PFAS and Drinking Water:
Selected EPA and Congressional Actions

Updated August 20, 2019 (R45793)
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Contents

Tables

Appendixes

Summary

Per- and polyfluoroalkyl substances (PFAS) are fluorinated chemicals that have been used in an array of commercial, industrial, and U.S. military applications for decades. Some of the more common applications include nonstick coatings, food wrappers, waterproof materials, and fire suppressants. Detections of some PFAS in drinking water supplies and uncertainty about potential health effects associated with exposure to particular PFAS above certain concentrations have increased calls for the U.S. Environmental Protection Agency (EPA) to address these substances in public water supplies. For those few PFAS for which scientific information is available, animal studies suggest that exposure to particular substances above certain levels may be linked to various health effects, including developmental effects; changes in liver, immune, and thyroid function; and increased risk of some cancers. In 2009, EPA listed certain PFAS for formal evaluation under the Safe Drinking Water Act (SDWA) to determine whether regulations may be warranted. EPA has not issued drinking water regulations for any PFAS but has taken various actions to address PFAS contamination.

In the 116th Congress, Members have introduced more than 35 bills to address PFAS through various means. Multiple bills, including House- and Senate-passed National Defense Authorization Act (NDAA) bills for FY2020 (H.R. 2500 and S. 1790), would direct EPA to take regulatory and other actions to address these emerging contaminants under several environmental statutes. Several SDWA-related bills would direct EPA to establish a drinking water standard for one or more PFAS, require monitoring for PFAS in public water supplies, and authorize grants to communities to treat PFAS in drinking water.

In February 2019, EPA released its PFAS Action Plan, which discusses the agency's current and proposed actions to address these substances under its various statutory authorities. Regarding SDWA, the plan notes that EPA is following the statutory process for evaluating PFAS—particularly perfluorooctanoic acid (PFOA) and perfluorooctane sulfonate (PFOS)—to determine whether national primary drinking water regulations are warranted. EPA is scheduled to propose preliminary regulatory determinations for PFOA and PFOS by the end of 2019 and to make final determinations by the end of 2020. The plan also reviews other SDWA authorities that the agency is using to address PFAS in drinking water.

The absence of a national health-based drinking water standard for any PFAS has increased interest in the SDWA process for regulating contaminants. The statute prescribes a risk- and science-based process for evaluating and regulating contaminants in drinking water. The evaluation process includes identifying contaminants of potential concern, assessing health risks, collecting occurrence data (and developing reliable analytical methods necessary to do so), and making determinations as to whether a national drinking water regulation is warranted for a contaminant.

PFAS includes thousands of diverse chemicals, and setting drinking water standards for individual or groups of PFAS raises technical and scientific challenges. For example, SDWA requires EPA to make determinations and set standards using the best available peer-reviewed science and occurrence data. However, data on the potential health effects and occurrence are available for few of these substances. Further, EPA may face challenges in developing test methods needed to evaluate PFAS occurrence and technologies to treat PFAS in drinking water. Contamination of drinking water by PFAS can pose challenges for states and communities, and some have called for EPA to establish a health-based standard. State drinking water regulators have noted that many states may face significant obstacles in setting their own standards.

For emerging contaminants not regulated under SDWA, EPA is authorized to issue health advisories, which provide information on health effects, testing methods, and treatment techniques for contaminants of concern. In 2016, EPA established health advisory levels for PFOA and PFOS in drinking water at 70 parts per trillion (separately or combined).

SDWA also authorizes EPA to take actions it deems necessary to abate an imminent and substantial endangerment to public health from a contaminant present in or likely to enter a public water system or an underground source of drinking water. Actions may include issuing orders requiring persons who caused or contributed to the endangerment to provide alternative water supplies or to treat contamination. Since 2002, EPA has used this authority to require responses to PFOA and/or PFOS contamination of water supplies associated with four sites, including three Department of Defense sites.


Introduction

Detections of per- and polyfluoroalkyl substances (PFAS) in drinking water supplies and concerns about potential health effects associated with exposure to PFAS have increased congressional attention to the U.S. Environmental Protection Agency's (EPA) efforts to address the presence of these substances in public water supplies. Over the past decade, EPA has been evaluating several PFAS under the Safe Drinking Water Act (SDWA) to determine whether national drinking water regulations may be warranted. EPA has not issued SDWA regulations for any PFAS but has taken various actions to address PFAS contamination. Using SDWA authorities, in 2016, EPA issued nonenforceable health advisories for two PFAS—perfluorooctanoic acid (PFOA) and perfluorooctane sulfonate (PFOS)—in drinking water.1

In the 116th Congress, Members have introduced more than 35 bills that would address PFAS exposure through various authorities and agencies. A number of bills would direct EPA to take regulatory and other actions under several environmental statutes, including SDWA. Of the SDWA bills, some would require EPA to establish drinking water standards for PFAS, require monitoring for more of these substances, or authorize grants to assist communities in treating PFAS in drinking water.

PFAS are a large, diverse group of fluorinated compounds, some of which have been used for decades in a wide array of commercial, industrial, and U.S. military applications.2 Since the 1940s, more than 1,200 PFAS compounds have been used in commerce, and about 600 are still in use today.3 The chemical characteristics of PFAS have led to the widespread use of these substances for beneficial purposes (such as firefighting) and in the processing and manufacture of many commercial products, such as nonstick cookware, food wrapper coatings, stain-resistant carpets, waterproof clothing, and food containers.

The detection of certain PFAS in surface water, groundwater, and public water supplies in various locations has generated public concern and drawn attention to the use and federal regulation of these chemicals in commerce and in the environment. The two PFAS most frequently detected in water supplies are PFOA and PFOS. Since 2002, U.S. manufacturers have phased out the production and most uses of PFOS.4 In coordination with EPA, manufacturers completed the phase-out of PFOA production by 2015.5 EPA reports that food and consumer products represent a large portion of exposure to PFOA and PFOS, while drinking water can be an additional source in the small percentage of communities with contaminated water supplies.6

Among the thousands of different PFAS, few have sufficient health effects studies for determining a threshold at which adverse effects are not expected to occur. Most studies of potential health effects of PFAS have focused on PFOA and PFOS because of their predominant historical use. For those PFAS for which scientific information is available, animal studies suggest that exposure to particular substances above certain levels may be linked to various health effects, including developmental effects; changes in liver, immune, and thyroid function; and increased risk of some cancers.7 A discussion of these studies and their results is beyond the scope of this report.

In 2016, EPA reported that public water systems in 29 states had detected at least one PFAS in their water supplies.8 In total, 63 public water systems serving approximately 5.5 million people reported detections of PFOA and PFOS (separately or combined) above EPA's health advisory level of 70 parts per trillion (ppt).9 EPA has reported that PFAS contamination of drinking water "is typically localized and associated with a specific facility."10 According to the Agency for Toxic Substances and Disease Registry, PFAS may have been released to surface or ground water from manufacturing sites, industrial use, use and disposal of PFAS-containing consumer products (e.g., unlined landfills), fire/crash training areas, wastewater treatment facilities, and the spreading of contaminated biosolids.11 A discussion of PFAS use, including at U.S. military installations, and PFAS disposal is not included in this report.

