Restoring Protective Human Health Criteria in Washington, 69183-69201 [2022-25150]

Download as PDF 69183 Federal Register / Vol. 87, No. 222 / Friday, November 18, 2022 / Rules and Regulations 2000), nor will it impose substantial direct costs on tribal governments or preempt tribal law. The Congressional Review Act, 5 U.S.C. 801 et seq., as added by the Small Business Regulatory Enforcement Fairness Act of 1996, generally provides that before a rule may take effect, the agency promulgating the rule must submit a rule report, which includes a copy of the rule, to each House of the Congress and to the Comptroller General of the United States. EPA will submit a report containing this action and other required information to the U.S. Senate, the U.S. House of Representatives, and the Comptroller General of the United States prior to publication of the rule in the Federal Register. A major rule cannot take effect until 60 days after it is published in the Federal Register. This action is not a ‘‘major rule’’ as defined by 5 U.S.C. 804(2). Under section 307(b)(1) of the CAA, petitions for judicial review of this action must be filed in the United States Court of Appeals for the appropriate circuit by January 17, 2023. Filing a petition for reconsideration by the Administrator of this final rule does not affect the finality of this action for the purposes of judicial review nor does it extend the time within which a petition for judicial review may be filed, and shall not postpone the effectiveness of such rule or action. This action may not be challenged later in proceedings to enforce its requirements. See section 307(b)(2). List of Subjects in 40 CFR Part 52 Environmental protection, Air pollution control, Carbon monoxide, Incorporation by reference, Intergovernmental relations, Lead, Nitrogen dioxide, Ozone, Particulate matter, Reporting and recordkeeping requirements, Sulfur oxides, Volatile organic compounds. PART 52—APPROVAL AND PROMULGATION OF IMPLEMENTATION PLANS 1. The authority citation for part 52 continues to read as follows: ■ Authority: 42 U.S.C. 7401 et seq. Subpart Z—Mississippi 2. In § 52.1270(c), amend the table by revising the entry for ‘‘Rule 1.10,’’ under the center heading ‘‘11 MAC Part 2— Chapter 1 Air Emission Regulations for the Prevention, Abatement, and Control of Air Contaminants,’’ to read as follows: ■ § 52.1270 * Dated: November 10, 2022. Daniel Blackman, Regional Administrator, Region 4. Identification of plan. * * (c) * * * * * For the reasons stated in the preamble, the EPA amends 40 CFR part 52 as follows: EPA-APPROVED MISSISSIPPI REGULATIONS State citation * * * 11 MAC Part 2—Chapter 1 * Rule 1.10 ........... * * * BILLING CODE 6560–50–P ENVIRONMENTAL PROTECTION AGENCY 40 CFR Part 131 [EPA–HQ–OW–2015–0174; FRL–7253.1–02– OW] khammond on DSKJM1Z7X2PROD with RULES RIN 2040–AG21 Restoring Protective Human Health Criteria in Washington Environmental Protection Agency (EPA). ACTION: Final rule. AGENCY: SUMMARY: On April 1, 2022, the Environmental Protection Agency (EPA) determined that Washington’s human 15:59 Nov 17, 2022 * 12/10/2016 * [FR Doc. 2022–25080 Filed 11–17–22; 8:45 am] VerDate Sep<11>2014 Explanation * * * Air Emission Regulations for the Prevention, Abatement, and Control of Air Contaminants * * EPA approval date * * * Provisions for Upsets, Startups, and Shutdowns. * * State effective date Title/subject Jkt 259001 * 11/18/2022, [Insert citation of publication]. * * health criteria (HHC) for certain pollutants were not protective of Washington’s designated uses and were not based on sound scientific rationale and, accordingly, proposed to restore protective HHC for those pollutants in Washington’s waters. EPA is finalizing protective and science-based Federal HHC in this final rule to protect Washington’s waters, including waters where tribes hold treaty-reserved rights to fish. DATES: This final rule is effective on December 19, 2022. ADDRESSES: EPA has established a docket for this action under Docket ID No. EPA–HQ–OW–2015–0174. All documents in the docket are listed on the https://www.regulations.gov website. Although listed in the index, some information is not publicly available, e.g., Confidential Business PO 00000 Frm 00029 Fmt 4700 * Except for 1.10.B(3). Sfmt 4700 * Rule * 1.10.A and * Information or other information whose disclosure is restricted by statute. Certain other material, such as copyrighted material, is not placed on the internet and will be publicly available only in hard copy form. Publicly available docket materials are available electronically through https:// www.regulations.gov. FOR FURTHER INFORMATION CONTACT: Erica Fleisig, Office of Water, Standards and Health Protection Division (4305T), Environmental Protection Agency, 1200 Pennsylvania Avenue NW, Washington, DC 20460; telephone number: (202) 566–1057; email address: fleisig.erica@ epa.gov. SUPPLEMENTARY INFORMATION: This final rule is organized as follows: I. General Information A. Does this action apply to me? B. How did EPA develop this final rule? E:\FR\FM\18NOR1.SGM 18NOR1 69184 Federal Register / Vol. 87, No. 222 / Friday, November 18, 2022 / Rules and Regulations II. Background A. Statutory and Regulatory Background B. EPA’s General Approach for Deriving Human Health Criteria C. Prior EPA Actions Related to Washington’s Human Health Criteria III. Derivation of Human Health Criteria for Washington A. Scope of EPA’s Final Rule B. Washington-Specific Human Health Criteria Inputs C. Final Human Health Criteria for Washington D. Applicability E. Alternative Regulatory Approaches and Implementation Mechanisms IV. Economic Analysis A. Identifying Affected Entities B. Method for Estimating Costs C. Results V. Statutory and Executive Order Reviews A. Executive Order 12866: Regulatory Planning and Review and Executive I. General Information A. Does this action apply to me? Entities that are subject to Clean Water Act (CWA) regulatory programs such as industrial facilities, stormwater management districts, or publicly owned treatment works (POTWs) that discharge pollutants to surface waters of the United States under the State of Washington’s jurisdiction could be affected by this rulemaking because the Federal water quality standards (WQS) promulgated by EPA are applicable WQS for surface waters in Washington for CWA purposes. Categories and entities that could potentially be affected by this rulemaking include the following: Category Examples of potentially affected entities Industry ................................. Municipalities ........................ Industrial point sources discharging pollutants to waters of the United States in Washington. Publicly owned treatment works or similar facilities discharging pollutants to waters of the United States in Washington. Entities responsible for managing stormwater in the State of Washington. Stormwater Management Districts. This table is not intended to be exhaustive, but rather provides a guide for readers regarding entities that could be indirectly affected by this action. If you have questions regarding the applicability of this action to a particular entity, consult the person listed in the FOR FURTHER INFORMATION CONTACT section. khammond on DSKJM1Z7X2PROD with RULES Order 13563: Improving Regulation and Regulatory Review B. Paperwork Reduction Act (PRA) C. Regulatory Flexibility Act (RFA) D. Unfunded Mandates Reform Act E. Executive Order 13132: Federalism F. Executive Order 13175: Consultation and Coordination With Indian Tribal Governments G. Executive Order 13045: Protection of Children From Environmental Health Risks and Safety Risks H. Executive Order 13211: Actions That Significantly Affect Energy Supply, Distribution, or Use I. National Technology Transfer and Advancement Act of 1995 J. Executive Order 12898: Federal Actions To Address Environmental Justice in Minority Populations and Low-Income Populations K. Congressional Review Act (CRA) B. How did EPA develop this final rule? In developing this final rule, EPA carefully considered the public comments and feedback received from interested parties. EPA provided a 60day public comment period after publishing the proposed rulemaking in the Federal Register on April 1, 2022.1 In addition, EPA held two online public hearings on May 24 and 25, 2022, to discuss the contents of the proposed rulemaking and accept verbal public comments. Over 20 organizations and individuals submitted comments on a range of issues. EPA also received over 300 letters from individuals associated with a mass letter writing campaign. Some comments addressed issues beyond the scope of the rulemaking, and thus EPA did not consider them in finalizing this rule. In this preamble, EPA provides summaries of certain comments received on aspects of the proposal that generated the most commenter interest. 1 See Restoring Protective Human Health Criteria in Washington: Proposed Rule, 87 FR 19046, April 1, 2022. VerDate Sep<11>2014 15:59 Nov 17, 2022 Jkt 259001 For a complete summary of all comments received and EPA’s responses, see EPA’s Response to Comments document in the official public docket. II. Background A. Statutory and Regulatory Background CWA section 101(a)(2) establishes as a national goal ‘‘water quality which provides for the protection and propagation of fish, shellfish, and wildlife, and recreation in and on the water, wherever attainable.’’ EPA interprets these CWA section 101(a)(2) goals to include, at a minimum, designated uses providing for the protection of aquatic communities and human health related to consumption of fish and shellfish.2 Consistent with the CWA, EPA’s WQS program assigns to states and authorized tribes the primary authority for adopting WQS.3 CWA section 303(c)(2)(A) and EPA’s implementing regulations at 40 CFR part 131 require, among other things, that a state’s WQS specify appropriate designated uses of the waters, and water quality criteria that protect those uses. EPA’s regulations at 40 CFR 131.11(a)(1) provide that ‘‘[s]uch criteria must be based on sound 2 USEPA. 2000. Memorandum 1BWQSP–00–03. U.S. Environmental Protection Agency, Office of Water, Washington, DC, https://www.epa.gov/sites/ production/files/2015-01/documents/standardsshellfish.pdf. 3 33 U.S.C. 1313(a), (c). PO 00000 Frm 00030 Fmt 4700 Sfmt 4700 scientific rationale and must contain sufficient parameters or constituents to protect the designated use. For waters with multiple use designations, the criteria shall support the most sensitive designated use.’’ Under CWA section 304(a), EPA periodically publishes criteria (including HHC) recommendations for states to consider when adopting water quality criteria for particular pollutants to protect CWA section 101(a) goal uses. Where EPA has published recommended criteria, states should establish numeric water quality criteria based on EPA’s CWA section 304(a) criteria recommendations, CWA section 304(a) criteria recommendations modified to reflect site-specific conditions, or other scientifically defensible methods (40 CFR 131.11(b)(1)). After a state adopts a new or revised WQS, the state must submit it to EPA for review and action in accordance with CWA section 303(c).4 If EPA determines that a state’s new or revised WQS is not consistent with the requirements of the Act, the state has 90 days to submit a modified standard. If the state fails to adopt a revised WQS that EPA approves, CWA section 303(c)(4)(A) requires EPA to propose and promulgate a revised or new standard for the waters involved. In addition, CWA section 303(c)(4)(B) grants the EPA Administrator discretion 4 33 U.S.C. 1313(c)(2)(A), (c)(3). E:\FR\FM\18NOR1.SGM 18NOR1 Federal Register / Vol. 87, No. 222 / Friday, November 18, 2022 / Rules and Regulations to determine ‘‘that a revised or new standard is necessary to meet the requirements of [the Act].’’ 5 After making such a determination, known as an Administrator’s Determination,6 the agency must ‘‘promptly’’ propose an appropriate WQS and finalize it within ninety days unless the state adopts an acceptable standard in the interim.7 B. EPA’s General Approach for Deriving Human Health Criteria EPA’s 2000 Methodology for Deriving Ambient Water Quality Criteria for the Protection of Human Health 8 (2000 Methodology) describes the methods EPA uses when developing national CWA section 304(a) recommended HHC and when promulgating Federal HHC. The 2000 Methodology also serves as guidance to states and authorized tribes for developing their own HHC. EPA’s guidance informs, but does not dictate, EPA’s implementation of the applicable statutory and regulatory requirements noted above. EPA’s 2000 Methodology recommends that HHC be designed to reduce the risk of adverse cancer and non-cancer effects occurring from lifetime exposure to pollutants through the ingestion of drinking water and consumption of fish/shellfish obtained from inland and nearshore waters. Consistent with the 2000 Methodology, EPA’s practice is to establish a criterion for both drinking water ingestion and consumption of fish/shellfish from inland and nearshore waters combined and a separate criterion based on ingestion of fish/shellfish from inland and nearshore waters alone. This latter criterion applies in cases where the designated uses of a waterbody include supporting fish/shellfish for human consumption but not drinking water supply sources (e.g., non-potable estuarine waters). Consistent with EPA’s 2000 Methodology, EPA establishes HHC based on two types of toxicological endpoints: (1) carcinogenicity; and (2) noncancer toxicity (i.e., all adverse effects other than cancer). Where sufficient data are available, EPA derives criteria using both carcinogenic and non-carcinogenic toxicity endpoints and uses the lower (i.e., more healthprotective) value. EPA calculates HHC for carcinogenic effects using the khammond on DSKJM1Z7X2PROD with RULES 5 Id. at (c)(4)(B). 6 40 CFR 131.22(b) 7 33 U.S.C. 1313(c)(4)(B). 8 USEPA. 2000. Methodology for Deriving Ambient Water Quality Criteria for the Protection of Human Health. U.S. Environmental Protection Agency, Office of Water, Washington, DC EPA–822– B–00–004. https://www.epa.gov/sites/default/files/ 2018-10/documents/methodology-wqc-protectionhh-2000.pdf. VerDate Sep<11>2014 15:59 Nov 17, 2022 Jkt 259001 following input parameters: cancer slope factor (CSF), cancer risk level (CRL), body weight, drinking water intake rate, fish consumption rate (FCR), and a bioaccumulation factor(s). EPA calculates HHC for both non-cancer and nonlinear carcinogenic effects using a reference dose (RfD) and relative source contribution (RSC) in place of a CSF and CRL (the remaining inputs are the same for both toxicology endpoints). The RSC is applied to apportion the RfD among the media and exposure routes of concern for a particular chemical to ensure that an individual’s total exposure from all exposure sources does not exceed the RfD. Each of these inputs is discussed in more detail in sections II.B.a through II.B.d of this preamble and in EPA’s 2000 Methodology.9 a. Cancer Risk Level Consistent with the 2000 Methodology, EPA generally assumes, in the absence of data to indicate otherwise, that carcinogens exhibit linear ‘‘non-threshold’’ dose-responses which means that there are no ‘‘safe’’ or ‘‘no-effect’’ levels. Therefore, EPA calculates HHC for carcinogenic effects as pollutant concentrations corresponding to lifetime increases in the risk of developing cancer. EPA calculates HHC values at a 10¥6 (one in one million) CRL and recommends that states and authorized tribes use CRLs of 10¥6 or 10¥5 (one in one hundred thousand) when deriving HHC for the general population.10 EPA notes that states and authorized tribes can also choose a more health protective risk level, such as 10¥7 (one in ten million), when deriving HHC. b. Cancer Slope Factor and Reference Dose A dose-response assessment is required to understand the quantitative relationships between exposure to a pollutant and adverse health effects. EPA evaluates dose-response relationships based on the available data from animal toxicity and human epidemiological studies to derive doseresponse metrics. For carcinogenic effects, EPA uses an oral CSF to derive the HHC. The oral CSF is an upper bound, approximating a 95 percent confidence limit, on the increased cancer risk from a lifetime oral exposure to a pollutant. For non-carcinogenic effects, EPA uses the reference dose 9 Id. 10 EPA’s 2000 Methodology also states: ‘‘Criteria based on a 10¥5 risk level are acceptable for the general population as long as states and authorized tribes ensure that the risk to more highly exposed subgroups (sport fishers or subsistence fishers) does not exceed the 10¥4 level.’’ PO 00000 Frm 00031 Fmt 4700 Sfmt 4700 69185 (RfD) to calculate the HHC. A RfD is an estimate of a daily oral exposure of an individual to a substance that is likely to be without an appreciable risk of deleterious effects during a lifetime. A RfD is often derived from a laboratory animal toxicity multi-dose study from which a no-observed-adverse-effect level (NOAEL), lowest-observedadverse-effect level (LOAEL), or benchmark dose level can be identified. However, human epidemiology studies can also be used to derive a RfD. Uncertainty factors are applied to account for gaps or deficiencies in the available data (e.g., differences in response among humans) for a chemical. For the majority of EPA’s latest (2015) updated national CWA section 304(a) recommended HHC, EPA’s Integrated Risk Information System (IRIS) 11 was the source of both cancer and noncancer toxicity values (i.e., RfD and CSF).12 For some pollutants, EPA selected risk assessments produced by other EPA program offices (e.g., Office of Pesticide Programs, Office of Water, Office of Land and Emergency Management), other national and international programs, and state programs. c. Exposure Assumptions EPA’s exposure assumptions provide an overall level of protection targeted at the high end of the general population, as stated in the 2000 Methodology. EPA selects a combination of high-end and central tendency inputs to the criteria derivation equation and avoids ‘‘double counting’’ of exposures and combining unlikely co-occurrences. Consistent with the 2015 national CWA section 304(a) recommended HHC, EPA uses a default drinking water intake rate of 2.4 liters per day (L/day) and default rate of 22 grams per day (g/day) for consumption of fish and shellfish from inland and nearshore waters, multiplied by pollutant-specific bioaccumulation factors (BAFs) to account for the amount of the pollutant in the edible portions of the ingested species. EPA’s national default drinking water intake rate of 2.4 L/day represents the per capita estimate of combined direct and indirect community water ingestion at the 90th percentile for adults ages 21 11 USEPA. Integrated Risk Information System (IRIS). U.S. Environmental Protection Agency, Office of Research and Development, Washington, DC www.epa.gov/iris. 12 Final Updated Ambient Water Quality Criteria for the Protection of Human Health (80 FR 36986, June 29, 2015). See also: USEPA. 2015. Final 2015 Updated National Recommended Human Health Criteria. U.S. Environmental Protection Agency, Office of Water, Washington, DC, https:// www.epa.gov/wqc/human-health-water-qualitycriteria. E:\FR\FM\18NOR1.SGM 18NOR1 69186 Federal Register / Vol. 87, No. 222 / Friday, November 18, 2022 / Rules and Regulations khammond on DSKJM1Z7X2PROD with RULES and older.13 EPA’s national FCR of 22 g/day represents the 90th percentile consumption rate of fish and shellfish from inland and nearshore waters for the U.S. adult population 21 years of age and older, based on National Health and Nutrient Examination Survey (NHANES) data from 2003 to 2010.14 15 EPA calculates HHC using a default body weight of 80 kilograms (kg), the average weight of a U.S. adult age 21 and older, based on NHANES data from 1999 to 2006. Prior to publication of the 2000 Methodology, in which EPA began recommending the use of BAFs to reflect the uptake of a contaminant from all sources by fish and shellfish,16 EPA relied on bioconcentration factors (BCFs) to estimate chemical accumulation of waterborne chemicals by aquatic organisms. However, BCFs only account for chemical accumulation in aquatic organisms through exposure to chemicals in the water column. In 2000, EPA noted that ‘‘there has been a growing body of scientific knowledge that clearly supports the observation that bioaccumulation and biomagnification occur and are important exposure issues to consider for many highly hydrophobic organic compounds and certain organometallics.’’ For that reason, the 2000 Methodology observed that ‘‘[f]or highly persistent and bioaccumulative chemicals that are not easily metabolized, BCFs do not reflect what the science indicates.’’ 17 Therefore, consistent with the 2000 Methodology EPA uses, when data are available, 13 USEPA. 2011. EPA Exposure Factors Handbook. 2011 edition (EPA 600/R–090/052F). https://cfpub.epa.gov/ncea/risk/recordisplay. cfm?deid=236252. 14 USEPA. 2014. Estimated Fish Consumption Rates for the U.S. Population and Selected Subpopulations (NHANES 2003–2010). United States Environmental Protection Agency, Washington, DC, EPA 820–R–14–002. 15 EPA’s national FCR is based on the total rate of consumption of fish and shellfish from inland and nearshore waters (including fish and shellfish from local, commercial, aquaculture, interstate, and international sources). This is consistent with a principle that each state does its share to protect people who consume fish and shellfish that originate from multiple jurisdictions. 16 USEPA. 2000. Methodology for Deriving Ambient Water Quality Criteria for the Protection of Human Health. U.S. Environmental Protection Agency, Office of Water, Washington, DC EPA–822– B–00–004. https://www.epa.gov/sites/default/files/ 2018-10/documents/methodology-wqc-protectionhh-2000.pdf at 5–4. (Explaining that ‘‘[t]he 1980 Methodology for deriving 304(a) criteria for the protection of human health emphasized the assessment of bioconcentration (uptake from water only) through the use of the BCF. . .The 2000 Human Health Methodology revisions contained in this chapter emphasize the measurement of bioaccumulation (uptake from water, sediment, and diet) through the use of the BAF.’’). 17 65 FR 66444 (November 3, 2000). VerDate Sep<11>2014 15:59 Nov 17, 2022 Jkt 259001 measured or estimated BAFs, which account for chemical accumulation in aquatic organisms from all potential exposure routes, including, but not limited to, food, sediment, and water.18 EPA uses separate BAFs for each trophic level to account for potential biomagnification of chemicals in aquatic food webs, as well as physiological differences among organisms that may affect bioaccumulation.19 EPA derives national default BAFs, in part, as a resource for states and authorized tribes with limited resources for deriving site-specific BAFs.20 EPA’s approach for developing national BAFs represents the long-term average bioaccumulation potential of a pollutant in aquatic organisms that are commonly consumed by humans across the United States. In the 2015 national CWA section 304(a) recommended HHC update, EPA relied on field-measured BAFs and laboratory-measured BCFs available from peer-reviewed, publicly available databases to develop national BAFs for three trophic levels of fish.21 If this information was not available, EPA selected octanol-water partition coefficients (Kow values) from publicly available, published peer-reviewed sources for use in calculating national BAFs. As an additional line of evidence, EPA reported model-estimated BAFs for every chemical based on the Estimation Program Interface (EPI) Suite to support the field-measured or predicted BAFs.22 Although EPA uses national default exposure-related input values to calculate national CWA section 304(a) recommended criteria, EPA’s methodology notes a preference for the use of local data, when available, to calculate HHC (e.g., locally derived FCRs, drinking water intake rates and body weights, and waterbody-specific 18 USEPA. 2000. Methodology for Deriving Ambient Water Quality Criteria for the Protection of Human Health. U.S. Environmental Protection Agency, Office of Water, Washington, DC EPA–822– B–00–004. https://www.epa.gov/sites/default/files/ 2018-10/documents/methodology-wqc-protectionhh-2000.pdf. 19 USEPA. 2003. Methodology for Deriving Ambient Water Quality Criteria for the Protection of Human Health (2000). Technical Support Document Volume 2: Development of National Bioaccumulation Factors. U.S. Environmental Protection Agency, Office of Water, Washington, DC EPA–822–B–03–030. https://www.epa.gov/sites/ default/files/2018-10/documents/methodology-wqcprotection-hh-2000.pdf. 20 65 FR 66444 (November 3, 2000). 21 Final Updated Ambient Water Quality Criteria for the Protection of Human Health (80 FR 36986, June 29, 2015). See also: USEPA. 2015. Final 2015 Updated National Recommended Human Health Criteria. U.S. Environmental Protection Agency, Office of Water, Washington, DC, https:// www.epa.gov/wqc/human-health-water-qualitycriteria. 22 Id. PO 00000 Frm 00032 Fmt 4700 Sfmt 4700 bioaccumulation rates) over national default values. Using local data helps ensure that HHC represent local conditions.23 EPA also recommends, where sufficient data are available, selecting an FCR that reflects consumption that is not suppressed by fish availability or concerns about the safety of available fish.24 Deriving criteria using an unsuppressed FCR furthers the restoration goals of the CWA and ensures protection of human health as pollutant levels decrease, fish habitats are restored, and fish availability increases. Moreover, as explained further below, selecting an FCR that reflects unsuppressed fish consumption could be necessary where tribal treaty or other reserved fishing rights apply. In such circumstances, if sufficient data regarding unsuppressed fish consumption levels are unavailable or inconclusive, states should consult with tribes when deciding which fish consumption data should be used in selecting an FCR. d. Relative Source Contribution The inclusion of an RSC factor 25 is important for protecting public health. When deriving HHC for noncarcinogens and nonlinear carcinogens, EPA includes an RSC factor to account for sources of exposure other than drinking water and consumption of fish and shellfish from inland and nearshore 23 USEPA. 2000. Methodology for Deriving Ambient Water Quality Criteria for the Protection of Human Health. U.S. Environmental Protection Agency, Office of Water, Washington, DC EPA–822– B–00–004. https://www.epa.gov/sites/default/files/ 2018-10/documents/methodology-wqc-protectionhh-2000.pdf. 24 As noted by the National Environmental Justice Advisory Council in the 2002 publication Fish Consumption and Environmental Justice, ‘‘a suppression effect may arise when fish upon which humans rely are no longer available in historical quantities (and kinds), such that humans are unable to catch and consume as much fish as they had or would. Such depleted fisheries may result from a variety of affronts, including an aquatic environment that is contaminated, altered (due, among other things, to the presence of dams), overdrawn, and/or overfished. Were the fish not depleted, these people would consume fish at more robust baseline levels. . . . In the Pacific Northwest, for example, compromised aquatic ecosystems mean that fish are no longer available for tribal members to take, as they are entitled to do in exercise of their treaty rights.’’). National Environmental Justice Advisory Council, Fish Consumption and Environmental Justice, p.44, 46 (2002) (NEJAC Fish Consumption Report), available at https://www.epa.gov/sites/default/files/2015-02/ documents/fish-consump-report_1102.pdf. 25 ‘‘[RSC] defines the portion of the total exposure that comes from ingestion of water and fish from the ambient water body of interest. Other exposure information such as that from dietary, inhalation, and dermal routes should be considered and accounted for as part of the RSC human exposure analysis.’’ https://www.epa.gov/wqs-tech/ supplemental-module-human-health-ambientwater-quality-criteria. E:\FR\FM\18NOR1.SGM 18NOR1 Federal Register / Vol. 87, No. 222 / Friday, November 18, 2022 / Rules and Regulations khammond on DSKJM1Z7X2PROD with RULES waters. These other sources of exposure include but are not limited to ocean fish consumption (which is not included in EPA’s default national FCR), non-fish food consumption (e.g., fruits, vegetables, grains, meats, poultry), dermal exposure, and inhalation exposure. Using an RSC ensures that the level of a chemical allowed by a water quality criterion, when combined with other exposure sources, will not result in exposures that exceed the RfD, thus helping to prevent adverse health effects from aggregate exposure to a given chemical over a person’s lifetime. EPA’s guidance 26 includes an approach for determining an appropriate RSC for a given pollutant ranging in value from 0.2 to 0.8 to ensure that drinking water and fish consumption alone are not apportioned the entirety of the RfD. This approach, known as the Exposure Decision Tree, considers the adequacy of available exposure data, levels of exposure, relevant sources/media of exposure, and regulatory agendas. As explained below in section III.B.d of this preamble, EPA made science-based adjustments to the application of the RSC in this rulemaking to avoid ‘‘double counting’’ exposures. C. Prior EPA Actions Related to Washington’s Human Health Criteria In 1992, EPA promulgated the National Toxics Rule (NTR) at 40 CFR 131.36, establishing chemical-specific numeric criteria for 85 priority toxic pollutants for 14 states and territories (states), including Washington, that were not in compliance with the requirements of CWA section 303(c)(2)(B). Subsequently, when states covered by the NTR adopted their own criteria for toxic pollutants that were consistent with the CWA and EPA’s implementing regulations, EPA amended the NTR to remove those chemical-specific criteria for those states. In 2015, Washington was one of the states that remained covered by the NTR. On September 14, 2015, the EPA Administrator determined that updated HHC for Washington were ‘‘necessary’’ pursuant to CWA section 303(c)(4)(B). EPA proposed HHC to protect the health of Washington residents, including tribes with treaty-reserved rights to fish.27 In that proposal, EPA explained that the majority of waters under Washington’s jurisdiction are subject to tribal treaty-reserved fishing rights.28 To give effect to such rights in establishing revised WQS for Washington waters, 26 Id. 27 80 28 Id. FR 55063 (September 14, 2015). at 55067. VerDate Sep<11>2014 15:59 Nov 17, 2022 Jkt 259001 EPA determined that tribal treaty fishing rights ‘‘appropriately must be considered when determining which criteria are necessary to adequately protect Washington’s fish and shellfish harvesting designated uses.’’ 29 Specifically, EPA proposed to consider the tribal populations exercising their legal right to harvest and consume fish and shellfish as the general population for purposes of deriving protective HHC. To this end, EPA proposed HHC based on an FCR of 175 g/day and CRL of 10¥6 to reflect consideration of tribal treatyreserved rights, as informed by consultation with the tribes and fish consumption surveys of tribal members.30 In addition to an FCR and CRL calculated to ensure protection of applicable tribal treaty-reserved rights, EPA also utilized other inputs to derive the proposed HHC based on the agency’s latest scientific knowledge. Specifically, EPA calculated the proposed HHC using the national trophic level four BAFs and updated chemical-specific RSC values from its June 2015 CWA section 304(a) recommended criteria updates.31 Before EPA finalized the proposed Federal criteria, the State of Washington adopted HHC following an extensive public process and submitted the updated HHC to EPA for review on August 1, 2016. The updated HHC incorporated some of the new data and information from EPA’s June 2015 CWA section 304(a) criteria updates. Washington’s HHC were based on the same 175 g/day FCR and 10¥6 CRL that EPA used to derive the proposed Federal HHC, with the exception of the CRL for polychlorinated biphenyls (PCBs).32 Although Washington used the same FCR and CRL as EPA, Washington used BCFs instead of BAFs and used an RSC of 1. The scientific inputs of BCFs and an RSC of 1 do not reflect the latest scientific knowledge. On November 15, 2016, EPA partially approved and partially disapproved Washington’s HHC.33 For the criteria that were disapproved, EPA concurrently signed a final rule promulgating the Federal criteria it had proposed in 2015.34 Like EPA’s 2015 30 Id. at 55067–68. at 55068–69. 32 For PCBs, Washington’s criteria were based on a chemical-specific CRL of 2.3 × 10¥5. 33 Letter from Dan D. Opalski, Director, EPA Region 10 Office of Water and Watersheds to Maia Bellon, Director, Department of Ecology, Re: EPA’s Partial Approval/Partial Disapproval of Washington’s Human Health Water Quality Criteria and Implementation Tools; Enclosure, Technical Support Document (November 15, 2016) (2016 Partial Approval/Partial Disapproval). 34 81 FR 85417 (November 28, 2016). 31 Id. PO 00000 Frm 00033 proposal, the 2016 final rule articulated EPA’s conclusion that it is necessary and appropriate to consider tribal treatyreserved rights within the framework of the CWA and provided a discussion of the tribal treaties relevant to the State of Washington and applicable case law.35 The 2016 final rule was informed by public comment that addressed both the proposed criteria and EPA’s consideration of tribal treaties, as well as consultation with a number of federally recognized tribes. EPA’s disapproval of Washington’s HHC in 2016 was largely predicated on Washington’s use of input values that were not reflective of sound scientific rationale. In its letter to the State, EPA explained that the agency ‘‘evaluated Washington’s criteria values against criteria that EPA determined would be protective of the State’s designated uses and scientifically defensible (e.g., based on appropriate bioaccumulation factors (BAFs) and protective relative source contribution (RSC) values of less than 1).’’ 36 EPA found that Washington had not demonstrated that the majority of its criteria were based on sound scientific rationale as required by the CWA and EPA’s implementing regulations.37 Specifically for PCBs, EPA found that Washington had not provided adequate support or analysis to justify its use of a chemical-specific CRL (2.3 × 10¥5) that was less stringent than the CRL used for all other pollutants, and did not explain how the use of this CRL was protective of the State’s designated uses.38 With respect to the criteria that EPA approved, the agency also explained that ‘‘while the EPA carefully considers the scientific defensibility and protectiveness of both the inputs used to derive criteria and the resulting criteria values, it is ultimately on the criteria values that the EPA takes approval or disapproval action under CWA section 303(c).’’ 39 After evaluating Washington’s criteria against criteria using appropriate scientific inputs, EPA determined that certain of Washington’s criteria were as or more stringent than 35 81 FR 85422–27 (November 28, 2016). Partial Approval/Disapproval at 3. 37 Id. at 16–17. 38 Id. at 26 (Determining that Washington ‘‘did not provide adequate justification for using the Washington Department of Health cancer risk level for this specific chemical and then adjusting that cancer risk level so that the criteria would be equivalent to the NTR criteria’’ and ‘‘did not demonstrate how the criteria were derived using a cancer risk level that is based on scientifically sound rationale and protective of applicable designated uses, including the tribal subsistence fishing portion of the fish and shellfish harvesting use as informed by treaty-reserved fishing rights.’’). 39 Id. at 8. 36 2016 29 Id. Fmt 4700 Sfmt 4700 69187 E:\FR\FM\18NOR1.SGM 18NOR1 69188 Federal Register / Vol. 87, No. 222 / Friday, November 18, 2022 / Rules and Regulations scientifically defensible criteria that the EPA determined would be protective of Washington’s designated uses.40 Accordingly, EPA approved those criteria.41 In a petition dated February 21, 2017, several regulated entities requested that EPA reconsider its November 15, 2016, partial disapproval and repeal its concurrent promulgated Federal criteria.42 Following the 2017 petition, Washington and several federally recognized tribes with treaty-reserved fishing rights sent letters urging EPA to deny the petition and to leave the federally promulgated HHC in place.43 Despite objections from the State and several tribes, on May 10, 2019, EPA granted the 2017 industry petition by reversing the agency’s prior partial disapproval to an approval of certain HHC (‘2019 Reconsidered HHC’) and subsequently issuing a final rule withdrawing the federally promulgated criteria.44 EPA’s May 10, 2019 approval concluded that the State’s reliance on scientific inputs that were not reflective of the latest science was an appropriate risk-management decision.45 The withdrawal of the Federal criteria went into effect on June 12, 2020, and as of that date, the HHC submitted by Washington on August 1, 2016 and approved by EPA on May 10, 2019 were in effect for CWA purposes. On June 6, 2019, the State of Washington filed a complaint challenging the legality of EPA’s May 2019 decision to reverse its November 2016 partial disapproval.46 The SaukSuiattle Indian Tribe and Quinault Indian Nation subsequently joined Washington’s lawsuit as plaintiff40 Id. khammond on DSKJM1Z7X2PROD with RULES 41 Id. 42 Petition submitted by Northwest Pulp and Paper Association, America Forest and Paper Association, Association of Washington Business, Greater Spokane Incorporated, Treated Wood Council, Western Wood Preservers Institute, Utility Water Act Group and the Washington Farm Bureau. 43 EPA received letters from the Washington State Department of Ecology, Washington State Attorney General, the Northwest Indian Fisheries Commission, the Lower Elwha Klallam Tribe, the Nooksack Indian Tribe, the Jamestown S’Klallam Tribe, and Earthjustice (on behalf of the Pacific Coast Federation of Fishermen’s Associations, Institute for Fisheries Resources, and several Washington Waterkeepers). 44 May 10, 2019 letter and enclosed Technical Support Document from Chris Hladick, Regional Administrator, EPA Region 10, to Maia Bellon, Director, Department of Ecology, Re: EPA’s Reversal of the November 15, 2016 Clean Water Act section 303(c) Partial Disapproval of Washington’s Human Health Water Quality Criteria and Decision to Approve Washington’s Criteria; Withdrawal of Certain Federal Water Quality Criteria Applicable to Washington, 85 FR 28494 (May 13, 2020). 45 May 10, 2019 letter at pp. 8, 14–15. 46 State of Washington v. U.S. Envt’l Prot. Agency, No. 2:19–cv–884–RAJ (W.D. Wash.). VerDate Sep<11>2014 15:59 Nov 17, 2022 Jkt 259001 intervenors. On June 6, 2020, following EPA’s withdrawal of the promulgated Federal HHC, another lawsuit was filed by the Makah Indian Tribe, the Pacific Coast Federation of Fishermen’s Associations, and environmental groups challenging both EPA’s withdrawal of the federally promulgated HHC and its May 10, 2019 decision to reverse the November 2016 partial disapproval.47 In September 2020, the Plaintiffs in the case filed by the State of Washington amended their complaints to also challenge EPA’s rule withdrawing the Federal HHC. Consistent with Executive Order 13990,48 in February 2021, EPA sought and was granted an abeyance in both cases to conduct an initial review to determine whether it intended to reconsider the challenged actions. During this initial three-month abeyance, EPA decided to reconsider the challenged actions. Based on its initial review of the agency’s prior actions, EPA sought a longer abeyance from the court, expressing substantial concern that Washington’s HHC may not be adequately protective and may not be based on sound scientific rationale. On July 6, 2021, the Court granted EPA an abeyance to reconsider its prior actions and to propose protective HHC for Washington and take final action on the proposal within 18 months. EPA proposed protective HHC for Washington on April 1, 2022,49 and is now finalizing protective HHC for Washington in this final rule. III. Derivation of Human Health Criteria for Washington A. Scope of EPA’s Final Rule After consideration of all comments received on EPA’s proposed rulemaking, EPA is finalizing Federal criteria that supersede the 2019 Reconsidered HHC for CWA purposes.50 EPA’s final rule does not change or supersede the Federal HHC that EPA promulgated for arsenic,51 methylmercury, or bis (2chloro-1-methylethyl) ether in 2016 and that remain in place for CWA purposes, nor Washington’s HHC that EPA approved in 2016 and have remained in effect since that time. EPA’s final rule also does not change or supersede Washington’s HHC for dioxin and 47 Puget Soundkeeper Alliance et al. v. U.S. Envt’l Prot. Agency, No. 2:20–cv–907–RAJ (W.D. Wash.). 48 86 FR 7037 (January 25, 2021). 49 See Restoring Protective Human Health Criteria in Washington: Proposed Rule, 87 FR 19046, April 1, 2022. 50 See 40 CFR 131.21(c). 51 EPA promulgated arsenic HHC for Washington in the National Toxics Rule of 1992. EPA’s Federal rule in 2016 moved the arsenic criteria from 40 CFR 131.36 to 40 CFR 131.45. PO 00000 Frm 00034 Fmt 4700 Sfmt 4700 thallium that EPA approved in 2019. EPA had previously taken no action on these two pollutants in 2016. Some commenters asked EPA to quickly take separate prompt action to strengthen dioxin criteria and establish criteria for per- and polyfluoroalkyl substances (PFAS) unless Washington addresses those pollutants itself in a future State rulemaking. As noted in EPA’s Response to Comment document in the docket for this rule, such comments are beyond the scope of this rulemaking. Finally, certain commenters referred to EPA’s prior actions related to HHC for arsenic and mercury in Washington. EPA’s proposed rulemaking did not address those prior actions, which were based on the administrative record before the agency at that time, nor did EPA solicit comment on those actions. Therefore, such comments are also beyond the scope of this rule. The HHC in this final rule apply to surface waters under the State of Washington’s jurisdiction, and not to waters within Indian country,52 unless otherwise specified in Federal law. B. Washington-Specific Human Health Criteria Inputs a. Fish Consumption Rate, Body Weight, Drinking Water Intake EPA is finalizing HHC for Washington using the same FCR of 175 g/day, body weight of 80 kg and drinking water intake rate of 2.4 L/day that the agency proposed in its April 1, 2022, proposed rulemaking,53 which are the same values Washington used in 2016 54 and that EPA used in its 2016 Federal rule.55 The comments addressing these input values are briefly summarized below. With respect to the FCR, some commenters asserted that protective HHC should accurately account for the amount of fish people are eating, and that EPA was right to propose HHC using an FCR of 175 g/day. However, the same commenters state that 175 g/ day is a compromise rate and is therefore, not conservative because many communities in Washington eat more than 175 g/day, even with suppressed fish stocks. Those 52 See 18 U.S.C. 1151 for definition of Indian Country. 53 See Restoring Protective Human Health Criteria in Washington: Proposed Rule, 87 FR 19046, April 1, 2022. 54 Department of Ecology. Washington State Water Quality Standards: Human health criteria and implementation tools, Overview of key decisions in rule amendment. August 2016. Ecology Publication no. 16–10–025. 55 Revision of Certain Water Quality Standards Applicable to Washington, 81 FR 85417 (November 28, 2016). E:\FR\FM\18NOR1.SGM 18NOR1 Federal Register / Vol. 87, No. 222 / Friday, November 18, 2022 / Rules and Regulations khammond on DSKJM1Z7X2PROD with RULES commenters assert that 175 g/day is only acceptable if that rate is paired with a CRL of one in one million (10¥6) and the most recent science for the other inputs. Other commenters asserted that 175 g/ day is an inappropriate FCR to use to derive HHC in Washington, and/or that it should not be paired with a 10¥6 CRL. These commenters state that lower FCRs, or greater CRLs of one in one hundred thousand (10¥5) or one in ten thousand (10¥4), would be protective of all consumers in Washington, including tribes. Some commenters characterized 175 g/day as a high-biased estimate of fish consumption that is based on an outdated survey method. Additionally, commenters assert that 175 g/day is too high to use to derive HHC for Washington because it includes consumption of fish that predominantly accumulate pollutants in waters outside of Washington’s jurisdiction (i.e., the open ocean). Commenters state that EPA relies in part on an argument that fish consumption in Washington is suppressed but assert that EPA has not provided scientific evidence of such suppression or guidance on how to account for suppression. These commenters state that there is no evidence of lower fish stocks limiting consumption, and that fish availability should not be a factor in setting HHC since those criteria do not impact fish availability. EPA reiterates its explanation in the proposed rulemaking that it does not have new data or information suggesting a need to revisit the inputs utilized in the 2016 rule.56 Thus, EPA is applying the same rationale here as the agency articulated to support its use of those inputs in the 2016 Federal rule. The agency has concluded that it is important to keep these values consistent between the HHC in this rule and the other HHC that this rule will not impact (i.e., the HHC that Washington adopted and EPA approved in 2016, and the Federal HHC that remain in place for arsenic, methylmercury, or bis (2chloro-1-methylethyl) ether), because these values are associated with the population that the criteria are intended to protect and are not pollutant-specific. For detailed responses to all comments received, see EPA’s Response to Comment document in the docket for this rule. b. Pollutant-Specific Reference Doses and Cancer Slope Factors EPA is finalizing HHC for Washington using the same reference doses and cancer slope factors that the agency 56 Id. at 85420; 85426–428. VerDate Sep<11>2014 15:59 Nov 17, 2022 Jkt 259001 proposed in its April 1, 2022, proposed rulemaking,57 which are the same values Washington used in 2016 58 and that EPA used in its 2016 Federal rule.59 These are the same toxicity values that EPA uses in its national CWA section 304(a) recommended HHC. While there may be new toxicity information available for certain pollutants that is not yet reflected in EPA’s CWA section 304(a) national recommended HHC, such information has not yet been reviewed through EPA’s comprehensive CWA section 304(a) criteria development process and therefore is not incorporated into this final rule.60 See Table 1, columns B1 and B3 of this preamble for a list of EPA’s toxicity factors by pollutant. EPA only received comments on reference doses and cancer slope factors in the context of specific pollutants, namely PCBs and mercury. As noted above, comments on mercury are beyond the scope of this rulemaking. For comments on PCBs, see below and EPA’s Response to Comment document in the docket for this rule. c. Cancer Risk Level EPA is finalizing HHC for Washington using the same CRL of 10¥6 that the agency proposed in its April 1, 2022, proposed rulemaking for all pollutants, including PCBs.61 This is the same CRL Washington used in 2016 for all pollutants except for PCBs 62 and that EPA used in its 2016 Federal rule for all pollutants.63 57 See Restoring Protective Human Health Criteria in Washington: Proposed Rule, 87 FR 19046, April 1, 2022. 58 Department of Ecology. Washington State Water Quality Standards: Human health criteria and implementation tools, Overview of key decisions in rule amendment. August 2016. Ecology Publication no. 16–10–025. 59 Revision of Certain Water Quality Standards Applicable to Washington, 81 FR 85417 (November 28, 2016). 60 For example, there are 7 polycyclic aromatic hydrocarbons for which there is new toxicity information available since the promulgation of the 2016 Federal rule. Because the CWA section 304(a) criteria development process can take several years, EPA is not able to review this information and complete this rulemaking by the end of the 18month abeyance. Once EPA has developed updated CWA section 304(a) criteria for these pollutants, the State may evaluate its HHC for these pollutants (e.g., during a triennial review), adopt new HHC based on the CWA section 304(a) updates, and submit these HHC to EPA for review. 61 See Restoring Protective Human Health Criteria in Washington: Proposed Rule, 87 FR 19046, April 1, 2022. 62 Department of Ecology. Washington State Water Quality Standards: Human health criteria and implementation tools, Overview of key decisions in rule amendment. August 2016. Ecology Publication no. 16–10–025. 63 Revision of Certain Water Quality Standards Applicable to Washington, 81 FR 85417 (November 28, 2016). PO 00000 Frm 00035 Fmt 4700 Sfmt 4700 69189 EPA’s selection of a 10¥6 CRL is consistent with EPA’s 2000 Methodology, which states that EPA intends to use the 10¥6 level, which reflects an appropriate risk for the general population, when promulgating water quality criteria for states and tribes.64 Additionally, many of Washington’s rivers are in the Columbia River basin, upstream of Oregon’s portion of the Columbia River. Oregon’s criteria for PCBs and other pollutants are based on an FCR of 175 g/day and a CRL of 10¥6. EPA’s final Federal HHC for Washington using a CRL of 10¥6 along with an FCR of 175 g/day helps ensure that Washington’s criteria will provide for the attainment and maintenance of Oregon’s downstream WQS as required by 40 CFR 131.10(b). As noted in EPA’s 2016 final rule for Washington,65 several tribes in Washington have treaty-reserved rights to fish on waters throughout the State. Consistent with those rights, tribal members catch and consume fish for their subsistence. EPA determined that a 10¥6 CRL was appropriate independent of treaty rights, for the reasons explained in this section and EPA’s Response to Comment document in the docket for this rule. Nonetheless, EPA’s selection of a 10¥6 CRL is protective of tribal members exercising their legal right to harvest and consume fish and shellfish at subsistence levels.66 Some commenters asserted that EPA’s use of a CRL of 10¥6 is consistent with EPA’s guidance and national precedent. These commenters agreed with EPA’s proposal of HHC for PCBs based on a CRL of 10¥6 paired with an FCR of 175 g/day and asserted that it violates the CWA and civil rights to expose high fish consumers to a higher cancer risk due to PCBs. Commenters stated that EPA did not show why Washington’s criteria that it previously disapproved in 2016 were protective in 2019. Finally, commenters asserted that upstream pollution impacts the Spokane Tribe’s ability to safely exercise their treaty reserved fishing rights and EPA’s proposed PCB criteria are closer to the Tribe’s criteria and therefore more likely to provide for downstream protection. Commenters also state that use of a CRL 64 EPA 2000 Methodology, p. 2–6. The Methodology recommends that states set human health criteria CRLs for the target general population at either 10¥5 or 10¥6 (p. 2–6) and also notes that states and authorized tribes can always choose a more stringent risk level, such as 10¥7 (p. 1–12). 65 81 FR 85422–26 (November 28, 2016). 66 In 2016, tribes in Washington State generally viewed 175 g/day as a compromise minimum consumption rate so long as it is coupled with a CRL of 10¥6. 2016 Partial Approval/Disapproval p. 15. E:\FR\FM\18NOR1.SGM 18NOR1 khammond on DSKJM1Z7X2PROD with RULES 69190 Federal Register / Vol. 87, No. 222 / Friday, November 18, 2022 / Rules and Regulations of 10¥6 to derive HHC for Washington addresses the potential for synergistic toxicity from exposure to multiple toxins. Other commenters asserted that EPA’s use of a 10¥6 CRL is inconsistent with EPA’s guidance and longstanding policy on acceptable risk levels. These commenters stated that EPA accepts CRLs of 10¥6 or 10¥5, provided the median FCR for highly exposed populations is protected to a 10¥4 risk level, and pointed to prior EPA actions, including EPA’s 2019 approval of HHC in Idaho, 2011 HHC approval in Oregon, and EPA’s Clean Water Act national recommended 304(a) criteria that pair a 10¥6 cancer risk level with a general population fish consumption rate rather than an FCR associated with high fish consumers. Some commenters characterized a CRL of 10¥4 as effectively zero risk to a small population such as the tribal population in Washington. Other commenters argued that the CRL is a choice for states to make and that EPA was right to accept Washington’s choice of a PCBspecific CRL in 2019 because Washington’s 2016 PCB criteria strike a more appropriate balance between cost and human health protection, and EPA’s proposed PCB criteria are not scientifically defensible or attainable with currently available technology. Some commenters raised concerns that EPA’s proposed criteria are below analytical method quantitation limits and therefore it is not clear how dischargers can comply with the criteria and this could be misleading to the public. Some commenters criticized EPA’s cost estimates for the proposed rule, stating that testing methodology may improve, such that dischargers will then be out of compliance with permit limits, and stating that Washington is unlikely to adopt WQS variances to provide dischargers with relief. These commenters asserted that certain dischargers are already being pushed by EPA to use an unapproved PCB test method as the basis to design and install new treatment systems, and that EPA was wrong to assume that PCBs are not likely to be found in the effluent from minor facilities. Some commenters raised concerns that EPA and Washington State allow for the continued release of PCBs into the environment under the Toxic Substances Control Act, tribal and Federal hatchery operations in Washington, and Washington’s Model Toxics Control ACT, which in turn puts an unfair burden on dischargers in Washington to meet the proposed HHC for PCBs. Commenters also raised VerDate Sep<11>2014 15:59 Nov 17, 2022 Jkt 259001 concerns that EPA has not shared the latest science evaluating the toxicity of inadvertently generated PCBs and there is ongoing scientific uncertainty with EPA’s proposed PCB criteria that EPA has not sufficiently explained. As noted above, in this final rule EPA is maintaining its proposed CRL of 10¥6, which Washington used in 2016 and EPA used in its 2016 Federal rule for all pollutants. With respect to the comments regarding utilizing that same CRL for PCBs, for the reasons that EPA further explained in the proposed rulemaking, the agency has concluded that Washington’s PCB HHC are not protective of Washington’s designated uses because of Washington’s selected chemical-specific CRL, which is not based on a sound scientific rationale. For detailed responses to all comments received, including those which reiterate prior comments that EPA received on its 2015 proposed rulemaking for Washington and previously responded to, such as comments about the intersection of the CWA and the Toxic Substances Control Act with respect to PCBs, see EPA’s Response to Comment document in the docket for this rule. d. Relative Source Contribution EPA recommends using an RSC for non-carcinogens and nonlinear carcinogens to account for sources of exposure other than drinking water and consumption of inland and nearshore fish and shellfish (see section II.B.d of this preamble). In its 2015 304(a) criteria recommendations, after evaluating information on chemical uses, properties, occurrences, releases to the environment and regulatory restrictions, EPA developed chemical-specific RSCs for non-carcinogens and nonlinear carcinogens ranging from 0.2 (20 percent) to 0.8 (80 percent) following the Exposure Decision Tree approach described in EPA’s 2000 Human Health Methodology.67 68 When EPA promulgated HHC for Washington in 2016, EPA adjusted RSC values using a ratio of the national dataset characterizing all FCRs versus inland and nearshore-only FCRs derived 67 USEPA. 2000. Methodology for Deriving Ambient Water Quality Criteria for the Protection of Human Health. U.S. Environmental Protection Agency, Office of Water, Washington, DC EPA–822– B–00–004. https://www.epa.gov/sites/default/files/ 2018-10/documents/methodology-wqc-protectionhh-2000.pdf. 68 Final Updated Ambient Water Quality Criteria for the Protection of Human Health, (80 FR 36986, June 29, 2015). See also: USEPA. 