Document GKbBd72oaGY9vpqwQZwa87eGm

PFOS: A DIETARY LC50 STUDY WITH THE NORTHERN BOBWHITE WILDLIFE INTERNATIONAL LTD. PROJECT NO.: 454-103 3M LAB REQUEST NO.: U2723 U.S. Environmental Protection Agency Series 850 - Ecological Effects Test Guidelines (draft) OPPTS Number 850.2200 FIFRA Subdivision E, Section 7 1-2 OECD Guideline 205 AUTHORS: Sean P. Gallagher Courtney S. Casey Joann B. Beavers Raymond L. Van Hoven STUDY INITIATION: April 21, 1999 STUDY COMPLETION: April 26,2000 AMENDED REPORT DATE: March 23,2004 SUBMITTED TO 3M Corporation Environmental Laboratory 935 Bush Avenue St. Paul, Minnesota 55 144 Wildlife International, Ltd. 8598 Commerce Drive Easton, Maryland 21601 (410) 822-8600 Page 1 of 69 AMENDED WILDLIFE INTERNATIONAL, LTD -2- PROJECT NO.: 454-103 GOOD LABORATORY PRACTICE COMPLIANCE STATEMENT SPONSOR: 3M Corporation TITLE: PFOS: A Dietary LC50 Study with the Northern Bobwhite WILDLIFE INTERNATIONAL LTD. PROJECT NO.: 454-103 3M LAB REQUEST NO.: U2723 STUDY COMPLETION: April 26,2000 AMENDED REPORT DATE: March 23,2004 This study was conducted in compliance with Good Laboratory Practice Standards as published by the U.S. Environmental Protection Agency, 40 CFR Part 160 and 792, 17 August 1989; OECD Principles of Good Laboratory Practice, (OCDElGD(92) 32, Environment Monograph No. 45, Paris, 1992); and Japan MAFF, 59 NohSan, Notification No. 3850, Agricultural Production Bureau, 10 August 1984 with the following exception: At the time the test was conducted the test substance was not characterized in accordance with full GLP compliance; however, the characterization was performed according to 3M Standard Operating Procedures and Methods, and all raw data are being maintained in the 3M archives. The test substance was recharacterized in accordance with GLP standards following study completion. The stability of the test substance and reference standard under conditions of storage at the test site was not determined in accordance with Good Laboratory Practice Standards. Analyses of liver and sera samples conducted by 3M Corporation were not performed in accordance with GLP standards and results of these analyses are being reported separately. STUDY DIRECTOR: Sean P. Gallagher Senior Biologist SPONSOR'S REPRESENTATIVE AMENDED WILDLIFE INTERNATIONALLTD, -3- PROJECT NO.: 454-103 QUALITY ASSURANCE STATEMENT This study was examined for compliance with Good Laboratory Practice Standards as published by the U.S. Environmental Protection Agency, 40 CFR Part 160 and 792, 17 August 1989; OECD Principles of Good Laboratory Practice, (OCDE/GD (92) 32, Environment Monograph No. 45, Paris, 1992); and Japan MAFF, 59 NohSan, Notification No. 3850, Agricultural Production Bureau, 10 August 1984. The dates of all audits and inspections and the dates that any findings were reported to the Study Director and Laboratory Management were as follows: ACTIVITY DATE CONDUCTED DATE REPORTED TO: STUDY DIRECTOR MANAGEMENT Test Substance Prep. & Analytical Sampling April 22, 1999 April 22, 1999 April 23, 1999 Matrix Fortification April 22, 999 April 22, 999 April 23, 1999 Feed Consumption & Analytical Sampling April 27, 999 April 27, 999 May4, 1999 Analytical Data and Draft Report July 7, 8,9, 1999 July 9, 1999 July 16, 1999 Biology Data and Draft Report August 26,27,30,31, 1999 August 3 1, 1999 September 13, 1999 Final Report April 17-18,2000 April 18,2000 April 19, 2000 Amended Final Report March 19,2004 March 19,2004 March 19,2004 X . aua-yl Susan L. Coleman ?,&my Senior Quality Assurance Representative DATE 3-aa- 04 AMENDED WILDLIFE INTERNATIONALL,TD -4- PROJECT NO.: 454-103 AMENDED REPORT APPROVAL SPONSOR: 3M Corporation TITLE: PFOS: A Dietary LC50 Study with the Northern Bobwhite WILDLIFE INTERNATIONAL LTD. PROJECT NO.: 454-103 3M LAB REQUEST NO.: U2723 STUDY DIRECTOR: Sean P. Gallagher Date Senior Biologist, Avian Toxicology CHEMISTRY PRINCIPAL INVESTIGATOR: R a p W.%an Hoven, Ph.D Scientist, Analytical Chemistry REPORT APPROVED BY: Linda R. Mitchell Manager of Ecotox Operations Willard B. Nixon, Ph.6. Director of Chemistry &@/ Date AMENDED WILDLIFE INTERNATIONAL. LTD -5- PROJECT .NO. 454-103 TABLE OF CONTENTS TITLE PAGE ........................................................................................................................ GOOD LABORATORY PRACTICE COMPLIANCE STATEMENT............................... QUALITY ASSURANCE STATEMENT ........................................................................... REPORT APPROVAL ......................................................................................................... TABLE OF CONTENTS...................................................................................................... Tables and Appendices ....................................................................................................... SUMMARY .......................................................................................................................... INTRODUCTION ................................................................................................................ OBJECTIVE ......................................................................................................................... MATERIALS AND METHODS.......................................................................................... Page 1 Page 2 Page 3 Page 4 Page 5 Page 6 Page 7 Page 8 Page 8 Page 8 Test Substance .................................................................................................................... Treatment Groups ............................................................................................................... Duration of the Test ............................................................................................................ Test Birds ............................................................................................................................ Animal Diet ........................................................................................................................ Diet Preparation .................................................................................................................. Diet Sampling ..................................................................................................................... Analytical Method .............................................................................................................. Housing and Environmental Conditions ............................................................................. Observations ....................................................................................................................... Animal Body WeightdFeed Consumption ......................................................................... Gross Necropsy................................................................................................................... Statistical Analyses ............................................................................................................. Page 8 Page 9 Page 9 Page 9 Page 10 Page 10 Page 10 Page 11 Page 13 Page 14 Page 14 Page 14 Page 14 RESULTS ............................................................................................................................. Page 15 Diet Analysis ...................................................................................................................... Page 15 Mortalities and Clinical Observations ................................................................................ Page 15 Body Weight and Feed Consumption................................................................................. Page 17 Gross Necropsy................................................................................................................... Page 17 CONCLUSION..................................................................................................................... Page 18 REFERENCES ..................................................................................................................... Page 19 WILDLIFE INTERNATIONAL. LTD -6- PROJECT .NO. 454-103 TABLE OF CONTENTS .continued . TABLES AND APPENDICES TABLE 1: TABLE 2: TABLE 3: TABLE 4: TABLE 5: Cumulative Mortality from a Northern Bobwhite Acute Dietary Toxicity Study with PFOS .......................................................................................... Page 20 Mean Body Weight (g) from a Northern Bobwhite Acute Dietary Toxicity Study with PFOS .......................................................................................... Page 21 Mean Feed Consumption (ghirdday) from a Northern Bobwhite Acute Dietary Toxicity Study with PFOS .................................................... Page 23 Group Gross Pathological Observations from a Northern Bobwhite Acute Dietary Toxicity Study with PFOS .................................................... Page 25 Cumulative Mortality (Estimated Cumulative Dose. mg/kg) from a Northern Bobwhite Acute Dietary Toxicity Study with PFOS .................... Page 26 APPENDIX I: Certificate of Analysis ........................................................................... Page 27 APPENDIX 11: Diet Formulation.................................................................................... Page 28 APPENDIX 111: Analytical Methods and Results ............................................................ Page 29 APPENDIX IV: Diet Preparation ..................................................................................... Page 43 APPENDIX V: Cumulative Mortality by Pen from a Northern Bobwhite Acute Dietary Toxicity Study with PFOS ............................................. Page 44 APPENDIX VI: Individual Body Weights (g) from a Northern Bobwhite Acute Dietary Toxicity Study with PFOS ............................................. Page 45 APPENDIX VII: Feed Consumption (ghirdday) by Pen from a Northern Bobwhite Acute Dietary Toxicity Study with PFOS ................................................................................... Page 58 APPENDIX VIII: Changes to Protocol ............................................................................... Page 61 APPENDIX IX: Personnel Involved in the Study............................................................ Page 62 APPENDIX X: Revised Study Summary........................................................................ Page 63 APPENDIX XI: Report Amendment................................................................................ Page 68 AMENDED WILDLIFE INTERNATIONALLT,D -7- PROJECT NO.: 454-103 SUMMARY SPONSOR: 3M Corporation TEST SUBSTANCE: PFOS WILDLIFE INTERNATIONAL LTD. PROJECT NO.: 454-103 STUDY: PFOS: A Dietary LC50 Study with the Northern Bobwhite RESULTS': The dietary LC50 value for northern bobwhite exposed to PFOS was determined to be 220 ppm a.i. with a 95% confidence interval of 164 ppm a.i. to 289 ppm a.i. The slope of the concentration-response curve was 7.005 and the chi-square value was 0.023. The no mortality concentration was 73.2 ppm a.i. Based upon treatment related mortality, signs of toxicity and effects upon body weight gain at the 146 ppm a.i. test concentration, the no-observed-effect concentration was 73.2 ppm a.i. TEST DATES: Hatch - April 12, 1999 Acclimation - April 12-22, 1999 Experimental Start -April 22, 1999 ExperimentalTermination- May 14, 1999 NOMINAL TEST CONCENTRATIONS: 0, 18.3,36.6, 73.2, 146,293,586 and 1171ppma.i. TEST ANIMALS: Northern Bobwhite (Colinusvirginianus) AGE TEST ANIMALS: 10 days of age at test initiation SOURCE TEST ANIMALS: Wildlife International Ltd. Production Flock 8598 Commerce Drive Easton, Maryland 21601 STUDY COMPLETION: April 26,2000 AMENDED REPORT DATE: March 23,2004 ' See Appendix X for the revised nominal test concentrations and results based upon the reanalysis of the test material following study completion. AMENDED WILDLIFE INTERNATIONAL, LTD -8- PROJECT NO.: 454-103 INTRODUCTION This study was conducted by Wildlife International Ltd. for 3M Corporation at the Wildlife International Ltd. avian toxicology facility in Easton, Maryland. The in-life portion of the test was conducted from April 22, 1999 to May 14, 1999. Raw data generated at Wildlife International Ltd. and a copy of the final report are filed under Project Number 454-103 in archives located on the Wildlife International Ltd. site. OBJECTIVE The objective of this study was to evaluate the toxicity of a test substance to the Northern Bobwhite (Colinus virginianus) administered through the diet for five days. An LC50 value will be calculated, if possible. MATERIALS AND METHODS The methods used in conducting this study are based upon procedures specified in the U.S. Environmental Protection Agency Series 850 - Ecological Effects Test Guidelines OPPTS Number 850.2200 (1), Section 71-2 of the Environmental Protection Agency's Registration Guidelines, Pesticide Assessment Guidelines, FIFRA Subdivision E, Hazard Evaluation: Wildlife and Aquatic Organisms (2); OECD Guideline 205, Guideline for Testing of Chemicals, Avian Dietary Toxicity Test (3); and upon ASTM Standard E857-87, "Standard Practice for Conducting Subacute Dietary Toxicity Tests with Avian Species" (4). Test Substance The test substance was received fiom 3M Corporation on October 29, 1998 and was assigned Wildlife International Ltd. Identification Number 4675 upon receipt. The test substance was white powder identified as: FC-95; Lot No.:217. The reported punty of the test substance was 98.9%, with an expiration date of 2008. Following test termination, the test material was reanalyzed. The results of reanalysis indicate a test substance punty of 90.49%. All test concentrations have been adjusted to reflect the purity reported on the new Certificate of Analysis (Appendix I)'. The test substance was stored under ambient conditions. The internal standard was received from 3M Corporation on July 2, 1998 and was assigned Wildlife International Ltd. identification number 4526 upon receipt. The internal standard, a granular I Following study completion, the test material was recharacterized in accordance with GLP standards and the results of reanalysis indicate a purity of 86.9%. While test concentrations have not been adjusted to reflect the newest purity, the revised study summary in Appendix X summarizes the effect of the change in purity. AMENDED WILDLIFE INTERNATIONALL,TD -9- PROJECT NO.: 454-103 material, was identified as: IH, lH, 2H, 2H Perfluorooctane Sulfonic Acid, Chemical Abstract Number: 276 19-97-2. The standard was stored under ambient conditions. Treatment Groups The test consisted of a geometric series of seven test concentrations and a control group. Thirty northern bobwhite chicks were assigned to the control