Uncertainty about potential health effects that may be associated with exposure to specific PFAS above particular concentrations—combined with the absence of a federal health-based drinking water standard—has posed challenges and created uncertainty for states, water suppliers and their customers, homeowners using private wells, and others regarding treatment or other potential responses.12 State drinking water regulators and others have called for greater federal leadership to address these substances through several federal laws and, specifically, have urged EPA to set federal drinking water standards for one or more PFAS under SDWA.13 Representatives of public water systems have supported EPA's commitment to follow the statutory process for regulating contaminants in drinking water, which prioritizes regulating those that occur at levels and frequency of public health concern.14

SDWA provides EPA with several authorities to address emerging contaminants in public water supplies and drinking water sources. These include the authority to (1) issue health advisories, (2) regulate contaminants in water provided by public water systems, and (3) issue enforcement orders in certain circumstances.15 For more than a decade, EPA has been using SDWA authorities to evaluate several PFAS—particularly PFOA and PFOS—to determine whether national drinking water regulations may be warranted.16 To date, EPA has not promulgated drinking water regulations for any PFAS but has taken a number of related actions.

In February 2019, EPA issued a PFAS Action Plan, which identifies and discusses the agency's current and proposed efforts to address PFAS through several statutory authorities, including SDWA.17 These actions range from potential regulatory actions to public outreach on PFAS. Many of these actions support EPA's evaluation of PFAS for potential regulation under SDWA. These include research and development of analytical methods needed to accurately measure substances in drinking water, development of additional toxicity information to increase understanding of potential health risks associated with exposures to different PFAS, and research on drinking water treatment effectiveness and costs for various PFAS. EPA also plans to generate occurrence data for more PFAS to determine their frequencies and concentrations in public water supplies. Further, EPA is working with federal, state, and tribal partners to develop risk communication materials on PFAS and plans to develop an interactive map on potential PFAS sources and occurrence. Table A-1 includes EPA's selected actions and associated timelines relevant to addressing PFAS in drinking water.

The challenges of regulating individual substances or categories of PFAS in drinking water are multifaceted and may raise several policy and scientific questions. Technical issues involve availability of data, detection methods, and treatment techniques for related but diverse contaminants. Scientific questions exist about health effects attributed to many individual PFAS and whether health effects can be generalized from one or a category of PFAS to others. Policy and regulatory considerations may involve setting priorities among numerous unregulated contaminants, the value of establishing uniform national drinking water standards, and the ability to demonstrate the relative risk-reduction benefits compared to compliance costs to communities associated with regulating individual or multiple PFAS.18 The absence of a federal health-based enforceable standard can pose challenges for states and communities with PFAS contamination. State drinking water regulators have noted that many states may face significant obstacles in setting their own standards.

This report provides an overview of EPA's ongoing and proposed actions to address PFAS under SDWA authorities, with particular focus on the statutory process for evaluating PFAS—particularly PFOA and PFOS—for potential regulation. It also reviews PFAS-related legislation introduced in the 116th Congress with emphasis on bills that would amend SDWA. This report does not address the status of scientific research on health effects that may be associated with exposure to one or more PFAS, nor does it discuss federal actions regarding other environmental statutes, such as the Toxic Substances Control Act (TSCA) and the Comprehensive Environmental Response, Compensation, and Liability Act (CERCLA).19

Addressing PFAS Using SDWA Authorities

SDWA provides EPA with several authorities to address emerging contaminants in drinking water supplies and sources. The act authorizes EPA to promulgate regulations that include enforceable standards and monitoring requirements for contaminants in water provided by public water systems.20 For contaminants that are not regulated under the act, SDWA authorizes EPA to issue contaminant-specific health advisories that include technical guidance and identify concentrations that are expected to be protective of sensitive populations.21 In addition, if the appropriate state and local authorities have not acted to protect public health, SDWA authorizes EPA to take actions to abate an imminent and substantial endangerment to public health from "a contaminant that is present in or is likely to enter a public water system or an underground source of drinking water."22

Evaluating Emerging Contaminants for Regulation

SDWA specifies a multistep process for evaluating contaminants to determine whether a national primary drinking water regulation is warranted.23 The evaluation process includes identifying contaminants of potential concern, assessing health risks, collecting occurrence data (and developing reliable analytical methods necessary to do so), and making determinations as to whether or not regulatory action is needed for a contaminant.

To make a positive determination that a national drinking water regulation is warranted for a contaminant, EPA must find that

Identifying Contaminants That May Warrant Regulation

SDWA Section 1412(b) requires EPA to publish, every five years, a list of contaminants that are known or anticipated to occur in public water systems and may require regulation under the act.25 Before publishing a final contaminant candidate list (CCL), EPA is required to provide an opportunity for public comment and consult with the scientific community, including the Science Advisory Board.26

In 2009, EPA placed PFOA and PFOS on the third such list (CCL 3) for evaluation.27 In preparing the CCL 3, EPA considered over 7,500 chemical and microbial contaminants and screened these contaminants based on their potential to occur in public water systems and potential health effects. EPA selected 116 of the contaminants on the proposed CCL based on more detailed evaluation of occurrence, health effects, expert judgement, and public input.28

In 2016, EPA published the fourth list, CCL 4, which carried over many CCL 3 contaminants, including PFOA and PFOS. EPA carried forward these contaminants to continue evaluating health effects, gathering national occurrence data, and developing analytical methods.29

Monitoring for Emerging Contaminants in Public Water Systems

To generate data on the nationwide occurrence of emerging contaminants in public water supplies, EPA is required to administer a monitoring program for unregulated contaminants. SDWA directs EPA to promulgate, every five years, an unregulated contaminant monitoring rule (UCMR) that requires public water systems to test for no more than 30 contaminants.30 Only a representative sample of systems serving 10,000 or fewer people is required to conduct monitoring.31 EPA uses data collected through UCMRs to estimate whether the occurrence of the contaminant in public water supplies is local, regional, or national in scope.

UCMRs set a minimum reporting level (MRL) for each contaminant. MRLs are not health based; rather, they establish concentrations for reporting and data collection purposes. EPA makes the UCMR monitoring results available to the public and reports the number of detections above the MRL and also detections above EPA's health-based reference levels (discussed below), where available. The act includes an authorization of appropriations to cover monitoring and related costs for small systems (serving 10,000 persons or fewer). However, large systems pay UCMR monitoring and laboratory costs.32

In 2012, EPA issued the third UCMR (UCMR 3), under which 4,864 public water systems tested their drinking water for six PFAS—including PFOA and PFOS—between January 2013 and December 2015.33 Among these systems, EPA reported the following monitoring results for PFOA and PFOS:

Overall, 63 of the 4,864 (1.3%) water systems that conducted PFAS monitoring reported at least one sample with PFOA and/or PFOS (separately or combined) concentrations exceeding EPA's health advisory level of 70 ppt for PFOA and PFOS.35 Actual exposures among individuals served by these systems would be expected to vary depending on water use and consumption. EPA estimates that these 63 water systems serve approximately 5.5 million individuals. Of the 63 systems

Systems with PFOA or PFOS detections above 70 ppt were located in 21 states, the Pima-Maricopa Indian community, and 2 U.S. territories.37

EPA's PFAS Action Plan notes that the agency intends to propose monitoring requirements for other PFAS when it proposes the next UCMR (UCMR 5) in 2020.38 As of June 2019, EPA has developed an analytical method to detect 18 PFAS in drinking water supplies.39 The plan states that the agency would use the monitoring data gathered through UCMR 5 to evaluate the national occurrence of additional PFAS.40 The agency is currently working to develop analytical methods to support monitoring for additional PFAS.