2015. Final 2015 Updated National Recommended Human Health Criteria. U.S. Environmental Protection Agency, Office of Water, Washington, DC https:// www.epa.gov/wqc/human-health-water-qualitycriteria. PO 00000 Frm 00036 Fmt 4700 Sfmt 4700 from the NHANES dataset. EPA then applied this ratio to the proportion of the RfD reserved for inland and nearshore fish consumption in the RSC, and used this adjustment to account for double-counted potential exposure to certain chemicals in certain anadromous fish species (e.g., salmon). This approach involves the following assumptions: • The pollutant concentrations in anadromous fish are the same as those in inland and nearshore fish; and • The ratio of all fish to inland and nearshore fish from NHANES data approximates the ratio of inland, nearshore, and anadromous fish to just inland and nearshore fish from Columbia River Inter-Tribal Fish Commission (CRITFC) 69 data (since CRITFC data were used to derive the 175 g/day FCR). At the 90th percentile rate of consumption, the national adult consumption rate from NHANES data for all fish is 53 g/day and 22 g/day for inland and nearshore-only fish, or a ratio of 2.4. Applying this to an RSC of 0.2 yields 0.48, or 0.5 rounding to a single decimal place. Because the 175 g/ day FCR includes some but not all marine species, EPA decided to use this approach to adjust the RSC values. However, EPA only adjusted RSC values to 0.5 for criteria calculations previously using an RSC between 0.2 and 0.5. Criteria derived using an RSC greater than 0.5 remained unchanged. EPA is using these same 2016 RSCs to derive HHC for Washington in this final rule, having no new data or information to support revising RSCs. The inclusion of protective RSCs in the development of HHC is a science-based decision that protects human health by ensuring that a person’s exposure to multiple sources of a chemical is accounted for. See Table 1, column B2 of this preamble for a list of EPA’s RSCs by pollutant. Some commenters asserted that use of an RSC of 1 is scientifically indefensible and that returning to EPA’s 2016 approach of using an RSC equal to or less than 0.8 will ensure that the HHC consider other potential exposures. Commenters stated that tribes are regularly exposed to toxins through other routes of exposure in addition to fish consumption, such as dermal exposure. Commenters agreed with EPA’s statement in the proposed rule that the choice of cancer risk level (CRL) is irrelevant to the choice of RSC since these inputs are for mutually exclusive 69 Fish Consumption Survey of the Umatilla, Nez Perce, Yakama, and Warm Springs Tribes of the Columbia River Basin (CRITFC 1994). E:\FR\FM\18NOR1.SGM 18NOR1 khammond on DSKJM1Z7X2PROD with RULES Federal Register / Vol. 87, No. 222 / Friday, November 18, 2022 / Rules and Regulations categories of pollutants (carcinogens vs. non-carcinogens). EPA’s Response to Comment document in the docket for this rule. Other commenters asserted that the RSC value is a discretionary risk management decision and there is no regulatory requirement to examine multiple exposure routes when developing HHC. Commenters also stated that the criteria are only intended to protect for risks related to surface water exposure, i.e., fish and water. Some commenters asserted that it is arbitrary for EPA to use an RSC less than 1 when the FCR includes all fish. Other commenters pointed to prior EPA actions, including EPA’s 2011 HHC approval in Oregon, and EPA’s 2013 approval of HHC for the Spokane Tribe, to assert that EPA has approved HHC that rely on an RSC of 1. Finally, some commenters state that EPA’s use of RSCs in the drinking water program under the Safe Drinking Water Act (SDWA) is different than using them for WQS since SDWA allows for consideration of cost in setting the final regulatory limits. e. Pollutant-Specific Bioaccumulation Factors As explained in the proposed rulemaking, EPA determined that Washington’s use of an RSC value of 1 to derive HHC is not based on sound scientific rationale as it apportioned the entire ‘‘safe’’ dose of certain chemicals to drinking water and fish consumption, ignoring other sources of those chemicals. While EPA acknowledges the comments indicating that it has previously approved WQS where states and authorized tribes utilized an RSC of 1 to develop certain HHC, in those prior actions, EPA only approved HHC that used an RSC of 1 if EPA had not yet updated its own corresponding national recommended 304(a) criteria to reflect chemical-specific RSC values following the Exposure Decision Tree approached described in the 2000 Methodology. Without updated national recommended 304(a) criteria, states and tribes did not yet have the benefit of EPA’s thorough review of exposure information that now exists since EPA updated its national HHC recommendations in 2015. Since the 2015 recommended HHC updates, EPA has encouraged all states to consider the latest science reflected in EPA’s 2015 HHC recommendations during the triennial review of state WQS and update their HHC to incorporate appropriate RSCs. For detailed responses to all comments received, see VerDate Sep<11>2014 15:59 Nov 17, 2022 Jkt 259001 Where data are available, EPA uses BAFs to account for the uptake and retention of waterborne chemicals by aquatic organisms from all surrounding media and to ensure that resulting criteria are science-based and protect designated uses for human health. Consistent with the 2016 Federal rule for Washington,70 EPA is finalizing HHC for Washington by applying the trophic level four BAF from the 2015 CWA section 304(a) recommended HHC updates in conjunction with the 175 g/ day FCR.71 Some commenters asserted that the choice of BCFs versus BAFs is a sciencebased rather than risk management decision, and that EPA is appropriately following the science in applying BAFs in this rule. These commenters asserted that BCFs undercount the amount of chemicals in fish, and EPA disregarded science and its own guidance when it approved BCF-based HHC in 2019. Other commenters asserted that Washington’s choice to use BCFs rather than BAFs was a sound science policy choice. These commenters asserted that BCFs are based on sound scientific principles and state that EPA has previously approved HHC that rely on BCFs. Commenters asserted that EPA’s national recommended BAFs are just guidance, that they overestimate bioaccumulation and therefore lead to overly stringent HHC, and that they are insufficiently explained such that it is not possible to determine if they are appropriate for Washington. Some commenters asserted that both BAFs and BCFs are influenced by the local environment (e.g., food web structure, water temperature, dissolved carbon) and therefore cannot be based on a single set of assumptions for all waters. Regarding the comments supporting the use of BCFs, as explained in the 70 Revision of Certain Water Quality Standards Applicable to Washington, 81 FR 85417 (November 28, 2016). 71 Because the surveyed population upon which the 175 g/day FCR is based consumed almost exclusively trophic level four fish (i.e., predator fish species), EPA used the trophic level four BAF from the 2015 CWA section 304(a) HHC updates in conjunction with the 175 g/day FCR, in order to derive protective criteria. See Fish Consumption Survey of the Umatilla, Nez Perce, Yakama, and Warm Springs Tribes of the Columbia River Basin (CRITFC 1994). PO 00000 Frm 00037 Fmt 4700 Sfmt 4700 69191 proposed rule, the use of BCFs rather than BAFs, where BAF data are available, to calculate the HHC is inconsistent with sound scientific rationale on the bioaccumulation of pollutants. EPA has considered the comments received on its selected BAFs and reiterates its explanation in the proposed rule that it does not have new data or information to support an alternative to its 2016 decision to use the trophic level four BAFs, given that the species commonly consumed in Washington are trophic level four fish (e.g., salmon). For certain pollutants for which science-based BAFs are not currently available, EPA is finalizing HHC using the BCFs from its updated CWA section 304(a) recommended HHC for those pollutants as the best available scientific information. See Table 1, columns B4 and B5 of this preamble for a list of EPA’s bioaccumulation factors by pollutant. For detailed responses to all comments received, see EPA’s Response to Comment document in the docket for this rule. C. Final Human Health Criteria for Washington EPA is finalizing 141 HHC for 72 different pollutants (70 organism-only criteria and 71 water-plus-organism criteria) to protect the applicable designated uses of Washington’s waters (see Table 1 of this preamble). The final HHC are the same criteria that EPA promulgated in 2016. The water-plusorganism criteria in column C1 of Table 1 of this preamble, are the applicable criteria for any waters that include the Domestic Water use (domestic water supply) defined in Washington’s WQS (WAC 173–201A–600). The organismonly criteria in column C2 of Table 1 of this preamble, are the applicable criteria for any waters that do not include the Domestic Water use (domestic water supply) and that Washington defines at WAC 173–201A–600 and 173–201A– 610 as the following: • Fresh waters—Harvesting (fish harvesting), and Recreational Uses; • Marine waters—Shellfish Harvesting (shellfish—clam, oyster, and mussel—harvesting), Harvesting (salmonid and other fish harvesting, and crustacean and other shellfish—crabs, shrimp, scallops, etc.—harvesting), and Recreational Uses. BILLING CODE 6560–50–P E:\FR\FM\18NOR1.SGM 18NOR1 69192 Federal Register / Vol. 87, No. 222 / Friday, November 18, 2022 / Rules and Regulations Table 1. Final Human Health Criteria for Washington Chemical C CAS Number Cancer Slope Factor, CSF (per mg/kg·d) (Bl) Relative Source Contribution, RSC(-) (B2) Reference Dose,RID (mg/kg·d) (B3) Bioaccumulation Factor (L/kg tissue) (B4) Bioconcentratio n Factor (L/kg tissue) (BS) - 0.50 2 10 8.4 8.9 - 1 1, 1,1-Trichloroethane 71556 2 1, 1,2,2-Tetrachloroethane 79345 0.2 3 1, 1,2-Trichloroethane 79005 0.057 - - Water& Organism s (µg/L) (Cl) Organisms Only (µg/L) (C2) 20,000 50,000 0.1 0.3 0.35 0.90 4 1, 1-Dichloroethylene 75354 - 0.50 0.05 2.6 - 700 4,000 5 1,2,4-Trichlorobenzene 120821 0.029 - - 430 0.036 0.037 6 1,2-Dichlorobenzene 95501 - 0.50 0.3 82 - 700 800 7 1,2-Dichloroethane 107062 0.0033 - - 1.9 - 8.9 73 8 1,2-Diphenylhydrazine 122667 0.8 - - 27 0.01 0.02 9 1,2-Trans-Dichloroethylene 156605 0.50 0.02 4.7 200 1,000 to 1,3-Dichlorobenzene 541731 - 0.50 0.002 190 - 2 2 11 1,3-Dichloropropene 542756 0.122 - - 3.0 - 0.22 1.2 12 1,4-Dichlorobenzene 106467 200 200 10 10 0.07 84 120832 - 0.50 13 2,4-Dichlorophenol 0.50 0.003 48 - 14 2,4-Dinitrophenol 51285 - 0.50 0.002 4.4 - 30 100 15 2-Chloronaphthalene 91587 0.08 240 100 534521 0.50 0.0003 10 3 7 17 4,4'-DDD 72548 0.24 - - 240,000 - 100 16 2-Methyl-4,6-Dinitrophenol - 0.80 7.9E-06 7.9E-06 18 4,4'-DDE 72559 0.167 - - 3,100,000 - 8.8E-07 8.8E-07 19 4,4'-DDT 50293 0.34 - - 1,100,000 l.2E-06 83329 - 0.50 0.06 510 - 1.2E-06 20 iAcenaphthene 30 30 21 !Aldrin 309002 17 - - 650,000 - 4.IE-08 4.IE-08 22 alpha-BHC 319846 6.3 - - 1,500 - 4.8E-05 4.8E-05 23 alpha-Endosulfan 959988 0.006 200 7 0.50 0.3 610 - 6 120127 - 0.50 24 IAnthracene 100 100 25 !Antimony 7440360 - 0.50 0.0004 - 1 6 90 56553 0.73 - 3,900 0.00016 0.00016 27 Benzo(a) Pyrene 50328 7.3 28 Benzo(b) Fluoranthene 205992 0.73 29 Benzo(k) Fluoranthene 207089 0.073 - 3,900 - 0.0016 0.0016 30 beta-BHC 319857 1.8 - - 180 - 0.0013 0.0014 31 Bis(2-Ethylhexyl) Phthalate 117817 0.014 4.6 12 33 Butylbenzyl Phthalate 85687 0.0019 34 Chlordane 57749 0.35 60,000 35 Chlorobenzene 108907 - 0.50 0.02 22 - 0.046 0.0045 - 0.045 75252 - 710 32 Bromoform 36 Chlorodibromomethane 124481 0.04 - - 5.3 - 0.60 2.2 37 Chloroform 67663 - 0.50 0.01 3.8 100 600 38 Chrysene 218019 0.0073 - - 3,900 - 0.016 0.016 26 Benzo(a) Anthracene khammond on DSKJM1Z7X2PROD with RULES B VerDate Sep<11>2014 15:59 Nov 17, 2022 Jkt 259001 PO 00000 Frm 00038 Fmt 4700 Sfmt 4725 3,900 3,900 8.5 19,000 E:\FR\FM\18NOR1.SGM 18NOR1 l.6E-05 l.6E-05 0.00016 0.00016 0.013 0.013 2.2E-05 2.2E-05 100 200 ER18NO22.711</GPH> A Federal Register / Vol. 87, No. 222 / Friday, November 18, 2022 / Rules and Regulations 39 Cyanide 57125 - 0.50 0.0006 - 1 9 100 - - 3,900 - l.6E-05 l.6E-05 4.8 0.73 2.8 40 [)ibenzo(a,h) Anthracene 53703 7.3 41 [)ichlorobromomethane 75274 0.034 42 [)ieldrin 60571 16 - - 410,000 - 7.0E-08 7.0E-08 43 [)iethyl Phthalate 84662 0.50 0.8 920 200 200 44 [)imethyl Phthalate 131113 600 600 45 [)i-n-Butyl Phthalate 84742 - 8 8 0.50 10 4,000 0.50 0.1 2,900 - 1031078 - 0.50 0.006 140 - 9 - 47 f,ndrin 72208 0.80 0.0003 46,000 0.002 0.002 48 f,thylbenzene 100414 0.50 0.022 160 29 31 49 IFluoranthene 206440 0.50 0.04 1,500 6 6 50 IF!uorene 86737 10 10 0.43 0.43 3.4E-07 3.4E-07 46 f,ndosulfan Sulfate 51 gamma-BHC; Lindane 58899 - 0.50 0.04 710 0.50 0.0047 2,500 - - 330,000 - 52 IHeptachlor 76448 4.1 53 lf-leptachlor Epoxide 1024573 5.5 - - 35,000 - 2.4E-06 2.4E-06 54 Hexachlorobenzene 118741 1.02 - - 90,000 - 5.0E-06 5.0E-06 55 Hexachlorobutadiene 87683 0.04 - - 1,100 - 0.01 0.01 56 IHexachlorocyclopentadiene 77474 - 0.50 0.006 1,300 - 1 1 57 Hexachloroethane 67721 0.04 0.02 0.73 - 0.02 193395 - 600 58 Tndeno(l,2,3-cd) Pyrene 3,900 0.00016 0.00016 59 Methyl Bromide 74839 - 0.50 0.02 1.4 - 300 - 60 Methylene Chloride 75092 0.002 - - 1.6 - 10 100 7440020 - 0.50 0.02 - 47 80 100 98953 0.50 0.002 3.1 30 100 63 IPentachlorophenol (PCP) 87865 0.4 - - 520 0.002 0.002 64 IPhenol 108952 - 0.50 0.6 1.9 - 9,000 70,000 2 - - - 31,200 •7E-06 •7E-06 - 0.50 0.03 860 - 8 8 61 Nickel 62 Nitro benzene IPolychlorinated Biphenyls 65 (PCBs) 66 fyrene 129000 7782492 - 0.50 0.005 - 4.8 60 200 68 Tetrachloroethylene 127184 0.0021 - - 76 - 2.4 2.9 69 Toluene 108883 - 0.50 0.0097 17 - 72 130 79 Trichloroethylene 79016 0.05 0.7 1.7 - 0.3 1.5 - 13 75014 - - 0.18 7440666 - 0.50 0.3 - 47 1,000 1,000 67 Selenium 71 K,'inyl Chloride 72 ~inc This criterion applies to total PCBs (e.g., the sum of all congener or isomer or homolog or Aroclor analyses). BILLING CODE 6560–50–C D. Applicability Under the CWA, Congress gave states primary responsibility for developing and adopting WQS for their navigable waters (CWA section 303(a)–(c)). Although EPA is finalizing revised HHC for Washington, Washington continues to have the option to adopt and submit to EPA newly revised HHC for the State’s waters consistent with CWA section 303(c) and EPA’s implementing regulations at 40 CFR part 131. If, subsequent to this final rule, Washington adopts and submits revised VerDate Sep<11>2014 15:59 Nov 17, 2022 Jkt 259001 HHC, EPA’s federally promulgated criteria will remain applicable for purposes of the CWA until EPA withdraws the federally promulgated criteria (40 CFR 131.21(c)). EPA would undertake such a rulemaking to withdraw the Federal criteria if and when Washington adopts and EPA approves corresponding State criteria that meet the requirements of section 303(c) of the CWA and EPA’s implementing regulations at 40 CFR part 131. PO 00000 Frm 00039 Fmt 4700 Sfmt 4700 E. Alternative Regulatory Approaches and Implementation Mechanisms The Federal WQS regulation at 40 CFR part 131 provides several tools that Washington has available to use at its discretion when implementing or deciding how to implement these HHC. Among other things, EPA’s WQS regulation: (1) specifies how states and authorized tribes establish, modify, or remove designated uses (40 CFR 131.10); (2) specifies the requirements for establishing criteria to protect designated uses, including criteria modified to reflect site-specific E:\FR\FM\18NOR1.SGM 18NOR1 ER18NO22.712</GPH> a khammond on DSKJM1Z7X2PROD with RULES 69193 69194 Federal Register / Vol. 87, No. 222 / Friday, November 18, 2022 / Rules and Regulations conditions (40 CFR 131.11); (3) authorizes and provides a regulatory framework for states and authorized tribes to adopt WQS variances where it is not feasible to attain the applicable WQS at that time (40 CFR 131.14); and (4) allows states and authorized tribes to authorize the use of compliance schedules in National Pollutant Discharge Elimination System (NPDES) permits to meet water quality-based effluent limits (WQBELs) derived from the applicable WQS (40 CFR 131.15). Each of these approaches is discussed in more detail in the next sections. Whichever approach a state pursues, however, all NPDES permits would need to comply with EPA’s regulations at 40 CFR 122.44(d)(1)(i). khammond on DSKJM1Z7X2PROD with RULES a. Designated Uses EPA’s HHC apply to waters that Washington has designated for the following: • Fresh waters—Harvesting (fish harvesting), Domestic Water (domestic water supply), and Recreational Uses; • Marine waters—Shellfish Harvesting (shellfish—clam, oyster, and mussel—harvesting), Harvesting (salmonid and other fish harvesting, and crustacean and other shellfish—crabs, shrimp, scallops, etc.—harvesting), and Recreational Uses (see WAC 173–201A– 600 and WAC 173–201A–610). The Federal regulation at 40 CFR 131.10(g) provides requirements for establishing, modifying, and removing designated uses when attaining the use is not feasible based on one of the six factors specified in the regulation. If Washington removes a use and adopts the highest attainable use,72 the State must also adopt criteria to protect the newly designated highest attainable use consistent with 40 CFR 131.11. It is possible that criteria other than the federally promulgated criteria would protect the highest attainable use. If EPA found removal or modification of the designated use and the adoption of the highest attainable use and criteria to protect that use to be consistent with CWA section 303(c) and the implementing regulation at 40 CFR part 131, the agency would approve the 72 If a state or authorized tribe adopts a new or revised WQS based on a required use attainability analysis, then it must also adopt the highest attainable use (40 CFR 131.10(g)). The highest attainable use is the modified aquatic life, wildlife, or recreation use that is both closest to the uses specified in section 101(a)(2) of the CWA and attainable, based on the evaluation of the factor(s) in 40 CFR 131.10(g) that preclude(s) attainment of the use and any other information or analyses that were used to evaluate attainability. There is no required highest attainable use where the state demonstrates the relevant use specified in section 101(a)(2) of the Act and sub-categories of such a use are not attainable (see 40 CFR 131.3(m)). VerDate Sep<11>2014 15:59 Nov 17, 2022 Jkt 259001 revised WQS. EPA would then undertake a rulemaking to withdraw the corresponding Federal WQS for the relevant water(s). b. WQS Variances Washington’s WQS provide authority to apply WQS variances when implementing federally promulgated HHC, as long as such WQS variances are adopted consistent with 40 CFR 131.14 and submitted to EPA for review under CWA section 303(c). The Federal regulation at 40 CFR 131.3(o) defines a WQS variance as a time-limited designated use and criterion, for a specific pollutant or water quality parameter, that reflects the highest attainable condition during the term of the WQS variance. A WQS variance may be appropriate if attaining the use and criterion would not be feasible during the term of the WQS variance because of one of the seven factors specified in 40 CFR 131.14(b)(2)(i)(A). These factors include a situation where NPDES permit limits more stringent than technologybased controls would result in substantial and widespread economic and social impact. WQS variances adopted in accordance with 40 CFR 131.14 (including a public hearing consistent with 40 CFR 25.5) provide a flexible but defined pathway for states and authorized tribes to issue NPDES permits with limits that are based on the highest attainable condition during the term of the WQS variance. This allows dischargers to make water quality improvements when the WQS is not immediately attainable but may be in the future. When adopting a WQS variance, states and authorized tribes specify the interim requirements of the WQS variance by identifying a quantitative expression that reflects the highest attainable condition (HAC) during the term of the WQS variance, establishing the term of the WQS variance, and describing the pollutant control activities expected to occur over the specified term of the WQS variance. WQS variances provide a legal avenue by which NPDES permit limits can be written to comply with the WQS variance rather than the underlying WQS for the term of the WQS variance. If dischargers are still unable to meet the WQBELs derived from the applicable WQS once a WQS variance term is complete, the regulation allows the State to adopt a subsequent WQS variance if it is adopted consistent with 40 CFR 131.14. EPA is finalizing HHC that apply to use designations that Washington has already established. Washington’s WQS regulations currently include provisions to use WQS variances when implementing PO 00000 Frm 00040 Fmt 4700 Sfmt 4700 criteria (see WA 173–210A–420), as long as such WQS variances are adopted consistent with 40 CFR 131.14 and approved by EPA. Washington may use the State’s EPA-approved WQS variance procedures when adopting such WQS variances. c. NPDES Permit Compliance Schedules EPA’s regulations at 40 CFR 122.47 and 131.15 address how permitting authorities can use schedules for compliance with a limit in the NPDES permit if the discharger needs additional time to undertake actions like facility upgrades or operation changes to meet a WQBEL based on the applicable WQS. EPA’s regulation at 40 CFR 122.47 allows a permitting authority to include a compliance schedule in the NPDES permit, when appropriate and where authorized by the state, to provide a discharger with additional time to meet a WQBEL implementing applicable WQS. EPA’s regulation at 40 CFR 131.15 requires that a state that intends to allow the use of NPDES permit compliance schedules adopt specific provisions authorizing their use and obtain EPA approval under CWA section 303(c) to ensure that a decision to allow a permit compliance schedule is transparent and allows for public input.73 EPA has approved Washington’s State law provision authorizing the use of permit compliance schedules (see WAC–173– 201A–510(4)), consistent with 40 CFR 131.15. Washington’s compliance schedule authorizing provision is not affected by this rule. Washington is authorized to grant permit compliance schedules, as appropriate, based on the Federal HHC in Washington, if such permit compliance schedules are consistent with EPA’s permitting regulation at 40 CFR 122.47. IV. Economic Analysis EPA focused its economic analysis on the potential cost impacts to current holders of individual NPDES permits (point sources) and the costs the State of Washington may bear to develop Total Maximum Daily Loads (TMDLs) for waters newly identified as impaired under CWA section 303(d) using the revised WQS. Costs might also arise to holders of general permits 74 should the State modify those permits in some manner as a result of the revised WQS. Costs might also arise to sectors whose operations are nonpoint sources of pollutants through implementation of TMDLs or through other voluntary, 73 80 FR 51022 (August 21, 2015). permits typically focus on best management practices. 74 General E:\FR\FM\18NOR1.SGM 18NOR1 Federal Register / Vol. 87, No. 222 / Friday, November 18, 2022 / Rules and Regulations incentivized, or State-imposed controls. This rule does not directly regulate nonpoint sources and under the CWA states are responsible for the regulation of nonpoint sources. EPA recognizes that controls for nonpoint sources may be part of future TMDLs, but any such future decisions will be made by the State. Nonpoint sources are intermittent, variable, and occur under hydrologic or climatic conditions associated with precipitation events. Data to model and evaluate the potential cost impacts associated with nonpoint sources were not available and any estimate would be too uncertain to be informative. EPA also did not estimate potential sediment remediation costs for this analysis. These WQS may serve as a basis for development of NPDES permit limits. Washington has NPDES permitting authority and retains considerable discretion in implementing standards. EPA evaluated the potential costs to NPDES dischargers associated with State implementation of EPA’s criteria. This analysis is documented in ‘‘Economic Analysis for Restoring Protective Human Health Criteria in Washington,’’ which can be found in the record for this rule. Any NPDESpermitted facility that discharges pollutants for which the revised HHC are more stringent than the applicable aquatic life criteria (or for which HHC are the only applicable criteria) could potentially incur compliance costs. The types of affected facilities could include industrial facilities and POTWs discharging wastewater to surface waters (i.e., point sources). A. Identifying Affected Entities EPA identified 406 point source facilities that could ultimately be 69195 affected by this rule. Of these potentially affected facilities, 73 are major dischargers and 333 are minor dischargers. EPA did not include general permit facilities in its analysis because data for such facilities are limited and requirements typically focus on best management practices. Of the potentially affected facilities, EPA evaluated a sample of 18 major facilities. Minor facilities are less likely to incur costs as a result of implementation of the rule because of the reduced potential for significant presence of toxic pollutants in their effluent. EPA did not have effluent data on toxic pollutants to evaluate minor facilities for this analysis. Table 2 summarizes these potentially affected facilities by type and category. TABLE 2—POTENTIALLY AFFECTED FACILITIES khammond on DSKJM1Z7X2PROD with RULES Category Minor Major All Municipal ...................................................................................................................................... Industrial ...................................................................................................................................... 169 164 44 29 213 193 Total ...................................................................................................................................... 