is being 
implemented, EPA concluded that the conditions that led to elevated lead 
levels in the District of Columbia were not indicative of the conditions 
nationwide. However, in November 2004, while its evaluation was still 
ongoing, EPA issued a guidance memorandum to reiterate and clarify 
specific regulatory requirements after the agency’s review of state 
programs and some press reports identified inconsistencies in how 
drinking water systems and the states were carrying out the regulation. The 
memorandum focused on requirements related to collecting samples and 
calculating compliance. In addition, in March 2005, EPA announced a 
Drinking Water Lead Reduction Plan to improve and clarify specific areas 
of the rule and the agency’s guidance materials. The plan identifies nine 
targeted revisions of the regulations and updates to two guidance 
documents. 
Specifically, EPA’s lead reduction plan calls for regulatory revisions to the 
following: 
• Monitoring requirements. These revisions would (1) clarify the 
number of samples required, (2) clarify the number of locations from 
which samples should be collected, (3) modify definitions of 
“monitoring period” and “compliance period,” (4) clarify the 
requirement to take all samples within the same calendar year, and (5) 
reconsider allowing large water systems that exceed the lead action 
level to qualify for reduced monitoring as long as their test results for 
water quality parameters are within acceptable limits. 
• Treatment requirements. These revisions would require water 
systems to notify the state of treatment changes 60 days prior to the 
change rather than within 60 days following the change. 
• Customer awareness requirements. These revisions would (1) 
require water systems to disclose test results to homeowners and 
occupants who participate in tap monitoring programs and (2) permit 
states to allow water systems to modify flushing instructions—the 
amount of time that homeowners are advised to run water before using 
it—to address local circumstances. 
• Lead service line replacement requirements. These revisions would 
require water systems to reevaluate lead service lines that previously 
“tested out” of the replacement program as a result of low lead levels if a 
GAO-06-148 Lead in Drinking Water subsequent treatment change causes the systems to exceed the action 
level.48 
In addition, EPA is considering updating its 1994 guidance on lead in 
drinking water in schools and non-residential buildings, along with its 1999 
guidance on simultaneous compliance. 
So far, EPA has not released additional details on the nature of the changes 
being considered in some areas (e.g., number of samples and sampling 
locations) or what prompted its determination that revisions to the lead 
rule and related guidance might be warranted. An EPA workgroup, which 
was established when the lead reduction plan was issued, is developing the 
proposed rule for the regulatory changes, with a goal of releasing a 
proposal in late 2005 or early 2006. Revisions to the guidance documents 
are scheduled to be completed about the same time. 
While the exact nature of some changes has yet to be defined, we asked the 
10 states we contacted for their views on whether the proposed revisions 
would improve implementation of the lead rule. For the most part, state 
officials were in favor of the proposed changes involving the monitoring 
protocols. Although they wanted more details on how the requirements 
would be revised, they believed the changes to be relatively minor. In 
particular, most state officials agreed that large water systems that exceed 
the action level should not be allowed to reduce the frequency of lead 
monitoring based solely on their ability to meet water quality parameters. 
Regarding earlier notification of treatment changes, officials from all 10 
states we contacted supported such a revision, particularly for major 
treatment changes. The officials indicated that the notification requirement 
would not have a significant impact on their own practices because each of 
the states already had some type of process in place to permit or review 
treatment changes. Five of the states questioned whether 60 days advance 
notice would be sufficient to allow an adequate review. Several states 
suggested that EPA should require expedited monitoring of lead levels 
following major treatment changes—or issue guidance on when it would be 
appropriate for states to require such monitoring—and that EPA should 
issue guidance on what constitutes a major treatment change. In addition, 
48Under the lead rule, water systems are not required to replace an individual lead service 
line if the lead concentration in all service line samples from that line is less than or equal to 
15 parts per billion. This is sometimes referred to as the “test-out” provision. 
GAO-06-148 Lead in Drinking Water officials from two states commented that EPA should require state 
approval of the treatment changes in addition to advance notification. 
On the proposed revisions involving customer awareness, all 10 states 
agreed that homeowners that participate in the tap sampling program 
should be informed of the test results—particularly if the results for 
individual homeowners exceed the lead action level—whether or not the 
90th percentile result for the entire system exceeds the action level. One 
state was concerned about the additional resources that would be required 
to track the water systems’ actions. Nearly all of the states also endorsed 
the proposal to give states and water systems more flexibility in 
determining what flushing instructions are appropriate in particular 
situations. Some states suggested that EPA guidance on making such 
determinations would be useful. 
Regarding the proposed reevaluation of lead service lines that tested out of 
a replacement program, the states’ views were mixed. Although five states 
generally endorsed the idea, the other five states raised several concerns, 
including the potential cost to local drinking water systems, the 
administrative burden that such a requirement would impose on states, and 
the need for more specific information on the types of treatment changes 
that would trigger a reevaluation of lead service lines. 
Over the long term, EPA plans to examine other issues related to lead rule 
implementation that may need to be addressed through regulation or 
guidance. EPA officials have indicated that, in some instances, they need 
more information to determine whether changes are warranted, and they 
are in the process of collecting and analyzing data, or have relevant 
research projects underway. According to EPA officials, some of the issues 
they plan to review include the sampling protocol, monitoring and 
reporting requirements for consecutive systems, the impact of disinfection 
treatment on corrosion control, and the requirements for lead service line 
replacement. 
GAO-06-148 Lead in Drinking Water Limited Data Indicate 
Few Schools and Child 
Care Facilities Test or 
Take Other Measures 
to Control Lead in 
Their Water Supplies 
Little information exists on the results of activities initiated after 
enactment of the Lead Contamination Control Act (LCCA) of 1988, 
including the recall of lead-lined water coolers from schools and child care 
facilities. More recent efforts to detect and remediate lead in the drinking 
water at such facilities also appear limited. As a result, the extent to which 
drinking water may contain unacceptable levels of lead at schools and child 
care facilities nationwide is uncertain. In addition, no clear focal point 
exists at the federal or state level to collect and analyze the results of 
testing and remediation efforts. Moreover, state and local officials say that 
addressing other environmental hazards at schools and child care facilities 
takes priority over testing for lead in drinking water. 
Little Information Exists on 
the Results of the Recall of 
Lead-Lined Water Coolers 
and Other Activities 
Prompted by the LCCA 
The LCCA, enacted in 1988, laid out a number of requirements for EPA, the 
Consumer Product Safety Commission, and the states to address the 
potential risks of lead contamination in water supplies serving schools and 
child care facilities. Among other things, the act 
• banned the manufacture and sale of drinking water coolers containing 
lead-lined tanks and other water coolers that are not lead-free, 
• required EPA to publish a list of such coolers and distribute it to the 
states along with guidance on testing for and remedying lead 
contamination in drinking water, and 
• required the Consumer Product Safety Commission to issue an order 
requiring manufacturers and importers to (1) repair or replace the 
coolers or (2) recall and provide a refund for them because coolers 
containing lead-lined tanks were deemed to be imminently hazardous 
consumer products. 
In addition, the LCCA required states to establish programs to assist local 
agencies in addressing potential lead contamination. While the nature and 
extent of state activities varied widely, the program was never funded, 
according to EPA officials. In 1996, the requirement was determined to be 
unconstitutional.49 
49See ACORN v. Edwards, 81 F.3d 1387 (5th Air. 1996). 
GAO-06-148 Lead in Drinking Water To support the required recall, EPA identified six models of water coolers 
containing lead-lined tanks, all produced by one company and 
manufactured prior to April 1979. EPA could not obtain information on the 
number of units produced. The Consumer Product Safety Commission 
broadened the recall order to include all tank-type models of drinking 
water coolers manufactured by the company, whether or not the models 
were included on EPA’s list.50 Under the terms of the order, the 
manufacturer established a process under which qualified owners of the 
affected coolers could request a refund or replacement. The manufacturer 
was also required to notify appropriate officials and organizations, 
including state and school officials and day care centers, about the recall 
and the availability of refunds and replacements. 
Little information is available to determine the effectiveness of the recall 
effort in removing lead-lined water coolers from service.51 Not only is the 
number of coolers affected by the recall unknown, but the Consumer 
Product Safety Commission did not have summary data on the results of 
the recall. An agency official confirmed information in a 1991 Natural 
Resources Defense Council report that, as of 1990, the Commission had 
received approximately 1,200 inquiries about the recall, 1,373 coolers had 
been determined to be eligible for replacement, 514 had been replaced, and 
105 refunds had been mailed to customers.62 However, the official also said 
that many more coolers were replaced after that date and that by 1993, the 
manufacturer had received approximately 11,000 inquiries about the recall. 
The official believed that the actual number of replacements was 
potentially 10 times greater than those reported in 1991 and the refunds 
four to five times greater. In addition, the recall order did not specify an end 
date for filing a refund or replacement request so an unknown number of 
coolers could have been taken out of service without the knowledge of the 
manufacturer or the Commission subsequent to 1993. 
5055 Fed. Reg. 22387 (June 1, 1990). 
51Under the terms of the recall order, the manufacturer was required to (1) provide periodic 
reports to the Commission for 3 years, including information on the number of 
replacements shipped and refunds mailed, and (2) maintain records related to the recall for 
5 years. 