group and ten northern bobwhite chicks were assigned to each of the treatment groups. The birds were sorted by weight, then chosen indiscriminately from within each represented weight class for placement into control and treatment groups. The birds were housed in brooding pens containing five chicks each. Nominal dietary concentrations used in this study were 0, 18.3, 36.6, 73.2, 146, 293, 586 and 1171 parts per million active ingredient (ppm ai.) of PFOS. The dietary concentrations were established based upon known toxicity data and information supplied by the Sponsor. Each group was fed the appropriate test or control diet for five days. During the exposure period the control group received untreated feed. Following the five-day exposure period all groups were given untreated basal diet for three days. On Day 8, half of the surviving treatment and control birds were euthanized and liver tissue, blood, and bile samples were collected for analysis. The remaining birds were fed basal ration until Day 22. On Day 22, these birds were euthanized and also sampled for liver weight, blood, and bile. Duration of the Test The primary phases of this test and their durations were: 1. Acclimation - 10 days. 2. Exposure - 5 days. 3. Post-exposure observation - 3 or 17 days Test Birds All northern bobwhite (Colinus virginianus) were 10 days of age and appeared to be in good health at initiation of the test. The birds were obtained from Wildlife International Ltd. Production Flock, Easton, MD and were hatched on April 12, 1999. Birds ranged in weight from 18 to 23 grams at test initiation. The birds used in this study were immature and could not be differentiated by sex. WILDLIFE INTERNATIONALL,TD -10- PROJECT NO.: 454-103 All birds were from the same hatch, pen-reared and phenotypically indistinguishable from wild birds. All birds were acclimated to the caging and facilities from the day of hatch until initiation of the test. Animal Diet Throughout acclimation and testing all test birds were fed a game bird ration formulated to Wildlife International Ltd.'s specifications (Appendix 11). The chicks were given a vitamin supplement in their water from the day they were hatched until the initiation of the test. Water from the town of Easton public water supply, and feed were provided ad libitum during acclimation and testing. The birds received no form of antibiotic medication during acclimation or testing. Diet Preparation The test substance was mixed directly into the ration. Mixing was done with a Hobart mixer (Model Number AS200T). All dietary test concentrations were adjusted to 100% PFOS based upon the reported purity of the test substance. All dietary concentrations and the LC50 value are reported as ppm a.i. in the diet. Nominal dietary test concentrations used in this study were 18.3, 36.6, 73.2, 146,293, 586, 1171 ppm a.i. (Appendix IV). Diet Sampling Samples of the test diets were collected to verify the test concentrations administered and to confirm the stability and homogeneity of the test substance in the diets. Homogeneity of the test substance in the diet was evaluated by collecting six samples from the 18.3 ppm a i . a.i. test diet and six samples fiom the 1171 ppm a.i. test diet at preparation on Day 0. Homogeneity samples were collected from the top, middle and bottom of the left and right sections of the mixing vessel. The homogeneity samples also served as verification samples. One verification sample was collected from the control diet and two verification samples were collected from each remaining treatment group at preparation on Day 0. At the end of the exposure period (Day 5), one sample was collected from the control and two samples were collected from each treatment group to determine stability of the test substance in the diet under test conditions. The stability samples were collected from feed remaining in the feeders after being at ambient test pen conditions for five days. Samples were transferred immediately to Wildlife International Ltd. analytical chemistry. WILDLIFE INTERNATIONAL, LTD - 11 - PROJECT NO.: 454-103 Analytical Method The method used for the analysis of the avian diet samples was based upon methodology developed at Wildlife International Ltd. and entitled "Method Outline for the Determination of PFOS in Avian Feed". Avian diet samples were extracted with methanol. Methanol was added to a requisite quantity of feed contained in a French-square glass bottle. Bottles were capped and shaken on a shaker table. Samples were vacuum filtered using qualitative filter paper. The retained feed was rinsed three times with methanol into the filtrate. The filtrate was transferred to a volumetric flask and brought to volume with methanol. As appropriate, samples were further diluted with methanol. Each sample then was diluted with a 50% methanol : 50% NANOpureB water solution containing 0.100 mg 4H PFOS (internal standard)/L and 0.05% formic