333 73 406 B. Method for Estimating Costs EPA evaluated the two major municipal facilities with design flows greater than 100 mgd and the largest industrial facility, to attempt to capture the facilities with the potential for the largest costs. For the remaining major facilities, EPA evaluated a random sample of facilities to represent discharger type and category. For all sample facilities, EPA evaluated existing baseline permit conditions, reasonable potential to exceed HHC based on the rulemaking, and potential to exceed projected effluent limitations based on the last three years of effluent monitoring data (if available). Only compliance actions and costs that would be needed above the baseline level of controls are attributable to the rulemaking. EPA assumes that dischargers would pursue the least cost means of compliance with WQBELs. Compliance actions attributable to the rulemaking may include pollution prevention, endof-pipe treatment, and alternative compliance mechanisms (e.g., WQS variances). EPA annualizes capital costs, including study (e.g., WQS variance) and program (e.g., pollution prevention) costs, over 20 years using discount rates of 3 percent and 7 percent to obtain total annual costs per facility. To obtain an estimate of total costs to point sources, VerDate Sep<11>2014 15:59 Nov 17, 2022 Jkt 259001 EPA extrapolates the annualized costs for the random sample based on the flow volume for the sample facilities and the flow volume for all facilities. C. Results Based on the results for 18 sample facilities across 10 industrial and municipal categories,75 EPA did not identify any incremental costs to any major point source discharges of process wastewater from POTWs or industrial facilities attributable to EPA’s criteria revisions. This does not mean that EPA anticipates there would be no costs to point sources over time to implement controls or modify processes to meet future permit limits, only that available data do not indicate the immediate need for the facilities evaluated. It would be highly speculative to attempt to estimate potential costs either based on the possibility of measuring pollutant levels at lower levels as a result of future requirements or future technology, or based on changes to facility operations or practices. Should the need to consider advanced treatment or other substantial costs arise in the future, 75 Ten industrial categories (coal mining, food and kindred products, paper and allied products, chemicals and allied products, petroleum refining and related industries, primary metal industries, fabricated metal products, electric, gas and sanitary services, and national security and international affairs) and municipal POTWs. PO 00000 Frm 00041 Fmt 4700 Sfmt 4700 there are mechanisms such as WQS variances in place which may consider cost and feasibility in the application of protective criteria, and alternative permit limits may be derived to avoid excessive costs. EPA will work with the State of Washington and with stakeholders on a continuing basis to assess the possibility of economically significant future costs of compliance. If such costs arise, EPA will provide guidance for applying alternative compliance mechanisms to minimize costs. One important contributing factor to examining point source costs is the limitations of required analytical methods to measure chemical concentrations in effluents. Nearly half of pollutant parameters addressed in this rule have analytical quantitation limits that are above both the criteria currently in place and EPA’s criteria. PCBs are a good example. The current criterion in place is 170 picograms per liter (pg/L) and EPA’s criterion is 7 pg/ L. However, the State identifies the analytical detection limit for effluent measurement as 65,000 pg/L as the means to evaluate compliance. EPA has completed a multi-laboratory validation of a new analytical method for PCBs (method 1628) that has an average analytical quantitation limit for each PCB congener of approximately 2,000 E:\FR\FM\18NOR1.SGM 18NOR1 69196 Federal Register / Vol. 87, No. 222 / Friday, November 18, 2022 / Rules and Regulations pg/L, which is a substantial improvement over the current regulatory method, but still well above either the criterion currently in place or EPA’s criterion. As a general matter, analytical methods and quantitation limits are subject to change over time. As such, it is important that WQS reflect the necessary level of protection regardless of contemporary limitations of analytical methods. EPA also evaluated potential administrative costs to the State for developing additional TMDLs under CWA section 303(d) for any waters that are newly identified as impaired as a result of EPA’s criteria. Using available ambient monitoring data, EPA compared pollutant concentrations to the baseline and revised criteria, identifying waterbodies that may be incrementally impaired (i.e., impaired under EPA’s criteria but not under the baseline). EPA identified 32 impairments under the baseline criteria and 61 under the revised criteria, resulting in 29 potential incremental impairments. The estimated total annual costs for TMDL development range from $100,000 to $182,000, at a 3 percent discount rate, based on single-cause single-waterbody TMDL development costs. Actual costs may be reduced if the State develops multi-cause or multiwaterbody TMDLs. V. Statutory and Executive Order Reviews Additional information about these statutes and Executive orders can be found at https://www.epa.gov/lawsregulations/laws-and-executive-orders. A. Executive Order 12866: Regulatory Planning and Review and Executive Order 13563: Improving Regulation and Regulatory Review This action is not a significant regulatory action and was therefore not submitted to the Office of Management and Budget (OMB) for review. khammond on DSKJM1Z7X2PROD with RULES B. Paperwork Reduction Act (PRA) This action does not impose any new information collection burden under the PRA. While actions to implement these WQS could entail additional paperwork burden, this action does not directly contain any information collection, reporting, or record-keeping requirements. OMB has previously approved the information collection activities contained in the existing regulation at 40 CFR part 131 and has assigned OMB control number 2040– 0049. VerDate Sep<11>2014 15:59 Nov 17, 2022 Jkt 259001 C. Regulatory Flexibility Act (RFA) I certify that this action will not have a significant economic impact on a substantial number of small entities under the RFA. This action will not impose any requirements on small entities. Small entities, such as small businesses or small governmental jurisdictions, are not directly regulated by this rule. EPA-promulgated WQS are implemented through various water quality control programs including the NPDES program, which limits discharges to navigable waters except in compliance with a NPDES permit. CWA section 301(b)(1)(C) and EPA’s implementing regulations at 40 CFR 122.44(d)(1) introductory text and (d)(1)(i) provide that all NPDES permits shall include any limits on discharges that are necessary to meet applicable WQS. Thus, under the CWA, EPA’s promulgation of WQS establishes standards that the State implements through the NPDES permit process. While the State has discretion in developing discharge limits, as needed to meet the WQS, those limits, per regulations at 40 CFR 122.44(d)(1)(i), ‘‘must control all pollutants or pollutant parameters (either conventional, nonconventional, or toxic pollutants) which the Director determines are or may be discharged at a level that will cause, have the reasonable potential to cause, or contribute to an excursion above any [s]tate water quality standard, including [s]tate narrative criteria for water quality.’’ As a result of this action, the State of Washington will need to ensure that permits it issues include any limitations on discharges necessary to comply with the WQS established in this final rule. In doing so, the State will have a number of choices associated with permit writing. While Washington’s implementation of the rule may ultimately result in new or revised permit conditions for some dischargers, including small entities, EPA’s action, by itself, does not impose any of these requirements on small entities; that is, these requirements are not self-implementing. D. Unfunded Mandates Reform Act (UMRA) This action does not contain any unfunded mandate as described in UMRA, 2 U.S.C. 1531–1538, and does not significantly or uniquely affect small governments. The action imposes no enforceable duty on any state, local, or tribal governments or the private sector. E. Executive Order 13132: Federalism Under the technical requirements of Executive Order 13132, the EPA has PO 00000 Frm 00042 Fmt 4700 Sfmt 4700 determined that this rule may not have federalism implications but believes that the consultation requirements of the Executive order have been satisfied in any event. This rule does not alter Washington’s considerable discretion in implementing these WQS, nor does it preclude Washington from adopting WQS that EPA concludes meet the requirements of the CWA after promulgation of this final rule. F. Executive Order 13175: Consultation and Coordination With Indian Tribal Governments This action has tribal implications. However, it will neither impose substantial direct compliance costs on federally recognized tribal governments, nor preempt tribal law. This rule could affect federally recognized Indian tribes in Washington because the numeric criteria for Washington will apply to waters adjacent to (or upstream or downstream of) the tribal waters. Additionally, there are six federally recognized Indian tribes in the Columbia River Basin located in the States of Oregon and Idaho that this rule could affect because their waters could affect or be affected by the water quality of Washington’s downstream or upstream waters. EPA consulted with tribal governments under the EPA Policy on Consultation and Coordination with Indian Tribes early in the process of developing this regulation to ensure meaningful and timely input into its development. In August 2021, EPA held coordination and consultation sessions with tribal environmental staff and leadership to share information, hear their views and answer questions on the rulemaking. Representatives from 17 tribes and two tribal consortia participated in two leadership meetings with EPA held in August 2021. Additionally, EPA conducted tribal consultation and coordination activities on the proposed rulemaking from March 29, 2022, through June 3, 2022. During these meetings, the tribes repeatedly asked EPA to reinstate the 2016 Federal HHC for Washington, which EPA is doing in this final rule. A Summary of EPA’s Consultation, Coordination, and Outreach with Federally Recognized Tribes on the Restoration of Protective Human Heath Criteria for Washington is available in the docket for this final rule. G. Executive Order 13045: Protection of Children From Environmental Health Risks and Safety Risks This action is not subject to Executive Order 13045 because it is not economically significant as defined in E:\FR\FM\18NOR1.SGM 18NOR1 Federal Register / Vol. 87, No. 222 / Friday, November 18, 2022 / Rules and Regulations Executive Order 12866, and because the EPA does not believe the environmental health or safety risks addressed by this action present a disproportionate risk to children. This action’s health and risk assessments are contained in section II.B of this preamble, in which EPA recommends that HHC be designed to reduce the risk of adverse cancer and non-cancer effects occurring from lifetime exposure to pollutants through the ingestion of drinking water and consumption of fish/shellfish obtained from inland and nearshore waters. EPA’s HHC for Washington are similarly based on reducing the chronic health effects occuring from lifetime exposure and therefore are expected to be protective of a person’s exposure during both childhood and adult years. H. Executive Order 13211: Actions That Significantly Affect Energy Supply, Distribution, or Use This action is not subject to Executive Order 13211, because it is not a significant regulatory action under Executive Order 12866. This action establishes CWA HHC for waters under the State of Washington’s jurisdiction. I. National Technology Transfer and Advancement Act of 1995 This rule does not involve technical standards. J. Executive Order 12898: Federal Actions To Address Environmental Justice in Minority Populations and Low-Income Populations EPA believes that this action does not have disproportionately high and adverse human health or environmental effects on minority populations, lowincome populations and/or Indigenous peoples, as specified in Executive Order 12898 (59 FR 7629, February 16, 1994). The documentation for this decision is contained below. khammond on DSKJM1Z7X2PROD with RULES 1. Introduction EPA defines Environmental Justice (EJ) as the fair treatment and meaningful involvement of all people regardless of race, color, national origin, or income with respect to the development, implementation and enforcement of environmental laws, regulations and policies.76 Three Executive orders (E.O. 76 Fair treatment means that ‘‘no group of people should bear a disproportionate burden of environmental harms and risks, including those resulting from the negative environmental consequences of industrial, governmental and commercial operations or programs and policies.’’ Meaningful involvement occurs when ‘‘(1) potentially affected populations have an appropriate opportunity to participate in decisions about a proposed activity [e.g., rulemaking] that will affect their environment and/or health; (2) the VerDate Sep<11>2014 15:59 Nov 17, 2022 Jkt 259001 12898,77 13985,78 and 14008 79) advance EJ by calling on Federal agencies to identify and address disproportionate impacts on historically underserved, marginalized, and economically disadvantaged people. Additionally, EPA has expressed a commitment to conducting EJ analyses for rulemakings as described in the April 30, 2021, revisions to the Cross-State Air Pollution Rule (CSAPR).80 EPA believes that this rule is not expected to have disproportionately high and adverse human health or environmental effects on low-income populations, people of color, or tribal populations, as specified in Executive Order 12898 (59 FR 7629, February 16, 1994). In its economic impact analysis, EPA only estimates administrative costs to the State of Washington to develop TMDLs and no incremental costs to point source discharges based on available data, as explained above in section IV of this preamble. Therefore, EPA does not anticipate that this rule will impose any additional costs or other negative impacts on tribes or other low income or disadvantaged communities. public’s contribution can influence [the EPA’s rulemaking] decision; (3) the concerns of all participants involved will be considered in the decision-making process; and (4) [the EPA will] seek out and facilitate the involvement of those potentially affected.’’ A potential EJ concern is defined as ‘‘the actual or potential lack of fair treatment or meaningful involvement of minority populations, low-income populations, tribes, and tribal peoples in the development, implementation and enforcement of environmental laws, regulations and policies.’’ See ‘‘Guidance on Considering Environmental Justice During the Development of an Action,’’ Environmental Protection Agency, www.epa.gov/environmentaljustice/ guidanceconsidering-environmental-justiceduringdevelopment-action. See also https:// www.epa.gov/environmentaljustice. 77 Federal Actions to Address Environmental Justice in Minority Populations and Low-Income Populations. Available at https://www.epa.gov/ environmentaljustice/federal-actions-addressenvironmental-justice-minority-populations-andlow, accessed October 6, 2021. 78 Advancing Racial Equity and Support for Underserved Communities Through the Federal Government (86 FR 7009, January 25, 2021). Available at https://www.federalregister.gov/ documents/2021/01/25/2021-01753/advancingracial-equity-and-support-for-underservedcommunities-through-the-federal-government, accessed October 6, 2021. 79 Tackling the Climate Crisis at Home and Abroad (86 FR 7619, February 1, 2021). Available at https://www.federalregister.gov/documents/2021/ 02/01/2021-02177/tackling-the-climate-crisis-athome-and-abroad, accessed October 6, 2021. 80 86 FR 23054, 23162 (April 30, 2021) (‘‘Going forward, EPA is committed to conducting environmental justice analysis for rulemakings based on a framework similar to what is outlined here, in addition to investigating ways to further weave environmental justice into the fabric of the rulemaking process including through enhanced meaningful engagement with environmental justice communities.’’). PO 00000 Frm 00043 Fmt 4700 Sfmt 4700 69197 Instead, this action identifies and ameliorates disproportionately high and adverse human health effects on tribal communities, people of color and lowincome populations in Washington by restoring HHC in Washington that are based on sound scientific rationale and protect high fish consumers. Many groups in Washington, such as Asian, Pacific Islanders, and subsistence and recreational tribal and non-tribal fishers consume large amounts of fish and shellfish as part of traditionally influenced diets.81 The 2019 Reconsidered HHC currently expose these high fish consumers to greater risk from toxic pollutants because the criteria do not accurately account for pollutant bioaccumulation into fish and expose fish consumers to a greater risk of cancer from PCB exposure. Environmental impacts to tribes may be considered under the category of EJ in recognition that tribes may at times be among the disadvantaged communities disproportionately impacted by environmental degradation. Where tribal communities are part of a larger non-tribal community, many of the EJ considerations are very similar to those of other disadvantaged groups. However, there is a very unique set of EJ considerations for tribes, particularly in this context where tribes are exercising their cultural practices and treaty-reserved rights outside of their reservations on state waters. While the overall impacts to communities with EJ concerns are improved as a result of this rule, by relying on the fish consumption rates based on tribal data, this rule helps ensure that tribal members, in particular, and their treaty-protected activities and resources are protected.82 Specifically, this rule establishes HHC based on an FCR of 175 g/day reflective of regional tribal FCR survey data 83 to represent and protect higher fish consumers. In conjunction with the FCR, the rule uses a CRL of 10¥6 to 81 Department of Ecology. Fish Consumption Rates: Technical Support Document, A Review of Data and Information about Fish Consumption in Washington, Version 2.0 Final. January 2013. Ecology Publication No. 12–09–058, p.18. https:// apps.ecology.wa.gov/publications/documents/ 1209058.pdf. 82 80 FR 55063 (September 14, 2015) (‘‘In Washington, many tribes hold reserved rights to take fish for subsistence, ceremonial, religious, and commercial purposes, including treaty-reserved rights to fish at all usual and accustomed fishing grounds and stations in waters under state jurisdiction, which cover the majority of waters in the state. Such rights include not only a right to take those fish, but necessarily include an attendant right to not be exposed to unacceptable health risks by consuming those fish.’’). 83 Fish Consumption Survey of the Umatilla, Nez Perce, Yakama, and Warm Springs Tribes of the Columbia River Basin (CRITFC 1994). E:\FR\FM\18NOR1.SGM 18NOR1 69198 Federal Register / Vol. 87, No. 222 / Friday, November 18, 2022 / Rules and Regulations khammond on DSKJM1Z7X2PROD with RULES derive HHC for all cancer-causing pollutants, including PCBs, a rate which is protective of tribal members exercising their legal right to harvest and consume fish and shellfish at the 175 g/day level. Central to working with tribes on their environmental issues and opportunities is government to government consultation, which is consistent with Executive Order 13175 (65 FR 67249, November 6, 2000). To ensure that this rule considers the interests and perspective of tribes, EPA engaged with tribes that may be affected by this action to receive meaningful and timely input from tribal officials. See section V.F of this preamble for a summary of tribal consultation. In addition to Executive Orders 12898 and 13175, and in accordance with Title VI of the Civil Rights Act of 1964, each Federal agency shall ensure that all programs or activities receiving Federal financial assistance that affect human health or the environment do not directly, or through contractual or other arrangements, use criteria, methods, or practices that discriminate on the basis of race, color, or national origin. With that directive in mind, in August 2011 VerDate Sep<11>2014 15:59 Nov 17, 2022 Jkt 259001 the Environmental Justice Interagency Working Group established a Title VI Committee to address the intersection of agencies’ environmental justice efforts with their Title VI enforcement and compliance responsibilities. If Washington receives Federal funds for CWA implementation, they are legally prohibited from discriminating on the basis of race, color or national origin under Title VI when engaging in CWA implementation activities. Additionally, and in compliance with Executive Order 12898, EPA expects that Washington will consider disproportionately high adverse human health and environmental effects on minority and low-income populations when implementing this rule under the CWA. K. Congressional Review Act (CRA) This action is subject to the CRA, and EPA will submit a rule report to each House of the Congress and to the Comptroller General of the United States. This action is not a ‘‘major rule’’ as defined by 5 U.S.C. 804(2). List of Subjects in 40 CFR Part 131 Environmental protection, Indianslands, Intergovernmental relations, PO 00000 Frm 00044 Fmt 4700 Sfmt 4700 Reporting and recordkeeping requirements, Water pollution control. Michael S. Regan, Administrator. For the reasons set forth in the preamble, EPA amends 40 CFR part 131 as follows: PART 131—WATER QUALITY STANDARDS 1. The authority citation for part 131 continues to read as follows: ■ Authority: 33 U.S.C. 1251 et seq. Subpart D—Federally Promulgated Water Quality Standards 2. Amend § 131.45 by revising paragraph (b) to read as follows: ■ § 131.45 Revision of certain Federal water quality criteria applicable to Washington. * * * * * (b) Criteria for priority toxic pollutants in Washington. The applicable human health criteria are shown in table 1 to this paragraph (b). BILLING CODE 6560–50–P E:\FR\FM\18NOR1.SGM 18NOR1 69199 Federal Register / Vol. 87, No. 222 / Friday, November 18, 2022 / Rules and Regulations Table 1 to Paragraph (b}-Human Health Criteria for Washington B Chemical Cancer Slope Factor, CSF (per mg/kg·d) (Bl) Relative Source Contribution, RSC(-) (B2) Reference Dose, RID (mg/kg·d) (B3) Bioaccumulatio n Factor (L/kg tissue) (B4) Bioconcentratio n Factor (L/kg tissue) (B5) Water& Organisms (µg/L) (Cl) Organism sOnly (µg/L) (C2) 20,000 50,000 0.1 0.3 1 1, 1, I-Trichloroethane 71556 - 0.50 2 10 2 1, 1,2,2-Tetrachloroethane 79345 0.2 - 8.4 8.9 - 0.35 0.90 0.05 2.6 - 700 4,000 3 1, 1,2-Trichloroethane 79005 0.057 - 4 1,1-Dichloroethylene 75354 - 0.50 5 1,2,4-Trichlorobenzene 120821 0.029 - - 430 - 0.036 0.037 6 1,2-Dichlorobenzene 95501 - 0.50 0.3 82 800 7 1,2-Dichloroethane 107062 0.0033 8 122667 0.8 - - 1.9 1,2-Diphenylhydrazine 9 1,2-Trans-DichloroethyJene 156605 - 0.50 0.02 4.7 - 700 10 1,3-Dichlorobenzene 541731 - 0.50 0.002 190 - 2 2 11 1,3-Dichloropropene 542756 0.122 - - 3.0 - 0.22 1.2 12 1,4-Dichlorobenzene 106467 - 0.50 0.07 84 200 0.003 48 10 10 0.50 0.002 4.4 30 100 0.80 0.08 240 - 200 0.50 100 100 13 2,4-Dichlorophenol khammond on DSKJM1Z7X2PROD with RULES CAS Number C 120832 27 8.9 73 0.01 0.02 200 1,000 14 2,4-Dinitrophenol 51285 15 2-Chloronaphthalene 91587 16 2-Methyl-4,6-Dinitrophenol 534521 - 0.50 0.0003 10 - 3 7 17 4,4'-DDD 72548 0.24 - - 240,000 - 7.9E-06 7.9E-06 18 4,4'-DDE 72559 0.167 - - 3,100,000 - 8.8E-07 8.8E-07 19 4,4'-DDT 50293 0.34 - - 1,100,000 - 1.2E-06 l.2E-06 20 Acenaphthene 83329 - 0.50 0.06 510 30 30 4.lE-08 4.lE-08 4.8E-05 4.8E-05 959988 - 0.50 0.006 200 - 24 Anthracene 120127 - 0.50 0.3 610 - 25 Antimony 7440360 - 0.50 0.0004 - 1 6 90 26 Arsenic* 7440382 1.75 - - - 44 •0.018 •0.14 21 Aldrin 309002 17 alpha-BHC 319846 6.3 - - 650,000 22 23 alpha-Endosulfan VerDate Sep<11>2014 15:59 Nov 17, 2022 Jkt 259001 PO 00000 Frm 00045 Fmt 4700 Sfmt 4725 1,500 E:\FR\FM\18NOR1.SGM 18NOR1 6 7 100 100 ER18NO22.713</GPH> A Federal Register / Vol. 87, No. 222 / Friday, November 18, 2022 / Rules and Regulations A Chemical B CAS Number Cancer Slope Factor, CSF (per mg/kg·d) (Bl) Relative Source Contribution, RSC(-) (B2) Reference Dose, RID (mg/kg·d) (B3) Bioaccumulatio n Factor (L/kg tissue) (B4) Bioconcentratio n Factor (L/kg tissue) (BS) Water& Organisms (µg/L) (Cl) Organism sOnly (µg/L) (C2) 27 Benzo(a) Anthracene 56553 0.73 - - 3,900 - 0.00016 0.00016 28 Benzo(a) Pyrene 50328 7.3 - - 3,900 - l.6E-05 l.6E-05 29 Benzo(b) Fluoranthene 205992 0.73 - - 3,900 - 0.00016 0.00016 30 Benzo(k) Fluoranthene 207089 0.073 - - 3,900 - 0.0016 0.0016 319857 1.8 - - 180 - 0.0013 0.0014 Bis(2-Chloro-1-Methylethyl) 32 Ether** 108601 - 0.50 0.04 10 - 400 900 33 Bis(2-Ethylhexyl) Phthalate 117817 0.014 - - 710 - 0.045 0.046 34 Bromoform 75252 0.0045 12 85687 0.0019 57749 0.35 60,000 - 4.6 36 Chlordane - 8.5 35 Butylbenzyl Phthalate - 31 beta-BHC 19,000 0.013 0.013 2.2E-05 2.2E-05 37 Chlorobenzene 108907 - 0.50 0.02 22 - 100 200 38 Chlorodibromomethane 124481 0.04 - - 5.3 - 0.60 2.2 39 Chloroform 67663 - 0.50 o.oi 3.8 - 100 600 40 Chrysene 218019 0.0073 - - 3,900 - 0.016 0.016 57125 - 0.50 0.0006 - 1 9 100 53703 7.3 l.6E-05 75274 0.034 60571 16 410,000 - l.6E-05 44 Dieldrin - 3,900 43 Dichlorobromomethane - 45 Diethyl Phthalate 84662 - 0.50 0.8 920 - 200 200 46 Dimethyl Phthalate 131113 0.50 10 4,000 600 600 0.50 0.1 2,900 0.50 0.006 140 0.80 0.0003 46,000 0.50 0.022 160 - 0.04 1,500 41 Cyanide 42 Dibenzo(a,h) Anthracene 4.8 49 Endrin 72208 50 Ethylbenzene 100414 - Fluoranthene 206440 - 0.50 52 Fluorene 86737 0.04 710 58899 - 0.50 53 gamma-BHC; Lindane 0.50 0.0047 2,500 47 Di-n-Butyl Phthalate 48 Endosulfan Sulfate 51 84742 1031078 0.73 2.8 7.0E-08 7.0E-08 8 8 9 - 0.002 0.002 29 31 - 6 6 10 10 0.43 0.43 76448 4.1 - - 330,000 - 3.4E-07 3.4E-07 55 Heptachlor Epoxide 1024573 5.5 - - 35,000 - 2.4E-06 2.4E-06 56 Hexachlorobenzene 118741 1.02 - - 90,000 - 5.0E-06 5.0E-06 57 Hexachlorobutadiene 87683 0.04 - - 1,100 - 0.01 0.01 54 Heptachlor 58 Hexachlorocyclopentadiene 77474 - 0.50 0.006 1,300 - 1 1 59 Hexachloroethane 67721 0.04 0.73 3,900 0.00016 0.00016 Methyl Bromide 74839 - 0.50 0.02 1.4 62 Methylene Chloride 75092 0.002 - - 1.6 - 0.02 193395 - 0.02 60 Indeno(l,2,3-cd) Pyrene - 600 22967926 - 2.7E-05 0.0001 - - 7440020 - 0.50 0.02 - 47 61 khammond on DSKJM1Z7X2PROD with RULES C 63 Methylmercury 64 Nickel VerDate Sep<11>2014 15:59 Nov 17, 2022 Jkt 259001 PO 00000 Frm 00046 Fmt 4700 Sfmt 4725 E:\FR\FM\18NOR1.SGM 18NOR1 300 - 10 - 100 b0.03 (mg/kg) 80 100 ER18NO22.714</GPH> 69200 69201 Federal Register / Vol. 87, No. 222 / Friday, November 18, 2022 / Rules and Regulations A Chemical B CAS Number Cancer Slope Factor, CSF (per mg/kg·d) (Bl) Relative Source Contribution, RSC(-) (B2) Reference Dose, RID (mg/kg·d) (B3) Bioconcentratio n Factor (L/kg tissue) (BS) 30 JOO 0.002 0.002 9,000 70,000 <7E-06 <7E-06 Water& Organisms (µg/L) (Cl) Organism sOnly (µ,g/L) (C2) 98953 - 0.50 0.002 3.1 66 Pentachlorophenol (PCP) 87865 0.4 - - 520 67 Phenol 108952 - 0.50 0.6 1.9 - 2 - - - 31,200 - 0.50 0.03 860 - 8 8 7782492 0.50 0.005 - 4.8 60 200 2.4 2.9 72 130 69 Pyrene 129000 70 Selenium 71 Tetrachloroethylene 127184 0.0021 - - 76 72 Toluene l08883 - 0.50 0.0097 17 73 Trichloroethylene 79016 0.05 - - 13 - 0.3 0.7 74 Vinyl Chloride 75014 1.5 - - 1.7 - - 0.18 7440666 - 0.50 0.3 - 47 1,000 1,000 75 Zinc a This criterion refers to the inorganic form of arsenic only. b This criterion is expressed as the fish tissue concentration ofmethylmercury (mg methylmercury/kg fish). See Water Quality Criterion for the Protection ofHuman Health: Methylmercury (EPA-823-R-01-001, January 3, 2001) for how this value is calculated using the criterion equation in EPA's 2000 Human Health Methodology rearranged to solve for a protective concentration in fish tissue rather than in water. C This criterion applies to total PCBs (e.g., the sum of all congener or isomer or homo log or Aroclor analyses). .. These criteria were promulgated for Washington in the National Toxics Rule at§ 131.36, and are moved into § 131.45 to have one comprehensive human health criteria rule for Washin!!ton . Bis(2-Chloro-1-Methylethyl) Ether was previously listed as Bis(2-Chloroisopropyl) Ether. * * * 178 (see also Unit I.C. of the * [FR Doc. 2022–25150 Filed 11–17–22; 8:45 am] SUPPLEMENTARY INFORMATION). BILLING CODE 6560–50–C ADDRESSES: ENVIRONMENTAL PROTECTION AGENCY 40 CFR Part 180 [EPA–HQ–OPP–2021–0387; FRL–10030–01– OCSPP] Cyclaniliprole; Pesticide Tolerances Environmental Protection Agency (EPA). ACTION: Final rule. AGENCY: This regulation establishes tolerances for residues of cyclaniliprole in or on multiple crops that are identified and discussed later in this document. Interregional Research Project Number 4 (IR–4) requested these tolerances under the Federal Food, Drug, and Cosmetic Act (FFDCA). DATES: This regulation is effective November 18, 2022. Objections and requests for hearings must be received on or before January 17, 2023, and must be filed in accordance with the instructions provided in 40 CFR part SUMMARY: VerDate Sep<11>2014 15:59 Nov 17, 2022 Jkt 259001 I. General Information The docket for this action, identified by docket identification (ID) number EPA–HQ–OPP–2021–0387, is available at https://www.regulations.gov or at the Office of Pesticide Programs Regulatory Public Docket (OPP Docket) in the Environmental Protection Agency Docket Center (EPA/DC), West William Jefferson Clinton Bldg., Rm. 3334, 1301 Constitution Ave. NW, Washington, DC 20460–0001. The Public Reading Room is open from 8:30 a.m. to 4:30 p.m., Monday through Friday, excluding legal holidays. The telephone number for the Public Reading Room and the OPP Docket is (202) 566–1744. For the latest status information on EPA/DC services, docket access, visit https:// www.epa.gov/dockets. FOR FURTHER INFORMATION CONTACT: Daniel Rosenblatt, Acting Director, Registration Division (7505T), Office of Pesticide Programs, Environmental Protection Agency, 1200 Pennsylvania Ave. NW, Washington, DC 20460–0001; main telephone number: (202) 566– 1030; email address: RDFRNotices@ epa.gov. SUPPLEMENTARY INFORMATION: PO 00000 Frm 00047 Fmt 4700 Sfmt 4700 A. Does this action apply to me? You may be potentially affected by this action if you are an agricultural producer, food manufacturer, or pesticide manufacturer. The following list of North American Industrial Classification System (NAICS) codes is not intended to be exhaustive, but rather provides a guide to help readers determine whether this document applies to them. Potentially affected entities may include: • Crop production (NAICS code 111). • Animal production (NAICS code 112). • Food manufacturing (NAICS code 311). • Pesticide manufacturing (NAICS code 32532). B. How can I get electronic access to other related information? You may access a frequently updated electronic version of EPA’s tolerance regulations at 40 CFR part 180 through the Office of the Federal Register’s eCFR site at https://www.ecfr.gov/ current/title-40. E:\FR\FM\18NOR1.SGM 18NOR1 ER18NO22.715</GPH> . khammond on DSKJM1Z7X2PROD with RULES Bioaccumulatio n Factor (L/kg tissue) (B4) 65 Nitro benzene Polychlorinated Biphenyls 68 (PCBs) * C