62Natural Resources Defense Council, The Lead Contamination Control Act: A Study in 
Non-Compliance (June 1991). Because this study is used for context purposes, we did not 
assess its reliability. 
GAO-06-148 Lead in Drinking Water According to several state and school officials we interviewed, virtually all 
of the water coolers affected by the recall have been replaced or removed, 
either as a result of the publicity surrounding the recall or because they had 
already been taken out of service. Some of the six models covered by the 
recall were manufactured in the 1950s and 1960s and are likely to have 
been retired because of their age or maintenance problems. 
Beyond the recall effort, little or no data are available to assess the 
effectiveness of other actions taken in response to the LCCA. For example, 
little information is available on the extent to which schools and child care 
facilities were inspected to check potential lead contamination from water 
coolers that were not lead-free. While the act did not require EPA or the 
states to track or report on the results of testing, EPA was responsible for 
publishing guidance and a testing protocol to assist schools in determining 
the source and degree of lead contamination in school drinking water 
supplies and remedying such contamination. EPA published guidance for 
both schools and child care facilities in 1989 and 1994, respectively.54 
We found no information indicating how pervasive lead-contaminated 
drinking water in such facilities nationwide or within particular states 
might be, but several studies conducted in the early 1990s contained some 
limited information on testing efforts: 
• In 1993, we reported on the results of a survey of 57 school districts in 
10 states.54 We found that 47 districts were able to provide data on the 
results of testing, which showed that about 15 percent of the 2,272 
schools tested had drinking water containing levels of lead considered 
unacceptable by EPA. We also contacted child care licensing agencies in 
16 states to obtain information on their activities for addressing lead 
hazards and found that none of the agencies routinely inspected child 
care facilities for such hazards. 
“EPA published the first guidance document in 1989. See EPA Office of Water, Lead in 
School's Drinking Water, EPA 570-9-89-001 (Washington, D.C.: Jan. 1989). EPA updated the 
guidance in 1994. See EPA Office of Water, Lead in Drinking Water in Schools and Non- 
Residential Buildings, EPA 812-8-94-002 (Washington, D.C.: Apr. 1994). Also in 1994, EPA 
published a separate guidance document to address child care facilities. See EPA Office of 
Water, Sampling for Lead in Drinking Water in Nursery Schools and Day Care Facilities, 
EPA 812-B-94-003 (Washington, D.C.: Apr. 1994). 
Toxic Substances: The Extent of Lead Hazards in Child Care Facilities and 
Schools Is Unknown, GAO/RCED-93-197 (Washington, D.C.: Sept. 14, 1993). 
GAO-06-148 Lead in Drinking Water • A 1990 report by EPA’s Inspector General found that, of the 13 school 
districts surveyed, 10 conducted some testing for lead in drinking water 
and 8 detected contamination, with some results exceeding acceptable 
levels by a wide margin.55 
• According to the Natural Resources Defense Council’s 1991 study,56 47 
states reported some testing of school drinking water supplies, 
including 16 states that tested in “a few” to 25 percent of their schools, 
27 states that tested from 25 percent to 82 percent of the schools, and 4 
states that tested 95 percent or more of their schools. The study also 
found that 17 states reported testing at child care facilities. 
In addition to these earlier studies, in 2004 EPA asked the states to provide 
information on current state and local efforts to monitor and protect 
children from lead exposure in drinking water at schools and child care 
facilities.57 As part of that effort, seven states also reported on the results of 
local testing following passage of the LCCA, stating that elevated lead 
levels were found in at least some of the locations tested.58 However, the 
states differed significantly in the extent of their testing and how they 
summarized the results. In five of the states, the results generally ranged 
from about 1 percent to 27 percent of samples, facilities, or districts with 
lead levels considered unacceptable by EPA—but the other two states 
finding elevated lead levels used a different assessment measure. 
55EPA Office of the Inspector General, Report of Audit on the Lead in Drinking Water 
Program, Report No. E1HWF9-03-0316-0100508 (Washington, D.C.: Sept. 28, 1990). 
56 The Lead Contamination Control Act: A Study in Non-Compliance, pp. 6-7. 
57EPA, Controlling Lead in Drinking Water for Schools and Day Care Facilities: A 
Summary of State Programs, EPA-810-R-04-001 (Washington, D.C.: July 2004). 
58Although not reported in response to EPA’s information request, Washington state also 
conducted a survey of school testing shortly after the LCCA was enacted and found that 25 
percent of 121 schools that conducted testing detected unacceptable levels of lead in one or 
more drinking water outlets. 
GAO-06-148 Lead in Drinking Water Current Efforts to Detect 
and Remediate Lead in 
Drinking Water at Schools 
and Child Care Facilities 
Also Appear Limited 
The extent of current testing and remediation activities for lead in school 
and child care facility drinking water appears limited. The LCCA does not 
require states to track or report such activities and, based on the 
information that EPA collected from the states in 2004 and our own 
contacts in 10 states, few states have comprehensive programs to detect 
and remediate lead in drinking water at schools and child care facilities. 
Figure 4 shows the nature and extent of these activities; about half the 
states reported no current efforts. 
Figure 4: Summary of State Efforts to Address Lead in Drinking Water at Schools 
and Child Care Facilities 
Number of states 
Source: EPA and selected states. 
Notes: (1) All states but Colorado responded to EPA’s information request; about half the states 
submitted multiple responses, generally because responsibility for addressing lead issues at schools 
and child care facilities is shared by both health and environmental agencies. 
(2) The figure summarizes the most frequently reported activities by the states. While nearly half the 
states reported no activities, others reported activities in more than one of the categories we used. In 
addition to the activities summarized in figure 4, 26 states reported having lead poisoning prevention 
programs that include testing blood lead levels of children and investigating the source of any problems 
identified. We did not include these programs in our summary because the investigations usually focus 
GAO-06-148 Lead in Drinking Water initially on a child’s home environment and the presence of lead paint. However, they could ultimately 
involve testing the drinking water at schools or child care facilities. 
(3) Some states reported testing for lead at schools or child care facilities that have their own water 
systems. We did not include this activity in figure 4 because such testing is required under the Safe 
Drinking Water Act. 
Of the five states that reported having testing requirements, four— 
Connecticut, New Hampshire, South Carolina, and Vermont—require child 
care facilities to test their drinking water for lead contamination when 
obtaining or renewing their licenses.59 In the fifth state (Massachusetts), 
the testing requirement focuses on schools. Water systems must include 
two schools among their sampling sites in each round of lead testing, 
although the school data are not included in the 90th percentile calculation 
to determine whether lead levels exceed the action level. Massachusetts 
officials told us that, although the testing requirement has been in place 
since 1992, it has not received much attention until recently. The officials 
acknowledged that most water systems repeatedly used the same schools 
as sampling sites for the sake of convenience and said that the state has 
never summarized the results of the school testing. Given the renewed 
concerns about lead contamination following the detection of lead in the 
District of Columbia’s drinking water, Massachusetts now requires water 
systems to rotate testing among schools and child care facilities and plans 
to issue a summary report at the end of 2005. 
In addition to these requirements, Florida’s Department of Environmental 
Protection reported to EPA that it had established a voluntary program. 
Specifically, the state designated child care facilities as Tier 1, high risk 
sites and gave water systems the option of using the facilities as lead 
sampling sites and including them in the calculation of the 90th percentile 
lead level. (According to a Florida official, to be included as a sampling site, 
the child care facility must meet other Tier 1 criteria, such as being served 
by a lead service line.) However, when we followed up with state officials, 
they said that they had no way of tracking the extent to which water 
systems were actually including child care facilities as sampling sites. 
The scope of the targeted testing reported by 12 states varied widely, from 
a single school district in Pennsylvania to over 1,300 homes and child care 
facilities in Indiana. Several states indicated that they were focusing on 
potential high risk locations. EPA regional offices helped to initiate some 
limited testing in a few states, including Massachusetts, New Jersey, New 
59In New Hampshire, the testing requirement applies only to facilities that care for 24 or 
fewer children and have their own independent water supply. 
GAO-06-148 Lead in Drinking Water York, and Pennsylvania; the testing generally focused on a few of the states’ 
largest school districts. The state-sponsored surveys to determine the 
status of testing by local agencies also varied, with some covering all 
schools within the state and others focusing on a smaller subset of schools. 
In Washington, the state recently set aside $750,000, including $400,000 
from its drinking water state revolving fund, to partially reimburse school 
districts for the cost of monitoring for lead in elementary schools’ drinking 
water. 
EPA officials attributed the relatively low level of state activity in recent 
years to the aftereffects of a 1996 lawsuit brought by the Association of 
Community Organizations for Reform Now against the state of Louisiana 
for not doing enough to implement the LCCA. The case resulted in a federal 
circuit court decision declaring that part of the LCCA was unconstitutional. 
Specifically, the court ruled that the federal government did not have the 
authority to require states to establish a remedial action program as 
outlined in the LCCA.00 While Louisiana reported to EPA that the case “had 
the unintended effect of ending the lead program in schools for the state of 
Louisiana,” none of the 10 states we contacted cited the ruling as a factor in 
limiting their efforts. 
