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Home My WebLink About2021.11.30_CCO.p14_DEQ comments Eco Protocols Appendix A: Comments on Eco (Aquatic) Protocols Comments Responsiveness Table DEQ comments to Chemours on 3/9/21 Chemours response to DEQ comments on 5/28/21 DEQ Comments 9/16/21 Outcome of 10/14/21 discussion DEQ reviewed the following aquatic (eco) toxicology master protocols received in December 2020 from Chemours pursuant to paragraph 14 of the Consent Order.  Algae: 96-hour toxicity test with the freshwater alga (Raphidocelis subcapitata) OECD 201; EU Directive 92/69/EEC, Method C.3.; EPA OCSPP Number 850.4500  Daphnid acute: 48-hour static acute toxicity test with the cladoceran (Daphnia magna) OECD 202, EPA OCSPP 850.1010  Daphnid chronic: semi-static life-cycle toxicity test with the cladoceran (Daphnia magna) OECD 211, EPA OCSPP 850.1300  Fish acute: 96-hour static acute toxicity test with the fathead minnow (Pimephales promelas) OECD 203, EPA OCSPP 850.1075  Sediment 10-day not yet received. Chemours Responses to DEQ Comments on Aquatic Toxicology Protocols Chemours submits the following responses to DEQ’s March 9, 2021 comments on the aquatic toxicology protocols. DEQ’s comments are copied below, followed by Chemours’s responses in orange font. Chemours has not responded here to DEQ’s requests for protocols for additional toxicology studies that are not among those required by the Consent Order. As noted in many of Chemours’s responses below, in response to DEQ’s requests, Chemours has engaged with the lab and the lab will use the EPA-821-R-02-012 and EPA-821-R-02-013 guidelines. Chemours intends to submit updated protocols to DEQ for approval, incorporating these guidelines and other requested modifications. Once DEQ approves the protocols, it is important for the studies to move forward on the schedules controlled by the lab. Chemours submitted a master protocol on 7/14/21 for the sediment method and then submitted revised master protocols on 8/19/21 for Ceriodaphnia acute, Ceriodaphnia chronic, and Fish acute methods. Comments on these master protocols are provided below. Chemours has not submitted a revised master protocol for the algae method. Please see DEQ comments from 3/9/21 and below, and submit a revised master protocol that addresses DEQ’s comments. DEQ requested revised master protocols to include the information throughout this Comments Responsiveness Table. 1) Comments on toxicity study work plans: DEQ has previously provided comments on the toxicity study work plan in a letter dated 5/03/19 (RE: Comments on Draft Plan for Toxicity Studies) and an email dated 12/17/19 (RE: Toxicologist Meeting Minutes). These expectations still apply. Chemours has requested to submit components of the toxicity study work plan and supporting information separately. DEQ has agreed to receive and review these items separately, but reminds Chemours that each of the following items are needed before DEQ can approve the final studies: 1(a). Revised master protocols must be provided to DEQ with requested modifications and/or additional supporting information. DEQ will review and approve these protocols to enable development of the compound specific protocols. Chemours’s Response: Chemours will resubmit the protocols after revision with the additional information. Thank you 1(b). DEQ is requesting that Chemours submit any previously existing toxicity information available on these compounds. If toxicity data for these compounds and these species do not already exist, then DEQ requires that range- finding toxicity tests be conducted. Chemours’s Response: Chemours is not aware of any substance-specific aquatic toxicity data on these substances. Range finding studies are part of the EPA-821-R- 02-012 and EPA-821-R- 02-013 guidelines. After range-finding studies are conducted, Chemours should provide DEQ with results from those studies along with the proposed compound specific protocols. Once the range-finding studies are complete, Chemours will submit compound-specific protocols to DEQ for review and approval. Please confirm that the dosing levels in the compound-specific protocols will be as follows: the acute studies must be designed to bracket EC50 values and chronic studies must be designed to bracket LOEC and NOEC values. State these targets in the compound-specific protocols as well. Eurofins will work with client to determine proper dose ranges.  Eurofins informed DEQ that there is a brief time (2 weeks) between the Range Finding experiments and when the main experiments are started where they show the clients the data and discuss the proper concentrations; this time is also used to complete the analytical method verifications if needed.  Eurofins confirmed DEQ could be privy to that range finding data and be included in the conversation with the understanding that there is not an extensive amount of time for review.  DEQ emphasized that this is a priority and will review as quickly as needed. It has already been agreed upon that DEQ will review and approve the compound specific protocols along with range finding results prior to initiation of the final studies. If Chemours proceeds with the final studies without DEQ approval of protocols and then Chemours runs the risk of having to repeat the work. Chemours should give DEQ at least 2 weeks’ notice prior to sending range finding results and the compound- specific protocols so that DEQ can block off time to review in our schedules. 1(f). A work plan with key milestones and approval status for each of these requested items must be provided to DEQ for approval prior to the commencement of the final studies. Chemours’s Response: A work plan with key milestones will be provided prior to the commencement of the final studies but is not appropriate to be subject to DEQ approval because the lab controls the schedule. The lab will only schedule a study once the protocol is approved. Chemours will share the schedule as soon as it is available after protocol approval. Chemours will request “next available study slot” following protocol approval. Chemours should provide a work plan as one of the supporting information documents. Chemours had expressed concern about the timeline and the impact it will have on DEQ’s ability to review and provide feedback on the compound-specific protocols. However, Chemours has not provided a study schedule for the EcoTox studies, which was required by the Consent Order. Chemours should define the study schedule and timeline in the work plan, including points in the schedule when all protocols and Eurofins committed to put together a timeframe after the meeting where they will provide DEQ time to evaluate the results of range finding study before proceeding with the test if we agree on a quick turnaround. Eurofins provided the tentative range finding schedule: Algae, Fish and Cerio cute (Jan-Feb 2022); Sediment (Mar 2022); Cerio Chronic (July 2022) supporting information will be provided to DEQ for review and approval. If the lab is not able to break up steps in their work schedule and report back on range-finding and analytical chemistry development phases prior to starting the final toxicology studies, then Chemours should ask the lab to provide a written justification explaining this. Chemours has asked to submit components separately, such as the protocols and supporting information. DEQ has agreed to receive and review these items separately, but reminds Chemours that each of the items are needed for to DEQ review before DEQ can approve the final compound-specific protocols. Chemours may submit these ahead of time so that DEQ can begin the review process. DEQ also recommends that Chemours include a checklist in the work plan so that DEQ and Chemours can track the progress of all requested supporting information documents. Eurofins’ range finding test concentrations will be worked out with the manufacturer based on weight/volume (test concentrations will be in mg/L instead of by % concentration) When the range finding test is complete, Eurofins will discuss results with client while performing analytical method validation. Eurofins will begin definitive toxicity testing following completion of analytical method validation (~3 weeks from start of range finding studies) Eurofins stated that the validation method report can be a stand-alone study or can be embedded in one of the studies. Eurofins can provide this report a priori. 