Agencies

ENVIRONMENTAL PROTECTION AGENCY

[Federal Register Volume 87, Number 222 (Friday, November 18, 2022)]
[Rules and Regulations]
[Pages 69183-69201]
From the Federal Register Online via the Government Publishing Office [www.gpo.gov]
[FR Doc No: 2022-25150]


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ENVIRONMENTAL PROTECTION AGENCY

40 CFR Part 131

[EPA-HQ-OW-2015-0174; FRL-7253.1-02-OW]
RIN 2040-AG21


Restoring Protective Human Health Criteria in Washington

AGENCY: Environmental Protection Agency (EPA).

ACTION: Final rule.

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SUMMARY: On April 1, 2022, the Environmental Protection Agency (EPA) 
determined that Washington's human health criteria (HHC) for certain 
pollutants were not protective of Washington's designated uses and were 
not based on sound scientific rationale and, accordingly, proposed to 
restore protective HHC for those pollutants in Washington's waters. EPA 
is finalizing protective and science-based Federal HHC in this final 
rule to protect Washington's waters, including waters where tribes hold 
treaty-reserved rights to fish.

DATES:  This final rule is effective on December 19, 2022.

ADDRESSES: EPA has established a docket for this action under Docket ID 
No. EPA-HQ-OW-2015-0174. All documents in the docket are listed on the 
https://www.regulations.gov website. Although listed in the index, some 
information is not publicly available, e.g., Confidential Business 
Information or other information whose disclosure is restricted by 
statute. Certain other material, such as copyrighted material, is not 
placed on the internet and will be publicly available only in hard copy 
form. Publicly available docket materials are available electronically 
through https://www.regulations.gov.

FOR FURTHER INFORMATION CONTACT: Erica Fleisig, Office of Water, 
Standards and Health Protection Division (4305T), Environmental 
Protection Agency, 1200 Pennsylvania Avenue NW, Washington, DC 20460; 
telephone number: (202) 566-1057; email address: [email protected].

SUPPLEMENTARY INFORMATION: This final rule is organized as follows:

I. General Information
    A. Does this action apply to me?
    B. How did EPA develop this final rule?

[[Page 69184]]

II. Background
    A. Statutory and Regulatory Background
    B. EPA's General Approach for Deriving Human Health Criteria
    C. Prior EPA Actions Related to Washington's Human Health 
Criteria
III. Derivation of Human Health Criteria for Washington
    A. Scope of EPA's Final Rule
    B. Washington-Specific Human Health Criteria Inputs
    C. Final Human Health Criteria for Washington
    D. Applicability
    E. Alternative Regulatory Approaches and Implementation 
Mechanisms
IV. Economic Analysis
    A. Identifying Affected Entities
    B. Method for Estimating Costs
    C. Results
V. Statutory and Executive Order Reviews
    A. Executive Order 12866: Regulatory Planning and Review and 
Executive Order 13563: Improving Regulation and Regulatory Review
    B. Paperwork Reduction Act (PRA)
    C. Regulatory Flexibility Act (RFA)
    D. Unfunded Mandates Reform Act
    E. Executive Order 13132: Federalism
    F. Executive Order 13175: Consultation and Coordination With 
Indian Tribal Governments
    G. Executive Order 13045: Protection of Children From 
Environmental Health Risks and Safety Risks
    H. Executive Order 13211: Actions That Significantly Affect 
Energy Supply, Distribution, or Use
    I. National Technology Transfer and Advancement Act of 1995
    J. Executive Order 12898: Federal Actions To Address 
Environmental Justice in Minority Populations and Low-Income 
Populations
    K. Congressional Review Act (CRA)

I. General Information

A. Does this action apply to me?

    Entities that are subject to Clean Water Act (CWA) regulatory 
programs such as industrial facilities, stormwater management 
districts, or publicly owned treatment works (POTWs) that discharge 
pollutants to surface waters of the United States under the State of 
Washington's jurisdiction could be affected by this rulemaking because 
the Federal water quality standards (WQS) promulgated by EPA are 
applicable WQS for surface waters in Washington for CWA purposes. 
Categories and entities that could potentially be affected by this 
rulemaking include the following:

------------------------------------------------------------------------
           Category            Examples of potentially affected entities
------------------------------------------------------------------------
Industry.....................  Industrial point sources discharging
                                pollutants to waters of the United
                                States in Washington.
Municipalities...............  Publicly owned treatment works or similar
                                facilities discharging pollutants to
                                waters of the United States in
                                Washington.
Stormwater Management          Entities responsible for managing
 Districts.                     stormwater in the State of Washington.
------------------------------------------------------------------------

    This table is not intended to be exhaustive, but rather provides a 
guide for readers regarding entities that could be indirectly affected 
by this action. If you have questions regarding the applicability of 
this action to a particular entity, consult the person listed in the 
FOR FURTHER INFORMATION CONTACT section.

B. How did EPA develop this final rule?

    In developing this final rule, EPA carefully considered the public 
comments and feedback received from interested parties. EPA provided a 
60-day public comment period after publishing the proposed rulemaking 
in the Federal Register on April 1, 2022.\1\ In addition, EPA held two 
online public hearings on May 24 and 25, 2022, to discuss the contents 
of the proposed rulemaking and accept verbal public comments.
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    \1\ See Restoring Protective Human Health Criteria in 
Washington: Proposed Rule, 87 FR 19046, April 1, 2022.
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    Over 20 organizations and individuals submitted comments on a range 
of issues. EPA also received over 300 letters from individuals 
associated with a mass letter writing campaign. Some comments addressed 
issues beyond the scope of the rulemaking, and thus EPA did not 
consider them in finalizing this rule. In this preamble, EPA provides 
summaries of certain comments received on aspects of the proposal that 
generated the most commenter interest. For a complete summary of all 
comments received and EPA's responses, see EPA's Response to Comments 
document in the official public docket.

II. Background

A. Statutory and Regulatory Background

    CWA section 101(a)(2) establishes as a national goal ``water 
quality which provides for the protection and propagation of fish, 
shellfish, and wildlife, and recreation in and on the water, wherever 
attainable.'' EPA interprets these CWA section 101(a)(2) goals to 
include, at a minimum, designated uses providing for the protection of 
aquatic communities and human health related to consumption of fish and 
shellfish.\2\
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    \2\ USEPA. 2000. Memorandum 1BWQSP-00-03. U.S. Environmental 
Protection Agency, Office of Water, Washington, DC, https://www.epa.gov/sites/production/files/2015-01/documents/standards-shellfish.pdf.
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    Consistent with the CWA, EPA's WQS program assigns to states and 
authorized tribes the primary authority for adopting WQS.\3\ CWA 
section 303(c)(2)(A) and EPA's implementing regulations at 40 CFR part 
131 require, among other things, that a state's WQS specify appropriate 
designated uses of the waters, and water quality criteria that protect 
those uses. EPA's regulations at 40 CFR 131.11(a)(1) provide that 
``[s]uch criteria must be based on sound scientific rationale and must 
contain sufficient parameters or constituents to protect the designated 
use. For waters with multiple use designations, the criteria shall 
support the most sensitive designated use.''
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    \3\ 33 U.S.C. 1313(a), (c).
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    Under CWA section 304(a), EPA periodically publishes criteria 
(including HHC) recommendations for states to consider when adopting 
water quality criteria for particular pollutants to protect CWA section 
101(a) goal uses. Where EPA has published recommended criteria, states 
should establish numeric water quality criteria based on EPA's CWA 
section 304(a) criteria recommendations, CWA section 304(a) criteria 
recommendations modified to reflect site-specific conditions, or other 
scientifically defensible methods (40 CFR 131.11(b)(1)).
    After a state adopts a new or revised WQS, the state must submit it 
to EPA for review and action in accordance with CWA section 303(c).\4\ 
If EPA determines that a state's new or revised WQS is not consistent 
with the requirements of the Act, the state has 90 days to submit a 
modified standard. If the state fails to adopt a revised WQS that EPA 
approves, CWA section 303(c)(4)(A) requires EPA to propose and 
promulgate a revised or new standard for the waters involved. In 
addition, CWA section 303(c)(4)(B) grants the EPA Administrator 
discretion

[[Page 69185]]

to determine ``that a revised or new standard is necessary to meet the 
requirements of [the Act].'' \5\ After making such a determination, 
known as an Administrator's Determination,\6\ the agency must 
``promptly'' propose an appropriate WQS and finalize it within ninety 
days unless the state adopts an acceptable standard in the interim.\7\
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    \4\ 33 U.S.C. 1313(c)(2)(A), (c)(3).
    \5\ Id. at (c)(4)(B).
    \6\ 40 CFR 131.22(b)
    \7\ 33 U.S.C. 1313(c)(4)(B).
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B. EPA's General Approach for Deriving Human Health Criteria

    EPA's 2000 Methodology for Deriving Ambient Water Quality Criteria 
for the Protection of Human Health \8\ (2000 Methodology) describes the 
methods EPA uses when developing national CWA section 304(a) 
recommended HHC and when promulgating Federal HHC. The 2000 Methodology 
also serves as guidance to states and authorized tribes for developing 
their own HHC. EPA's guidance informs, but does not dictate, EPA's 
implementation of the applicable statutory and regulatory requirements 
noted above. EPA's 2000 Methodology recommends that HHC be designed to 
reduce the risk of adverse cancer and non-cancer effects occurring from 
lifetime exposure to pollutants through the ingestion of drinking water 
and consumption of fish/shellfish obtained from inland and nearshore 
waters. Consistent with the 2000 Methodology, EPA's practice is to 
establish a criterion for both drinking water ingestion and consumption 
of fish/shellfish from inland and nearshore waters combined and a 
separate criterion based on ingestion of fish/shellfish from inland and 
nearshore waters alone. This latter criterion applies in cases where 
the designated uses of a waterbody include supporting fish/shellfish 
for human consumption but not drinking water supply sources (e.g., non-
potable estuarine waters).
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    \8\ USEPA. 2000. Methodology for Deriving Ambient Water Quality 
Criteria for the Protection of Human Health. U.S. Environmental 
Protection Agency, Office of Water, Washington, DC EPA-822-B-00-004. 
https://www.epa.gov/sites/default/files/2018-10/documents/methodology-wqc-protection-hh-2000.pdf.
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    Consistent with EPA's 2000 Methodology, EPA establishes HHC based 
on two types of toxicological endpoints: (1) carcinogenicity; and (2) 
noncancer toxicity (i.e., all adverse effects other than cancer). Where 
sufficient data are available, EPA derives criteria using both 
carcinogenic and non-carcinogenic toxicity endpoints and uses the lower 
(i.e., more health-protective) value. EPA calculates HHC for 
carcinogenic effects using the following input parameters: cancer slope 
factor (CSF), cancer risk level (CRL), body weight, drinking water 
intake rate, fish consumption rate (FCR), and a bioaccumulation 
factor(s). EPA calculates HHC for both non-cancer and nonlinear 
carcinogenic effects using a reference dose (RfD) and relative source 
contribution (RSC) in place of a CSF and CRL (the remaining inputs are 
the same for both toxicology endpoints). The RSC is applied to 
apportion the RfD among the media and exposure routes of concern for a 
particular chemical to ensure that an individual's total exposure from 
all exposure sources does not exceed the RfD. Each of these inputs is 
discussed in more detail in sections II.B.a through II.B.d of this 
preamble and in EPA's 2000 Methodology.\9\
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    \9\ Id.
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a. Cancer Risk Level
    Consistent with the 2000 Methodology, EPA generally assumes, in the 
absence of data to indicate otherwise, that carcinogens exhibit linear 
``non-threshold'' dose-responses which means that there are no ``safe'' 
or ``no-effect'' levels. Therefore, EPA calculates HHC for carcinogenic 
effects as pollutant concentrations corresponding to lifetime increases 
in the risk of developing cancer. EPA calculates HHC values at a 
10^-6 (one in one million) CRL and recommends that states and 
authorized tribes use CRLs of 10^-6 or 10^-5 (one 
in one hundred thousand) when deriving HHC for the general 
population.\10\ EPA notes that states and authorized tribes can also 
choose a more health protective risk level, such as 10^-7 
(one in ten million), when deriving HHC.
---------------------------------------------------------------------------

    \10\ EPA's 2000 Methodology also states: ``Criteria based on a 
10^-5 risk level are acceptable for the general population 
as long as states and authorized tribes ensure that the risk to more 
highly exposed subgroups (sport fishers or subsistence fishers) does 
not exceed the 10^-4 level.''
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b. Cancer Slope Factor and Reference Dose
    A dose-response assessment is required to understand the 
quantitative relationships between exposure to a pollutant and adverse 
health effects. EPA evaluates dose-response relationships based on the 
available data from animal toxicity and human epidemiological studies 
to derive dose-response metrics. For carcinogenic effects, EPA uses an 
oral CSF to derive the HHC. The oral CSF is an upper bound, 
approximating a 95 percent confidence limit, on the increased cancer 
risk from a lifetime oral exposure to a pollutant. For non-carcinogenic 
effects, EPA uses the reference dose (RfD) to calculate the HHC. A RfD 
is an estimate of a daily oral exposure of an individual to a substance 
that is likely to be without an appreciable risk of deleterious effects 
during a lifetime. A RfD is often derived from a laboratory animal 
toxicity multi-dose study from which a no-observed-adverse-effect level 
(NOAEL), lowest-observed-adverse-effect level (LOAEL), or benchmark 
dose level can be identified. However, human epidemiology studies can 
also be used to derive a RfD. Uncertainty factors are applied to 
account for gaps or deficiencies in the available data (e.g., 
differences in response among humans) for a chemical. For the majority 
of EPA's latest (2015) updated national CWA section 304(a) recommended 
HHC, EPA's Integrated Risk Information System (IRIS) \11\ was the 
source of both cancer and noncancer toxicity values (i.e., RfD and 
CSF).\12\ For some pollutants, EPA selected risk assessments produced 
by other EPA program offices (e.g., Office of Pesticide Programs, 
Office of Water, Office of Land and Emergency Management), other 
national and international programs, and state programs.
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    \11\ USEPA. Integrated Risk Information System (IRIS). U.S. 
Environmental Protection Agency, Office of Research and Development, 
Washington, DC www.epa.gov/iris.
    \12\ Final Updated Ambient Water Quality Criteria for the 
Protection of Human Health (80 FR 36986, June 29, 2015). See also: 
USEPA. 2015. Final 2015 Updated National Recommended Human Health 
Criteria. U.S. Environmental Protection Agency, Office of Water, 
Washington, DC, https://www.epa.gov/wqc/human-health-water-quality-criteria.
---------------------------------------------------------------------------

c. Exposure Assumptions
    EPA's exposure assumptions provide an overall level of protection 
targeted at the high end of the general population, as stated in the 
2000 Methodology. EPA selects a combination of high-end and central 
tendency inputs to the criteria derivation equation and avoids ``double 
counting'' of exposures and combining unlikely co-occurrences. 
Consistent with the 2015 national CWA section 304(a) recommended HHC, 
EPA uses a default drinking water intake rate of 2.4 liters per day (L/
day) and default rate of 22 grams per day (g/day) for consumption of 
fish and shellfish from inland and nearshore waters, multiplied by 
pollutant-specific bioaccumulation factors (BAFs) to account for the 
amount of the pollutant in the edible portions of the ingested species.
    EPA's national default drinking water intake rate of 2.4 L/day 
represents the per capita estimate of combined direct and indirect 
community water ingestion at the 90th percentile for adults ages 21