To obtain more information about testing and remedial actions in 
individual cities, we contacted five school districts—Boston, Detroit, 
Philadelphia, Seattle, and Syracuse. Table 11 shows the extent and results 
of testing within each district, and provides information on the various 
approaches school administrators have used to address the lead 
contamination. 
“See ACORN v. Edwards, 81 F.3d 1387 (5th Cir. 1996). 
GAO-06-148 Lead in Drinking Water Table 11: Information on Recent Efforts to Test for and Remediate Lead in Drinking Water in Five School Districts 
School district 
Scope and results of testing 
Type and cost of remedial actions 
Boston, Mass. 
Public Schools3 
Scope: Testing focused on kitchen facilities 
used to prepare food and was conducted 
between 2003 and 2004 at the district’s 
central kitchen facility and 38 schools with 
on-site kitchen facilities. 
Actions: Manual flushing for at least 1 
minute each day in all kitchens and an 
automatic flushing program at the central 
kitchen and 22 school buildings with kitchen 
facilities. 
Results: Lead levels in water from 17 kitchen 
facilities, including the central kitchen, 
exceeded 20 ppb. 
Cost: Not available. 
Detroit, Mich. 
Public Schools 
Scope: The district tested 21 water fountains 
and other outlets in one middle school as of 
November 2002. (Testing was also 
conducted at one other middle school, but 
the number of outlets included was not 
available.) 
Results: Lead levels in water from 16 
drinking water outlets in one middle school 
exceeded 15 ppb. 
Actions: For the short term, shutting off 
outlets with elevated lead levels, doing 
manual flushing, and providing bottled 
water. For the long term, installing a water 
treatment system, replacing lead piping and 
fixtures, and re-routing a service line serving 
the school. 
Cost: An estimated $9,000 for bottled water 
and $5,865 for the water treatment system, 
plus $800 in annual maintenance costs. 
Philadelphia, Pa. 
School District6 
Scope: As a result of consent orders in 1999 
and 2000, the school district was required to 
test all drinking water outlets at 299 schools 
and other buildings, or about 30,000 outlets 
in total.0 
Results: As of March 2004. the district had 
detected lead levels over 20 ppb in 
approximately 4,600, or roughly 15 percent, 
of the outlets tested. 
Actions: For the short term, shutting off 
outlets with elevated lead levels and 
providing bottled water. For the long term, 
replacing or removing fixtures. 
Cost: An estimated $6 million through 
February 2005. 
Seattle, Wash. 
Public Schools'3 
Scope: In 2004. the district tested all interior 
drinking water outlets considered suitable 
for use, about 2,400 outlets in total. 
Results: Lead levels at 600 of the outlets, or 
25 percent, exceeded 20 ppb. 
Actions: For the short term, shutting off 
outlets with elevated lead levels and 
providing bottled water. For the long term, 
fixing or replacing fixtures, installing filters, 
and replacing piping for any outlet where 
lead levels exceeded 10 ppb. 
Cost: An estimated $15 million upon 
completion in 2007. 
GAO-06-148 Lead in Drinking Water (Continued From Previous Page) 
School district 
Scope and results of testing 
Type and cost of remedial actions 
Syracuse, N.Y. 
City School District 
Scope: The district tested specific interior 
drinking water outlets in 50 schools and 
other buildings, beginning in August 2003. 
Results: 23 of the facilities had at least one 
drinking water outlet with lead levels over 20 
ppb. 
Actions: For the short term, shutting off 
outlets with elevated lead levels. For the 
long term, installing in-line carbon filters at 
each outlet with elevated lead levels. (Other 
measures such as pipe replacement and 
removal of fixtures are still under 
discussion.) 
Cost: An estimated $100,000 through March 
2005. 
Source: EPA and school districts. 
aBoston officials told us that they focused on kitchen facilities in their most recent testing because the 
district had already installed bottled water at many drinking water outlets after earlier testing had 
disclosed elevated lead levels. 
bBoth Philadelphia and Seattle had also conducted some testing prior to the more recent efforts 
summarized in this table. 
CA 2003 modification to the earlier consent orders removed the requirement to test bathroom faucets. 
The cities we contacted differed in the testing protocols they used to test 
for lead in school drinking water.'1 While three of the cities (Boston, 
Philadelphia, and Syracuse) followed EPA’s guidance, using a 250 milliliter 
sample and a limit of 20 parts per billion for triggering follow-up action, 
Seattle took a more conservative approach. Using the same sample volume, 
the school board established 10 parts per billion as its standard for follow- 
up action. Detroit, on the other hand, used the same protocol that is 
required for public water systems—a 1 liter sample and 15 parts per billion 
as the limit. 
Some of the remediation measures adopted by the cities we contacted were 
effective, including installing in-line filters, replacing pipes, and removing 
fixtures at outlets with test results indicating high lead levels. Other 
measures required more attention and others inadvertently created new 
issues for officials to deal with. For example, a Seattle school official noted 
61In EPA’s guidance for schools and child care facilities, the agency recommends using a 
sample volume of 250 milliliters and establishes lead concentrations greater than 20 parts 
per billion as the trigger for follow-up action. In contrast, the testing protocol for public 
water supplies requires a sample volume of 1 liter and follow-up action if lead levels at the 
90th percentile exceed 15 parts per billion. According to EPA, the testing protocol for water 
systems is designed to assess lead levels for the system as a whole, using a representative 
number of households; if applicable, the testing also serves as a means of determining the 
effectiveness of corrosion control treatment. The protocol for schools and child care 
facilities is slightly more stringent than that used in water systems, and is designed to 
determine lead levels at specific outlets. 
GAO-06-148 Lead in Drinking Water that the district decided against instituting a flushing program in its schools 
because it was too difficult to ensure that staff in individual schools would 
follow through with the flushing every day. In Boston, a school official told 
us that using bottled water posed a problem because staff had to make sure 
that replacement bottles were always available and because it created 
other issues with pests, vandalism, and spillage. 
The Extent to Which 
Drinking Water at Schools 
and Child Care Facilities Is 
Contaminated by Lead Is 
Uncertain, in Part, Because 
No Clear Focal Point Exists 
to Collect Available Data 
While a number of cities have detected elevated lead levels in school 
drinking water, and a few states are beginning to collect information on the 
status of local testing efforts, little information exists on the extent to 
which drinking water at schools and child care facilities nationwide may 
contain unacceptable levels of lead. No focal point exists at the federal or 
state level to collect and analyze test results or information on cost- 
effective remediation strategies. As a result, it is difficult to get a sense of 
the pervasiveness of lead contamination in the drinking water at schools 
and child care facilities, and to know whether a more concerted effort to 
address the issue—such as mandatory testing—is warranted. In addition, 
remediation measures such as providing bottled water, regularly flushing 
water lines, installing filters, and replacing fixtures and internal piping vary 
widely in cost and complexity, among other factors. State and local officials 
have expressed concern about not having sufficient information on the 
measures, their pros and cons, and circumstances in which particular 
measures might be more appropriate than others. 
At the federal level, EPA’s Office of Ground Water and Drinking Water sets 
drinking water standards and other requirements for public drinking water 
systems, but generally does not have any direct oversight responsibility for 
the quality of drinking water in schools or child care facilities.62 The U.S. 
Department of Education (Education) is responsible for, among other 
things, providing guidance and financial assistance to state and local 
education agencies for elementary and secondary schools. Education’s 
Office of Safe and Drug Free Schools recently signed a memorandum of 
understanding with EPA, the Centers for Disease Control and Prevention, 
and various water industry associations with the goal of reducing children’s 
''“Some schools and child care facilities have their own water sources and are subject to Safe 
Drinking Water Act requirements, such as the lead rule. Such systems are defined as non- 
transient, noncommunity water systems, which serve at least 25 people for more than 6 
months in a year. According to EPA estimates, about 10,000 schools and child care facilities 
are regulated as non-transient, noncommunity systems but, according to one official, these 
data are incomplete. 
GAO-06-148 Lead in Drinking Water exposure to lead in drinking water at schools and child care facilities.63 
However, according to an Education official, the department does not have 
legal authority to compel schools to test for lead in the drinking water. 
Officials in Washington state saw a need for closer coordination between 
EPA and Education. The officials believe that local education officials are 
more likely to respond to guidance on lead and other environmental health 
issues if Education were to be involved in developing it. 
At the state level, responsibility for the environmental health of schools 
and child care facilities is usually fragmented among multiple agencies. 
According to EPA, in most states, the same agency that administers the 
drinking water program—generally the state’s department of 
environmental protection or department of health—is also responsible for 
implementing the LCCA. However, we also learned from EPA that the state 
agencies responsible for administering education programs and licensing 
child care facilities are usually the ones with the regulatory or oversight 
authority over environmental conditions in schools and child care facilities. 
(As noted earlier, some states also have lead poisoning prevention 
programs to monitor blood lead levels in children and investigate the 
source of lead exposure when the levels are elevated.) According to some 
of the states we contacted, the level of coordination among state agencies 
needs to be improved and the lack of a centralized authority at the state 
level has complicated efforts to plan and implement a testing program for 
lead in water in some school districts. For example, in Pennsylvania, state 
drinking water officials said that several other agencies, including the 
Departments of Health, Education, and Public Welfare, have a role in 
overseeing schools and child care facilities—but it was unclear which 
agency would be best suited to manage a testing program if one were to be 
required. In contrast, Connecticut officials said that having both the 
drinking water program and the child care licensing program housed within 
the same department has been an advantage because it is easier for the 
programs to share information and coordinate their activities. 