1(c). The final studies will be described by the compound specific protocols, and these must be reviewed and approved by DEQ. Compound specific protocols will be the same in every way as the master protocols except for compound specific information like chemical name, CAS#, and dose levels to be administered. Acute studies must be designed to bracket EC50 values and chronic studies must be designed to bracket LOEL and NOEL values. Additional work plan comments were provided in the 5/03/19 letter from DEQ. Range finding results and other data used to develop dose levels targeting these response levels must be provided before DEQ can approve the dose levels for the final studies. Chemours’s Response: For acute aquatic work, Chemours notes that it is not practical to have a substantial delay between the range finder and the main study. This is to minimize potential changes in the test system apparatus (tanks, tubing, animal batch, analytical equipment) that could occur over time. The available time between the range finder and the main study will be defined by the contract laboratory in the study schedule. Chemours will share the results of the range finder study with DEQ as well as the recommendations on main study doses from the Study Director as soon as they are available. Chemours welcomes input from DEQ on the dose level selection, but the response must occur within the window defined by the contract laboratory’s study schedule. Chemours notes that the scientific literature suggests that per- and polyfluorinated materials are not acutely toxic to these trophic levels, DEQ has required an additional dose group over the standard protocol to maximize the dose response curve, and the performing laboratory is well-versed in setting dose levels for these study types. Because of these facts, Chemours believes selecting main-study doses should be straight-forward and easily completed in a short time. If Chemours proceeds without DEQ approval of compound specific protocols, then they run the risk of having to repeat any work that is not satisfactory to DEQ. To expedite the review process, the following list of individuals should be copied when submitting time sensitive EcoTox documents to DEQ. Frannie Nilsen Frannie.Nilsen@ncdenr.gov Amy Risen Amy.Risen@ncdenr.gov Chris Ventaloro christopher.ventaloro@ncdenr.gov Lorimar Henning Lorimar.Henning@ncdenr.gov Julie Woosley julie.woosley@ncdenr.gov 1(d). Analytical chemistry methods and reporting limits for each media to be analyzed for the toxicity studies must be reviewed and approved by DEQ for this work. DEQ is outlining requirements for describing modified methods in a separate document and will provide this shortly. Information provided should be consistent with guidelines in Appendix 1. Chemours’s Response: Analytical methods will be developed for these assays only after protocol approval. In general, the workflow for contracting a study starts with agreement on the protocol. Once agreement is reached, the contract lab will schedule all phases of the study. This includes method development (including the development of the analytical method), range finder studies, and the main study. The analytical methods are a separate report that Chemours will supply for review and approval prior to the study start. Chemours should refer to the document called “Guidelines for Submittal of Reference Materials and Modified Methods”, which was submitted via email on 4/07/21 and provide all requested information about the methods that will be used. Even if Chemours has provided parts of this information in the past for other projects, the full set of requested information should be provided again for the EcoTox studies. DEQ encouraged Chemours and Eurofins to develop all analytical chemistry supporting information on this page as soon as possible and to provide to DEQ before the end of the range- finding studies. Chemours should prepare a list of all supporting information documents and begin providing them to DEQ ASAP. The analytical work may require additional review and feedback to Chemours, and it is not likely that there will be sufficient time to review these items between the range-finding and final studies. Chemours is reminded that if they proceed with the final studies without DEQ approval of protocols and all supporting information then Chemours runs the risk of having to repeat the work. 1(e). PFAS reference materials used for these toxicity studies are not commercially available and additional information must be provided to DEQ: 1(e)(i). Describe production and handling of all batches of reference material to be used. Samples from each batch must be made available to DEQ for independent analysis. Chemours’s Response: None of the five compounds being studied are commercially available in quantities sufficient for the studies. As such, Chemours synthesized four of the compounds using starting compound material taken from the appropriate commercial process(es). The fifth, PFMOAA, was custom synthesized for Chemours by ExFluoro Research Corp. of Round Rock, Texas. The substances may be stored in a controlled environment at room temperature. Samples can be made available to NCDEQ. Chemours should provide a supporting information document for the reference materials. This should include a list of all batches of material that will be used for these studies, a description of their production and handling, preparation and expiration dates, unique identification numbers for lots or batches, and CoAs for each. Chemours chemist was not present at the meeting but will address this in the protocols. Chemours’ Consent Order Progress Report for First Quarter 2021 stated that “One substance required additional purification; that purification is currently on‐going and expected to finish in the second quarter of 2021”. Please identify which substance this is and provide documentation on the additional purification. The compound that required additional purification was Nafion By-product 2. There was a high concentration of an unnamed contaminant, Chemours’ chemists are working to removing it. DEQ requests the documentation on the additional purification when the chemist completes the work. 1(e)(ii). A third-party laboratory must characterize the reference materials as described below and provide information to DEQ and laboratories contracted for the toxicity studies. Chemours’s Response: Chemours has characterized these samples by a combination of multinuclear NMR spectroscopy, IR spectroscopy and GC & GC/MS spectroscopy (of the volatile methyl esters, when necessary). Of CoAs should be provided to DEQ with the supporting information document for the reference materials. Chemours should provide all of the information requested here and in the “Guidelines for Submittal of Reference Materials and Modified Methods”. Shawn confirmed that the LC/MS/MS method is primary, and the NMR is secondary. Chemours chemist was not present at the meeting but will address this in the protocols. these techniques, multinuclear NMR is the most valuable in the indubitable structural identification. Chemours can provide samples to NCDEQ for confirmation. Characterization of the material should include LC/MS/MS analysis, which is a useful and more sensitive method of determining purity than NMR. Available NMR data should be submitted as well. NMR is useful for qualitative determination of a substance as mentioned in Chemours response. NMR is also useful in purity determination, but as a second confirmatory technique with LC/MS/MS as the primary technique. 