[[Page 69186]]

and older.\13\ EPA's national FCR of 22 g/day represents the 90th 
percentile consumption rate of fish and shellfish from inland and 
nearshore waters for the U.S. adult population 21 years of age and 
older, based on National Health and Nutrient Examination Survey 
(NHANES) data from 2003 to 2010.^{14 15} EPA calculates HHC 
using a default body weight of 80 kilograms (kg), the average weight of 
a U.S. adult age 21 and older, based on NHANES data from 1999 to 2006.
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    \13\ USEPA. 2011. EPA Exposure Factors Handbook. 2011 edition 
(EPA 600/R-090/052F). https://cfpub.epa.gov/ncea/risk/recordisplay.cfm?deid=236252.
    \14\ USEPA. 2014. Estimated Fish Consumption Rates for the U.S. 
Population and Selected Subpopulations (NHANES 2003-2010). United 
States Environmental Protection Agency, Washington, DC, EPA 820-R-
14-002.
    \15\ EPA's national FCR is based on the total rate of 
consumption of fish and shellfish from inland and nearshore waters 
(including fish and shellfish from local, commercial, aquaculture, 
interstate, and international sources). This is consistent with a 
principle that each state does its share to protect people who 
consume fish and shellfish that originate from multiple 
jurisdictions.
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    Prior to publication of the 2000 Methodology, in which EPA began 
recommending the use of BAFs to reflect the uptake of a contaminant 
from all sources by fish and shellfish,\16\ EPA relied on 
bioconcentration factors (BCFs) to estimate chemical accumulation of 
waterborne chemicals by aquatic organisms. However, BCFs only account 
for chemical accumulation in aquatic organisms through exposure to 
chemicals in the water column. In 2000, EPA noted that ``there has been 
a growing body of scientific knowledge that clearly supports the 
observation that bioaccumulation and biomagnification occur and are 
important exposure issues to consider for many highly hydrophobic 
organic compounds and certain organometallics.'' For that reason, the 
2000 Methodology observed that ``[f]or highly persistent and 
bioaccumulative chemicals that are not easily metabolized, BCFs do not 
reflect what the science indicates.'' \17\ Therefore, consistent with 
the 2000 Methodology EPA uses, when data are available, measured or 
estimated BAFs, which account for chemical accumulation in aquatic 
organisms from all potential exposure routes, including, but not 
limited to, food, sediment, and water.\18\ EPA uses separate BAFs for 
each trophic level to account for potential biomagnification of 
chemicals in aquatic food webs, as well as physiological differences 
among organisms that may affect bioaccumulation.\19\
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    \16\ USEPA. 2000. Methodology for Deriving Ambient Water Quality 
Criteria for the Protection of Human Health. U.S. Environmental 
Protection Agency, Office of Water, Washington, DC EPA-822-B-00-004. 
https://www.epa.gov/sites/default/files/2018-10/documents/methodology-wqc-protection-hh-2000.pdf at 5-4. (Explaining that 
``[t]he 1980 Methodology for deriving 304(a) criteria for the 
protection of human health emphasized the assessment of 
bioconcentration (uptake from water only) through the use of the 
BCF. . .The 2000 Human Health Methodology revisions contained in 
this chapter emphasize the measurement of bioaccumulation (uptake 
from water, sediment, and diet) through the use of the BAF.'').
    \17\ 65 FR 66444 (November 3, 2000).
    \18\ USEPA. 2000. Methodology for Deriving Ambient Water Quality 
Criteria for the Protection of Human Health. U.S. Environmental 
Protection Agency, Office of Water, Washington, DC EPA-822-B-00-004. 
https://www.epa.gov/sites/default/files/2018-10/documents/methodology-wqc-protection-hh-2000.pdf.
    \19\ USEPA. 2003. Methodology for Deriving Ambient Water Quality 
Criteria for the Protection of Human Health (2000). Technical 
Support Document Volume 2: Development of National Bioaccumulation 
Factors. U.S. Environmental Protection Agency, Office of Water, 
Washington, DC EPA-822-B-03-030. https://www.epa.gov/sites/default/files/2018-10/documents/methodology-wqc-protection-hh-2000.pdf.
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    EPA derives national default BAFs, in part, as a resource for 
states and authorized tribes with limited resources for deriving site-
specific BAFs.\20\ EPA's approach for developing national BAFs 
represents the long-term average bioaccumulation potential of a 
pollutant in aquatic organisms that are commonly consumed by humans 
across the United States. In the 2015 national CWA section 304(a) 
recommended HHC update, EPA relied on field-measured BAFs and 
laboratory-measured BCFs available from peer-reviewed, publicly 
available databases to develop national BAFs for three trophic levels 
of fish.\21\ If this information was not available, EPA selected 
octanol-water partition coefficients (Kow values) from 
publicly available, published peer-reviewed sources for use in 
calculating national BAFs. As an additional line of evidence, EPA 
reported model-estimated BAFs for every chemical based on the 
Estimation Program Interface (EPI) Suite to support the field-measured 
or predicted BAFs.\22\
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    \20\ 65 FR 66444 (November 3, 2000).
    \21\ Final Updated Ambient Water Quality Criteria for the 
Protection of Human Health (80 FR 36986, June 29, 2015). See also: 
USEPA. 2015. Final 2015 Updated National Recommended Human Health 
Criteria. U.S. Environmental Protection Agency, Office of Water, 
Washington, DC, https://www.epa.gov/wqc/human-health-water-quality-criteria.
    \22\ Id.
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    Although EPA uses national default exposure-related input values to 
calculate national CWA section 304(a) recommended criteria, EPA's 
methodology notes a preference for the use of local data, when 
available, to calculate HHC (e.g., locally derived FCRs, drinking water 
intake rates and body weights, and waterbody-specific bioaccumulation 
rates) over national default values. Using local data helps ensure that 
HHC represent local conditions.\23\ EPA also recommends, where 
sufficient data are available, selecting an FCR that reflects 
consumption that is not suppressed by fish availability or concerns 
about the safety of available fish.\24\ Deriving criteria using an 
unsuppressed FCR furthers the restoration goals of the CWA and ensures 
protection of human health as pollutant levels decrease, fish habitats 
are restored, and fish availability increases. Moreover, as explained 
further below, selecting an FCR that reflects unsuppressed fish 
consumption could be necessary where tribal treaty or other reserved 
fishing rights apply. In such circumstances, if sufficient data 
regarding unsuppressed fish consumption levels are unavailable or 
inconclusive, states should consult with tribes when deciding which 
fish consumption data should be used in selecting an FCR.
---------------------------------------------------------------------------

    \23\ USEPA. 2000. Methodology for Deriving Ambient Water Quality 
Criteria for the Protection of Human Health. U.S. Environmental 
Protection Agency, Office of Water, Washington, DC EPA-822-B-00-004. 
https://www.epa.gov/sites/default/files/2018-10/documents/methodology-wqc-protection-hh-2000.pdf.
    \24\ As noted by the National Environmental Justice Advisory 
Council in the 2002 publication Fish Consumption and Environmental 
Justice, ``a suppression effect may arise when fish upon which 
humans rely are no longer available in historical quantities (and 
kinds), such that humans are unable to catch and consume as much 
fish as they had or would. Such depleted fisheries may result from a 
variety of affronts, including an aquatic environment that is 
contaminated, altered (due, among other things, to the presence of 
dams), overdrawn, and/or overfished. Were the fish not depleted, 
these people would consume fish at more robust baseline levels. . . 
. In the Pacific Northwest, for example, compromised aquatic 
ecosystems mean that fish are no longer available for tribal members 
to take, as they are entitled to do in exercise of their treaty 
rights.''). National Environmental Justice Advisory Council, Fish 
Consumption and Environmental Justice, p.44, 46 (2002) (NEJAC Fish 
Consumption Report), available at https://www.epa.gov/sites/default/files/2015-02/documents/fish-consump-report_1102.pdf.
---------------------------------------------------------------------------

d. Relative Source Contribution
    The inclusion of an RSC factor \25\ is important for protecting 
public health. When deriving HHC for non-carcinogens and nonlinear 
carcinogens, EPA includes an RSC factor to account for sources of 
exposure other than drinking water and consumption of fish and 
shellfish from inland and nearshore

[[Page 69187]]

waters. These other sources of exposure include but are not limited to 
ocean fish consumption (which is not included in EPA's default national 
FCR), non-fish food consumption (e.g., fruits, vegetables, grains, 
meats, poultry), dermal exposure, and inhalation exposure. Using an RSC 
ensures that the level of a chemical allowed by a water quality 
criterion, when combined with other exposure sources, will not result 
in exposures that exceed the RfD, thus helping to prevent adverse 
health effects from aggregate exposure to a given chemical over a 
person's lifetime. EPA's guidance \26\ includes an approach for 
determining an appropriate RSC for a given pollutant ranging in value 
from 0.2 to 0.8 to ensure that drinking water and fish consumption 
alone are not apportioned the entirety of the RfD. This approach, known 
as the Exposure Decision Tree, considers the adequacy of available 
exposure data, levels of exposure, relevant sources/media of exposure, 
and regulatory agendas. As explained below in section III.B.d of this 
preamble, EPA made science-based adjustments to the application of the 
RSC in this rulemaking to avoid ``double counting'' exposures.
---------------------------------------------------------------------------

    \25\ ``[RSC] defines the portion of the total exposure that 
comes from ingestion of water and fish from the ambient water body 
of interest. Other exposure information such as that from dietary, 
inhalation, and dermal routes should be considered and accounted for 
as part of the RSC human exposure analysis.'' https://www.epa.gov/wqs-tech/supplemental-module-human-health-ambient-water-quality-criteria.
    \26\ Id.
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C. Prior EPA Actions Related to Washington's Human Health Criteria

    In 1992, EPA promulgated the National Toxics Rule (NTR) at 40 CFR 
131.36, establishing chemical-specific numeric criteria for 85 priority 
toxic pollutants for 14 states and territories (states), including 
Washington, that were not in compliance with the requirements of CWA 
section 303(c)(2)(B). Subsequently, when states covered by the NTR 
adopted their own criteria for toxic pollutants that were consistent 
with the CWA and EPA's implementing regulations, EPA amended the NTR to 
remove those chemical-specific criteria for those states. In 2015, 
Washington was one of the states that remained covered by the NTR.
    On September 14, 2015, the EPA Administrator determined that 
updated HHC for Washington were ``necessary'' pursuant to CWA section 
303(c)(4)(B). EPA proposed HHC to protect the health of Washington 
residents, including tribes with treaty-reserved rights to fish.\27\ In 
that proposal, EPA explained that the majority of waters under 
Washington's jurisdiction are subject to tribal treaty-reserved fishing 
rights.\28\ To give effect to such rights in establishing revised WQS 
for Washington waters, EPA determined that tribal treaty fishing rights 
``appropriately must be considered when determining which criteria are 
necessary to adequately protect Washington's fish and shellfish 
harvesting designated uses.'' \29\ Specifically, EPA proposed to 
consider the tribal populations exercising their legal right to harvest 
and consume fish and shellfish as the general population for purposes 
of deriving protective HHC. To this end, EPA proposed HHC based on an 
FCR of 175 g/day and CRL of 10^-6 to reflect consideration of 
tribal treaty-reserved rights, as informed by consultation with the 
tribes and fish consumption surveys of tribal members.\30\ In addition 
to an FCR and CRL calculated to ensure protection of applicable tribal 
treaty-reserved rights, EPA also utilized other inputs to derive the 
proposed HHC based on the agency's latest scientific knowledge. 
Specifically, EPA calculated the proposed HHC using the national 
trophic level four BAFs and updated chemical-specific RSC values from 
its June 2015 CWA section 304(a) recommended criteria updates.\31\
---------------------------------------------------------------------------

    \27\ 80 FR 55063 (September 14, 2015).
    \28\ Id. at 55067.
    \29\ Id.
    \30\ Id. at 55067-68.
    \31\ Id. at 55068-69.
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    Before EPA finalized the proposed Federal criteria, the State of 
Washington adopted HHC following an extensive public process and 
submitted the updated HHC to EPA for review on August 1, 2016. The 
updated HHC incorporated some of the new data and information from 
EPA's June 2015 CWA section 304(a) criteria updates. Washington's HHC 
were based on the same 175 g/day FCR and 10^-6 CRL that EPA 
used to derive the proposed Federal HHC, with the exception of the CRL 
for polychlorinated biphenyls (PCBs).\32\ Although Washington used the 
same FCR and CRL as EPA, Washington used BCFs instead of BAFs and used 
an RSC of 1. The scientific inputs of BCFs and an RSC of 1 do not 
reflect the latest scientific knowledge.
---------------------------------------------------------------------------

    \32\ For PCBs, Washington's criteria were based on a chemical-
specific CRL of 2.3 x 10^-5.
---------------------------------------------------------------------------

    On November 15, 2016, EPA partially approved and partially 
disapproved Washington's HHC.\33\ For the criteria that were 
disapproved, EPA concurrently signed a final rule promulgating the 
Federal criteria it had proposed in 2015.\34\ Like EPA's 2015 proposal, 
the 2016 final rule articulated EPA's conclusion that it is necessary 
and appropriate to consider tribal treaty-reserved rights within the 
framework of the CWA and provided a discussion of the tribal treaties 
relevant to the State of Washington and applicable case law.\35\ The 
2016 final rule was informed by public comment that addressed both the 
proposed criteria and EPA's consideration of tribal treaties, as well 
as consultation with a number of federally recognized tribes.
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    \33\ Letter from Dan D. Opalski, Director, EPA Region 10 Office 
of Water and Watersheds to Maia Bellon, Director, Department of 
Ecology, Re: EPA's Partial Approval/Partial Disapproval of 
Washington's Human Health Water Quality Criteria and Implementation 
Tools; Enclosure, Technical Support Document (November 15, 2016) 
(2016 Partial Approval/Partial Disapproval).
    \34\ 81 FR 85417 (November 28, 2016).
    \35\ 81 FR 85422-27 (November 28, 2016).
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    EPA's disapproval of Washington's HHC in 2016 was largely 
predicated on Washington's use of input values that were not reflective 
of sound scientific rationale. In its letter to the State, EPA 
explained that the agency ``evaluated Washington's criteria values 
against criteria that EPA determined would be protective of the State's 
designated uses and scientifically defensible (e.g., based on 
appropriate bioaccumulation factors (BAFs) and protective relative 
source contribution (RSC) values of less than 1).'' \36\ EPA found that 
Washington had not demonstrated that the majority of its criteria were 
based on sound scientific rationale as required by the CWA and EPA's 
implementing regulations.\37\ Specifically for PCBs, EPA found that 
Washington had not provided adequate support or analysis to justify its 
use of a chemical-specific CRL (2.3 x 10^-5) that was less 
stringent than the CRL used for all other pollutants, and did not 
explain how the use of this CRL was protective of the State's 
designated uses.\38\
---------------------------------------------------------------------------

    \36\ 2016 Partial Approval/Disapproval at 3.
    \37\ Id. at 16-17.
    \38\ Id. at 26 (Determining that Washington ``did not provide 
adequate justification for using the Washington Department of Health 
cancer risk level for this specific chemical and then adjusting that 
cancer risk level so that the criteria would be equivalent to the 
NTR criteria'' and ``did not demonstrate how the criteria were 
derived using a cancer risk level that is based on scientifically 
sound rationale and protective of applicable designated uses, 
including the tribal subsistence fishing portion of the fish and 
shellfish harvesting use as informed by treaty-reserved fishing 
rights.'').
---------------------------------------------------------------------------

    With respect to the criteria that EPA approved, the agency also 
explained that ``while the EPA carefully considers the scientific 
defensibility and protectiveness of both the inputs used to derive 
criteria and the resulting criteria values, it is ultimately on the 
criteria values that the EPA takes approval or disapproval action under 
CWA section 303(c).'' \39\ After evaluating Washington's criteria 
against criteria using appropriate scientific inputs, EPA determined 
that certain of Washington's criteria were as or more stringent than

[[Page 69188]]

scientifically defensible criteria that the EPA determined would be 
protective of Washington's designated uses.\40\ Accordingly, EPA 
approved those criteria.\41\
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    \39\ Id. at 8.
    \40\ Id.
    \41\ Id.
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    In a petition dated February 21, 2017, several regulated entities 
requested that EPA reconsider its November 15, 2016, partial 
disapproval and repeal its concurrent promulgated Federal criteria.\42\ 
Following the 2017 petition, Washington and several federally 
recognized tribes with treaty-reserved fishing rights sent letters 
urging EPA to deny the petition and to leave the federally promulgated 
HHC in place.\43\
---------------------------------------------------------------------------

    \42\ Petition submitted by Northwest Pulp and Paper Association, 
America Forest and Paper Association, Association of Washington 
Business, Greater Spokane Incorporated, Treated Wood Council, 
Western Wood Preservers Institute, Utility Water Act Group and the 
Washington Farm Bureau.
    \43\ EPA received letters from the Washington State Department 
of Ecology, Washington State Attorney General, the Northwest Indian 
Fisheries Commission, the Lower Elwha Klallam Tribe, the Nooksack 
Indian Tribe, the Jamestown S'Klallam Tribe, and Earthjustice (on 
behalf of the Pacific Coast Federation of Fishermen's Associations, 
Institute for Fisheries Resources, and several Washington 
Waterkeepers).
---------------------------------------------------------------------------

    Despite objections from the State and several tribes, on May 10, 
2019, EPA granted the 2017 industry petition by reversing the agency's 
prior partial disapproval to an approval of certain HHC (`2019 
Reconsidered HHC') and subsequently issuing a final rule withdrawing 
the federally promulgated criteria.\44\ EPA's May 10, 2019 approval 
concluded that the State's reliance on scientific inputs that were not 
reflective of the latest science was an appropriate risk-management 
decision.\45\ The withdrawal of the Federal criteria went into effect 
on June 12, 2020, and as of that date, the HHC submitted by Washington 
on August 1, 2016 and approved by EPA on May 10, 2019 were in effect 
for CWA purposes.
---------------------------------------------------------------------------

    \44\ May 10, 2019 letter and enclosed Technical Support Document 
from Chris Hladick, Regional Administrator, EPA Region 10, to Maia 
Bellon, Director, Department of Ecology, Re: EPA's Reversal of the 
November 15, 2016 Clean Water Act section 303(c) Partial Disapproval 
of Washington's Human Health Water Quality Criteria and Decision to 
Approve Washington's Criteria; Withdrawal of Certain Federal Water 
Quality Criteria Applicable to Washington, 85 FR 28494 (May 13, 
2020).
    \45\ May 10, 2019 letter at pp. 8, 14-15.
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    On June 6, 2019, the State of Washington filed a complaint 
challenging the legality of EPA's May 2019 decision to reverse its 
November 2016 partial disapproval.\46\ The Sauk-Suiattle Indian Tribe 
and Quinault Indian Nation subsequently joined Washington's lawsuit as 
plaintiff-intervenors. On June 6, 2020, following EPA's withdrawal of 
the promulgated Federal HHC, another lawsuit was filed by the Makah 
Indian Tribe, the Pacific Coast Federation of Fishermen's Associations, 
and environmental groups challenging both EPA's withdrawal of the 
federally promulgated HHC and its May 10, 2019 decision to reverse the 
November 2016 partial disapproval.\47\ In September 2020, the 
Plaintiffs in the case filed by the State of Washington amended their 
complaints to also challenge EPA's rule withdrawing the Federal HHC.
---------------------------------------------------------------------------

    \46\ State of Washington v. U.S. Envt'l Prot. Agency, No. 2:19-
cv-884-RAJ (W.D. Wash.).
    \47\ Puget Soundkeeper Alliance et al. v. U.S. Envt'l Prot. 
Agency, No. 2:20-cv-907-RAJ (W.D. Wash.).
---------------------------------------------------------------------------

    Consistent with Executive Order 13990,\48\ in February 2021, EPA 
sought and was granted an abeyance in both cases to conduct an initial 
review to determine whether it intended to reconsider the challenged 
actions. During this initial three-month abeyance, EPA decided to 
reconsider the challenged actions. Based on its initial review of the 
agency's prior actions, EPA sought a longer abeyance from the court, 
expressing substantial concern that Washington's HHC may not be 
adequately protective and may not be based on sound scientific 
rationale. On July 6, 2021, the Court granted EPA an abeyance to 
reconsider its prior actions and to propose protective HHC for 
Washington and take final action on the proposal within 18 months. EPA 
proposed protective HHC for Washington on April 1, 2022,\49\ and is now 
finalizing protective HHC for Washington in this final rule.
---------------------------------------------------------------------------

    \48\ 86 FR 7037 (January 25, 2021).
    \49\ See Restoring Protective Human Health Criteria in 
Washington: Proposed Rule, 87 FR 19046, April 1, 2022.
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III. Derivation of Human Health Criteria for Washington

A. Scope of EPA's Final Rule

    After consideration of all comments received on EPA's proposed 
rulemaking, EPA is finalizing Federal criteria that supersede the 2019 
Reconsidered HHC for CWA purposes.\50\ EPA's final rule does not change 
or supersede the Federal HHC that EPA promulgated for arsenic,\51\ 
methylmercury, or bis (2-chloro-1-methylethyl) ether in 2016 and that 
remain in place for CWA purposes, nor Washington's HHC that EPA 
approved in 2016 and have remained in effect since that time. EPA's 
final rule also does not change or supersede Washington's HHC for 
dioxin and thallium that EPA approved in 2019. EPA had previously taken 
no action on these two pollutants in 2016.
---------------------------------------------------------------------------

    \50\ See 40 CFR 131.21(c).
    \51\ EPA promulgated arsenic HHC for Washington in the National 
Toxics Rule of 1992. EPA's Federal rule in 2016 moved the arsenic 
criteria from 40 CFR 131.36 to 40 CFR 131.45.
---------------------------------------------------------------------------

    Some commenters asked EPA to quickly take separate prompt action to 
strengthen dioxin criteria and establish criteria for per- and 
polyfluoroalkyl substances (PFAS) unless Washington addresses those 
pollutants itself in a future State rulemaking. As noted in EPA's 
Response to Comment document in the docket for this rule, such comments 
are beyond the scope of this rulemaking.
    Finally, certain commenters referred to EPA's prior actions related 
to HHC for arsenic and mercury in Washington. EPA's proposed rulemaking 
did not address those prior actions, which were based on the 
administrative record before the agency at that time, nor did EPA 
solicit comment on those actions. Therefore, such comments are also 
beyond the scope of this rule.
    The HHC in this final rule apply to surface waters under the State 
of Washington's jurisdiction, and not to waters within Indian 
country,\52\ unless otherwise specified in Federal law.
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    \52\ See 18 U.S.C. 1151 for definition of Indian Country.
---------------------------------------------------------------------------

B. Washington-Specific Human Health Criteria Inputs

a. Fish Consumption Rate, Body Weight, Drinking Water Intake
    EPA is finalizing HHC for Washington using the same FCR of 175 g/
day, body weight of 80 kg and drinking water intake rate of 2.4 L/day 
that the agency proposed in its April 1, 2022, proposed rulemaking,\53\ 
which are the same values Washington used in 2016 \54\ and that EPA 
used in its 2016 Federal rule.\55\ The comments addressing these input 
values are briefly summarized below.
---------------------------------------------------------------------------

    \53\ See Restoring Protective Human Health Criteria in 
Washington: Proposed Rule, 87 FR 19046, April 1, 2022.
    \54\ Department of Ecology. Washington State Water Quality 
Standards: Human health criteria and implementation tools, Overview 
of key decisions in rule amendment. August 2016. Ecology Publication 
no. 16-10-025.
    \55\ Revision of Certain Water Quality Standards Applicable to 
Washington, 81 FR 85417 (November 28, 2016).
---------------------------------------------------------------------------

    With respect to the FCR, some commenters asserted that protective 
HHC should accurately account for the amount of fish people are eating, 
and that EPA was right to propose HHC using an FCR of 175 g/day. 
However, the same commenters state that 175 g/day is a compromise rate 
and is therefore, not conservative because many communities in 
Washington eat more than 175 g/day, even with suppressed fish stocks. 
Those