We also contacted several school and child care associations to find out if 
they were involved in or aware of efforts to promote testing for lead in 
drinking water, collect and analyze the results of testing, or set standards 
for the environmental health of the facilities. According to a representative 
the parties agreed to encourage schools and child care facilities to test 
drinking water for lead, disseminate the results to the public, and take appropriate actions 
to correct problems. 
GAO-06-148 Lead in Drinking Water of the National Child Care Association, until recently the association had 
not been aware of any issues regarding lead in drinking water at child care 
facilities or involved in any effort to promote testing.64 The representative 
commented that one challenge to distributing information on lead in 
drinking water to child care facilities is the fragmented nature of the child 
care industry. While the National Head Start Association has been involved 
with lead poisoning prevention in general, the organization has not done 
anything specifically related to lead in drinking water.65 The Healthy 
Schools Network, Inc. promotes the development of state and national 
policies, regulations, and funding for environmentally safe and healthy 
schools. Although the network has published some fact sheets that address 
the potential health risks from lead exposure, lead in drinking water has 
not been a priority compared with other environmental issues. While none 
of these organizations were parties to EPA’s recent memorandum of 
understanding, they have been actively engaged in assisting EPA as the 
agency revises its guidance for schools and child care facilities, according 
to EPA officials. 
State and Local Officials Say 
Addressing Other 
Environmental Hazards 
Takes Priority over Testing 
for Lead in Drinking Water 
at Schools and Child Care 
Facilities 
According to state and local officials, children may be exposed to a variety 
of environmental hazards at schools and child care facilities, including 
asbestos, lead in paint or dust, mold, and other substances that affect 
indoor air quality. The officials told us that dealing with such problems 
often takes priority over checking for lead in drinking water because, in the 
case of the other problems, more information is available on the nature and 
extent of the potential health risks involved. For example, many of the 
officials we interviewed said that the most significant source of lead 
exposure—and thus, their primary concern—was lead in paint. Officials 
from two states also mentioned that lead in jewelry, toys, or pottery is a 
more significant source of exposure than lead in drinking water. 
Washington state officials told us that child care facilities also have many 
competing priorities and cited food handling as one of their major 
concerns. 
“The National Child Care Association is active in 26 states and represents about 8,000 
private, licensed child care facilities that are based outside the home. The association does 
not represent the family home care industry, which consists of an estimated 3,000 
individually-owned family homes that offer child care services. 
65The National Head Start Association represents more than 1 million children, 200,000 staff, 
including teachers and family service workers, and 2,700 Head Start programs in the U.S. 
GAO-06-148 Lead in Drinking Water At the local level, officials talked about dealing with multiple health and 
safety issues and the difficulty of prioritizing limited resources. For 
example, in Detroit, one official told us that dealing with asbestos takes 
priority over all other environmental concerns, including lead in drinking 
water. Another Detroit official commented that indoor air quality is another 
priority because “issues related to breathing are very important to 
educators.” In Philadelphia, a school official noted that a mayor source of 
lead in the school district is dust, a problem that requires continuing 
attention from the maintenance staff, which must set aside time to scrub 
the areas where dust collects. A Seattle official also mentioned the 
difficulty posed by competing needs for limited funds. He indicated that the 
competition is not only among environmental issues, such as mold and 
asbestos, but, on a broader level, between maintenance and basic 
classroom expenditures. 
Without additional resources—or more compelling evidence that lead in 
drinking water should be a higher priority—state and local officials, as well 
as representatives of industry groups, were reluctant to support calls for 
mandatory testing for lead in drinking water in schools and child care 
facilities. Many of the officials we interviewed said that more research is 
needed on several aspects of the lead issue. In addition to wanting more 
information on the extent to which lead contamination in schools and child 
care facilities is a problem, some officials also wanted more information on 
the circumstances in which particular remediation approaches are most 
effective. Other officials believe that more research is needed on the 
relationship between children’s exposure to lead in drinking water and 
their blood lead levels. 
Conclusions 
Ensuring that the lead rule adequately protects public health and is fully 
implemented and enforced should be a high priority for EPA and the states 
because the potential consequences of lead exposure, particularly for 
infants and young children, can be significant. However, EPA’s hands are 
tied unless states report complete, accurate, and timely data on the results 
of required monitoring, the status of corrective actions, and the extent of 
violations. Without such information, EPA cannot provide effective 
oversight or target limited resources where they are most needed. 
Similarly, inconsistencies among the states’ policies and practices for 
implementing the lead rule may lead to uneven levels of public health 
protection for consumers and thus need to be examined and corrected, as 
appropriate. 
GAO-06-148 Lead in Drinking Water Given the potential health effects associated with lead contamination, it is 
important to minimize any unnecessary exposure as a result of leaded 
materials in the water distribution system or household plumbing. 
Reevaluating existing standards for the devices used in or near residential 
plumbing systems would also enhance the effectiveness of the treatment 
provided by local water systems. In the case of schools and child care 
facilities, both the vulnerability of the population served by such facilities 
and the competition for limited resources make it essential to have better 
information on the nature and extent of lead-contaminated drinking 
water—and its significance relative to other environmental hazards. 
Recommendations for 
Executive Action 
We recommend that the Administrator, EPA, take a number of steps to 
further protect the American public from elevated lead levels in drinking 
water. Specifically, to improve EPA’s ability to oversee implementation of 
the lead rule and assess compliance and enforcement activities, EPA 
should 
• ensure that data on water systems’ test results, corrective action 
milestones, and violations are current, accurate, and complete and 
• analyze data on corrective actions and violations to assess the adequacy 
of EPA and state enforcement efforts. 
To expand ongoing efforts to improve implementation and oversight of the 
lead rule, EPA should reassess existing regulations and guidance to ensure 
the following: 
• the sites water systems use for tap monitoring reflect areas of highest 
risk for lead corrosion; 
• the circumstances in which states approve water systems for reduced 
monitoring are appropriate and that systems resume standard 
monitoring following a major treatment change; 
• homeowners who participate in tap monitoring are informed of the test 
results; and 
• states review and approve major treatment changes, as defined by EPA, 
to assess their impact on corrosion control before the changes are 
implemented. 
GAO-06-148 Lead in Drinking Water In addition, EPA should: 
• collect and analyze data on the impact of lead service line replacement 
on lead levels and conduct other research, as appropriate, to assess the 
effectiveness of lead line replacement programs and whether additional 
regulations or guidance are warranted; 
• collect information on (1) the nature and extent of modified sampling 
arrangements within combined distribution systems and (2) differences 
in the reporting practices and corrective actions authorized by the 
states, using this information to reassess applicable regulations and 
guidance; and 
• evaluate existing standards for in-line and endpoint plumbing devices 
used in or near residential plumbing systems to determine if the 
standards are sufficiently protective to minimize potential lead 
contamination. 
In order to update its guidance and testing protocols, EPA should collect 
and analyze the results of any testing that has been done to determine 
whether more needs to be done to protect users from elevated lead levels 
in drinking water at schools and child care facilities. In addition, to assist 
local agencies in making the most efficient use of their resources, EPA 
should assess the pros and cons of various remediation activities and make 
the information publicly available. 
Agency Comments and 
Our Evaluation 
We provided a draft of this report to EPA and the Consumer Product Safety 
Commission for review and comment. EPA generally agreed with our 
findings and recommendations. Regarding the completeness of information 
that EPA has to evaluate implementation of the lead rule, the agency said 
that it will work with the states to ensure that relevant information is 
incorporated into the national database and will use the information, in 
part, to assess the adequacy of enforcement efforts. In addition, EPA 
agreed that aspects of the regulation need improvement. EPA said that it 
will address some of these areas as part of its package of revisions to the 
lead rule that it plans to propose early in 2006, including homeowner 
notification of test results and criteria for reduced monitoring. EPA also 
said that it needs additional information before it can address other areas, 
such as lead service line replacement and plumbing standards, that may 
warrant regulatory changes. EPA did not comment on our recommendation 
to reevaluate existing regulations and guidance to ensure that tap 
GAO-06-148 Lead in Drinking Water monitoring sites reflect areas of highest risk for lead corrosion. Finally, 
EPA did not address our recommendations regarding lead contamination 
and remedial actions at schools and child care facilities. We believe that, 
given the particular vulnerability of children to the effects of lead, it is 
important for EPA to take full advantage of the results of any tests that 
have been done, as well as to identify those remedial activities that have 
proven to be most effective. EPA’s comments appear in appendix V. The 
Consumer Product Safety Commission generally agreed with our findings 
as they pertain to the Commission. 
As agreed with your offices, unless you publicly announce the contents of 
this report earlier, we plan no further distribution until 30 days from the 
report date. At that time, we will send copies to appropriate congressional 
committees; the Administrator, EPA; the Chairman, Consumer Product 
Safety Commission; and the Director of the Office of Management and 
Budget. We will also make copies available to others upon request. In 
addition, the report will be available at no charge on the GAO Web site at 
http ://www. gao. gov. 