1(e)(ii)(1). Certificate of analysis including but not limited to: identity (including isomer structure), purity, and composition. Information provided should be consistent with guidelines in Appendix 1. Chemours’s Response: COAs of the test substances will include a test substance name which will specifically identify the isomer. Also included will be sample composition and concentration of constituents. 1(e)(ii)(2). Homogeneity and stability tests must be conducted for each compound in all solvents and stock solutions that will be used in the toxicity studies. Work by other investigators showing potential for instability in certain solvents should be reviewed (Liberatore et al. 2020). Chemours’s Response: Homogeneity and stability tests will be run as part of method development for each specific study. It is not feasible to do stability and homogeneity tests in all solvents and stock solutions as independent experiments. Knowledge of long-term stability is crucial. If it is not practical to conduct homogeneity and stability tests for all solutions, then itemize them and explain cases where this is unnecessary. Work by other investigators shows the potential for instability in certain solvents. Chemours should provide this research paper to all contract labs conducting this work and ask them to review it (Liberatore et al. 2020). Chemours does not believe that this information is necessary, because it is built-in with each study. DEQ asked that all analytical chemistry information be provided as soon as possible as it may require additional review and feedback from DEQ. Chemours agreed to provide the Liberatore study to staff at all contract labs contributing to this work. 1(e)(iii). DEQ is outlining requirements for characterizing reference materials in a separate document and will provide this shortly. (No response provided) As further discussed in other comments, Chemours should refer to the document called “Guidelines for Submittal of Reference Materials and Modified Methods”, which was submitted via email on 4/07/21. 2) Comments on protocols 2(a). General comments on protocols proposed: 2(a)(i). As specified in EPA-821-R-02-012, Subsection 4.7.2 "... the testing laboratory must perform at least one acceptable reference toxicant test per month for each toxicity test method conducted in that month (Subsection 4.15). If a test method is conducted only monthly, or less frequently, a reference toxicant test must be performed concurrently with each effluent toxicity test." DEQ requests submission of the lab’s in-house reference toxicant testing for all the test protocols and also submittal of the reference toxicity test information that is Chemours’s Response: EPA-821-R-02-012 was not specified initially, but in response to DEQ’s request, Chemours has engaged with the lab and the lab will use that guideline. Chemours will ask the lab if it is able to share this information. When submitting revised protocols, Chemours should confirm in the protocol what their plans are for reporting the following: reference toxicant testing during the main study, historical in-house reference toxicant testing for all the test protocols, and reference toxicant testing information that is provided by the biological supplier from which all test species are purchased. The only species they expect to obtain from a vendor is Lumbriculus. Fish, Ceriodaphnia and algae are maintained in-house. Fish are maintained as brood stock and Ceriodaphnia are maintained as mass cultures. For this testing Fish will be transferred to spawning chambers and Ceriodaphnia culture boards will be started. RTTs are only done routinely for Daphnia magna as that comprises the bulk of their testing. Fish provided by the biological supplier from which all test species are purchased. and Ceriodaphnia RTTs are only completed when testing occur. No historical RTT for any of the species DEQ is requesting. Eurofins will be performing RTT with each test performed. DWR has asked Eurofins to develop a CuSum chart for Ceriodaphnia dubia with a minimum of 5 tests (three RTTs will be performed prior to the range finding test, one with the range finding test and the 5th with the final test). Eurofins has committed to look at their schedule to see if they can accommodate the request of 5 RTTs. It was not determined in this discussion what historical data would be made available for Lumbriculus worms. Eurofins should propose additional historical RTT data to provide in the revised protocols. 2(a)(ii). In the different protocols, the word “indiscriminately” is being used instead of randomly. EPA-821-R-02-013, Subsection 9.4.4.1 states that “Statistical independence among observations is a critical assumption in all statistical analysis of toxicity data. One of the best ways to ensure independence is to properly follow rigorous randomization procedures. Randomization techniques should be employed at the start of the test, including the randomization of the placement of test organisms in the test chambers and randomization of the test chamber location within the array of chambers...” Examples of randomization procedures are using a template for randomization or by using a table of random numbers as stated in Subsection 11.3.4.5.1. DEQ is asking for a more in-depth explanation of what “indiscriminately” means. Chemours’s Response: EPA-821-R-02-013 was not specified initially, but in response to DEQ’s request, Chemours has engaged with the lab and the lab will use that guideline. Protocols were updated by replacing the word “indiscriminate” with the word “random”. Please update the protocols to provide more description of what this means. One option would be to describe the randomization procedures used by the lab. Another option would be to state the importance of using randomization techniques and to reference guidelines. Please add that weak looking organisms are removed and replaced with more fit individuals before test start. Eurofins explained that indiscriminate means pooling organisms in a dish vs randomization. They will start randomizing cups as per EPA method. Eurofins stated dead and weak organisms will be removed. 2(a)(iii). Each proposed protocol states that changes to protocols and final reports will be made in the form of an amendment, signed by the Study Director, and approved by the Sponsor. Chemours must provide such amendments to DEQ for review and approval. Changes to the protocols are to be approved by DEQ before starting the experiments and changes to the reports are to be approved by DEQ prior to completing the writing of the final report. Chemours’s Response: Seeking DEQ approval is not practical in all cases for the reasons discussed below. However, all protocol amendments that are generated during a study are included in the final report so there is a clear record of any changes made during a study. Protocol amendments that impact the design of a study rarely occur between protocol approval and initiation of the study. In the unlikely event this happens, Chemours will seek approval of the change from DEQ. Chemours will inform DEQ of protocol amendments that do not alter the study design (for example, correcting of typographical errors and similar) as they occur. Some protocol amendments address situations that require an immediate decision, particularly where vertebrate animals are involved. In these cases, the Study Monitor (Chemours) will consider the advice from the Study Director (subject matter expert at the contact laboratory) and act. Chemours will inform DEQ of the amendment but may not be able to wait for approval. All amendments are included in the final report so there is a clear record of any changes that occurred during the study. Changes to a final report are also