acid (v/v) so that they fell within the calibration range of the PFOS methodology. A method flowchart is provided in Appendix Ill, Figure 1. Concentrations of PFOS in the standards and samples were determined by reversed-phase high performance liquid chromatography using a Hewlett-Packard Model 1100 High Performance Liquid Chromatograph (HPLC) with a Perkin-Elmer API lOOLC Mass Spectrometer equipped with a PerkinElmer TurboIonSpray ion source. HPLC separations were achieved using a Keystone Betasil C18 analytical column (100 mm x 2 mm I.D., 3 pm particle size). The instrument parameters are summarized in Appendix 111, Table 1 . Calibration standards of PFOS prepared in a 50% methanol : 50% NANOpureB water solution containing 0.100 mg 4H PFOS (internal standard)/L and 0.05% formic acid (v/v), ranging in concentration from 0.00229 to 0.0457 mg a.i./L were analyzed with the samples. The same and most prominent peak response for PFOS was utilized to monitor PFOS in all calibration, quality control, and study samples. No attempt was made to quantify PFOS on the basis of individual isomeric components. Linear regression equations were generated using peak area response ratios (PFOS : internal standard) versus the respective concentration ratios (PFOS : internal standard) of the calibration standards. A typical calibration curve is presented in Appendix 111, Figure 2. The concentration of PFOS in the samples was determined by substituting the peak area response ratios into the applicable linear regression equation. Representative ion chromatograms of low and high calibration standards are presented in Appendix 111, Figures 3 and 4, respectively. WILDLIFE INTERNATIONAL, LTD - 12 - PROJECT NO.: 454- 103 The method limit of quantitation (LOQ) for these analyses was set at 1.15 ppm a.i. calculated as the product of the lowest calibration standard analyzed (0.00229 mg a.i./L) and the dilution factor of the matrix blank samples (500). Two matrix blank samples were analyzed to determine possible interferences. No interferences were observed at or above the LOQ during sample analyses (Appendix 111, Table 2). An interference in the feed appeared at approximately the same retention time as the peak of interest but it was well below the LOQ. A representative chromatogram of a matrix blank is presented in Appendix 111, Figure 5. Avian diet was fortified at 4.57, 183 and 1830 ppm a.i. and analyzed concurrently with the samples to determine the mean procedural recovery (Appendix 111, Table 3). Sample concentrations were not corrected for the mean procedural recovery of 94.7%. A representative chromatogram of a matrix fortification is presented in Appendix 111, Figure 6. An example calculation is presented for sample number 454-103-2, nominal concentration of 18.3 pprn a.i. in avian diet. Initial Weight: 10.0 g Final Volume: 200 mL Dilution Factor: 100(intermediatedilution factor x final dilution factor) PFOS Peak Area: 113568 Internal Standard Peak Area: 4 13160 Peak Area Ratio: 0.2749 Calibration curve equation. Slope: 2.77397 Intercept: 0.01894 Curve is weighted (lix). PFOS (mg a.i./L) at instrument (Peak area ratio - (Y-intercept)) x I.S. Concentration = Slope WILDLIFE INTERNATIONAL, LTD - 13 - PROJECT NO.: 454-103 - (0.2749 - 0.01894) x 0.100 mg/L 2.77397 = 0.00923 mg a.i./L Note: I.S. = internal standard. PFOS (ppm a i ) in sample - - PFOS (mg a.i./L) at instrument x Final Volume (L) x Dilution Factor Initial Weight (Kg) - 0.00923 x 0.200 x 100 - 0.01 = 18.5 ppm a.i. Percent of"omina1 Concentration PFOS (ppm a i ) in sample = x 100 PFOS (ppm a i ) nominal --~ 18.5 x 100 = 101% 18.3 Housing and Environmental Conditions During acclimation and testing, all birds were housed indoors in batteries of thermostatically controlled brooding pens manufactured by Beacon Steel Products Co. (Model No. B735Q). Each pen had floor space that measured approximately 72 X 90 cm. Ceiling height was approximately 23 cin. External walls, ceilings and floors were constructed of galvanized steel wire and sheeting. Birds were sorted by weight, then chosen indiscriminately from within each represented weight class for assignment to pens. Each group of birds was identified by pen number and test concentration. Individual birds were identified by leg bands. During the test the average temperature in the brooding compartment of the pens was 38C f 2C (SD). Average ambient room temperature for this study was 27.3"C * 1.2"C (SD) with an average relative humidity of 31% i 14% (SD). The photoperiod (maintained by a time clock) was sixteen hours of light per day during acclimation and throughout the test. The light source was fluorescent lights which closely approximate noon-day sunlight. The birds were exposed to an average of WILDLIFE INTERNATIONALL,TD - 14- PROJECT NO.: 454-103 approximately 139 lux of illumination. Housing and husbandry practices were based on guidelines established by the National