[[Page 69189]]

commenters assert that 175 g/day is only acceptable if that rate is 
paired with a CRL of one in one million (10^-6) and the most 
recent science for the other inputs.
    Other commenters asserted that 175 g/day is an inappropriate FCR to 
use to derive HHC in Washington, and/or that it should not be paired 
with a 10^-6 CRL. These commenters state that lower FCRs, or 
greater CRLs of one in one hundred thousand (10^-5) or one in 
ten thousand (10^-4), would be protective of all consumers in 
Washington, including tribes. Some commenters characterized 175 g/day 
as a high-biased estimate of fish consumption that is based on an 
outdated survey method. Additionally, commenters assert that 175 g/day 
is too high to use to derive HHC for Washington because it includes 
consumption of fish that predominantly accumulate pollutants in waters 
outside of Washington's jurisdiction (i.e., the open ocean). Commenters 
state that EPA relies in part on an argument that fish consumption in 
Washington is suppressed but assert that EPA has not provided 
scientific evidence of such suppression or guidance on how to account 
for suppression. These commenters state that there is no evidence of 
lower fish stocks limiting consumption, and that fish availability 
should not be a factor in setting HHC since those criteria do not 
impact fish availability.
    EPA reiterates its explanation in the proposed rulemaking that it 
does not have new data or information suggesting a need to revisit the 
inputs utilized in the 2016 rule.\56\ Thus, EPA is applying the same 
rationale here as the agency articulated to support its use of those 
inputs in the 2016 Federal rule. The agency has concluded that it is 
important to keep these values consistent between the HHC in this rule 
and the other HHC that this rule will not impact (i.e., the HHC that 
Washington adopted and EPA approved in 2016, and the Federal HHC that 
remain in place for arsenic, methylmercury, or bis (2-chloro-1-
methylethyl) ether), because these values are associated with the 
population that the criteria are intended to protect and are not 
pollutant-specific. For detailed responses to all comments received, 
see EPA's Response to Comment document in the docket for this rule.
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    \56\ Id. at 85420; 85426-428.
---------------------------------------------------------------------------

b. Pollutant-Specific Reference Doses and Cancer Slope Factors
    EPA is finalizing HHC for Washington using the same reference doses 
and cancer slope factors that the agency proposed in its April 1, 2022, 
proposed rulemaking,\57\ which are the same values Washington used in 
2016 \58\ and that EPA used in its 2016 Federal rule.\59\ These are the 
same toxicity values that EPA uses in its national CWA section 304(a) 
recommended HHC. While there may be new toxicity information available 
for certain pollutants that is not yet reflected in EPA's CWA section 
304(a) national recommended HHC, such information has not yet been 
reviewed through EPA's comprehensive CWA section 304(a) criteria 
development process and therefore is not incorporated into this final 
rule.\60\ See Table 1, columns B1 and B3 of this preamble for a list of 
EPA's toxicity factors by pollutant.
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    \57\ See Restoring Protective Human Health Criteria in 
Washington: Proposed Rule, 87 FR 19046, April 1, 2022.
    \58\ Department of Ecology. Washington State Water Quality 
Standards: Human health criteria and implementation tools, Overview 
of key decisions in rule amendment. August 2016. Ecology Publication 
no. 16-10-025.
    \59\ Revision of Certain Water Quality Standards Applicable to 
Washington, 81 FR 85417 (November 28, 2016).
    \60\ For example, there are 7 polycyclic aromatic hydrocarbons 
for which there is new toxicity information available since the 
promulgation of the 2016 Federal rule. Because the CWA section 
304(a) criteria development process can take several years, EPA is 
not able to review this information and complete this rulemaking by 
the end of the 18-month abeyance. Once EPA has developed updated CWA 
section 304(a) criteria for these pollutants, the State may evaluate 
its HHC for these pollutants (e.g., during a triennial review), 
adopt new HHC based on the CWA section 304(a) updates, and submit 
these HHC to EPA for review.
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    EPA only received comments on reference doses and cancer slope 
factors in the context of specific pollutants, namely PCBs and mercury. 
As noted above, comments on mercury are beyond the scope of this 
rulemaking. For comments on PCBs, see below and EPA's Response to 
Comment document in the docket for this rule.
c. Cancer Risk Level
    EPA is finalizing HHC for Washington using the same CRL of 
10^-6 that the agency proposed in its April 1, 2022, proposed 
rulemaking for all pollutants, including PCBs.\61\ This is the same CRL 
Washington used in 2016 for all pollutants except for PCBs \62\ and 
that EPA used in its 2016 Federal rule for all pollutants.\63\
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    \61\ See Restoring Protective Human Health Criteria in 
Washington: Proposed Rule, 87 FR 19046, April 1, 2022.
    \62\ Department of Ecology. Washington State Water Quality 
Standards: Human health criteria and implementation tools, Overview 
of key decisions in rule amendment. August 2016. Ecology Publication 
no. 16-10-025.
    \63\ Revision of Certain Water Quality Standards Applicable to 
Washington, 81 FR 85417 (November 28, 2016).
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    EPA's selection of a 10^-6 CRL is consistent with EPA's 
2000 Methodology, which states that EPA intends to use the 
10^-6 level, which reflects an appropriate risk for the 
general population, when promulgating water quality criteria for states 
and tribes.\64\ Additionally, many of Washington's rivers are in the 
Columbia River basin, upstream of Oregon's portion of the Columbia 
River. Oregon's criteria for PCBs and other pollutants are based on an 
FCR of 175 g/day and a CRL of 10^-6. EPA's final Federal HHC 
for Washington using a CRL of 10^-6 along with an FCR of 175 
g/day helps ensure that Washington's criteria will provide for the 
attainment and maintenance of Oregon's downstream WQS as required by 40 
CFR 131.10(b).
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    \64\ EPA 2000 Methodology, p. 2-6. The Methodology recommends 
that states set human health criteria CRLs for the target general 
population at either 10^-5 or 10^-6 (p. 2-6) and 
also notes that states and authorized tribes can always choose a 
more stringent risk level, such as 10^-7 (p. 1-12).
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    As noted in EPA's 2016 final rule for Washington,\65\ several 
tribes in Washington have treaty-reserved rights to fish on waters 
throughout the State. Consistent with those rights, tribal members 
catch and consume fish for their subsistence. EPA determined that a 
10^-6 CRL was appropriate independent of treaty rights, for 
the reasons explained in this section and EPA's Response to Comment 
document in the docket for this rule. Nonetheless, EPA's selection of a 
10^-6 CRL is protective of tribal members exercising their 
legal right to harvest and consume fish and shellfish at subsistence 
levels.\66\
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    \65\ 81 FR 85422-26 (November 28, 2016).
    \66\ In 2016, tribes in Washington State generally viewed 175 g/
day as a compromise minimum consumption rate so long as it is 
coupled with a CRL of 10^-6. 2016 Partial Approval/
Disapproval p. 15.
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    Some commenters asserted that EPA's use of a CRL of 10^-6 
is consistent with EPA's guidance and national precedent. These 
commenters agreed with EPA's proposal of HHC for PCBs based on a CRL of 
10^-6 paired with an FCR of 175 g/day and asserted that it 
violates the CWA and civil rights to expose high fish consumers to a 
higher cancer risk due to PCBs. Commenters stated that EPA did not show 
why Washington's criteria that it previously disapproved in 2016 were 
protective in 2019. Finally, commenters asserted that upstream 
pollution impacts the Spokane Tribe's ability to safely exercise their 
treaty reserved fishing rights and EPA's proposed PCB criteria are 
closer to the Tribe's criteria and therefore more likely to provide for 
downstream protection. Commenters also state that use of a CRL

[[Page 69190]]

of 10^-6 to derive HHC for Washington addresses the potential 
for synergistic toxicity from exposure to multiple toxins.
    Other commenters asserted that EPA's use of a 10^-6 CRL 
is inconsistent with EPA's guidance and longstanding policy on 
acceptable risk levels. These commenters stated that EPA accepts CRLs 
of 10^-6 or 10^-5, provided the median FCR for 
highly exposed populations is protected to a 10^-4 risk 
level, and pointed to prior EPA actions, including EPA's 2019 approval 
of HHC in Idaho, 2011 HHC approval in Oregon, and EPA's Clean Water Act 
national recommended 304(a) criteria that pair a 10^-6 cancer 
risk level with a general population fish consumption rate rather than 
an FCR associated with high fish consumers. Some commenters 
characterized a CRL of 10^-4 as effectively zero risk to a 
small population such as the tribal population in Washington. Other 
commenters argued that the CRL is a choice for states to make and that 
EPA was right to accept Washington's choice of a PCB-specific CRL in 
2019 because Washington's 2016 PCB criteria strike a more appropriate 
balance between cost and human health protection, and EPA's proposed 
PCB criteria are not scientifically defensible or attainable with 
currently available technology. Some commenters raised concerns that 
EPA's proposed criteria are below analytical method quantitation limits 
and therefore it is not clear how dischargers can comply with the 
criteria and this could be misleading to the public. Some commenters 
criticized EPA's cost estimates for the proposed rule, stating that 
testing methodology may improve, such that dischargers will then be out 
of compliance with permit limits, and stating that Washington is 
unlikely to adopt WQS variances to provide dischargers with relief. 
These commenters asserted that certain dischargers are already being 
pushed by EPA to use an unapproved PCB test method as the basis to 
design and install new treatment systems, and that EPA was wrong to 
assume that PCBs are not likely to be found in the effluent from minor 
facilities. Some commenters raised concerns that EPA and Washington 
State allow for the continued release of PCBs into the environment 
under the Toxic Substances Control Act, tribal and Federal hatchery 
operations in Washington, and Washington's Model Toxics Control ACT, 
which in turn puts an unfair burden on dischargers in Washington to 
meet the proposed HHC for PCBs. Commenters also raised concerns that 
EPA has not shared the latest science evaluating the toxicity of 
inadvertently generated PCBs and there is ongoing scientific 
uncertainty with EPA's proposed PCB criteria that EPA has not 
sufficiently explained.
    As noted above, in this final rule EPA is maintaining its proposed 
CRL of 10^-6, which Washington used in 2016 and EPA used in 
its 2016 Federal rule for all pollutants. With respect to the comments 
regarding utilizing that same CRL for PCBs, for the reasons that EPA 
further explained in the proposed rulemaking, the agency has concluded 
that Washington's PCB HHC are not protective of Washington's designated 
uses because of Washington's selected chemical-specific CRL, which is 
not based on a sound scientific rationale. For detailed responses to 
all comments received, including those which reiterate prior comments 
that EPA received on its 2015 proposed rulemaking for Washington and 
previously responded to, such as comments about the intersection of the 
CWA and the Toxic Substances Control Act with respect to PCBs, see 
EPA's Response to Comment document in the docket for this rule.
d. Relative Source Contribution
    EPA recommends using an RSC for non-carcinogens and nonlinear 
carcinogens to account for sources of exposure other than drinking 
water and consumption of inland and nearshore fish and shellfish (see 
section II.B.d of this preamble). In its 2015 304(a) criteria 
recommendations, after evaluating information on chemical uses, 
properties, occurrences, releases to the environment and regulatory 
restrictions, EPA developed chemical-specific RSCs for non-carcinogens 
and nonlinear carcinogens ranging from 0.2 (20 percent) to 0.8 (80 
percent) following the Exposure Decision Tree approach described in 
EPA's 2000 Human Health Methodology.^{67 68}
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    \67\ USEPA. 2000. Methodology for Deriving Ambient Water Quality 
Criteria for the Protection of Human Health. U.S. Environmental 
Protection Agency, Office of Water, Washington, DC EPA-822-B-00-004. 
https://www.epa.gov/sites/default/files/2018-10/documents/methodology-wqc-protection-hh-2000.pdf.
    \68\ Final Updated Ambient Water Quality Criteria for the 
Protection of Human Health, (80 FR 36986, June 29, 2015). See also: 
USEPA. 2015. Final 2015 Updated National Recommended Human Health 
Criteria. U.S. Environmental Protection Agency, Office of Water, 
Washington, DC https://www.epa.gov/wqc/human-health-water-quality-criteria.
---------------------------------------------------------------------------

    When EPA promulgated HHC for Washington in 2016, EPA adjusted RSC 
values using a ratio of the national dataset characterizing all FCRs 
versus inland and nearshore-only FCRs derived from the NHANES dataset. 
EPA then applied this ratio to the proportion of the RfD reserved for 
inland and nearshore fish consumption in the RSC, and used this 
adjustment to account for double-counted potential exposure to certain 
chemicals in certain anadromous fish species (e.g., salmon). This 
approach involves the following assumptions:
     The pollutant concentrations in anadromous fish are the 
same as those in inland and nearshore fish; and
     The ratio of all fish to inland and nearshore fish from 
NHANES data approximates the ratio of inland, nearshore, and anadromous 
fish to just inland and nearshore fish from Columbia River Inter-Tribal 
Fish Commission (CRITFC) \69\ data (since CRITFC data were used to 
derive the 175 g/day FCR).
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    \69\ Fish Consumption Survey of the Umatilla, Nez Perce, Yakama, 
and Warm Springs Tribes of the Columbia River Basin (CRITFC 1994).
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    At the 90th percentile rate of consumption, the national adult 
consumption rate from NHANES data for all fish is 53 g/day and 22 g/day 
for inland and nearshore-only fish, or a ratio of 2.4. Applying this to 
an RSC of 0.2 yields 0.48, or 0.5 rounding to a single decimal place. 
Because the 175 g/day FCR includes some but not all marine species, EPA 
decided to use this approach to adjust the RSC values. However, EPA 
only adjusted RSC values to 0.5 for criteria calculations previously 
using an RSC between 0.2 and 0.5. Criteria derived using an RSC greater 
than 0.5 remained unchanged. EPA is using these same 2016 RSCs to 
derive HHC for Washington in this final rule, having no new data or 
information to support revising RSCs. The inclusion of protective RSCs 
in the development of HHC is a science-based decision that protects 
human health by ensuring that a person's exposure to multiple sources 
of a chemical is accounted for. See Table 1, column B2 of this preamble 
for a list of EPA's RSCs by pollutant.
    Some commenters asserted that use of an RSC of 1 is scientifically 
indefensible and that returning to EPA's 2016 approach of using an RSC 
equal to or less than 0.8 will ensure that the HHC consider other 
potential exposures. Commenters stated that tribes are regularly 
exposed to toxins through other routes of exposure in addition to fish 
consumption, such as dermal exposure. Commenters agreed with EPA's 
statement in the proposed rule that the choice of cancer risk level 
(CRL) is irrelevant to the choice of RSC since these inputs are for 
mutually exclusive

[[Page 69191]]

categories of pollutants (carcinogens vs. non-carcinogens).
    Other commenters asserted that the RSC value is a discretionary 
risk management decision and there is no regulatory requirement to 
examine multiple exposure routes when developing HHC. Commenters also 
stated that the criteria are only intended to protect for risks related 
to surface water exposure, i.e., fish and water. Some commenters 
asserted that it is arbitrary for EPA to use an RSC less than 1 when 
the FCR includes all fish. Other commenters pointed to prior EPA 
actions, including EPA's 2011 HHC approval in Oregon, and EPA's 2013 
approval of HHC for the Spokane Tribe, to assert that EPA has approved 
HHC that rely on an RSC of 1. Finally, some commenters state that EPA's 
use of RSCs in the drinking water program under the Safe Drinking Water 
Act (SDWA) is different than using them for WQS since SDWA allows for 
consideration of cost in setting the final regulatory limits.
    As explained in the proposed rulemaking, EPA determined that 
Washington's use of an RSC value of 1 to derive HHC is not based on 
sound scientific rationale as it apportioned the entire ``safe'' dose 
of certain chemicals to drinking water and fish consumption, ignoring 
other sources of those chemicals. While EPA acknowledges the comments 
indicating that it has previously approved WQS where states and 
authorized tribes utilized an RSC of 1 to develop certain HHC, in those 
prior actions, EPA only approved HHC that used an RSC of 1 if EPA had 
not yet updated its own corresponding national recommended 304(a) 
criteria to reflect chemical-specific RSC values following the Exposure 
Decision Tree approached described in the 2000 Methodology. Without 
updated national recommended 304(a) criteria, states and tribes did not 
yet have the benefit of EPA's thorough review of exposure information 
that now exists since EPA updated its national HHC recommendations in 
2015. Since the 2015 recommended HHC updates, EPA has encouraged all 
states to consider the latest science reflected in EPA's 2015 HHC 
recommendations during the triennial review of state WQS and update 
their HHC to incorporate appropriate RSCs. For detailed responses to 
all comments received, see EPA's Response to Comment document in the 
docket for this rule.
e. Pollutant-Specific Bioaccumulation Factors
    Where data are available, EPA uses BAFs to account for the uptake 
and retention of waterborne chemicals by aquatic organisms from all 
surrounding media and to ensure that resulting criteria are science-
based and protect designated uses for human health. Consistent with the 
2016 Federal rule for Washington,\70\ EPA is finalizing HHC for 
Washington by applying the trophic level four BAF from the 2015 CWA 
section 304(a) recommended HHC updates in conjunction with the 175 g/
day FCR.\71\
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    \70\ Revision of Certain Water Quality Standards Applicable to 
Washington, 81 FR 85417 (November 28, 2016).
    \71\ Because the surveyed population upon which the 175 g/day 
FCR is based consumed almost exclusively trophic level four fish 
(i.e., predator fish species), EPA used the trophic level four BAF 
from the 2015 CWA section 304(a) HHC updates in conjunction with the 
175 g/day FCR, in order to derive protective criteria. See Fish 
Consumption Survey of the Umatilla, Nez Perce, Yakama, and Warm 
Springs Tribes of the Columbia River Basin (CRITFC 1994).
---------------------------------------------------------------------------

    Some commenters asserted that the choice of BCFs versus BAFs is a 
science-based rather than risk management decision, and that EPA is 
appropriately following the science in applying BAFs in this rule. 
These commenters asserted that BCFs undercount the amount of chemicals 
in fish, and EPA disregarded science and its own guidance when it 
approved BCF-based HHC in 2019.
    Other commenters asserted that Washington's choice to use BCFs 
rather than BAFs was a sound science policy choice. These commenters 
asserted that BCFs are based on sound scientific principles and state 
that EPA has previously approved HHC that rely on BCFs. Commenters 
asserted that EPA's national recommended BAFs are just guidance, that 
they overestimate bioaccumulation and therefore lead to overly 
stringent HHC, and that they are insufficiently explained such that it 
is not possible to determine if they are appropriate for Washington. 
Some commenters asserted that both BAFs and BCFs are influenced by the 
local environment (e.g., food web structure, water temperature, 
dissolved carbon) and therefore cannot be based on a single set of 
assumptions for all waters.
    Regarding the comments supporting the use of BCFs, as explained in 
the proposed rule, the use of BCFs rather than BAFs, where BAF data are 
available, to calculate the HHC is inconsistent with sound scientific 
rationale on the bioaccumulation of pollutants. EPA has considered the 
comments received on its selected BAFs and reiterates its explanation 
in the proposed rule that it does not have new data or information to 
support an alternative to its 2016 decision to use the trophic level 
four BAFs, given that the species commonly consumed in Washington are 
trophic level four fish (e.g., salmon). For certain pollutants for 
which science-based BAFs are not currently available, EPA is finalizing 
HHC using the BCFs from its updated CWA section 304(a) recommended HHC 
for those pollutants as the best available scientific information. See 
Table 1, columns B4 and B5 of this preamble for a list of EPA's 
bioaccumulation factors by pollutant. For detailed responses to all 
comments received, see EPA's Response to Comment document in the docket 
for this rule.

C. Final Human Health Criteria for Washington

    EPA is finalizing 141 HHC for 72 different pollutants (70 organism-
only criteria and 71 water-plus-organism criteria) to protect the 
applicable designated uses of Washington's waters (see Table 1 of this 
preamble). The final HHC are the same criteria that EPA promulgated in 
2016. The water-plus-organism criteria in column C1 of Table 1 of this 
preamble, are the applicable criteria for any waters that include the 
Domestic Water use (domestic water supply) defined in Washington's WQS 
(WAC 173-201A-600). The organism-only criteria in column C2 of Table 1 
of this preamble, are the applicable criteria for any waters that do 
not include the Domestic Water use (domestic water supply) and that 
Washington defines at WAC 173-201A-600 and 173-201A-610 as the 
following:
     Fresh waters--Harvesting (fish harvesting), and 
Recreational Uses;
     Marine waters--Shellfish Harvesting (shellfish--clam, 
oyster, and mussel--harvesting), Harvesting (salmonid and other fish 
harvesting, and crustacean and other shellfish--crabs, shrimp, 
scallops, etc.--harvesting), and Recreational Uses.
BILLING CODE 6560-50-P

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[GRAPHIC] [TIFF OMITTED] TR18NO22.711


[[Page 69193]]


[GRAPHIC] [TIFF OMITTED] TR18NO22.712

BILLING CODE 6560-50-C

D. Applicability

    Under the CWA, Congress gave states primary responsibility for 
developing and adopting WQS for their navigable waters (CWA section 
303(a)-(c)). Although EPA is finalizing revised HHC for Washington, 
Washington continues to have the option to adopt and submit to EPA 
newly revised HHC for the State's waters consistent with CWA section 
303(c) and EPA's implementing regulations at 40 CFR part 131. If, 
subsequent to this final rule, Washington adopts and submits revised 
HHC, EPA's federally promulgated criteria will remain applicable for 
purposes of the CWA until EPA withdraws the federally promulgated 
criteria (40 CFR 131.21(c)). EPA would undertake such a rulemaking to 
withdraw the Federal criteria if and when Washington adopts and EPA 
approves corresponding State criteria that meet the requirements of 
section 303(c) of the CWA and EPA's implementing regulations at 40 CFR 
part 131.

E. Alternative Regulatory Approaches and Implementation Mechanisms

    The Federal WQS regulation at 40 CFR part 131 provides several 
tools that Washington has available to use at its discretion when 
implementing or deciding how to implement these HHC. Among other 
things, EPA's WQS regulation: (1) specifies how states and authorized 
tribes establish, modify, or remove designated uses (40 CFR 131.10); 
(2) specifies the requirements for establishing criteria to protect 
designated uses, including criteria modified to reflect site-specific

[[Page 69194]]

conditions (40 CFR 131.11); (3) authorizes and provides a regulatory 
framework for states and authorized tribes to adopt WQS variances where 
it is not feasible to attain the applicable WQS at that time (40 CFR 
131.14); and (4) allows states and authorized tribes to authorize the 
use of compliance schedules in National Pollutant Discharge Elimination 
System (NPDES) permits to meet water quality-based effluent limits 
(WQBELs) derived from the applicable WQS (40 CFR 131.15). Each of these 
approaches is discussed in more detail in the next sections. Whichever 
approach a state pursues, however, all NPDES permits would need to 
comply with EPA's regulations at 40 CFR 122.44(d)(1)(i).
a. Designated Uses
    EPA's HHC apply to waters that Washington has designated for the 
following:
     Fresh waters--Harvesting (fish harvesting), Domestic Water 
(domestic water supply), and Recreational Uses;
     Marine waters--Shellfish Harvesting (shellfish--clam, 
oyster, and mussel--harvesting), Harvesting (salmonid and other fish 
harvesting, and crustacean and other shellfish--crabs, shrimp, 
scallops, etc.--harvesting), and Recreational Uses (see WAC 173-201A-
600 and WAC 173-201A-610).
    The Federal regulation at 40 CFR 131.10(g) provides requirements 
for establishing, modifying, and removing designated uses when 
attaining the use is not feasible based on one of the six factors 
specified in the regulation. If Washington removes a use and adopts the 
highest attainable use,\72\ the State must also adopt criteria to 
protect the newly designated highest attainable use consistent with 40 
CFR 131.11. It is possible that criteria other than the federally 
promulgated criteria would protect the highest attainable use. If EPA 
found removal or modification of the designated use and the adoption of 
the highest attainable use and criteria to protect that use to be 
consistent with CWA section 303(c) and the implementing regulation at 
40 CFR part 131, the agency would approve the revised WQS. EPA would 
then undertake a rulemaking to withdraw the corresponding Federal WQS 
for the relevant water(s).
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    \72\ If a state or authorized tribe adopts a new or revised WQS 
based on a required use attainability analysis, then it must also 
adopt the highest attainable use (40 CFR 131.10(g)). The highest 
attainable use is the modified aquatic life, wildlife, or recreation 
use that is both closest to the uses specified in section 101(a)(2) 
of the CWA and attainable, based on the evaluation of the factor(s) 
in 40 CFR 131.10(g) that preclude(s) attainment of the use and any 
other information or analyses that were used to evaluate 
attainability. There is no required highest attainable use where the 
state demonstrates the relevant use specified in section 101(a)(2) 
of the Act and sub-categories of such a use are not attainable (see 
40 CFR 131.3(m)).
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b. WQS Variances
    Washington's WQS provide authority to apply WQS variances when 
implementing federally promulgated HHC, as long as such WQS variances 
are adopted consistent with 40 CFR 131.14 and submitted to EPA for 
review under CWA section 303(c). The Federal regulation at 40 CFR 
131.3(o) defines a WQS variance as a time-limited designated use and 
criterion, for a specific pollutant or water quality parameter, that 
reflects the highest attainable condition during the term of the WQS 
variance. A WQS variance may be appropriate if attaining the use and 
criterion would not be feasible during the term of the WQS variance 
because of one of the seven factors specified in 40 CFR 
131.14(b)(2)(i)(A). These factors include a situation where NPDES 
permit limits more stringent than technology-based controls would 
result in substantial and widespread economic and social impact. WQS 
variances adopted in accordance with 40 CFR 131.14 (including a public 
hearing consistent with 40 CFR 25.5) provide a flexible but defined 
pathway for states and authorized tribes to issue NPDES permits with 
limits that are based on the highest attainable condition during the 
term of the WQS variance. This allows dischargers to make water quality 
improvements when the WQS is not immediately attainable but may be in 
the future. When adopting a WQS variance, states and authorized tribes 
specify the interim requirements of the WQS variance by identifying a 
quantitative expression that reflects the highest attainable condition 
(HAC) during the term of the WQS variance, establishing the term of the 
WQS variance, and describing the pollutant control activities expected 
to occur over the specified term of the WQS variance. WQS variances 
provide a legal avenue by which NPDES permit limits can be written to 
comply with the WQS variance rather than the underlying WQS for the 
term of the WQS variance. If dischargers are still unable to meet the 
WQBELs derived from the applicable WQS once a WQS variance term is 
complete, the regulation allows the State to adopt a subsequent WQS 
variance if it is adopted consistent with 40 CFR 131.14. EPA is 
finalizing HHC that apply to use designations that Washington has 
already established. Washington's WQS regulations currently include 
provisions to use WQS variances when implementing criteria (see WA 173-
210A-420), as long as such WQS variances are adopted consistent with 40 
CFR 131.14 and approved by EPA. Washington may use the State's EPA-
approved WQS variance procedures when adopting such WQS variances.
c. NPDES Permit Compliance Schedules
    EPA's regulations at 40 CFR 122.47 and 131.15 address how 
permitting authorities can use schedules for compliance with a limit in 
the NPDES permit if the discharger needs additional time to undertake 
actions like facility upgrades or operation changes to meet a WQBEL 
based on the applicable WQS. EPA's regulation at 40 CFR 122.47 allows a 
permitting authority to include a compliance schedule in the NPDES 
permit, when appropriate and where authorized by the state, to provide 
a discharger with additional time to meet a WQBEL implementing 
applicable WQS. EPA's regulation at 40 CFR 131.15 requires that a state 
that intends to allow the use of NPDES permit compliance schedules 
adopt specific provisions authorizing their use and obtain EPA approval 
under CWA section 303(c) to ensure that a decision to allow a permit 
compliance schedule is transparent and allows for public input.\73\ EPA 
has approved Washington's State law provision authorizing the use of 
permit compliance schedules (see WAC-173-201A-510(4)), consistent with 
40 CFR 131.15. Washington's compliance schedule authorizing provision 
is not affected by this rule. Washington is authorized to grant permit 
compliance schedules, as appropriate, based on the Federal HHC in 
Washington, if such permit compliance schedules are consistent with 
EPA's permitting regulation at 40 CFR 122.47.
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    \73\ 80 FR 51022 (August 21, 2015).
---------------------------------------------------------------------------