rare. Should the need to amend a final report occur, Chemours will share that amendment with DEQ for approval prior to re-finalization. Chemours asks DEQ to identify a single point of contact who has the authority to receive amendments and approve them if needed. If Chemours proceeds with any changes to protocols without DEQ approval, then they run the risk of having to repeat any work that is not satisfactory to DEQ. To expedite the review process, the following list of individuals should be copied when submitting time sensitive EcoTox documents to DEQ. Frannie Nilsen Frannie.Nilsen@ncdenr.gov Amy Risen Amy.Risen@ncdenr.gov Chris Ventaloro christopher.ventaloro@ncdenr.gov Lorimar Henning Lorimar.Henning@ncdenr.gov Julie Woosley julie.woosley@ncdenr.gov 2(a)(iv). DEQ has a preference for following guidelines within EPA 821-R-02-012 and EPA 821-R-02-013 where feasible in order to be consistent with NC Whole Effluent Testing guidelines. Chemours’s Response: In response to DEQ’s request, Chemours has engaged with the lab and the lab has confirmed that it can use these guidelines instead. Thank you 2(a)(v). New comment. Data Collection & Analysis Chemours should update all the master protocols to state that the following will be conducted: The biological data collection section should be updated to state that “General observations of appearance and behavior, such as erratic swimming, loss of reflex, discoloration, excessive mucus production, hyperventilation, opaque eyes, curved spine, hemorrhaging, molting, and cannibalism, should also be noted in the daily record.” as stated in the EPA methods. Provide a tabular indexed summary of all biological measurement metrics (i.e. general observations in the daily record and study endpoints). Provide descriptive statistics (mean, range, standard deviation) for each parameter and treatment variable of each protocol (i.e. temperature, water quality, etc.). Provide the NOEC, LOEC, EC10, EC25, and EC50 for each endpoint (where the effect concentrations (ECs) may include lethality (LC) and inhibition (IC) as applicable). Provide details regarding the dose-response curve including confidence intervals and graphs of the fitted model used for their calculation, the slopes of the dose-response curves and their standard error. The data analysis section should describe methods that will be used to develop each value. Describe any deviation from the suggested OECD/EPA statistical methods and rationale for their change in each protocol if applicable. Eurofins stated they can add the statement to the protocol although it mostly applies to the fish. Eurofins confirmed it will be included in final reports Eurofins confirmed it will be included in final reports Eurofins stated they will comply with this expectation, but will depend on the response data Noted and complied; will be in the final reports and can be provided a priori if needed. Eurofins positively confirmed. 2(a)(vi). New comment. Sample handling Provide a discussion of sample collection, storage, and processing to be consistent with the special needs for this class of chemicals. Describe the special needs that will be addressed for this class of chemicals and reference sources of information. Include specifications about the materials that are allowable for sample containers as well as instructions around which media may be sub-sampled from the sample container when preparing samples for analysis. Chemours/Eurofins positively confirmed. 2(b). Algae: 96-hour toxicity test with the freshwater alga (Raphidocelis subcapitata) OECD 201; EU Directive 92/69/EEC, Method C.3.; EPA OCSPP Number 850.4500 2(b)(i). The Raphido protocol states "Test chambers will be held at 24 ± 2°C under continuous fluorescent lighting..." The EPA-821- R-02-013, Subsection 14.10.3.1 states that "Test flasks are incubated under continuous illumination at 86 ± 8.6 μE/m2/s (400 ± 40 ft- c), at 25 ± 1°C, and should be shaken continuously at 100 cpm on a mechanical shaker or twice daily by hand...” DEQ is requesting the protocol be updated to be consistent with EPA recommendations or that an explanation be provided for why the alternate temperature range is proposed. Chemours’s Response: EPA-821-R-02-013 was not specified initially, but in response to DEQ’s request, Chemours has engaged with the lab and the lab will use that guideline. Chemours provided a revised master protocol on 9/21/21, but the EPA-821-R-02-013 method has not been referenced. Please update the method with the new reference. The revised method does includes the change from 24 ± 2°C to 25 ± 1°C. However, not all requested revisions were made. See additional comments below in this section and the general comments section 2(a). Chemours/Eurofins positively confirmed. 2(b)(ii). The EPA-821-R-02-013, Subsection 14.10.3.1 also states that the “Flask positions in the incubator should be randomly rotated each day to minimize possible spatial differences in illumination and temperature on growth rate. If it can be verified that test specifications are met at all positions, this need not be done." DEQ is requesting an explanation of how the protocol ensures that all flasks are exposed to the desired light intensity and temperature ranges. Chemours’s Response: EPA-821-R-02-013 was not specified initially, but in response to DEQ’s request, Chemours has engaged with the lab and the lab will use that guideline. The EPA 821 Methods do not specifically state how to ensure the incubators have the right light intensity and temperature range. Chemours should ask the lab to provide a written explanation about the lab procedures established to ensure these parameters are within the desired levels. This written explanation should be provided to DEQ for review along with the revised protocol. Chemours/Eurofins positively confirmed. 2(c). Daphnid acute: 48-hour static acute toxicity test with the cladoceran (Daphnia magna) OECD 202, EPA OCSPP 850.1010 2(c)(i). DEQ is recommending the use of Ceriodaphnia dubia instead of Daphnia magna because C. dubia is a more sensitive species of the two. EPA-821-R02-012 (Subsection 2.1) states that “D. magna distribution appears to be absent from the eastern United States (except for Northern New England) and Alaska”. DEQ has a preference to use C. dubia, but also has a preference for using test species that the lab has expertise with. Please reevaluate species choice and provide explanation for species selected. Chemours’s Response: EPA-821-R-02-012 was not specified initially, but in response to DEQ’s request, Chemours has engaged with the lab and the lab will use that guideline. As DEQ requests, the lab will use C. dubia. The revised master protocol was received, and additional comments are below. 2(c)(ii). The Daphnia acute and chronic protocols are using the well water with a hardness of ~140mg/L as a dilution test water. EPA typically recommends a hardness of 160-180mg/L as Chemours’s Response: EPA-821-R-02-012 was not specified initially, but in response to DEQ’s request, Chemours has engaged with the lab The revised protocol continues to target hardness of 140 mg/L and alkalinity of 180 mg/L. This is considerably higher than the ranges targeted by NCDEQ. NCDEQ is also concerned about using alkalinity and hardness levels that are The 140-180mg/L is the range used as per OECD method. Eurofins will be using reconstituted water at 80-100mg/L for the Ceriodaphnia and fish test. Eurofins is also planning on culturing CaCO3 for D. magna culturing (EPA-821-R- 02- 012, Subsection 4.2.1), but based on the language in EPA-821-R-02-012, Subsection 7.1.1.2, it may be acceptable as long the lab is culturing the organisms in the dilution water before testing, which the lab is intending to do. However, if a decision is made to switch to C. dubia, then the desired range is 80-100mg/L for reconstituted water and 30-50mg/l for surface water as stated in the NC rule 15A NCAC 02H .1111(a)(13). DEQ is recommending that the lab match species with the recommended hardness levels in these EPA guidelines. DEQ is recommending use of C. dubia in order to be more consistent with what we require for the NC Whole Effluent Toxicity Program. and the lab will use that guideline. As DEQ requests, the lab will use C. dubia. consistent with how organisms are cultured in this lab. Please ask the lab to provide a written explanation of their rationale behind choosing these values. The lab should include a description of their experience using C. dubia and the hardness and alkalinity levels that they target routinely for culturing and testing. This written explanation should be provided to DEQ for review along with the revised protocol. Additionally, as per EPA-821-R-02-013, the quality of the water is extremely important for culturing and testing of Cladoceran organisms. Therefore, at a minimum of once per year the water used for culture/testing should be analyzed for metals and pesticides. The EPA manual provides guidelines on the acceptable levels of the different analytes in Subsection 4.4.1. When submitting revised protocols, Chemours should provide a copy of the metals and pesticide analysis of the water that will be used for this study. Ceriodaphnia weeks prior to tests to acclimate to this water. Eurofins will send these reports a priori. 2(c)(iii). The daphnia acute protocol states that “loading in each test chamber during test will be at least 20 mL of test solution per daphnid”. In Table 13 of the EPA-821-R-02-012 manual, the test conditions listed for the acute testing with D. magna includes the minimum recommended test solution volume of 25ml. Please provide comment and explanation for this test solution volume. Chemours’s Response: EPA-821-R-02-012 was not specified initially, but in response to DEQ’s request, Chemours has engaged with the lab and the lab will use that guideline. Updates made. Thank you. 2(c)(iv). The daphnia acute protocol states "Adults will be fed during the 24-hour period prior to test initiation, but neonates will not be fed during the test." DEQ is requesting that the protocol be updated to be consistent with EPA- 821-R-02-012 (Table 13); newly released young should have food available a minimum of 2 hrs prior to use in a test". Chemours’s Response: EPA-821-R-02-012 was not specified initially, but in response to DEQ’s request, Chemours has engaged with the lab and the lab will use that guideline. Updates made. Thank you. 2(c)(v). The daphnia acute protocol states "Prior to test initiation, neonate daphnids<24 hours old will be collected from cultures and indiscriminately distributed one or two at a time to transfer containers until each contains its complement of five daphnids." DEQ is Chemours’s Response: Chemours will ask the lab for this information and will provide the information from the lab to DEQ when the updated protocols are submitted for approval. DEQ is requesting additional information about the randomization procedure for all protocols. Please see comment 2(a)(ii). Chemours should also ask the lab to provide a written description of the measures taken to avoid cross- Eurofins explained that indiscriminate means pooling organisms in a dish vs randomization. Eurofins will randomize cups as per EPA method. requesting more information regarding the methodology of obtaining organisms from the culture. Is the lab doing the pooling or blocking method? What are the measures taken to avoid cross-contamination when populating the tests chambers? contamination when populating the test chambers. This written explanation should be provided to DEQ for review along with the revised protocol. Organisms are transferred to a K cup and from there they populate each treatment. A clean pipette is used in each treatment. 2(c)(vi). The daphnia acute protocol states "The dissolved oxygen concentration will be ≥3 mg/L throughout the test." EPA-821-R-02-012 (Subsection 9.14.1) states that "the DO in the test solution should not be permitted to fall below 4.0 mg/L for warm water species and 6.0 mg/L for cold water species." This validation criterion should be set at ≥4 mg/L DO, not 3 mg/L. Chemours’s Response: EPA-821-R-02-012 was not specified initially, but in response to DEQ’s request, Chemours has engaged with the lab and the lab will use that guideline. Updates made. Thank you. 2(c)(vii). New comment Page 7 discusses the frequency of taking measurements and says that the temperature, DO, and pH will be measured at the beginning and at the end of the test. As per EPA 821-R- 02-012, Subsection 10.2.1 the DO, pH, and temperature are to be measured in the control and all test concentrations at the beginning of the test, daily thereafter, and at test termination. Please update the protocol to state that these measurements will also be taken at 24 hours. Similarly, the % immobility should be calculated at each treatment level for both 24 and 48 hours rather than the ‘cumulative % immobility observed in the treatment groups’; please update the protocol to reflect this. Please provide additional details regarding the dose- response curve including confidence intervals and graphs of the fitted model used for their calculation, the slopes of the dose-response curves and their standard error. For additional information on data collection and analysis, see item 2(a)(v). Chemours/Eurofins positively confirmed. Chemours/Eurofins positively confirmed. Eurofins positively confirmed; will be in the final reports and can be provided a priori. 2(d). Daphnid chronic: semi-static life-cycle toxicity test with the cladoceran (Daphnia magna) OECD 211, EPA OCSPP 850.1300 2(d)(i). DEQ is recommending the use of Ceriodaphnia dubia instead of Daphnia magna because C. dubia is a more sensitive species of the two. EPA-821- R02-012 (Subsection 2.1) states that “D. magna distribution appears to be absent from the eastern United States (except Chemours’s Response: EPA-821-R-02-012 was not specified initially, but in response to DEQ’s request, Chemours has engaged with the lab and the lab will use that guideline. As DEQ requests, the lab will use C. dubia. The revised master protocol was received, and additional comments are below. for Northern New England) and Alaska". Please use C. dubia or provide explanation of why using D. magna instead of C. dubia. 2(d)(ii). Proposed protocol specifies that test will be initiated with neonates <24 hours old. EPA 821-R-02-012 specifies <24 hours and born within 8 hours of each other for C. dubia. If C. dubia is used, add to the chronic protocol that neonates used will have been born within 8 hours of each other. Chemours’s Response: EPA-821-R-02-012 was not specified initially, but in response to DEQ’s request, Chemours has engaged with the lab and the lab will use that guideline. As DEQ requests, the lab will use C. dubia. Page 4 states that “The test will be initiated with neonate C. dubia < 24 hours old.” Please update the method to state that neonates will be within 8 hours of each other. Chemours/Eurofins positively confirmed. 