If you or your staff have any questions about this report, please contact me 
at (202) 512-3841 or stephensonj@gao.gov. Contact points for our Offices of 
Congressional Relations and Public Affairs may be found on the last page 
of this report. GAO staff who made major contributions to this report are 
listed in appendix VI. 
_ 
John B. Stephenson 
Director, Natural Resources 
and Environment 
GAO-06-148 Lead in Drinking Water Appendix I 
Scope and Methodology 
For information on how the lead rule is being implemented, we obtained 
information from the Environmental Protection Agency’s (EPA) Office of 
Ground Water and Drinking Water and Office of Enforcement and 
Compliance Assurance, eight EPA regional offices, and 10 states. We 
selected eight of the states—California, Illinois, Iowa, Massachusetts, 
Michigan, New York, Pennsylvania, and Washington—because they either 
had a relatively high number of water systems with test results that 
exceeded or fell just below the lead action level, or they added to the 
geographical diversity of our selections. We also included Connecticut and 
Florida in our review because they were identified by EPA as particularly 
active in addressing potential lead contamination in water supplies serving 
child care facilities. At the local level, we obtained information from eight 
water systems: the Chicago Water Department in Illinois, the Boston Water 
and Sewer Commission and Massachusetts Water Resources Authority in 
Massachusetts, the Detroit Water and Sewerage Department in Michigan, 
the Syracuse Water Department in New York, the Portland Bureau of Water 
Works in Oregon, the Philadelphia Water Department in Pennsylvania, and 
Seattle Public Utilities in Washington. Our criteria for selecting these 
systems included test results showing elevated lead levels, lead service line 
replacement activity, and/or the use of modified sampling arrangements for 
consecutive systems. We reviewed the Safe Drinking Water Act, the lead 
rule, EPA’s minor revisions to the lead rule, other pertinent regulations, and 
applicable guidance to states and water systems. 
To gain a national perspective on the data EPA uses for oversight of lead 
rule implementation, including the results of required testing, the status of 
corrective actions, and the extent of violations, we analyzed data from 
EPA’s Safe Drinking Water Information System through June 2005 for active 
community water systems. We assessed the reliability of the data by (1) 
performing electronic testing of required data elements, (2) reviewing 
existing information about the data and the system that produced them, (3) 
interviewing agency officials knowledgeable about the data, and (4) 
reviewing EPA’s own data verification audits and summaries of data 
reliability. We determined that the data on results and frequency of lead 
testing were sufficiently reliable to show compliance trends. However, we 
found that other data on corrective actions and violations were not 
sufficiently reliable to assess the status of efforts to implement and enforce 
the lead rule. 
For information on experiences in implementing the lead rule and the need 
for changes to the regulatory framework, we interviewed EPA, state, and 
local officials; analyzed states’ responses to an EPA information request 
GAO-06-148 Lead in Drinking Water Appendix I 
Scope and Methodology 
regarding their policies and practices in implementing the rule; and 
reviewed other relevant studies and documents. We reviewed the results of 
EPA’s expert workshops on monitoring protocols, simultaneous 
compliance, lead service line replacement, and public education, and 
obtained information from several researchers and other drinking water 
experts. Among other things, we identified potential gaps in the regulatory 
framework, including oversight, regulations, and guidance, and obtained 
views on the modifications to the lead rule now being considered by EPA. 
To learn about the development and effectiveness of existing plumbing 
standards, we obtained and analyzed information from NSF International 
(NSF), the Copper Development Association, the Plumbing Manufacturers 
Institute, and relevant articles and studies. To assess the reliability of NSF’s 
data on lead content and lead leaching of plumbing fittings and fixtures, we 
talked with foundation officials about data quality control procedures. We 
determined the data were sufficiently reliable for illustrative purposes. 
For information on safeguards against lead-contaminated drinking water at 
schools and child care facilities, we interviewed officials from the 
Consumer Product Safety Commission, EPA’s Office of Ground Water and 
Drinking Water, the National Head Start Association, the National Child 
Care Association, and the Healthy Schools Network. We also obtained 
information from drinking water program offices and public health or 
education departments in the 10 states we contacted for the first objective 
as well as school districts in Boston, Chicago, Detroit, Philadelphia, Seattle, 
and Syracuse. We reviewed the Lead Contamination Control Act (LCCA) of 
1988 and obtained information on the recall of lead-lined water coolers. For 
information on other actions taken in response to the LCCA, we 
interviewed EPA, state, and local officials; reviewed relevant studies; and 
analyzed information collected by EPA. We used the same information 
sources to determine (1) the extent of current testing and remediation 
activities for lead in school and child care facility drinking water, (2) the 
extent to which various entities have responsibility for overseeing or 
collecting data on such activities, and (3) the relative priorities among 
environmental hazards common to schools and child care facilities. We 
also analyzed states’ responses to an EPA information request on state and 
local efforts to monitor and protect children from lead exposure and 
attended an EPA-sponsored expert workshop on lead in drinking water at 
schools and child care facilities. For more detailed information on 
experiences at the local level, we collected information from five school 
districts on the extent of testing for lead in school drinking water, the 
results, and the approaches used to address contamination. 
GAO-06-148 Lead in Drinking Water Appendix I 
Scope and Methodology 
We performed our work between June 2004 and November 2005 in 
accordance with generally accepted government auditing standards. 
GAO-06-148 Lead in Drinking Water Appendix II 
Detailed Analysis of Corrective Action 
Milestone Data Reported to EPA, by State, 
through June 2005 
State 
Large 
Number of systems 
Population of large systems 
Total number 
of systems 
Number of 
systems with 
milestones 
Percent of 
systems without 
milestones 
Total population 
served 
Population in 
systems without 
milestones 
Percent of 
population in 
systems without 
milestones 
AK 
1 
0 
100.0 
135,000 
135,000 
100.0 
AL 
11 
0 
100.0 
1,881,984 
1,881,984 
100.0 
AR 
8 
8 
0.0 
781,325 
0 
0.0 
AZ 
13 
0 
100.0 
3,417,902 
3,417,902 
100.0 
CA 
160 
0 
100.0 
25,224,420 
25,224,420 
100.0 
CO 
16 
0 
100.0 
2,941,619 
2,941,619 
100.0 
CT 
9 
9 
0.0 
1,586,458 
0 
0.0 
DC 
1 
1 
0.0 
595,000 
0 
0.0 
DE 
3 
0 
100.0 
445,504 
445,504 
100.0 
FL 
76 
3 
96.1 
12,098,524 
11,805,584 
97.6 
GA 
23 
18 
21.7 
4,544,090 
507,529 
11.2 
HI 
4 
0 
100.0 
875,238 
875,238 
100.0 
IA 
8 
1 
87.5 
793,026 
584,383 
73.7 
ID 
4 
1 
75.0 
353,151 
300,800 
85.2 
IL 
30 
28 
6.7 
5,367,282 
123,603 
2.3 
IN 
14 
14 
0.0 
2,106,043 
0 
0.0 
KS 
6 
2 
66.7 
1,172,516 
981,341 
83.7 
KY 
8 
0 
100.0 
1,705,135 
1,705,135 
100.0 
LA 
15 
0 
100.0 
2,315,098 
2,315,098 
100.0 
MA 
29 
14 
51.7 
4,992,887 
3,629,018 
72.7 
MD 
9 
7 
22.2 
4,005,168 
106,000 
2.6 
ME 
1 
0 
100.0 
113,560 
113,560 
100.0 
Ml 
31 
28 
9.7 
3,647,640 
318,288 
8.7 
MN 
14 
8 
42.9 
1,610,382 
370,533 
23.0 
MO 
11 
4 
63.6 
2,586,464 
2,347,737 
90.8 
MS 
2 
0 
100.0 
288,257 
288,257 
100.0 
MT 
3 
0 
100.0 
208,335 
208,335 
100.0 
NC 
24 
0 
100.0 
3,255,476 
3,255,476 
100.0 
ND 
2 
2 
0.0 
146,131 
0 
0.0 
NE 
2 
0 
100.0 
709,420 
709,420 
100.0 
NH 
2 
0 
100.0 
213,000 
213,000 
100.0 
GAO-06-148 Lead in Drinking Water Appendix II 
Detailed Analysis of Corrective Action 
Milestone Data Reported to EPA, by State 
through June 2005 
(Continued From Previous Page) 
State 
Large 
Number of systems 
Population of large systems 
Total number 
of systems 
Number of 
systems with 
milestones 
Percent of 
systems without 
milestones 
Total population 
served 
Population in 
systems without 
milestones 
Percent of 
population in 
systems without 
milestones 
NJ 
21 
0 
100.0 
4,205,795 
4,205,795 
100.0 
NM 
4 
0 
100.0 
660,026 
660,026 
100.0 
NV 
5 
0 
100.0 
1,876,500 
1,876,500 
100.0 
NY 
32 
0 
100.0 
13,079,586 
13,079,586 
100.0 
OH 
27 
0 
100.0 
5,720,471 
5,720,471 
100.0 
OK 
9 
7 
22.2 
1,538,179 
679,000 
44.1 
OR 
11 
8 
27.3 
1,424,645 
278,000 
19.5 
PA 
31 
31 
0.0 
5,823,088 
0 
0.0 
Rl 
4 
4 
0.0 
528,853 
0 
0.0 
SC 
12 
12 
0.0 
1,549,312 
0 
0.0 
SD 
2 
2 
0.0 
185,983 
0 
0.0 
TN 
15 
0 
100.0 
2,221,020 
2,221,020 
100.0 
TX 
56 
5 
91.1 
12,580,122 
12,268,259 
97.5 
UT 
10 
0 
100.0 
1,197,900 
1,197,900 
100.0 
VA 
22 
22 
0.0 
3,979,119 
0 
0.0 
VT 
0 
N/A 
N/A 
0 
N/A 
N/A 
WA 
23 
0 
100.0 
2,697,616 
2,697,616 
100.0 
Wl 
13 
0 
100.0 
1,666,474 
1,666,474 
100.0 
WV 
2 
2 
0.0 
246,203 
0 
0.0 
WY 
2 
0 
100.0 
110,108 
110,108 
100.0 
Total/AVG 
841 
241 
71.3 
151,407,035 
111,465,519 
73.6 
Source: GAO analysis of EPA data. 