Regulatory Determinations

SDWA requires EPA, every five years, to make a regulatory determination—a determination of whether or not to promulgate a national primary drinking water regulation—for at least five contaminants on the CCL.41 To consider a contaminant for a regulatory determination (RD), EPA requires, at a minimum, a peer-reviewed risk assessment and nationally representative occurrence data. In selecting contaminants for an RD, SDWA requires EPA to give priority to those that present the greatest public health concern while considering a contaminant's health effects on specified subgroups of the population (e.g., infants, children, pregnant women) who may be at greater risk of adverse health effects due to exposure to a contaminant.42

As noted above, to make a positive determination to regulate a contaminant, EPA must find that (1) a contaminant may have an adverse health effect; (2) it is known to occur or there is a substantial likelihood that it will occur in public water systems with a frequency and at levels of public health concern; and (3) in the sole judgment of the EPA Administrator, regulation of the contaminant presents a meaningful opportunity for health risk reduction for persons served by water systems. SDWA directs EPA to publish a preliminary determination and seek public comment prior to making an RD.43 EPA may also make RDs for contaminants not listed on the CCL if EPA finds that the statutory criteria regarding health effects and occurrence are satisfied.44

EPA has issued RDs for CCL 1 through CCL 3.45 EPA published final determinations that no regulatory action was appropriate or necessary for nine contaminants on CCL 1 (2003) and 11 contaminants (including perchlorate) on CCL 2 (2008). In the most recent RD (2016), EPA determined that regulation was not needed for four of the 116 contaminants listed on CCL 3. EPA delayed a determination on a fifth contaminant, strontium, "in order to consider additional data and decide whether there is a meaningful opportunity for health risk reduction by regulating strontium in drinking water."46

In 2014, when EPA published preliminary RDs for contaminants on CCL 3 (including PFOA and PFOS), UCMR 3 monitoring was underway and national occurrence data were not available. EPA did not include any PFAS among the contaminants selected for the third RD. In November 2016, EPA included PFOA and PFOS on the agency's list of unregulated contaminants for which sufficient health effect and occurrence data were available to make RDs.47

The next round of RDs is scheduled for 2021, although SDWA does not prevent EPA from making determinations outside of that five-year cycle.48 EPA states in the Spring 2019 Unified Regulatory Agenda that it plans to propose preliminary determinations for two PFAS—PFOA and PFOS—by the end of 2019 and make final determinations by the end of 2020.49

Developing Regulations and Standards for Emerging Contaminants

Once the Administrator makes a determination to regulate a contaminant, SDWA allows EPA 24 months to propose a "national primary drinking water regulation" and request public comment. EPA is required to promulgate a final rule within 18 months after the proposal.50 SDWA authorizes EPA to extend the deadline to publish a final rule for up to nine months, by notice in the Federal Register.51

For each contaminant that EPA determines to regulate, EPA is required to establish a nonenforceable maximum contaminant level goal (MCLG) at a level at which no known or anticipated adverse health effects occur and which allows an adequate margin of safety.52 An MCLG is based solely on health effects data and does not reflect cost or technical feasibility considerations. EPA derives an MCLG based on an estimate of the amount of a contaminant that a person can be exposed to on a daily basis that is not anticipated to cause adverse health effects over a lifetime.53 This amount is derived using the best available peer-reviewed studies and incorporates uncertainty factors to provide a margin of protection for sensitive subpopulations. In developing an MCLG, EPA also estimates the general population's exposure to a contaminant from drinking water and other sources (e.g., food, dust, soil, and air). After considering other exposure routes, EPA estimates the proportion of exposure attributable to drinking water (i.e., the relative source contribution). When exposure information is not available, EPA uses a default assumption that 20% of exposure to a contaminant is attributable to drinking water. EPA applies the relative source contribution to ensure that an individual's total exposure from all sources remains within the estimated protective level.54

The MCLG provides the basis for calculating a drinking water standard. Thus, EPA's ability to develop a drinking water regulation for a contaminant is dependent, in part, on the availability of peer-reviewed scientific studies.

Drinking water regulations generally specify a maximum contaminant level (MCL)—an enforceable limit for a contaminant in public water supplies.55 SDWA requires EPA to set the MCL as close to the MCLG as feasible.56 When assessing feasibility, the law directs EPA to consider the best available (and field-demonstrated) treatment technologies, taking cost into consideration.57 If the treatment of a contaminant is not feasible—technologically or economically—EPA may establish a treatment technique in lieu of an MCL.58 Each regulation also establishes associated monitoring, treatment, and reporting requirements. These regulations can cover multiple contaminants and, generally, establish an MCL for each contaminant covered by the regulation.

Regulations generally take effect three years after promulgation. EPA may allow up to two additional years if the Administrator determines that more time is needed for public water systems to make capital improvements. (States have the same authority for individual water systems.59) The law directs EPA to review—and if necessary revise—each regulation every six years and requires that any revision maintain or provide greater health protection.60

Health Advisories

For emerging contaminants of concern, data may be limited, particularly regarding a contaminant's potential health effects and occurrence in public water supplies. SDWA authorizes EPA to issue health advisories for contaminants in drinking water that are not regulated under the act.61 These advisories provide information on a contaminant's health effects, chemical properties, occurrence, and exposure. They also provide technical guidance on identifying, measuring, and treating contaminants.

Health advisories include nonenforceable levels for concentrations of contaminants in drinking water. EPA sets health advisories at levels that are expected to protect the most sensitive subpopulations (e.g., nursing infants) from any deleterious health effects, with a margin of protection, over specific exposure durations (e.g., one-day, 10-day, or lifetime).62 These nonregulatory levels are intended to help states, water suppliers, and others address contaminants for which federal (or state) drinking water standards have not been established. Some states may use health advisories to inform their own state-specific drinking water regulations.

Health advisories may be used to address various circumstances: to provide interim guidance while EPA evaluates a contaminant for possible regulation, to provide information for contaminants with limited or localized occurrence that may not warrant regulation, and to address short-term incidents or spills. EPA has issued health advisories for more than 200 contaminants to address different circumstances and subsequently established regulations for many of these contaminants.63

In May 2016, EPA issued health advisory levels for lifetime exposure to PFOA and PFOS in drinking water.64 EPA established the Lifetime Health Advisory level for PFOA and PFOS at 70 ppt, separately or combined.65 In calculating the health advisory level, EPA applied a relative source contribution of 20% (i.e., an assumption that 20% of PFOS and/or PFOA exposure is attributable to drinking water and 80% is from diet, dust, air or other sources).66 These levels are intended to protect the most sensitive subpopulations (e.g., nursing infants), with a margin of safety, over a lifetime of daily exposures. The Lifetime Health Advisories replaced Provisional Health Advisories that EPA issued in 2009 to address short-term exposures to PFOA and PFOS.67

Emergency Powers Orders

SDWA Section 1431 grants EPA "emergency powers" to issue orders to abate an imminent and substantial endangerment to public health from "a contaminant that is present in or is likely to enter a public water system or an underground source of drinking water" and if the appropriate state and local authorities have not acted to protect public health.68 This authority is available to address both regulated and unregulated contaminants. The EPA Administrator "may take such actions as he may deem necessary" to protect the health of persons who may be affected. Actions may include issuing orders requiring persons who caused or contributed to the endangerment to provide alternative water supplies or to treat contamination. When using this authority, EPA generally coordinates closely with states.