2(d)(iii). The Daphnia acute and chronic protocols are using the well water with a hardness of ~140mg/L as a dilution test water. EPA typically recommends a hardness of 160- 180mg/L as CaCO3 for D. magna culturing (EPA- 821-R-02-012, Subsection 4.2.1) but based on the language in EPA-821-R-02-012, Subsection 7.1.1.2, it may be acceptable as long the lab is culturing the organisms in the dilution water before testing, which the lab is intending to do. However, if a decision is made to switch to C. dubia, then the desired range is 80-100mg/L for reconstituted water and 30-50mg/L for surface water as stated in the NC Statute 15A NCAC 02H .1111(a)(13). DEQ is recommending that the lab match species with the recommended hardness levels in these EPA guidelines. DEQ is recommending use of C. dubia in order to be more consistent with what we require for the NC Whole Effluent Toxicity Program. Chemours’s Response: EPA-821-R-02-012 was not specified initially, but in response to DEQ’s request, Chemours has engaged with the lab and the lab will use that guideline. As DEQ requests, the lab will use C. dubia. The revised protocol continues to target hardness of 140 mg/L and alkalinity of 180 mg/L. This is considerably higher than the ranges targeted by NCDEQ. NCDEQ is also concerned about using alkalinity and hardness levels that are consistent with how organisms are cultured in this lab. Chemours should ask the lab to provide a written explanation of their rationale behind choosing these values. The lab should include a description of their experience using C. dubia and the hardness and alkalinity levels that they target routinely for culturing and testing. This written explanation should be provided to DEQ for review along with the revised protocol. Additionally, as per EPA-821-R-02-013, the quality of the water is extremely important for culturing and testing of Cladoceran organisms. Therefore, at a minimum of once per year the water used for culture/testing should be analyzed for metals and pesticides. The EPA manual provides guidelines on the acceptable levels of the different analytes in Subsection 4.4.1. When submitting revised protocols, Chemours should provide a copy of the metals and pesticide analysis of the water that will be used for this study. The 140-180mg/L is the range used as per OECD method. Eurofins will be using reconstituted water at 80-100mg/L for the Ceriodaphnia and fish test. Eurofins is also planning on culturing Ceriodaphnia weeks prior to tests in order to acclimate to this water. Eurofins will send this report a priori. 2(d)(iv). New comment Changes were made to the approach for statistical analysis with specific statistical details removed and replaced with a citation to the OECD and EPA methods. Please reference the specific Figures/Sections of the EPA methods that describes the choice of statistical analysis and rationale for each parameter (survival and reproduction) if using the citation is preferred. Chemours/Eurofins positively confirmed that these details will be included in the revised method. Please add the IC25 and IC50 which are specific to reproductive toxicity are relevant to this protocol. See general comments on data collection and analysis, item 2(a)(v). Chemours/Eurofins positively confirmed. 2(d)(v). New comment Page 5 discusses the test organism but does not account for all stressors that should be checked for. There is a sentence starting with “A culture will not be used to provide neonates for the test if …..” This sentence should be updated to include ephippia. Chemours/Eurofins positively confirmed. 2(e). Fish acute: 96-hour acute toxicity test with the fathead minnow (Pimephales promelas) OECD 203, EPA OCSPP 850.1075. 2(e)(i). The fathead minnow acute protocol states that organisms will be purchased from a supplier. DEQ notes that hardness of the shipping water may be lower than the hardness in the well water (~140mg/L) used as dilution water. What is the acclimation process and period used to change the fish from the shipping water to the lab dilution water? Chemours’s Response: Chemours will ask the lab for this information and will provide the information from the lab to DEQ when the updated protocols are submitted for approval. Additional information was not provided with the revised protocol to explain this. Page 4 continues to state that the water hardness will be 140 mg/L. DEQ typically recommends that labs use a hardness of 30-50mg/L for surface waters or 80-100mg/L for synthetic lab water as stated in NC Statute 15A NCAC 02H .1111(a)(13). However, if the supplier provides fish cultures that have been acclimated to hardwater conditions, higher values are sometimes used, and their acclimatization information should be obtained from the supplier and detailed in the study notes. Chemours should ask the lab to provide a written explanation of their rationale behind choosing this hardness value. The lab should include a description of their experience using and culturing P. promelas, acclimatization information obtained from the supplier, and the hardness levels that they target routinely for culturing and testing. This written explanation should be provided to DEQ for review along with the revised protocol. The 140-180mg/L is the range used as per OECD method. Eurofins will be using reconstituted water at 80-100mg/L for the Ceriodaphnia and fish test. Eurofins is also planning on culturing Ceriodaphnia weeks prior to tests to acclimate to this water. 2(e)(ii). The fathead minnow acute protocol states "Fathead minnows will be held for at least 14 days prior to the test in water from the same source and at approximately the same temperature as used during the test." DEQ is concerned that waiting until the fish are older (>14 days) the test may miss the more sensitive life stage. Additionally, keeping fish age at 1-14 days old would be more consistent with what DEQ requires for the NC Whole Effluent Toxicity Program. DEQ is requesting that protocols be Chemours’s Response: EPA-821-R-02-012 was not specified initially, but in response to DEQ’s request, Chemours has engaged with the lab and the lab will use that guideline. The protocol was revised and now the lab will be culturing the fish to obtain larval fathead minnows for testing. Chemours should ask the lab to provide written explanation of their culturing process and culturing system. This written explanation should be provided to DEQ for review along with the revised protocol. Eurofins will provide a description of their culturing facilities and a summary of how larval fish will be reared from their current brood stock. This will include a description of breeding tank set up with mixed sex fish, how eggs will be obtained, and larval fish will be maintained. updated to be consistent with EPA guidance as per EPA-821-R-02-012 (Table 14); the age of test organisms required for the acute toxicity test is 1-14 days old with less than or equal to 24-h range in age. 2(e)(iii). The fathead minnow acute protocol states "Fish will not be fed for at least one day prior to the test or during the test." DEQ is requesting that protocols be updated to be consistent with EPA-821-R-02-012 (Table 14, and Subsection 9.11.1), which states that "food is made available to test organisms while holding before they are placed in the test chambers." Chemours’s Response: EPA-821-R-02-012 was not specified initially, but in response to DEQ’s request, Chemours has engaged with the lab and the lab will use that guideline. Updates made. Thank you. 2(e)(iv). The fathead minnow acute protocol states "Specifications for acceptable levels of contaminants in fish diets have not been established." The EPA-821-R-02-012, Subsection 4.8.3 provides guidance of the allowable levels of contaminants in fish food, "If the concentration of total organochlorine pesticides exceeds 0.15 μg/g wet weight, or the concentration of the total organochlorine pesticides plus PCBs exceeds 0.30 μg/g wet weight, or toxic metals (Al, As, Cr, Co, Cu, Pb, Ni, Zn, expressed as total metal) exceed 20 μg/g wet weight, the food should not be used...”. Every batch of fish food should be analyzed to meet these guidelines before using for toxicity tests. Chemours’s Response: Chemours will ask the laboratory for additional information on this point and will provide the information from the lab to DEQ when the updated protocols are submitted for approval. The updated protocol did not include the required information regarding acceptable levels of contaminants in fish food and still say that the ‘acceptable levels have not been established’. Please modify protocol to include this information that has been provided by the EPA method referenced in this protocol – details in first column. Eurofins will send these reports a priori. 