GAO-06-148 Lead in Drinking Water Appendix II 
Detailed Analysis of Corrective Action 
Milestone Data Reported to EPA, by State, 
through June 2005 
1 
State 
Medium 
Number of systems 
Population of medium systems 
Total number of 
systems 
Number of 
systems with 
milestones 
Percent of 
systems without Total population 
milestones served 
Population in 
systems without 
milestones 
Percent of 
population in 
systems without 
milestones 
\K 
23 
0 
100.0 
200,798 
200,798 
100.0 
M 
266 
0 
100.0 
2,944,220 
2,944,220 
100.0 
\R 
139 
133 
4.3 
1,190,159 
31,091 
2.6 
\Z 
105 
0 
100.0 
1,227,834 
1,227,834 
100.0 
DA 
478 
0 
100.0 
7,476,807 
7,476,807 
100.0 
30 
131 
0 
100.0 
1,726,744 
1,726,744 
100.0 
3T 
48 
48 
0.0 
926,493 
0 
0.0 
DC 
1 
0 
100.0 
11,000 
11,000 
100.0 
DE 
24 
0 
100.0 
298,763 
298,763 
100.0 
FL 
310 
2 
99.4 
4,684,659 
4,655,307 
99.4 
3A 
184 
94 
48.9 
2,254,876 
1,068,475 
47.4 
HI 
33 
0 
100.0 
378,964 
378,964 
100.0 
A 
116 
12 
89.7 
1,173,595 
1,099,226 
93.7 
ID 
41 
3 
92.7 
401,222 
355,215 
88.5 
L 
396 
378 
4.5 
5,176,451 
192,293 
3.7 
IN 
188 
187 
0.5 
2,025,670 
3,661 
0.2 
<S 
81 
75 
7.4 
836,216 
24,796 
3.0 
<Y 
231 
0 
100.0 
2,657,189 
2,657,189 
100.0 
_A 
203 
0 
100.0 
1,827,405 
1,827,405 
100.0 
VIA 
217 
81 
62.7 
3,788,166 
2,339,423 
61.8 
VID 
53 
1 
98.1 
623,854 
620,429 
99.5 
VIE 
32 
0 
100.0 
339,255 
339,255 
100.0 
VII 
249 
204 
18.1 
3,078,142 
477,742 
15.5 
VIN 
140 
44 
68.6 
1,821,460 
1,359,303 
74.6 
VIO 
173 
166 
4.0 
1,596,299 
39,249 
2.5 
VIS 
189 
0 
100.0 
1,758,806 
1,758,806 
100.0 
VIT 
28 
0 
100.0 
258,541 
258,541 
100.0 
MC 
226 
0 
100.0 
2,496,100 
2,496,100 
100.0 
MD 
19 
19 
0.0 
229,025 
0 
0.0 
ME 
38 
0 
100.0 
403,073 
403,073 
100.0 
MH 
34 
0 
100.0 
404,279 
404,279 
100.0 
GAO-06-148 Lead in Drinking Water Appendix II 
Detailed Analysis of Corrective Action 
Milestone Data Reported to EPA, by State 
through June 2005 
(Continued From Previous Page) 
Medium 
Number of systems 
Population of medium systems 
State 
Total number of 
systems 
Number of 
systems with 
milestones 
Percent of 
systems without Total population 
milestones served 
Population in 
systems without 
milestones 
Percent of 
population in 
systems without 
milestones 
NJ 
207 
0 
100.0 
3,419,920 
3,419,920 
100.0 
NM 
55 
0 
100.0 
701,119 
701,119 
100.0 
NV 
28 
0 
100.0 
229,455 
229,455 
100.0 
NY 
294 
0 
100.0 
3,698,727 
3,698,727 
100.0 
OH 
280 
0 
100.0 
3,593,577 
3,593,577 
100.0 
OK 
122 
105 
13.9 
1,225,346 
130,815 
10.7 
OR 
94 
28 
70.2 
1,222,949 
862,909 
70.6 
PA 
292 
281 
3.8 
3,685,523 
139,384 
3.8 
Rl 
22 
18 
18.2 
420,039 
43,700 
10.4 
SC 
141 
141 
0.0 
1,666,077 
0 
0.0 
SD 
30 
30 
0.0 
258,637 
0 
0.0 
TN 
236 
0 
100.0 
2,745,416 
2,745,416 
100.0 
TX 
750 
46 
93.9 
7,370,002 
6,950,037 
94.3 
UT 
85 
0 
100.0 
1,088,639 
1,088,639 
100.0 
VA 
126 
104 
17.5 
1,783,530 
346,752 
19.4 
VT 
30 
8 
73.3 
266,690 
151,730 
56.9 
WA 
170 
0 
100.0 
2,217,060 
2,217,060 
100.0 
Wl 
160 
0 
100.0 
1,696,466 
1,696,466 
100.0 
WV 
80 
77 
3.8 
756,976 
28,025 
3.7 
WY 
22 
0 
100.0 
225,116 
225,116 
100.0 
Total/AVG 
7,620 
2,285 
70.0 
92,487,329 
64,944,835 
70.2 
Source: GAO analysis of EPA data. 
GAO-06-148 Lead in Drinking Water Appendix II 
Detailed Analysis of Corrective Action 
Milestone Data Reported to EPA, by State, 
through June 2005 
State 
Small 
Number of systems 
Population of small systems 
Total number 
of systems 
Number of 
systems with 
milestones 
Percent of 
systems without 
milestones 
Total 
population 
served 
Population in 
systems 
without 
milestones 
Percent of 
population in 
systems without 
milestones 
AK 
412 
0 
100.0 
128,713 
128,713 
100.0 
AL 
342 
0 
100.0 
437,400 
437,400 
100.0 
AR 
582 
548 
5.8 
569,267 
23,567 
4.1 
AZ 
675 
0 
100.0 
334,986 
334,986 
100.0 
CA 
2,488 
0 
100.0 
995,796 
995,796 
100.0 
CO 
684 
0 
100.0 
378,345 
378,345 
100.0 
CT 
529 
443 
16.3 
160,534 
16,676 
10.4 
DC 
1 
0 
100.0 
0 
0 
N/A 
DE 
202 
0 
100.0 
92,110 
92,110 
100.0 
FL 
1,503 
9 
99.4 
799,213 
793,025 
99.2 
GA 
1,484 
660 
55.5 
601,723 
324,449 
53.9 
HI 
78 
0 
100.0 
72,007 
72,007 
100.0 
IA 
1,019 
64 
93.7 
614,789 
562,918 
91.6 
ID 
707 
81 
88.5 
211,117 
182,893 
86.6 
IL 
1,367 
1,216 
11.0 
1,071,477 
92,176 
8.6 
IN 
638 
628 
1.6 
503,685 
4,818 
1.0 
KS 
824 
649 
21.2 
560,103 
115,971 
20.7 
KY 
179 
0 
100.0 
259,090 
259,090 
100.0 
LA 
893 
0 
100.0 
743,960 
743,960 
100.0 
MA 
278 
83 
70.1 
161,166 
110,437 
68.5 
MD 
440 
271 
38.4 
217,804 
87,464 
40.2 
ME 
366 
0 
100.0 
165,359 
165,359 
100.0 
Ml 
1,158 
971 
16.1 
716,406 
173,559 
24.2 
MN 
811 
143 
82.4 
531,720 
395,653 
74.4 
MO 
1,281 
1,168 
8.8 
739,179 
38,519 
5.2 
MS 
980 
1 
99.9 
1,032,244 
1,031,729 
100.0 
MT 
647 
2 
99.7 
206,237 
203,914 
98.9 
NC 
1,924 
0 
100.0 
726,326 
726,326 
100.0 
ND 
299 
284 
5.0 
177,573 
8,747 
4.9 
NE 
566 
0 
100.0 
304,924 
304,924 
100.0 
NH 
662 
0 
100.0 
200,898 
200,898 
100.0 Appendix II 
Detailed Analysis of Corrective Action 
Milestone Data Reported to EPA, by State, 
through June 2005 
(Continued From Previous Page) 
State 
Small 
Number of systems 
Population of small systems 
Total number 
of systems 
Number of 
systems with 
milestones 
Percent of 
systems without 
milestones 
Total 
population 
served 
Population in 
systems 
without 
milestones 
Percent of 
population in 
systems without 
milestones 
NJ 
381 
0 
100.0 
257,045 
257,045 
100.0 
NM 
586 
0 
100.0 
251,374 
251,374 
100.0 
NV 
220 
0 
100.0 
106,349 
106,349 
100.0 
NY 
2,492 
1 
100.0 
1,131,590 
1,131,240 
100.0 
OH 
1,014 
0 
100.0 
739,441 
739,441 
100.0 
OK 
1,004 
378 
62.4 
679,858 
332,062 
48.8 
OR 
769 
108 
86.0 
324,386 
251,660 
77.6 
PA 
1,813 
1,670 
7.9 
960,679 
50,135 
5.2 
Rl 
57 
40 
29.8 
26,914 
10,630 
39.5 
SC 
506 
483 
4.5 
270,387 
8,152 
3.0 
SD 
435 
382 
12.2 
216,413 
12,348 
5.7 
TN 
430 
0 
100.0 
417,026 
417,026 
100.0 
TX 
3,683 
165 
95.5 
2,724,725 
2,554,606 
93.8 
UT 
356 
0 
100.0 
208,654 
208,654 
100.0 
VA 
1,117 
874 
21.8 
482,223 
95,023 
19.7 
VT 
405 
42 
89.6 
172,502 
138,701 
80.4 
WA 
2,084 
0 
100.0 
693,052 
693,052 
100.0 
Wl 
913 
0 
100.0 
517,366 
517,366 
100.0 
WV 
455 
432 
5.1 
413,870 
10,363 
2.5 
WY 
252 
0 
100.0 
103,403 
103,403 
100.0 
Total/AVG 
42,991 
11,796 
72.6 
24,411,408 
16,895,059 
69.2 
Source: GAO analysis of EPA data. 