EPA reports that it has used its emergency powers under Section 1431 to require responses to PFOA and/or PFOS releases and related contamination of drinking water supplies at four sites, three of which involved the Department of Defense (DOD).69


MCLs and Remedial Actions

Under CERCLA (or "Superfund"), MCLs may be considered in selecting remedial actions for releases of hazardous substances, pollutants, and other contaminants (42 U.S.C. §9621(d)). However, CERCLA establishes liability only for releases of hazardous substances, as defined in CERCLA (42 U.S.C. §9601(14)). No PFAS has been federally designated as a hazardous substance (42 U.S.C. §9602(a)). In the 116th Congress, several bills would direct EPA to designate all PFAS as hazardous substances under CERCLA Section 102(a): H.R. 2500, Section 330O; H.R. 535; and S. 638. Additionally, H.R. 2500, Section 330A, and H.R. 3616 would have the effect of designating PFAS as hazardous substances under CERCLA. Section 330A and H.R. 3616 would direct EPA, within 30 days of enactment, to add PFAS to the list of toxic pollutants under CWA Section 307(a)(1). Such pollutants are included in the CERCLA definition of hazardous substance. Regarding DOD's environmental restoration program specifically, S. 1790, Section 319(b), would amend these program authorities (10 U.S.C. §2701) to require DOD to respond to releases of either hazardous substances, pollutants, or contaminants at DOD facilities or sites. H.R. 2605 would direct EPA to list PFAS as hazardous air pollutants under the Clean Air Act. Such pollutants are included in the CERCLA definition of hazardous substance.

As announced in its PFAS Action Plan, EPA proposed guidance in April 2019 for PFOA and PFOS groundwater screening levels and preliminary remediation goals for evaluating potential risks at sites under CERCLA and sites subject to corrective action under the Resource Conservation and Recovery Act. EPA proposed PFOA and PFOS screening levels of 40 ppt and preliminary remediation goals of 70 ppt (EPA's Lifetime Health Advisory level). This guidance would supplement existing CERCLA guidance, which EPA uses to assess risks and inform the selection of site-specific response actions.

Related Legislation in the 116th Congress

In the 116th Congress, more than 35 bills have been introduced to address PFAS through a broad range of actions and federal agencies. The intent of many of these bills is to reduce exposures to PFAS in drinking water and prevent or remediate the contamination of groundwater, surface water, and drinking water supplies from releases of these substances.71 This discussion focuses primarily on legislation that would amend SDWA or otherwise affect public water systems. Table 1 briefly describes relevant provisions of such bills offered in the 116th Congress. Examples of other PFAS bills and provisions are also noted below.

In the context of SDWA, congressional attention has focused primarily on whether EPA might set drinking water standards (MCLs) for PFOA, PFOS, or other PFAS. SDWA directs EPA to follow a regulatory development process for contaminants, which includes consideration of technical feasibility and the assessment of health risk reduction benefits and costs, among other factors. On occasion, Congress has directed EPA to promulgate a regulation for a particular contaminant within a specified time frame.72 Congress has used this approach to prompt EPA to regulate certain contaminants already under review and/or specify a deadline for issuing regulations under development. In the case of PFAS, representatives of public water systems and others have cautioned against bypassing SDWA's science-based and risk-driven process.73 As regulatory compliance costs are borne by communities, public water suppliers have urged that regulations be data-driven to better ensure risk reduction benefits.74 Others have urged "federal leadership" to provide more certainty to states and communities with contaminated water supplies.75 State drinking water regulators have noted that some states may lack the resources to assess and/or the authority to regulate drinking water contaminants, including PFAS. As with certain other contaminants, some states have urged EPA to set national standards. A further concern is that state-by-state actions could create public confusion regarding the safety of drinking water.76

In the conference report accompanying the Consolidated Appropriations Act, 2019 (P.L. 116-6, enacted February 15, 2019), the conferees directed EPA to brief the committees within 60 days of enactment (i.e., April 16, 2019) on the agency's plans to evaluate the need for an MCL for PFAS.77 Several bills would variously require EPA to establish an MCL for specific PFAS or for PFAS as a group. These include Senate-passed S. 1790, the National Defense Authorization Act (NDAA) for FY2020; S. 1507, as reported; S. 1473; and H.R. 2377.

In addition to standard-setting proposals, S. 1790, S. 1507, and H.R. 2800 would require public water systems to conduct monitoring for more per- and polyfluoroalkyl substances in drinking water. Several bills—including S. 1790, S. 1507, H.R. 2533/H.R. 2741 (Title II), and H.R. 1417/S. 611—would authorize grants for public water systems and/or households to treat PFAS in drinking water. The availability of any authorized grants would be subject to the subsequent enactment of appropriations. In contrast, H.R. 2570 would direct EPA to establish PFAS manufacturing fees to support the "PFAS Treatment Trust Fund." Amounts in the trust fund would be available to EPA, without further appropriation, to make grants to community water systems and municipal wastewater treatment works for costs associated with PFAS removal.

National Defense Authorization Act

The House- and Senate-passed NDAA bills (S. 1790 and H.R. 2500) contain numerous PFAS provisions specific to DOD, particularly in Title III and Title VII.78 For example, some provisions involve the use, phase out, and disposal of aqueous film forming foam, while others address DOD remediation of PFAS-contaminated drinking water, groundwater, and surface water. Further, the NDAA bills contain a range of provisions and that would address PFAS through other agencies using multiple authorities, including several EPA-administered laws. Regarding drinking water and SDWA specifically, S. 1790 would make several PFAS-related amendments, while H.R. 2500 would not amend SDWA. PFAS provisions of the House- and Senate-passed NDAA bills related to SDWA and other EPA-administered laws are outlined below.

S. 1790

On June 27, 2019, the Senate passed S. 1790, amended. Among other PFAS provisions in the Senate NDAA bill, Title LXVII, Subtitle B, would make several amendments to SDWA:79

Beyond SDWA, several subtitles of Title LXVII of S. 1790 would direct EPA to address PFAS under other existing and new authorities.80 Several of these provisions broadly parallel PFAS-related bills that have been introduced in the 116th Congress:

H.R. 2500

Passed by the House on July 12, 2019, H.R. 2500, amended, contains numerous PFAS provisions specific to DOD and other federal agencies, including EPA. In contrast to S. 1790, H.R. 2500 would not amend SDWA but would direct EPA to address PFAS under Clean Water Act (CWA) and CERCLA authorities.


Table 1. EPA-Administered Bills Addressing PFAS in Public Water Supplies
in the 116th Congress

Bill Number

Short Title

Proposed SDWA Amendment

Selected Provisions/Notes

H.R. 1417/S. 611

Water Affordability, Transparency, Equity, and Reliability Act of 2019

§1452(k)(1)

Would authorize states to use a portion of their DWSRF annual grants to provide assistance to community water systems, and households with wells, to treat PFAS contamination in drinking water.

H.R. 2377

Protect Drinking Water from PFAS Act of 2019

§1412(b)(12)

Would require EPA to publish an MCL goal and promulgate a national primary drinking water regulation for total PFAS.