2(e)(v). The fathead minnow acute protocol states, "The test will be conducted at a target water temperature of 22 ± 1°C." DEQ is requesting more information about the culturing conditions and other factors contributing to this decision. EPA-821-R-02-012 (Table 14) recommends the use of either 20±1°C or 25±1°C. A 25±1°C temperature would be more consistent with what DEQ requires for the NC Whole Effluent Toxicity Program. Chemours’s Response: EPA-821-R-02-012 was not specified initially, but in response to DEQ’s request, Chemours has engaged with the lab and the lab will use that guideline. Updates made. Thank you 2(e)(vi). The fathead minnow acute protocol states "Prior to test initiation, juvenile fathead minnows will be collected from holding tanks. To initiate the test, the fish will be indiscriminately distributed one or two at a time to the test chambers until each contains its complement of ten fish." DEQ is requesting more details on the measures taken to avoid cross-contamination when populating the tests chambers, and to minimize test dilution with water from fish population. When populating test organisms into test chambers it is recommended to rinse the transfer apparatus between the different test concentrations and minimize the amount of water introduced into each test chamber while transferring the tests organisms. Chemours’s Response: Chemours will ask the laboratory for additional information and will provide the information from the lab to DEQ when the updated protocols are submitted for approval. Chemours should ask the lab to provide a written explanation of the measures taken to avoid cross-contamination when populating the tests chambers, and to minimize test dilution with water from fish population. This written explanation should be provided to DEQ for review along with the revised protocol. Organisms are transferred to a K cup and from there they populate each treatment. A clean pipette is used in each treatment. 2(e)(vii). Protocol describes several potential test chambers options, one of which is Teflon- lined. DEQ recommends not using Teflon due to potential for contributing PFAS to the test system. Chemours’s Response: Chemours will ask the lab not to use Teflon to the extent other materials are available. Please describe the test chambers without a Teflon lining in the protocol. Eurofins will use glass beakers or chambers. 2(f). Sediment 10-day: 2(f). Sediment 10-day: Chemours asked DEQ to identify the specific OECD guideline. Please use Sediment-Water Lumbriculus Toxicity Test Using Spiked Sediment toxicity study – OECD 225 and refer to previous communications about this method (See 3/27/19 Chemours letter Re: Work Plan for Toxicity Studies Pursuant to Consent Order Paragraph 14. See 5/03/19 DEQ Comments on Chemours’ Proposed Toxicity Study Work Plan Pursuant to Paragraph 14 of the Consent Order, dated 3/27/2019). Chemours’s Response: Noted. Thank you. On 7/14/21 Chemours submitted a proposed master protocol for the 28-day sediment toxicity study to DEQ for review. After reviewing the proposed master protocol, DEQ is concerned that the methods are not specific enough to be replicated in the laboratory- which was a requirement of the master protocol. As such, the following comments aim to elucidate the missing information. If a more specific bench protocol exists, please submit that with the revised proposed master protocol for review. Details provided below. 2(f)(i). New comment. Experimental Design Please provide an experimental design diagram to improve comprehension of the intricate experiment proposed, including the number of chambers per treatment, number of organisms per chamber and per treatment, dose concentrations, and anticipated sample sizes for each statistical comparison (see details below; 2(f)(v) Statistical Analysis). DEQ rescinded this request as the explanation of the experimental details and documents Eurofins committed to sharing with DEQ both a priori and in the final report have satisfied the questions DEQ had about the experimental quality and design. The proposed master protocol states that “To control bias, oligochaetes will be impartially assigned to exposure chambers at test initiation.” and “After preparation, the test chambers will be impartially positioned in an environmental chamber or water bath designed to maintain the target test temperature.” NCDEQ requests clarification on the exact meaning of “impartial”. As per OCED 225(41 and 43) and EPA/600/R-99/064 (Subsection 16.2.2.6) assignment and positioning of organisms should be randomized. See general comment 2(a)(ii). Feeding: The protocol discusses the addition of food (YCT) to the test organisms during the holding time and the addition of wheat grass to the sediments before adding the overlying water. As per EPA/600/R-99/064 (Subsection 9.9) NCDEQ is recommending performing compound analyses on the food to be added during this test. Eurofins has committed to providing this report to DEQ a priori. 2(f)(ii). New comment. Materials and Methods – chamber set-up 2(f)(ii)(a). Preparation of Test Sediment: The OECD 218 method is referenced. Chemours should ask the lab to provide a written explanation of why the sediment preparation in the chironomid test (OECD 218) was selected instead of OECD 225. The method for mixing chemicals into the sediment can have a large impact on the outcome of the test. The general approach to mixing was provided but it is vague. The revised protocol should provide more clarification on how the test sediment will be prepared, the exact equipment to be used, the amount of time mixing will occur, and provide references for the procedure. In addition, clearly describe how the dose concentrations will be maintained/verified through overlying water renewal. Eurofins stated that both are the same method of preparation and will ensure that the same method is referenced consistently in such cases. OECD 225 method does not do overlying water renewal unless there is a spike in ammonia, which is rare. For water quality analysis purposes removal of water is required which is replaced with RO. The dose concentrations into the sediments will be mixed in batches and split into replicates. Eurofins will describe detailed process in the revised protocol. 2(f)(ii)(b). Preparation of Test Chambers: The proposed protocol stated that ”Approximately 600 mL of overlying water will be slowly added to each test chamber in such a manner as to minimize disturbance of the sediment.” Please update the revised protocol with more information regarding the practices used to prevent disturbance of sediments and what is the Corrective Action Plan in place if a sediment disturbance does occur. The proposed protocol stated that “…sediment/water mixtures will be allowed to equilibrate for approximately 48 hours to 7 days prior to adding the test organisms.” However, as stated on the OECD 255(29) and EPA/600/R-99/064 (Subsection 8.3.2.2.3), this equilibrium time can be sediment and chemical specific. Since there is a paucity of information regarding these PFAS, how is the length of time determined to be adequate? Please update the revised protocol with this information. Eurofins has agreed to describe detailed process in protocol. Briefly, a baffle will be used to pour water to avoid disturbing sediments. If there is any disturbance, there will be a 48hr settling time prior to continuing the experiment. Eurofins confirmed that there is a spike test (28days) to check for equilibration. 2(f)(iii). New comment. Materials and Methods – organism details 2(f)(iii)(a). Provide details about the % recovery of organisms that will yield a successful experiment and provide a reference for the established protocol that the % recovery is based on. Eurofins indicated that % recovery is not an appropriate indicator as the organisms are expected to multiply and that the better measure is to look for the required increase mentioned above. (c)Test Procedures and Biological Measurement: The protocol stated that.