GAO-06-148 Lead in Drinking Water Appendix III 
Number of Lead Rule Violations Reported to 
EPA Between 1995 and June 2005 (by State) 
State 
Number of violations 
Number of systems with violations 
Number of 
systems 
TT 
MR 
Total 
Percent of total 
systems with 
TT TT violations 
Percent of 
total systems 
with MR 
MR violations 
Percent of total 
systems with 
Total violations 
AK 
436 
4 
586 
590 
3 
0.7 
252 
57.8 
254 
58.3 
AL 
619 
0 
91 
91 
0 
0.0 
65 
10.5 
65 
10.5 
AR 
729 
28 
38 
66 
23 
3.2 
32 
4.4 
50 
6.9 
AZ 
793 
0 
1,100 
1,100 
0 
0.0 
419 
52.8 
419 
52.8 
CA 
3,126 
0 
144 
144 
0 
0.0 
136 
4.4 
136 
4.4 
CO 
831 
28 
262 
290 
10 
1.2 
195 
23.5 
201 
24.2 
CT 
586 
29 
232 
261 
25 
4.3 
168 
28.7 
176 
30.0 
DE 
229 
0 
3 
3 
0 
0.0 
3 
1.3 
3 
1.3 
FL 
1,889 
10 
74 
84 
10 
0.5 
68 
3.6 
76 
4.0 
GA 
1,691 
8 
1,927 
1,935 
8 
0.5 
1,015 
60.0 
1,016 
60.1 
HI 
115 
0 
0 
0 
0 
0.0 
0 
0.0 
0 
0.0 
IA 
1,143 
1 
100 
101 
1 
0.1 
85 
7.4 
86 
7.5 
ID 
752 
9 
866 
875 
9 
1.2 
269 
35.8 
274 
36.4 
IL 
1,793 
292 
670 
962 
170 
9.5 
330 
18.4 
423 
23.6 
IN 
840 
90 
279 
369 
54 
6.4 
127 
15.1 
138 
16.4 
KS 
911 
62 
105 
167 
44 
4.8 
83 
9.1 
119 
13.1 
KY 
418 
0 
200 
200 
0 
0.0 
147 
35.2 
147 
35.2 
LA 
1,111 
0 
132 
132 
0 
0.0 
132 
11.9 
132 
11.9 
MA 
524 
81 
219 
300 
60 
11.5 
137 
26.1 
189 
36.1 
MD 
502 
69 
231 
300 
40 
8.0 
156 
31.1 
165 
32.9 
ME 
399 
63 
188 
251 
44 
11.0 
88 
22.1 
107 
26.8 
Ml 
1,438 
9 
116 
125 
8 
0.6 
101 
7.0 
107 
7.4 
MN 
965 
3 
104 
107 
3 
0.3 
76 
7.9 
77 
8.0 
MO 
1,465 
2 
420 
422 
2 
0.1 
330 
22.5 
332 
22.7 
MS 
1,171 
0 
35 
35 
0 
0.0 
32 
2.7 
32 
2.7 
MT 
678 
8 
590 
598 
8 
1.2 
225 
33.2 
228 
33.6 
NC 
2,174 
233 
411 
644 
143 
6.6 
269 
12.4 
356 
16.4 
ND 
320 
7 
36 
43 
6 
1.9 
16 
5.0 
20 
6.3 
NE 
606 
59 
4 
63 
58 
9.6 
4 
0.7 
62 
10.2 
NH 
698 
18 
107 
125 
14 
2.0 
91 
13.0 
100 
14.3 
NJ 
609 
3 
108 
111 
3 
0.5 
79 
13.0 
81 
13.3 
NM 
645 
0 
54 
54 
0 
0.0 
49 
7.6 
49 
7.6 
GAO-06-148 Lead in Drinking Water Appendix III 
Number of Lead Rule Violations Reported to 
EPA Between 1995 and June 2005 (by State) 
(Continued From Previous Page) 
Number of violations 
Number of systems with violations 
State 
Number of 
systems 
TT 
MR Total 
TT 
Percent of total 
systems with 
TT violations 
MR 
Percent of 
total systems 
with MR 
violations 
Total 
Percent of total 
systems with 
violations 
NV 
253 
1 
113 114 
1 
0.4 
84 
33.2 
84 
33.2 
NY 
2,818 
62 
451 513 
52 
1.8 
327 
11.6 
362 
12.8 
OH 
1,321 
38 
767 805 
35 
2.6 
421 
31.9 
436 
33.0 
OK 
1,135 
2 
311 313 
1 
0.1 
120 
10.6 
120 
10.6 
OR 
874 
138 
94 232 
94 
10.8 
65 
7.4 
127 
14.5 
PA 
2,136 
75 
800 875 
72 
3.4 
528 
24.7 
572 
26.8 
Rl 
83 
1 
4 5 
1 
1.2 
4 
4.8 
4 
4.8 
SC 
659 
92 
365 457 
60 
9.1 
218 
33.1 
238 
36.1 
SD 
467 
4 
431 435 
4 
0.9 
211 
45.2 
213 
45.6 
TN 
681 
0 
36 36 
0 
0.0 
19 
2.8 
19 
2.8 
TX 
4,489 
46 
54 100 
29 
0.6 
54 
1.2 
81 
1.8 
UT 
451 
0 
315 315 
0 
0.0 
186 
41.2 
186 
41.2 
VA 
1,265 
52 
253 305 
47 
3.7 
185 
14.6 
221 
17.5 
VT 
435 
8 
135 143 
7 
1.6 
108 
24.8 
114 
26.2 
WA 
2,277 
4 
1,548 1,552 
4 
0.2 
1,272 
55.9 
1,276 
56.0 
Wl 
1,086 
10 
210 220 
8 
0.7 
129 
11.9 
134 
12.3 
W V 
537 
3 
335 338 
3 
0.6 
153 
28.5 
154 
28.7 
WY 
276 
1 
98 99 
1 
0.4 
80 
29.0 
80 
29.0 
Total 
51,449 
1,653 
15,752 17,405 
1,165 
2.3 
9,343 
18.2 
10,041 
19.5 
Legend: TT = treatment technique violations, including failure to install optimal corrosion control 
treatment, failure to meet water quality control parameters, failure to replace lead service lines, and 
failure to meet public education requirements, among other things. 
MR = monitoring and reporting violations, including the failure to conduct required testing and failure to 
report the results. 
Source: GAO analysis of EPA data. 
Note: The total number of systems with violations, and the numbers of systems with TT and MR 
violations do not add to the total numbers of violations because in some cases, systems have more 
than one type of violation. 