H.R. 2533/H.R. 2741, Title II

Providing Financial Assistance for Safe Drinking Water Act/ Leading Infrastructure for Tomorrow's America Act

Adds §1459E

Would establish a grant program for community water system infrastructure projects to treat PFAS contamination. Would authorize appropriations of $500 million to support the grant program.

H.R. 2570

PFAS User Fee Act of 2019

N/A

Would direct EPA to establish a PFAS manufacturing fee, would establish a trust fund to support an EPA grant program for community water systems and publicly owned treatment works for operations and maintenance costs of PFAS removal.

H.R. 2800

PFAS Monitoring Act of 2019

Adds §1445(k)

Would require public water systems to monitor for 30 PFAS initially, increasing to all PFAS in two years.

S. 1251

Safe Drinking Water Assistance Act of 2019

N/A

Would direct EPA to coordinate federal efforts related to emerging contaminants and direct EPA to develop a technical assistance program to states with respect to emerging contaminants in drinking water among other provisions.

S. 1473

Protect Drinking Water from PFAS Act of 2019

§1412(b)(2)

Would require EPA to publish an MCL goal and promulgate a national primary drinking water regulation for total PFAS.

S. 1507

Reported, amended, June 19, 2019
(Broadly parallels S. 1790, Title LXVII, Subtitle B)

PFAS Release Disclosure Act

§1412(b)(2), §1452

Would direct EPA to (1) issue MCLs for PFAS (PFOA and PFOA at a minimum) within two years of enactment, (2) require monitoring for all PFAS with validated test methods in UCMR 5, and (3) issue more PFAS health advisories. It would authorize states to use DWSRFs for grants for public water systems to address PFAS and would authorize appropriations for that purpose.

S. 1790, Title LXVII, Subtitle B

Passed by the Senate June 27, 2019 (broadly parallels S. 1507, as reported)

National Defense Authorization Act for Fiscal Year 2020

§1412(b)(2), §1452

Would direct EPA to (1) issue MCLs for PFOS and PFOA and potentially other PFAS within two years of enactment, (2) require monitoring for all PFAS with validated test methods in UCMR 5, and (3) issue health advisories for more PFAS. It would authorize states to use DWSRFs for grants for public water systems to address PFAS and would authorize appropriations for that purpose.

Source: Compiled by CRS from Congress.gov.

Notes: The bills included in the table are those that are related to drinking water. Other bills have been introduced for other purposes.

In addition to legislation noted in Table 1, other bills and NDAA provisions regard PFAS contamination of water. Several of these are noted below.85

Appendix. Selected Drinking-Water-Related Actions by EPA

Table A-1. Selected Drinking-Water-Related Actions in EPA's PFAS Action Plan

Action

Description

Timeframe

Provisional Health Advisories

Developed provisional health advisory values for short-term exposure to PFOA and PFOS at 400 ppt and 200 ppt, respectively

Completed January 2009

Analytical Method Development

Developed an analytical method (Method 537) for measuring PFOA, PFOS, and 12 other PFAS in drinking water

Completed September 2009

Contaminant Candidate List 3

Included PFOS and PFOA on the third contaminant candidate list

Completed October 2009

Unregulated Contaminant Monitoring Rule 3

Monitored for unregulated contaminants, including six PFAS in public water supplies using analytical methods developed by EPA

Completed between 2013 and 2015

Lifetime Health Advisories for PFOA and PFOS

Developed Health Advisories for PFOA and PFOS that identify nonenforceable levels at which or below adverse health effects are not anticipated to occur

Completed May 2016

Contaminant Candidate List 4

Included PFOS and PFOA on the fourth contaminant candidate list

Completed November 2016

Analytical Method Development

Expanded Method 537 to Method 537.1, which measures four short-chain PFAS, including GenX compoundsa

Completed November 2018

Water Contaminant Information Tool: Profiles for PFOA and PFOS

Developed contaminant profiles for PFOA and PFOS for EPA's Water Contaminant Information Tool, which is used by the water sector to prepare for, respond to, or recover from drinking water incidents

Completed December 2018

Point-of-Entry and Point-of-Use Home Treatment Systems

Evaluated commercially available reverse osmosis and granular activated carbon units that can serve households through point-of-use or point-of-entry treatment applications for PFAS

Completed October 2018

Treatability Cost Models

Update Drinking Water PFAS Treatability cost models

Ongoing

Drinking Water Treatability Database

Update Drinking Water Treatability Database for effective drinking water treatment processes for PFOA, PFOS, and additional PFAS

Ongoing

Research for Drinking Water Treatment

Conduct experiments to evaluate performance and cost (capital and maintenance operations) of treatment and potential unintended effects of using specific technologies; test granular activated carbon and ion exchange treatment technologies

Anticipated Fall 2019

Regulatory Determination 4

Propose a regulatory determination for PFOA and PFOS

Anticipated December 2019b

Analytical Method Development

Develop new validated analytical method for short-chain PFAS, which are currently not measured by the Method 537 or Method 537.1

Anticipated 2019

Unregulated Contaminant Monitoring Rule 5

Develop unregulated contaminant monitoring rule for additional PFAS using the new validated analytical method to detect more PFAS at lower concentrations

Anticipated 2020-2025

Source: Compiled by CRS from EPA's PFAS Action Plan.

Notes: This table includes only EPA's actions directly related to drinking water. The Action Plan includes other EPA efforts to address PFAS under other environmental statutes.

a. GenX is a chemical process used to create fluoropolymers.

b. As stated in the Spring 2019 Unified Regulatory Agenda, EPA plans to make final regulatory determination for PFOA and PFOS in December 2020.


Author Contact Information

Elena H. Humphreys, Analyst in Environmental Policy ([email address scrubbed], [phone number scrubbed])
Mary Tiemann, Specialist in Environmental Policy ([email address scrubbed], [phone number scrubbed])

Footnotes

1.

In May 2016, EPA established Lifetime Health Advisory levels for PFOA and PFOS at 70 parts per trillion, separately or combined. These nonenforceable levels are expected to protect the most sensitive subpopulations (e.g., nursing infants), with a margin of protection, over a lifetime of exposure. Health advisories are nonregulatory and are intended to help states, water suppliers, and others address contaminants for which federal (or state) drinking water standards have not been established.

2.

These chemical compounds consist of a chain of carbon atoms generally attached to varying numbers of fluorine atoms. Fully fluorinated chemicals are referred to as perfluoroalkyl substances, while partially fluorinated chemicals are referred to as polyfluoroalkyl substances. Among potentially thousands of PFAS, differences in the length of the carbon chain, number of fluorine atoms, and other structural parts of the PFAS suggest that there may also be differences in terms of their properties, uses, interactions with other chemicals in the environment, and health effects in humans. More information regarding the chemical and physical properties of certain PFAS are available in Chapter 4 of Agency of Toxic Substances and Disease Registry, Toxicological Profile for Perfluoroalkyls, Draft for Public Comment, June 2018, https://www.atsdr.cdc.gov/toxprofiles/tp.asp?id=1117&tid=237.

3.

EPA, EPA's Per- and Polyfluoroalkyl Substances (PFAS) Action Plan, February 2019, p. 12, https://www.epa.gov/pfas/epas-pfas-action-plan.

4.

EPA, "Perfluoroalkyl Sulfonates; Significant New Use Rule," 67 Federal Register 11007, March 11, 2002.

5.