“All surviving oligochaetes in each replicate at the end of the test will then be combined by replicate and measured for dry weight.” The dry weight protocol can introduce bias due to gut content and the Ash-Free Dry Weight (AFDW) procedure is recommended by OECD 255 (51) and EPA/600/R-99/064 (Subsection 13.3.7). NCDEQ is requesting that the lab review the AFDW procedure and provide a written explanation for the procedure they choose. Eurofins will follow the AFDW. (d). Conditions for the Validity of the Test: The protocol states “The average number of living worms per replicate in the controls should have increased by a factor of at least 1.8 at the end of exposure compared to the number of worms per replicate at the start of exposure”. Please explain this expectation of 1.8. Is there an expectation of reproduction and how much mortality is expected? The proposed study is using organisms from an outside supplier; therefore, NCDEQ is requesting the lab to perform a 96hr water-only Reference Toxicant Test (RTT) associated with each batch of organisms received from the supplier to “satisfactorily demonstrate the sensitivity and condition of the test animals” as stated in the OECD 225 (12) and EPA/600/R-99/064 (Subsection 9.8.1). Both the 96-hr water-only RTT conducted by the contract lab and an RTT report from the supplier should be provided to DEQ along with the results from the final toxicology studies. See comment 2(a)(i) for additional information. The EPA manual indicates a 90% control survival test acceptability for the 96hr RTT (water- only test; Tables 9.1, 9.2), is this the guideline that will be followed? Provide rationale and references if a different guideline will be followed. Eurofins confirmed that the factor of 1.8 comes from reproduction. At least 18 worms at the end of the exposure divided by the total of worms exposed = 1.8 The only species they expect to obtain from a vendor is Lumbriculus. Fish, Ceriodaphnia and algae are maintained in-house.  It was not determined in this discussion what historical data would be made available for Lumbriculus worms. Eurofins should propose additional historical RTT data to provide in the revised protocols.  DWR has asked Eurofins to develop a CuSum chart for Ceriodaphnia dubia with a minimum of 5 tests (three RTTs will be performed prior to the range finding test, one with the range finding test and the 5th with the final test).  Eurofins has committed to look at their schedule to see if they can fit this request. Eurofins indicated that this is not applicable as the organisms are expected to multiply which will skew % recovery calculations. 2(f)(iv). New comment. Materials & Methods – Statistical Analysis (a) Add sublethal endpoints to the statistical design. For example, the protocol stated that “Test chambers will be observed daily and visual assessments of any abnormal behavior (e.g. sediment avoidance/leaving sediment, fecal pellets visible or not visible on the surface of the sediment) will be recorded.” NCDEQ is requesting that these behavioral sublethal effects be evaluated as endpoints and not just recorded. (b) The protocol states “The no-observed-effect-concentration (NOEC) and lowest-observed- effect-concentration (LOEC) will be determined by visual interpretation of the dose-response pattern and statistical analyses of the data.” Please use a more specific approach and describe in detail. Eurofins will evaluate sublethal endpoints whenever possible. They stated that most sublethal responses are difficult to observe as the organisms remain mostly in the sediment. (c) The goal of the statistical tests needs to be clearly stated, as that would determine which primary and post-hoc tests should be used. The protocol should be revised to state each goal (endpoint and type of effect concentration) to be determined and clearly explain the data that will be compared (including how many data sets will be assessed in each evaluation) and the associated statistical methods that will be used for each step. The experimental design figure should be referenced in explanations. (d) See general comments on data collection and analysis, item 2(a)(v). 3). Additional protocols requested • CRITICAL NEED - Bioaccumulation in Fish: Aqueous and Dietary Exposure – EPA (OCSPP) 850.1730; This is study critical for DEQ to establish water supply and fish consumption surface water standards. PFAS do not accumulate using the same mechanisms as other organic chemicals, so modeling is not the preferred approach. Paragraph 14 of the Consent Order states that this testing should be “… sufficient to aid in development of surface water and groundwater regulatory standards…” Chemours has not responded here to DEQ’s requests for protocols for additional toxicology studies that are not among those required by the Consent Order. These studies are being requested by DEQ because they are needed for development of health-based standards for surface water. DEQ asks that Chemours makes reference material available to DEQ and other researchers to conduct additional work to support regulatory development. DEQ reserves the right to ask for additional studies as we review and identify important endpoints to investigate and obtain feedback from the public. Chemours toxicologist (Shawn) has confirmed that Chemours can provide reference materials in the scope of grams and not kilograms. DEQ will confirm with external partners regarding weight of reference material needed and contact Shawn to continue the conversation and obtain the reference material. • Fish Early Life-Stage Test – EPA (OCSPP) 850.1400; Using Pimephales promelas; 28-day study focused on embryonic through early juvenile life-stage effects. • Fish Sexual Development Test – OECD 234; 60-day study focused on endocrine disrupting effects. • Amphibian Metamorphosis Assay – OECD 231; 21-day exposure study provides information on development in tadpoles. This is important to consider as amphibians are often underrepresented in ecotoxicity studies. • Empirically derived chemical characteristics including: half-life in water, octanol:water coefficient (logP) 4. References DEQ letter to Chemours 5/03/19. “Comments on Draft Plan for Toxicity Studies” Accessed via https://files.nc.gov/ncdeq/GenX/consentorder/paragraph14/05032019-Holman-to-Long-Letter-Re-Comments-on-Draft-Toxicity-Study-Paragraph-14-of-CO.pdf Liberatore, H., S. Jackson, M. Strynar, and J. McCord. 2020. Solvent Suitability for HFPO-DA (GenX” Parent Acid) in Toxicological Studies. Environ Sci Technol Lett. 18;7(7):477-481 USEPA. 2002. Methods for Measuring the Acute Toxicity of Effluents and Receiving Waters to Freshwater and Marine Organisms. Fifth Edition. U.S. U.S. Environmental Protection Agency, Washington, DC 20460. EPA-821-R-02-012. USEPA. 2002. Short-term Methods for Estimating the Chronic Toxicity of Effluents and Receiving Waters to Freshwater Organisms. Fourth Edition. U.S. Environmental Protection Agency, Washington, DC 20460. EPA-821-R-02-013. USEPA 2000. Methods for Measuring the Toxicity and Bioaccumulation of Sediment-associated Contaminants with Freshwater Invertebrates. Second Edition. U.S. Environmental Protection Agency, Washington, DC 20460. EPA-600-R-99-064. Appendix B: Example Workflow Diagram, Timeline, and Checklist Appendix C: Documents that Eurofins committed to providing to DEQ a priori 1. Analytical method validation report 2. Details regarding the dose-response curve including confidence intervals and graphs of the fitted model used for their calculation, the slopes of the dose-response curves and their standard error. 3. Results of annual culture/testing analysis for metals and pesticides. 4. Reports regarding acceptable levels of contaminants in fish food used at Eurofins. 5. Report detailed the compound analyses on the YCT sediment organism food