GAO-06-148 Lead in Drinking Water Appendix IV 
Information on Selected EPA and State 
Enforcement Actions, by Type, from 1995 to 
June 2005a 
Years 
Type of Action 
1995 
1996 
1997 
1998 
1999 
2000 
2001 
2002 
2003 
2004 
2005 
Totals 
Public notification requested 
State 
1,359 
1,070 
1,190 
1,223 
1,097 
791 
988 
934 
1,136 
940 
1,174 
11,902 
Federal 
277 
28 
15 
5 
6 
8 
3 
9 
1 
1 
3 
356 
Formal notice of violation 
State 
969 
700 
526 
452 
499 
602 
606 
581 
649 
549 
647 
6,780 
Federal 
614 
273 
83 
177 
73 
39 
91 
4 
8 
22 
6 
1,390 
Bilateral compliance agreement 
State 
52 
119 
79 
87 
60 
40 
69 
91 
99 
89 
24 
837 
Federal 
0 
5 
1 
2 
0 
0 
0 
0 
1 
0 
0 
9 
Administrative orders 
State (without penalties) 
107 
93 
89 
114 
83 
45 
89 
68 
71 
78 
21 
837 
State (with penalties) 
84 
67 
42 
319 
97 
52 
52 
56 
49 
57 
5 
880 
Federal (proposed) 
561 
153 
4 
1 
0 
0 
0 
3 
0 
0 
0 
272 
Federal (final) 
145 
146 
197 
64 
29 
13 
9 
10 
24 
17 
5 
659 
Administrative penalties assessed 
State 
11 
28 
19 
21 
26 
10 
41 
31 
33 
30 
3 
253 
Complaint for penalty issuedb 
Federal 
9 
0 
10 
10 
8 
3 
0 
3 
0 
0 
0 
43 
Civil cases referred 
State (to attorney general) 
10 
15 
21 
13 
10 
3 
3 
1 
9 
9 
3 
97 
Federal (to Department of 
Justice) 
0 
0 
4 
1 
0 
0 
0 
0 
0 
54 
0 
59 
Criminal cases filed 
State 
1 
2 
1 
0 
3 
0 
0 
0 
0 
0 
0 
7 
Federal 
0 
0 
0 
0 
0 
0 
0 
0 
0 
0 
0 
0 
Source: GAO analysis of EPA data. 
Notes: 
aWe included the most commonly used enforcement actions in this table and excluded miscellaneous 
actions and activities unrelated to enforcement or the lead rule. 
t 
’EPA files a 
“complaint for penalty” when the terms of an administrative order are violated. 
GAO-06-148 Lead in Drinking Water Appendix V 
Comments from the Environmental 
Protection Agency 
i \ UNITED STATES ENVIRONMENTAL PROTECTION AGENCY 
I $ WASHINGTON, D.C. 20460 
OFFCE OF 
WATER 
John B. Stephenson 
Director, Natural Resources and the Environment 
Government Accountability Office 
Washington, DC 20548 
Dear Mr. Stephenson: 
Thank you for the opportunity to review the proposed Government Accountability Office 
(GAO) Report; Drinking Water: EPA Should Strengthen Ongoing Efforts to Ensure that 
Consumers are Protected from Lead Contamination. We appreciate the information in the 
report and are fully committed to strengthening consumer protections from lead contamination.. 
As your report acknowledges, the Environmental Protection Agency (EPA) has been 
working since early 2004 to better understand implementation of the Lead and Copper Rule 
nationwide. On March 7,2005, we announced the Drinking Water Lead Reduction Plan, a series 
of efforts we are undertaking to revise regulations and guidance in order to improve 
implementation of the rule. We will continue to collect and analyze information to help us target 
areas where implementation needs to be further improved. We want to ensure this rule, which 
has been critical in lowering exposure to lead in drinking water, continues to be successful. 
Your staff evaluated (1) the completeness of information that EPA has to evaluate 
implementation, (2) areas of the rule where modifications could strengthen public health 
protection, and (3) the availability of information to assess the quality of drinking water in 
schools and child care facilities with respect to lead. I would like to respond to your findings 
in each of these areas. 
Lead Compliance Information 
Your report fairly represents the challenges that we faced in working to understand the 
effectiveness of the rule in reducing exposure to lead in drinking water. In initiating our review, 
our focus was on understanding the extent to which utilities were currently exceeding the 15 ppb 
action level. While states were responsive to our immediate request, your report correctly 
indicates that many have not continued to focus on adding new data reported by utilities to the 
database. We will continue to emphasize to states the importance of having this data to 
understand national implementation and will work with our Office of Enforcement and 
Compliance Assurance to assess the adequacy of enforcement efforts. 
Internet Address (URL) • http://www.epa.gov 
Recycled/Recyclable • Printed with Vegetable Oil Based Inks on 100% Postconsumer. Process Chlorine Free Recycled Paper 
GAO-06-148 Lead in Drinking Water Appendix V 
Comments from the Environmental 
Protection Agency 
Your report stresses that information on how utilities have met milestones associated with 
taking steps to meet the rule is important in determining the effectiveness of implementation. As 
you noted, our Safe Drinking Water Information System (SDWIS) has incomplete data for 
milestones that were effective with revisions to the rule in 2000. However, while your report 
accurately characterizes the incompleteness of new milestones, we believe it is important to note 
that an absence of new milestone data does not necessarily mean that utilities did not take steps 
to implement corrosion control. Many states failed to update their data to convert the older 
milestones that were used with the 1991 rule into the new milestones for individual systems. For 
example, in Wisconsin, although none of the 13 large systems have the new DEEM or DONE 
milestones in SDWIS, 9 did have a milestone under the old data structure to indicate that optimal 
corrosion control treatment had been installed. However, notwithstanding that difference, it is 
accurate to state that data for milestones - under both the old and new structures - is incomplete. 
We will work with states over the coming year to ensure that relevant information is loaded into 
SDWIS. 
Reassessment of the Regulation 
Your report describes several areas where you believe there are opportunities to improve 
the effectiveness of the rule. We agree with GAO that these areas warrant additional attention 
and we are addressing some of them (e.g., criteria for reducing monitoring, customer notification, 
management of treatment changes) as part of our package of revisions to the Lead and Copper 
Rule that we will be proposing early in the new year. Our decision to revise several provisions in 
the rule was based on a review of our information request to states asking how they were 
implementing provisions of the rule and feedback we heard from stakeholders during the expert 
workshops we conducted during 2004. 
However, we need additional information before we can address several of the other 
issues discussed in the report, including data on the effectiveness of lead service line replacement 
programs and analysis to determine appropriate monitoring requirements for combined 
distribution systems. Ongoing research projects being funded by the American Water Works 
Association Research Foundation should help inform efforts on lead service line replacement and 
the sufficiency of existing requirements related to lead content and leaching potential of devices 
used in residential plumbing. 
Programs to Control Lead in Drinking Water at School and Child Care Facilities 
We take seriously the issue of lead in schools and child care facilities, as children are 
more vulnerable to the negative effects of lead. We agree with you that there is insufficient 
information to determine whether there are widespread problems with lead in school drinking 
water. However, we understand the concerns that water utilities have about being considered the 
GAO-06-148 Lead in Drinking Water Appendix V 
Comments from the Environmental 
Protection Agency 
responsible party for drinking water quality within specific facilities. Although some water 
utilities are working with local communities to facilitate testing, ultimately they have no 
authority over conditions within a specific facility. We believe that approaches such as that in 
Connecticut, which requires testing of drinking water to be conducted as part of the licensing 
process for child care facilities, represent a more commonsense approach to ensuring that 
children are protected. We also acknowledge the concerns of state administrators about 
balancing risks of exposure to lead in drinking water with other environmental exposures within 
school environments. 
Because there are no federal requirements for testing drinking water in schools that are 
not already a public water system, we are strongly advocating a voluntary program to encourage 
school districts to test drinking water. As your report notes, we have entered into a memorandum 
of understanding with the Department of Education, Centers for Disease Control and Prevention, 
Association of State Drinking Water Administrators and associations representing drinking water 
utilities. We are committed to work with these organizations and other organizations 
representing schools and child care facilities to encourage greater consideration of drinking water 
quality. We are working to release a revised guidance document for testing drinking water in 
schools and additional products over the next several months. 
Our experience with the lead rule reminds us that a regulation is only effective if it is 
effectively implemented. We understand that EPA regional staff, state staff, and utility managers 
face challenges in carrying out federal requirements in addition to their other duties. But the 
experience of Washington, DC reminds us of the importance of maintaining public confidence in 
the safety of drinking water. We believe that improvements are already happening due to the 
renewed emphasis on rule. Many states have begun efforts to review their programs and have 
already made changes to improve oversight and reporting. However, staff at local, state and 
federal levels must continue to carry out implementation and oversight activities to ensure that 
public confidence is maintained. 
I appreciated the opportunity to coordinate with your staff on this project. Should you 
need additional information or have further questions, please contact me or Cynthia C. 
Dougherty, Director of the Office of Ground Water and Drinking Water at (202) 564-3750. 
Sincerely, 
Benjamin H. Grumbles 
Assistant Administrator 
GAO-06-148 Lead in Drinking Water Appendix VI 
GAO Contact and Staff Acknowledgments 
GAO Contact 
John B. Stephenson (202) 512-3841 
Staff 
Acknowledgments 
In addition to the individual named above, Ellen Crocker, Nancy Crothers, 
Sandra Edwards, Maureen Driscoll, Benjamin Howe, Julian Klazkin, Jean 
McSween, Chris Murray, and George Quinn, Jr. made key contributions to 
this report. 
(360478) 
GAO-06-148 Lead in Drinking Water GAO’s Mission 
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