EPA initiated the 2010/2015 PFOA stewardship program in January 2006 (EPA-HQ-OPPT-2006-0621). EPA invited the eight companies manufacturing PFOA and associated chemicals to reduce their PFOA product content and emission by 95% by 2010 and eliminate their PFOA emissions and product content by 2015. EPA reported that all companies met the stewardship program's goals.

6.

EPA, Health Effects Support Document for Perfluorooctane Sulfonate (PFOS), May 2016; EPA, Health Effects Support Document for Perfluorooctanoic Acid (PFOA), May 2016; and EPA, PFOA & PFOS Drinking Water Health Advisories, Fact Sheet, November 2016, p. 1. EPA required roughly 5,000 water systems (that serve approximately 82% of U.S. population) to monitor for six PFAS—including PFOA and PFOS—between January 2013 and December 2015. According to EPA, 63 water systems (1.3%) serving an estimated 5.5 million individuals detected PFOA and/or PFOS at levels above EPA's health advisory level of 70 ppt (separately or combined). Monitoring results for individual water systems are available at https://www.epa.gov/dwucmr/third-unregulated-contaminant-monitoring-rule.

7.

EPA, Health Effects Support Document for Perfluorooctane Sulfonate (PFOS), May 2016; EPA, Health Effects Support Document for Perfluorooctanoic Acid (PFOA), May 2016.

8.

Monitoring results for individual water systems are available at https://www.epa.gov/dwucmr/third-unregulated-contaminant-monitoring-rule.

9.

Email communication with EPA, May 30, 2019. This health advisory level is expected to be protective of sensitive subpopulations, with a margin of protection, assuming daily ingestion at this concentration over a lifetime (70 years).

10.

EPA, PFOA & PFOS Drinking Water Health Advisories, Fact Sheet, November 2016, p. 1.

11.

Agency for Toxic Substances and Disease Registry, Toxicological Profile for Perfluoroalkyls, Draft for Public Comment, June 2018, ch. 5, https://www.atsdr.cdc.gov/toxprofiles/tp.asp?id=1117&tid=237.

12.

See for example, testimony of Tracy Mehan for the American Water Works Association before the Senate Committee on Environment and Public Works, hearing on Examining Legislation to Address the Risks Associated with Per- and Polyfluoroalkyl Substances (PFAS), May 22, 2019, https://www.epw.senate.gov/public/index.cfm/2019/5/examining-legislation-to-address-the-risks-associated-with-per-and-polyfluoroalkyl-substances-pfas.

13.

See for example, Association of State Drinking Water Administrators, comment letter to EPA on PFAS National Leadership Summit and Engagement, July 20, 2018, https://www.asdwa.org/pfas/.

14.

See for example, testimony of Tracy Mehan for the American Water Works Association before the Senate Committee on Environment and Public Works, hearing on Examining Legislation to Address the Risks Associated with Per- and Polyfluoroalkyl Substances (PFAS), May 22, 2019, https://www.epw.senate.gov/public/index.cfm/2019/5/examining-legislation-to-address-the-risks-associated-with-per-and-polyfluoroalkyl-substances-pfas.

15.

SDWA Section 1412(b)(1)(F)—Title 42, Section 300g-1(b)(1)(F) of the United States Code—authorizes EPA to establish health advisories for emerging drinking water contaminants. SDWA Section 1412 (42 U.S.C. §300g-1) authorizes EPA to regulate contaminants in drinking water. SDWA Section 1431 (42 U.S.C. §300i) authorizes EPA to issue emergency orders to address drinking water contamination, under certain circumstances. SDWA provides additional tools to address emerging contaminants, such as source water assessment and protection programs.

16.

Using Toxic Substance Control Act (TSCA) authorities, EPA has issued several significant new use rules that require manufacturers (including importers) and processors of certain PFAS to notify EPA at least 90 days prior to resuming use of these substances. EPA then would review the potential health and environmental effects of the activity and make a determination whether to authorize the new use.

17.

EPA, EPA's Per- and Polyfluoroalkyl Substances (PFAS) Action Plan, February 2019, https://www.epa.gov/pfas/epas-pfas-action-plan. The plan also notes the agency's actions under the authority of other environmental statutes, including the Clean Air Act; the Clean Water Act; the Comprehensive Environmental Response, Compensation, and Liability Act; the Resource Conservation and Recovery Act; and TSCA.

18.

When developing regulations, SDWA requires EPA to (1) use the best available peer-reviewed science and supporting studies and data and (2) make publicly available a risk assessment document that discusses estimated risks, uncertainties, and studies used in the assessment. When proposing drinking water regulations, EPA must publish a "health risk reduction and cost analysis." For each drinking water standard and each alternative standard being considered for a contaminant, EPA must publish and take comment on quantifiable and nonquantifiable health risk reduction benefits and costs and also conduct other specified analyses (SDWA §1412(b); 42 U.S.C. §300g-1(b).

19.

For more information on the regulation of chemicals in commerce under TSCA, see CRS Report RL31905, The Toxic Substances Control Act (TSCA): A Summary of the Act and Its Major Requirements, by Jerry H. Yen.

20.

SDWA §1412; 42 U.S.C. §300g-1. SDWA does not cover residential wells.

21.

SDWA §1412(b)(1)(F); 42 U.S.C. §300g-1(b)(1)(F).

22.

SDWA §1431; 42 U.S.C. §300i.

23.

SDWA §1412; 42 U.S.C. §300g-1. The 104th Congress established the current regulatory structure with the Safe Drinking Water Amendments of 1996 (P.L. 104-182).

24.

SDWA §1412(b)(1)(A); 42 U.S.C. §300g-1(b)(1)(A). The Administrator's determination not to regulate a contaminant is subject to judicial review (SDWA §1412(b)(1)(B)(ii)(IV); 42 U.S.C. 300g-1(b)(1)(B)(ii)(IV)).

25.

SDWA §1412(b)(1)(B)(i); 42 U.S.C. §300g-1(b)(1)(B)(i). Nothing in statute precludes EPA from modifying the list outside the five year timeline. See EPA, "Announcement of the Drinking Water Contaminant Candidate List," 63 Federal Register 10274, March 2, 1998, https://www.govinfo.gov/content/pkg/FR-1998-03-02/html/98-5313.htm.

26.

The 1978 Environmental Research, Development, and Demonstration Authorization Act (P.L. 95-477) directed EPA to establish the Science Advisory Board to provide scientific advice to the Administrator (42 U.S.C. §4365).

27.

EPA, "Drinking Water Contaminant Candidate List 3—Final," 74 Federal Register 51850, October 8, 2009. For more information on CCL 3, see EPA, "Contaminant Candidate List 3—CCL 3," https://www.epa.gov/ccl/contaminant-candidate-list-3-ccl-3.

28.

EPA, "Drinking Water Contaminant Candidate List 4—Final," 81 Federal Register 81101-81103, November 17, 2016. Discussion of the CCL 3 process is included in this Federal Register notice.

29.

EPA, "Drinking Water Contaminant Candidate List 4—Final," 81 Federal Register 81099, November 17, 2016. For more information on CCL 4, see EPA, "Contaminant Candidate List 4—CCL 4," https://www.epa.gov/ccl/contaminant-candidate-list-4-ccl-4-0.

30.

SDWA §1445(a)(2); 42 U.S.C. §300g-4(a)(2).

31.