IV. Economic Analysis

    EPA focused its economic analysis on the potential cost impacts to 
current holders of individual NPDES permits (point sources) and the 
costs the State of Washington may bear to develop Total Maximum Daily 
Loads (TMDLs) for waters newly identified as impaired under CWA section 
303(d) using the revised WQS. Costs might also arise to holders of 
general permits \74\ should the State modify those permits in some 
manner as a result of the revised WQS. Costs might also arise to 
sectors whose operations are nonpoint sources of pollutants through 
implementation of TMDLs or through other voluntary,

[[Page 69195]]

incentivized, or State-imposed controls. This rule does not directly 
regulate nonpoint sources and under the CWA states are responsible for 
the regulation of nonpoint sources. EPA recognizes that controls for 
nonpoint sources may be part of future TMDLs, but any such future 
decisions will be made by the State. Nonpoint sources are intermittent, 
variable, and occur under hydrologic or climatic conditions associated 
with precipitation events. Data to model and evaluate the potential 
cost impacts associated with nonpoint sources were not available and 
any estimate would be too uncertain to be informative. EPA also did not 
estimate potential sediment remediation costs for this analysis.
---------------------------------------------------------------------------

    \74\ General permits typically focus on best management 
practices.
---------------------------------------------------------------------------

    These WQS may serve as a basis for development of NPDES permit 
limits. Washington has NPDES permitting authority and retains 
considerable discretion in implementing standards. EPA evaluated the 
potential costs to NPDES dischargers associated with State 
implementation of EPA's criteria. This analysis is documented in 
``Economic Analysis for Restoring Protective Human Health Criteria in 
Washington,'' which can be found in the record for this rule. Any 
NPDES-permitted facility that discharges pollutants for which the 
revised HHC are more stringent than the applicable aquatic life 
criteria (or for which HHC are the only applicable criteria) could 
potentially incur compliance costs. The types of affected facilities 
could include industrial facilities and POTWs discharging wastewater to 
surface waters (i.e., point sources).

A. Identifying Affected Entities

    EPA identified 406 point source facilities that could ultimately be 
affected by this rule. Of these potentially affected facilities, 73 are 
major dischargers and 333 are minor dischargers. EPA did not include 
general permit facilities in its analysis because data for such 
facilities are limited and requirements typically focus on best 
management practices. Of the potentially affected facilities, EPA 
evaluated a sample of 18 major facilities. Minor facilities are less 
likely to incur costs as a result of implementation of the rule because 
of the reduced potential for significant presence of toxic pollutants 
in their effluent. EPA did not have effluent data on toxic pollutants 
to evaluate minor facilities for this analysis. Table 2 summarizes 
these potentially affected facilities by type and category.

                                    Table 2--Potentially Affected Facilities
----------------------------------------------------------------------------------------------------------------
                            Category                                   Minor           Major            All
----------------------------------------------------------------------------------------------------------------
Municipal.......................................................             169              44             213
Industrial......................................................             164              29             193
                                                                 -----------------------------------------------
    Total.......................................................             333              73             406
----------------------------------------------------------------------------------------------------------------

B. Method for Estimating Costs

    EPA evaluated the two major municipal facilities with design flows 
greater than 100 mgd and the largest industrial facility, to attempt to 
capture the facilities with the potential for the largest costs. For 
the remaining major facilities, EPA evaluated a random sample of 
facilities to represent discharger type and category. For all sample 
facilities, EPA evaluated existing baseline permit conditions, 
reasonable potential to exceed HHC based on the rulemaking, and 
potential to exceed projected effluent limitations based on the last 
three years of effluent monitoring data (if available). Only compliance 
actions and costs that would be needed above the baseline level of 
controls are attributable to the rulemaking.
    EPA assumes that dischargers would pursue the least cost means of 
compliance with WQBELs. Compliance actions attributable to the 
rulemaking may include pollution prevention, end-of-pipe treatment, and 
alternative compliance mechanisms (e.g., WQS variances). EPA annualizes 
capital costs, including study (e.g., WQS variance) and program (e.g., 
pollution prevention) costs, over 20 years using discount rates of 3 
percent and 7 percent to obtain total annual costs per facility. To 
obtain an estimate of total costs to point sources, EPA extrapolates 
the annualized costs for the random sample based on the flow volume for 
the sample facilities and the flow volume for all facilities.

C. Results

    Based on the results for 18 sample facilities across 10 industrial 
and municipal categories,\75\ EPA did not identify any incremental 
costs to any major point source discharges of process wastewater from 
POTWs or industrial facilities attributable to EPA's criteria 
revisions. This does not mean that EPA anticipates there would be no 
costs to point sources over time to implement controls or modify 
processes to meet future permit limits, only that available data do not 
indicate the immediate need for the facilities evaluated. It would be 
highly speculative to attempt to estimate potential costs either based 
on the possibility of measuring pollutant levels at lower levels as a 
result of future requirements or future technology, or based on changes 
to facility operations or practices. Should the need to consider 
advanced treatment or other substantial costs arise in the future, 
there are mechanisms such as WQS variances in place which may consider 
cost and feasibility in the application of protective criteria, and 
alternative permit limits may be derived to avoid excessive costs. EPA 
will work with the State of Washington and with stakeholders on a 
continuing basis to assess the possibility of economically significant 
future costs of compliance. If such costs arise, EPA will provide 
guidance for applying alternative compliance mechanisms to minimize 
costs.
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    \75\ Ten industrial categories (coal mining, food and kindred 
products, paper and allied products, chemicals and allied products, 
petroleum refining and related industries, primary metal industries, 
fabricated metal products, electric, gas and sanitary services, and 
national security and international affairs) and municipal POTWs.
---------------------------------------------------------------------------

    One important contributing factor to examining point source costs 
is the limitations of required analytical methods to measure chemical 
concentrations in effluents. Nearly half of pollutant parameters 
addressed in this rule have analytical quantitation limits that are 
above both the criteria currently in place and EPA's criteria. PCBs are 
a good example. The current criterion in place is 170 picograms per 
liter (pg/L) and EPA's criterion is 7 pg/L. However, the State 
identifies the analytical detection limit for effluent measurement as 
65,000 pg/L as the means to evaluate compliance. EPA has completed a 
multi-laboratory validation of a new analytical method for PCBs (method 
1628) that has an average analytical quantitation limit for each PCB 
congener of approximately 2,000

[[Page 69196]]

pg/L, which is a substantial improvement over the current regulatory 
method, but still well above either the criterion currently in place or 
EPA's criterion. As a general matter, analytical methods and 
quantitation limits are subject to change over time. As such, it is 
important that WQS reflect the necessary level of protection regardless 
of contemporary limitations of analytical methods.
    EPA also evaluated potential administrative costs to the State for 
developing additional TMDLs under CWA section 303(d) for any waters 
that are newly identified as impaired as a result of EPA's criteria. 
Using available ambient monitoring data, EPA compared pollutant 
concentrations to the baseline and revised criteria, identifying 
waterbodies that may be incrementally impaired (i.e., impaired under 
EPA's criteria but not under the baseline). EPA identified 32 
impairments under the baseline criteria and 61 under the revised 
criteria, resulting in 29 potential incremental impairments. The 
estimated total annual costs for TMDL development range from $100,000 
to $182,000, at a 3 percent discount rate, based on single-cause 
single-waterbody TMDL development costs. Actual costs may be reduced if 
the State develops multi-cause or multi-waterbody TMDLs.

V. Statutory and Executive Order Reviews

    Additional information about these statutes and Executive orders 
can be found at https://www.epa.gov/laws-regulations/laws-and-executive-orders.

A. Executive Order 12866: Regulatory Planning and Review and Executive 
Order 13563: Improving Regulation and Regulatory Review

    This action is not a significant regulatory action and was 
therefore not submitted to the Office of Management and Budget (OMB) 
for review.

B. Paperwork Reduction Act (PRA)

    This action does not impose any new information collection burden 
under the PRA. While actions to implement these WQS could entail 
additional paperwork burden, this action does not directly contain any 
information collection, reporting, or record-keeping requirements. OMB 
has previously approved the information collection activities contained 
in the existing regulation at 40 CFR part 131 and has assigned OMB 
control number 2040-0049.

C. Regulatory Flexibility Act (RFA)

    I certify that this action will not have a significant economic 
impact on a substantial number of small entities under the RFA. This 
action will not impose any requirements on small entities. Small 
entities, such as small businesses or small governmental jurisdictions, 
are not directly regulated by this rule. EPA-promulgated WQS are 
implemented through various water quality control programs including 
the NPDES program, which limits discharges to navigable waters except 
in compliance with a NPDES permit. CWA section 301(b)(1)(C) and EPA's 
implementing regulations at 40 CFR 122.44(d)(1) introductory text and 
(d)(1)(i) provide that all NPDES permits shall include any limits on 
discharges that are necessary to meet applicable WQS. Thus, under the 
CWA, EPA's promulgation of WQS establishes standards that the State 
implements through the NPDES permit process. While the State has 
discretion in developing discharge limits, as needed to meet the WQS, 
those limits, per regulations at 40 CFR 122.44(d)(1)(i), ``must control 
all pollutants or pollutant parameters (either conventional, 
nonconventional, or toxic pollutants) which the Director determines are 
or may be discharged at a level that will cause, have the reasonable 
potential to cause, or contribute to an excursion above any [s]tate 
water quality standard, including [s]tate narrative criteria for water 
quality.'' As a result of this action, the State of Washington will 
need to ensure that permits it issues include any limitations on 
discharges necessary to comply with the WQS established in this final 
rule. In doing so, the State will have a number of choices associated 
with permit writing. While Washington's implementation of the rule may 
ultimately result in new or revised permit conditions for some 
dischargers, including small entities, EPA's action, by itself, does 
not impose any of these requirements on small entities; that is, these 
requirements are not self-implementing.

D. Unfunded Mandates Reform Act (UMRA)

    This action does not contain any unfunded mandate as described in 
UMRA, 2 U.S.C. 1531-1538, and does not significantly or uniquely affect 
small governments. The action imposes no enforceable duty on any state, 
local, or tribal governments or the private sector.

E. Executive Order 13132: Federalism

    Under the technical requirements of Executive Order 13132, the EPA 
has determined that this rule may not have federalism implications but 
believes that the consultation requirements of the Executive order have 
been satisfied in any event. This rule does not alter Washington's 
considerable discretion in implementing these WQS, nor does it preclude 
Washington from adopting WQS that EPA concludes meet the requirements 
of the CWA after promulgation of this final rule.

F. Executive Order 13175: Consultation and Coordination With Indian 
Tribal Governments

    This action has tribal implications. However, it will neither 
impose substantial direct compliance costs on federally recognized 
tribal governments, nor preempt tribal law. This rule could affect 
federally recognized Indian tribes in Washington because the numeric 
criteria for Washington will apply to waters adjacent to (or upstream 
or downstream of) the tribal waters. Additionally, there are six 
federally recognized Indian tribes in the Columbia River Basin located 
in the States of Oregon and Idaho that this rule could affect because 
their waters could affect or be affected by the water quality of 
Washington's downstream or upstream waters.
    EPA consulted with tribal governments under the EPA Policy on 
Consultation and Coordination with Indian Tribes early in the process 
of developing this regulation to ensure meaningful and timely input 
into its development. In August 2021, EPA held coordination and 
consultation sessions with tribal environmental staff and leadership to 
share information, hear their views and answer questions on the 
rulemaking. Representatives from 17 tribes and two tribal consortia 
participated in two leadership meetings with EPA held in August 2021. 
Additionally, EPA conducted tribal consultation and coordination 
activities on the proposed rulemaking from March 29, 2022, through June 
3, 2022. During these meetings, the tribes repeatedly asked EPA to 
reinstate the 2016 Federal HHC for Washington, which EPA is doing in 
this final rule.
    A Summary of EPA's Consultation, Coordination, and Outreach with 
Federally Recognized Tribes on the Restoration of Protective Human 
Heath Criteria for Washington is available in the docket for this final 
rule.

G. Executive Order 13045: Protection of Children From Environmental 
Health Risks and Safety Risks

    This action is not subject to Executive Order 13045 because it is 
not economically significant as defined in

[[Page 69197]]

Executive Order 12866, and because the EPA does not believe the 
environmental health or safety risks addressed by this action present a 
disproportionate risk to children. This action's health and risk 
assessments are contained in section II.B of this preamble, in which 
EPA recommends that HHC be designed to reduce the risk of adverse 
cancer and non-cancer effects occurring from lifetime exposure to 
pollutants through the ingestion of drinking water and consumption of 
fish/shellfish obtained from inland and nearshore waters. EPA's HHC for 
Washington are similarly based on reducing the chronic health effects 
occuring from lifetime exposure and therefore are expected to be 
protective of a person's exposure during both childhood and adult 
years.

H. Executive Order 13211: Actions That Significantly Affect Energy 
Supply, Distribution, or Use

    This action is not subject to Executive Order 13211, because it is 
not a significant regulatory action under Executive Order 12866. This 
action establishes CWA HHC for waters under the State of Washington's 
jurisdiction.

I. National Technology Transfer and Advancement Act of 1995

    This rule does not involve technical standards.

J. Executive Order 12898: Federal Actions To Address Environmental 
Justice in Minority Populations and Low-Income Populations

    EPA believes that this action does not have disproportionately high 
and adverse human health or environmental effects on minority 
populations, low-income populations and/or Indigenous peoples, as 
specified in Executive Order 12898 (59 FR 7629, February 16, 1994). The 
documentation for this decision is contained below.
1. Introduction
    EPA defines Environmental Justice (EJ) as the fair treatment and 
meaningful involvement of all people regardless of race, color, 
national origin, or income with respect to the development, 
implementation and enforcement of environmental laws, regulations and 
policies.\76\ Three Executive orders (E.O. 12898,\77\ 13985,\78\ and 
14008 \79\) advance EJ by calling on Federal agencies to identify and 
address disproportionate impacts on historically underserved, 
marginalized, and economically disadvantaged people. Additionally, EPA 
has expressed a commitment to conducting EJ analyses for rulemakings as 
described in the April 30, 2021, revisions to the Cross-State Air 
Pollution Rule (CSAPR).\80\
---------------------------------------------------------------------------

    \76\ Fair treatment means that ``no group of people should bear 
a disproportionate burden of environmental harms and risks, 
including those resulting from the negative environmental 
consequences of industrial, governmental and commercial operations 
or programs and policies.'' Meaningful involvement occurs when ``(1) 
potentially affected populations have an appropriate opportunity to 
participate in decisions about a proposed activity [e.g., 
rulemaking] that will affect their environment and/or health; (2) 
the public's contribution can influence [the EPA's rulemaking] 
decision; (3) the concerns of all participants involved will be 
considered in the decision-making process; and (4) [the EPA will] 
seek out and facilitate the involvement of those potentially 
affected.'' A potential EJ concern is defined as ``the actual or 
potential lack of fair treatment or meaningful involvement of 
minority populations, low-income populations, tribes, and tribal 
peoples in the development, implementation and enforcement of 
environmental laws, regulations and policies.'' See ``Guidance on 
Considering Environmental Justice During the Development of an 
Action,'' Environmental Protection Agency, www.epa.gov/environmentaljustice/guidanceconsidering-environmental-justice-duringdevelopment-action. See also https://www.epa.gov/environmentaljustice.
    \77\ Federal Actions to Address Environmental Justice in 
Minority Populations and Low-Income Populations. Available at 
https://www.epa.gov/environmentaljustice/federal-actions-address-environmental-justice-minority-populations-and-low, accessed October 
6, 2021.
    \78\ Advancing Racial Equity and Support for Underserved 
Communities Through the Federal Government (86 FR 7009, January 25, 
2021). Available at https://www.federalregister.gov/documents/2021/01/25/2021-01753/advancing-racial-equity-and-support-for-underserved-communities-through-the-federal-government, accessed 
October 6, 2021.
    \79\ Tackling the Climate Crisis at Home and Abroad (86 FR 7619, 
February 1, 2021). Available at https://www.federalregister.gov/documents/2021/02/01/2021-02177/tackling-the-climate-crisis-at-home-and-abroad, accessed October 6, 2021.
    \80\ 86 FR 23054, 23162 (April 30, 2021) (``Going forward, EPA 
is committed to conducting environmental justice analysis for 
rulemakings based on a framework similar to what is outlined here, 
in addition to investigating ways to further weave environmental 
justice into the fabric of the rulemaking process including through 
enhanced meaningful engagement with environmental justice 
communities.'').
---------------------------------------------------------------------------

    EPA believes that this rule is not expected to have 
disproportionately high and adverse human health or environmental 
effects on low-income populations, people of color, or tribal 
populations, as specified in Executive Order 12898 (59 FR 7629, 
February 16, 1994). In its economic impact analysis, EPA only estimates 
administrative costs to the State of Washington to develop TMDLs and no 
incremental costs to point source discharges based on available data, 
as explained above in section IV of this preamble. Therefore, EPA does 
not anticipate that this rule will impose any additional costs or other 
negative impacts on tribes or other low income or disadvantaged 
communities.
    Instead, this action identifies and ameliorates disproportionately 
high and adverse human health effects on tribal communities, people of 
color and low-income populations in Washington by restoring HHC in 
Washington that are based on sound scientific rationale and protect 
high fish consumers.
    Many groups in Washington, such as Asian, Pacific Islanders, and 
subsistence and recreational tribal and non-tribal fishers consume 
large amounts of fish and shellfish as part of traditionally influenced 
diets.\81\ The 2019 Reconsidered HHC currently expose these high fish 
consumers to greater risk from toxic pollutants because the criteria do 
not accurately account for pollutant bioaccumulation into fish and 
expose fish consumers to a greater risk of cancer from PCB exposure.
---------------------------------------------------------------------------

    \81\ Department of Ecology. Fish Consumption Rates: Technical 
Support Document, A Review of Data and Information about Fish 
Consumption in Washington, Version 2.0 Final. January 2013. Ecology 
Publication No. 12-09-058, p.18. https://apps.ecology.wa.gov/publications/documents/1209058.pdf.
---------------------------------------------------------------------------

    Environmental impacts to tribes may be considered under the 
category of EJ in recognition that tribes may at times be among the 
disadvantaged communities disproportionately impacted by environmental 
degradation. Where tribal communities are part of a larger non-tribal 
community, many of the EJ considerations are very similar to those of 
other disadvantaged groups. However, there is a very unique set of EJ 
considerations for tribes, particularly in this context where tribes 
are exercising their cultural practices and treaty-reserved rights 
outside of their reservations on state waters.
    While the overall impacts to communities with EJ concerns are 
improved as a result of this rule, by relying on the fish consumption 
rates based on tribal data, this rule helps ensure that tribal members, 
in particular, and their treaty-protected activities and resources are 
protected.\82\ Specifically, this rule establishes HHC based on an FCR 
of 175 g/day reflective of regional tribal FCR survey data \83\ to 
represent and protect higher fish consumers. In conjunction with the 
FCR, the rule uses a CRL of 10^-6 to

[[Page 69198]]

derive HHC for all cancer-causing pollutants, including PCBs, a rate 
which is protective of tribal members exercising their legal right to 
harvest and consume fish and shellfish at the 175 g/day level.
---------------------------------------------------------------------------

    \82\ 80 FR 55063 (September 14, 2015) (``In Washington, many 
tribes hold reserved rights to take fish for subsistence, 
ceremonial, religious, and commercial purposes, including treaty-
reserved rights to fish at all usual and accustomed fishing grounds 
and stations in waters under state jurisdiction, which cover the 
majority of waters in the state. Such rights include not only a 
right to take those fish, but necessarily include an attendant right 
to not be exposed to unacceptable health risks by consuming those 
fish.'').
    \83\ Fish Consumption Survey of the Umatilla, Nez Perce, Yakama, 
and Warm Springs Tribes of the Columbia River Basin (CRITFC 1994).
---------------------------------------------------------------------------

    Central to working with tribes on their environmental issues and 
opportunities is government to government consultation, which is 
consistent with Executive Order 13175 (65 FR 67249, November 6, 2000). 
To ensure that this rule considers the interests and perspective of 
tribes, EPA engaged with tribes that may be affected by this action to 
receive meaningful and timely input from tribal officials. See section 
V.F of this preamble for a summary of tribal consultation.
    In addition to Executive Orders 12898 and 13175, and in accordance 
with Title VI of the Civil Rights Act of 1964, each Federal agency 
shall ensure that all programs or activities receiving Federal 
financial assistance that affect human health or the environment do not 
directly, or through contractual or other arrangements, use criteria, 
methods, or practices that discriminate on the basis of race, color, or 
national origin. With that directive in mind, in August 2011 the 
Environmental Justice Interagency Working Group established a Title VI 
Committee to address the intersection of agencies' environmental 
justice efforts with their Title VI enforcement and compliance 
responsibilities. If Washington receives Federal funds for CWA 
implementation, they are legally prohibited from discriminating on the 
basis of race, color or national origin under Title VI when engaging in 
CWA implementation activities. Additionally, and in compliance with 
Executive Order 12898, EPA expects that Washington will consider 
disproportionately high adverse human health and environmental effects 
on minority and low-income populations when implementing this rule 
under the CWA.

K. Congressional Review Act (CRA)

    This action is subject to the CRA, and EPA will submit a rule 
report to each House of the Congress and to the Comptroller General of 
the United States. This action is not a ``major rule'' as defined by 5 
U.S.C. 804(2).

List of Subjects in 40 CFR Part 131

    Environmental protection, Indians-lands, Intergovernmental 
relations, Reporting and recordkeeping requirements, Water pollution 
control.

Michael S. Regan,
Administrator.

    For the reasons set forth in the preamble, EPA amends 40 CFR part 
131 as follows:

PART 131--WATER QUALITY STANDARDS

0
1. The authority citation for part 131 continues to read as follows:

    Authority:  33 U.S.C. 1251 et seq.

Subpart D--Federally Promulgated Water Quality Standards

0
2. Amend Sec.  131.45 by revising paragraph (b) to read as follows:


Sec.  131.45   Revision of certain Federal water quality criteria 
applicable to Washington.

* * * * *
    (b) Criteria for priority toxic pollutants in Washington. The 
applicable human health criteria are shown in table 1 to this paragraph 
(b).
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[FR Doc. 2022-25150 Filed 11-17-22; 8:45 am]
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