SDWA §1445(a)(2); 42 U.S.C. §300g-4(a)(2). EPA estimates that approximately 82% of the population receives water from public water systems that serve more than 10,000 individuals. Section 2021 of America's Water Infrastructure Act (P.L. 115-270) amended Section 1445 to require public water systems serving between 3,300 and 10,000 individuals to monitor for unregulated contaminants—subject to the availability of appropriations—to support costs associated with monitoring for these systems. This requirement enters into effect three years after the date of enactment of P.L. 115-270 (i.e., October 23, 2021).

32.

SDWA Section 1445(a)(2)(H)—Title 42, Section 300g-4(a)(2)(H) of the United States Code—authorizes appropriations of $10 million for each of FY2019-FY2021 for EPA to pay the reasonable costs of testing and laboratory analysis for small systems. Additionally, SDWA directs EPA to reserve $2 million from the Drinking Water State Revolving Fund appropriation to pay the costs of small system UCMR monitoring (SDWA §1452(o); 42 U.S.C. §300j-12(o)).

33.

EPA, "Revisions to the Unregulated Contaminant Monitoring Regulation (UCMR 3) for Public Water Systems: Final Rule," 77 Federal Register 26072-26101, May 2, 2012. This rule required monitoring for 29 unregulated contaminants. The PFAS for which monitoring was conducted include PFOA, PFOS, perfluorononanoic acid, perfluorohexanesulfonic acid, perfluoroheptanoic acid, and perfluorobutanesulfonic acid (PFBS).

34.

EPA, Data Summary of the Third Unregulated Contaminant Monitoring Rule, January 2017, p. 11, https://www.epa.gov/dwucmr/data-summary-third-unregulated-contaminant-monitoring-rule.

35.

Testimony of Peter Grevatt, Director, Office of Ground Water and Drinking Water, EPA, before the House Committee on Energy and Commerce, Subcommittee on Environment; hearing on Perfluorinated Chemicals in the Environment: An Update on the Response to Contamination and Challenges Presented, September 6, 2018. In May 2016, EPA issued nonenforceable health advisory levels for lifetime exposure, with a margin of safety, to PFOA and PFOS in drinking water. EPA established the Lifetime Health Advisory level for PFOA and PFOS at 70 ppt, separately or combined.

36.

Email communication with EPA, May 30, 2019.

37.

Monitoring results for individual water systems (listed by state) are available on EPA's UCMR 3 website: https://www.epa.gov/dwucmr/third-unregulated-contaminant-monitoring-rule. This report does not correlate levels of exposure based on individual served by these water systems.

38.

EPA did not require monitoring for any PFAS in UCMR 4.

39.

EPA, Determination of Selected Per- and Polyfluorinated Alkyl Substance in Drinking Water by Solid Phase Extraction and Liquid Chromatography/Tandem Mass Spectrometry, November 2018, https://cfpub.epa.gov/si/si_public_file_download.cfm?p_download_id=537290&Lab=NERL.

40.

EPA, EPA's Per- and Polyfluoroalkyl Substances (PFAS) Action Plan, February 14, 2019, p. 21, https://www.epa.gov/pfas/epas-pfas-action-plan.

41.

SDWA §1412(b)(1)(B)(ii); 42 U.S.C. 300g-1(b)(1)(B)(ii).

42.

SDWA §1412(b)(1)(C); 42 U.S.C. 300g-1(b)(1)(C).

43.

Section 1412(b)(1)(B)(ii); 42 U.S.C. 300g-1(b)(1)(B)(ii). The act authorizes EPA to promulgate an interim national primary drinking water regulation without making a regulatory determination or completing the other analyses to respond to an urgent threat to public health (SDWA §1412(b)(1)(D); 42 U.S.C. §300g-1).

44.

SDWA §1412(b)(1)(B)(ii)(III); 42 U.S.C. 300g-1(b)(1)(B)(ii)(III).

45.

EPA, "Announcement of Regulatory Determinations for Priority Contaminants on the Contaminant Candidate List," 68 Federal Register 42898, July 18, 2003; EPA, "Drinking Water: Regulatory Determinations Regarding Contaminants on the Second Drinking Water Contaminant Candidate List—Preliminary Determinations," 72 Federal Register 24016, May 1, 2007; EPA, "Announcement of Final Regulatory Determinations for Contaminants on the Third Drinking Water Contaminant Candidate List," 81 Federal Register 18, January 4, 2016.

46.

EPA, "Announcement of Final Regulatory Determinations for Contaminants," 81 Federal Register 13, January 4, 2016, https://www.epa.gov/ccl/regulatory-determination-3.

47.

EPA, "Drinking Water Contaminant Candidate List 4—Final," 81 Federal Register 81102-81104, November 17, 2016. For more information on CCL 4, see EPA, "Contaminant Candidate List 4—CCL 4."

48.

For example, EPA made an out-of-cycle determination—reversing its 2008 decision—and published a determination to regulate perchlorate in 2011 between the second and third Federal Register notices of final RDs.

49.

For more information on Spring 2019 Unified Regulatory Agenda, see Office of Management and Budget, Office of Information and Regulatory Affairs, "Spring 2019 Unified Agenda of Regulatory and Deregulatory Actions," https://www.reginfo.gov/public/do/eAgendaMain.

50.

SDWA §1412(b)(3); 42 U.S.C. 300g-1(b)(3).

51.

SDWA §1412(b)(1)(E); 42 U.S.C. 300g-1(b)(1)(E).

52.

When developing regulations, EPA is required to (1) use the best available peer-reviewed science and supporting studies and data and (2) make publicly available a risk assessment document that discusses estimated risks, uncertainties, and studies used in the assessment. Concurrent with proposing a regulation, SDWA requires EPA to publish a "health risk reduction and cost analysis." SDWA §1412(b)(4)(A); 42 U.S.C. 300g-1(b)(4)(A).

53.

EPA follows this process to evaluate noncarcinogenic effects. For contaminants that may have carcinogenic effects, EPA typically sets the MCLG at zero.

54.

EPA, Drinking Water Health Advisory for Perfluorooctanoic Acid (PFOA), May 2016, p. 32, https://www.epa.gov/ground-water-and-drinking-water/supporting-documents-drinking-water-health-advisories-pfoa-and-pfos.

55.

SDWA does not prohibit states from setting stricter standards.

56.

SDWA §1412(b)(4)(B); 42 U.S.C. 300g-1(b)(4)(B).

57.

SDWA §1412(b)(4)(D); 42 U.S.C. 300g-1(b)(4)(D).

58.

SDWA §1412(b)(7)(A); 42 U.S.C. 300g-1(b)(7)(A).

59.

SDWA §1412(b)(10); 42 U.S.C. 300g-1(b)(10).

60.

SDWA §1412(b)(9); 42 U.S.C. 300g-1(b)(9).

61.

SDWA §1412(b)(1)(F); 42 U.S.C. §300g-1(b)(1)(F).

62.

EPA, 2018 Edition of the Drinking Water Standards, pp. 17-25.

63.

EPA, Drinking Water Health Advisory for Perfluorooctanoic Acid (PFOA), p. 11. See also EPA, 2018 Edition of the Drinking Water Standards and Health Advisories Tables, March 2018, https://www.epa.gov/sites/production/files/2018-03/documents/dwtable2018.pdf.

64.

EPA, "Fact Sheet: PFOA and PFOS Drinking Water Health Advisories," 2016, https://www.epa.gov/sites/production/files/2016-06/documents/drinkingwaterhealthadvisories_pfoa_pfos_updated_5.31.16.pdf.

65.

EPA, "Lifetime Health Advisories and Health Effects Documents for Perfluorooctanoic Acid and Perfluorooctane Sulfonate," 81 Federal Register 33250, May 25, 2016. The advisories and related documents are available at https://www.epa.gov/ground-water-and-drinking-water/drinking-water-health-advisories-pfoa-and-pfos.

66.

Also in May 2016, EPA released health effects support documents for these two PFAS, which summarize the scientific literature that EPA evaluated to establish these advisories. For the accompanying health effects documents for PFOA and PFOS, see EPA, "Supporting Documents for Drinking Water Health Advisories for PFOA and PFOS," https://www.epa.gov/ground-water-and-drinking-water/supporting-documents-drinking-water-health-advisories-pfoa-and-pfos.

67.

In 2009, EPA established a Provisional Health Advisory level of 400 ppt for PFOA and 200 ppt for PFOS. For more information on these health advisories, see EPA, "Provisional Health Advisories for Perfluorooctanoic Acid (PFOA) and Perfluorooctane Sulfonate (PFOS)," https://www.epa.gov/sites/production/files/2015-09/documents/pfoa-pfos-provisional.pdf.

68.

42 U.S.C. §300i.

69.

EPA, EPA's Per- and Polyfluoroalkyl Substances (PFAS) Action Plan, pp. 55-56. In April 2019, EPA responded to CRS listing specific federal and state enforcement actions taken to address PFAS under various statutory authorities. These actions include the four examples of the use of SDWA Section 1431 emergency powers and orders under the authority of TSCA and the Resource Conservation and Recovery Act. According to EPA's Enforcement and Compliance History Online tool, which identifies enforcement actions since 2009, EPA has issued 119 orders using the SDWA Section 1431 authority to respond to imminent and substantial endangerment as of May 2019. Of the 119 orders, EPA issued 113 orders to public water systems for a variety of circumstances, including corrosive pipes, discovery of disease vectors in finished water storage, and MCL violations, among others.

70.

CERCLA directs EPA to maintain a National Priorities List to identify the most hazardous sites for the purpose of prioritizing cleanup actions.

71.

Among prior PFAS bills in the 115th Congress, the Agriculture Improvement Act of 2018 (P.L. 115-334)—known as the 2018 farm bill—contains several provisions to address PFAS in rural communities' drinking water. P.L. 115-334, Section 6404, expands an existing program to authorize qualified nonprofit entities to provide technical assistance to rural communities to address contamination of drinking water and surface water supplies by emerging contaminants, including PFAS (7 U.S.C. §1926(a)(14)). Section 6409 authorizes loans and grants for installation of water treatment to address ground well water contamination at individual households (7 U.S.C. §1926e). Section 6407(a) authorizes the use of U.S. Department of Agriculture (USDA) Emergency Water Assistance grants to address contamination that poses human health or environmental risks and was caused by circumstances beyond the control of the applicant (7 U.S.C. §1926a). Section 6407(b) directs USDA to coordinate an interagency task force on drinking water in rural communities located near military bases. For more information on USDA water infrastructure assistance programs, see CRS Report RL30478, Federally Supported Water Supply and Wastewater Treatment Programs, coordinated by Jonathan L. Ramseur.

72.

For example, in the Safe Drinking Water Amendments of 1996 (P.L. 104-182), the 104th Congress directed EPA to regulate radon, propose a new arsenic standard, and evaluate sulfate for regulation (SDWA §1412(b)(12); 42 U.S.C. §300g(b)(12); SDWA §1412(b)(13); 42 U.S.C. §300g(b)(13)).

73.

See for example, testimony of Tracy Mehan for the American Water Works Association before the House Committee on Energy and Commerce, Subcommittee on Environment and Climate Change, hearing on Protecting Americans at Risk of PFAS Contamination and Exposure, May 15, 2019, https://energycommerce.house.gov/committee-activity/hearings/hearing-on-protecting-americans-at-risk-of-pfas-contamination-exposure.

74.

See for example, American Water Works Association, Association of Metropolitan Water Agencies, National Association of Water Companies, and the National Rural Water Association, joint letter to the House Committee on Armed Services and the Senate Committee on Armed Services, on the 2020 National Defense Authorization Act, August 8, 2019, https://www.awwa.org/AWWA-Articles/awwa-and-partners-send-pfas-letter-to-us-congress.

75.

See for example, testimony of Lisa Daniels for the Association of State Drinking Water Administrators before the Senate Committee on Environment and Public Works, hearing on Examining Legislation to Address the Risks Associated with Per- and Polyfluoroalkyl Substances (PFAS), May 22, 2019, https://www.epw.senate.gov/public/index.cfm/2019/5/examining-legislation-to-address-the-risks-associated-with-per-and-polyfluoroalkyl-substances-pfas.

76.

Association of State Drinking Water Administrators, comment letter to EPA on draft human health toxicity assessments for GenX chemicals and PFBS, EPA Docket No. #EPA-HQ-OW-2018-0614, January 22, 2019.

77.

U.S. Congress, House of Representatives, Conference Committee, Conference Report to Accompany H.J.Res. 31, Making Further Continuing Appropriations for the Department of Homeland Security for Fiscal Year 2019, and for Other Purposes, committee print, 116th Cong., 1st sess., February 13, 2019, H.Rept. 116-9, (Washington: GPO, 2019), p. 741.

78.

For a discussion of the NDAA bills, see CRS In Focus IF11258, FY2020 National Defense Authorization Act (H.R. 2500, S. 1790), by Pat Towell and Brendan W. McGarry.

79.

S. 1507, as reported, broadly parallels Title LXVII of S. 1790.

80.

As discussed below, Subtitle C of Title LXVII of S. 1790 would direct the U.S. Geological Survey to conduct nationwide sampling for PFAS in water and soil.

81.

42 U.S.C. §9602(a).

82.

H.R. 535 and S. 638 contain the same provisions. Relatedly, Section 319(b) of the Senate NDAA bill, S. 1790, would amend DOD environmental restoration program authorities (10 U.S.C. §2701) to require DOD to respond to releases of either hazardous substances, pollutants, or contaminants at DOD facilities or sites. Currently, DOD is required to respond to releases of hazardous substances at such facilities or sites. DOD may also respond to releases of other pollutant or contaminants but is not required to do so, consistent with CERCLA liability applying only to hazardous substances. In addition, H.R. 2605 would direct EPA to list PFAS as hazardous air pollutants under the Clean Air Act. Such pollutants are included in the CERCLA definition of hazardous substances.

83.

42 U.S.C. §9601(14). See also H.R. 2605, noted in footnote 82.

84.

H.R. 3616 contains the same provisions as H.R. 2500, Section 330A.

85.

A number of bills would address PFAS through other environmental laws. For example, several bills (e.g., H.R. 2596, H.R. 2600, and H.R. 2608) would variously direct EPA to regulate PFAS under TSCA. H.R. 2591 would amend the Solid Waste Disposal Act to direct EPA to prohibit the use of incineration to dispose of AFFF containing PFAS and would authorize EPA to identify other wastes containing PFAS for prohibiting their disposal through incineration.