Research Council (5). Observations During acclimation all birds were observed daily. Birds exhibiting abnormal behavior or physical injury were not used. Following test initiation and continuing until termination, all birds were typically observed at least twice daily. A record was maintained of all mortality, signs of toxicity, and abnormal behavior. Animal Body WeightdFeed Consumption Individual body weights were measured at the initiation of the test, on Day 5 , Day 8, and on Days 15 and Day 22 for all remaining birds. Average feed consumption values during the exposure period (Days 0-5) and the post-exposure observation period (Days 6-8) were determined by pen for each treatment group and the control group. Additionally, feed consumption was determined for Days 8-15 and 15-22 for the remaining treatment and control birds. Feed consumption was determined by measuring the change in the weight of the feed presented to the birds over a given period of time. The accuracy of feed consumption values may have been affected by the unavoidable wastage of feed by the birds. Gross Necropsv All test birds that died during the course of the test and all birds remaining at the termination were subjected to a gross necropsy. Additionally, livers were weighed and liver tissue, blood, and bile were collected from birds euthanized on Day 8 and 22, and when possible from those that died during the course of the study. Statistical Analvses Mortality data were analyzed using the computer program of C.E. Stephan (6). The program was designed to calculate the LC50 value and the 95% confidence interval by probit analysis, moving average method or the binomial probability method (7,8,9). In this study, the LC50 value was determined using the probit method. The slope of the concentration-response curve and results of the goodness of fit test are reported. Body weight data were compared by Dunnett's test using TOXSTAT software (10,ll). No statistical analyses were applied to feed consumption data. WILDLIFE INTERNATIONALLT,D - 15 - PROJECT NO.: 454-103 RESULTS Diet Analvsis Avian diet samples were collected from the 18.3 and 1171 pprn a.i. test concentrations and analyzed to evaluate homogeneity of the test substance in the avian diet. The analysis of these samples also served as verification of test substance concentrations. Resulting mean measured concentrations, standard deviations and coefficients of variation (CV) for these test concentrations were 19.5 iz 2.13 pprn a i (CV = 10.9%) and 1196 k 70.2 ppm a.i. (CV = 5.87%), respectively (Appendix 111, Table 4). Control avian diet samples collected during the test showed no interferences above the LOQ. Samples collected during the test to verify the 36.6, 73.2, 146, 293 and 586 ppm a.i. test substance concentrations had mean measured concentrations of 40.2, 74.5, 174, 291 and 537 pprn ai., respectively. These values represented 110, 102, 119, 99.3 and 91.6% of the nominal concentrations, respectively (Appendix 111, Table 5). Analysis of avian diet samples collected from feeders after being held at ambient temperature for five days averaged 101, 122, 104, 101, 109, 114 and 102% of the Day 0 values for the 18.3, 36.6, 73.2, 146,293, 586 and 1171 ppm a i . test substance concentrations, respectively (Appendix 111, Table 6). A representative chromatogram of a test sample is shown in Appendix 111, Figure 7. Mortalities and Clinical Observations One incidental mortality occurred in the control group during the course of the study (Table 1 and Appendix V). On the morning of Day 5 , one bird was noted with a broken leg and was subsequently euthanized on Day 6. Additionally, two birds in the control group were intermittently noted with foot lesions associated with cage mate aggression. Otherwise, all control birds were normal in appearance and behavior throughout the test. No treatment related mortalities or overt signs of toxicity were observed in the 18.3, 36.6, or 73.2 pprn a.i. treatment groups. One bird in the 18.3 pprn a.i. treatment group was noted as lame from Day 6 through Day 8, and blood of undetermined origin was noted on the underside of one bird from the 73.2 pprn a i . treatment group on Day 22. Otherwise, all birds in the 18.3, 36.6 and 73.2 ppm a.i. treatment groups were normal in appearance and behavior throughout the test period. WILDLIFE INTERNATIONAL, LTD -16- PROJECT NO.: 454-103 There was 11% (1 of 9) mortality in the 146 pprn a.i. treatment group, 80% (8 of IO) mortality in the 293 ppm a.i. treatment group and 100% (10 of 10) mortality in the 586 and 1171 pprn a.i. treatment groups. In the 146 ppm a.i. treatment group, one bird was euthanized on Day 3 after sustaining a broken leg. This incidental mortality was not used in the calculation of the LC50 value. Additionally, there was one treatment-related mortality in the 146 ppm a i . treatment group, a bird found dead on the morning of Day 7. Clinical signs of toxicity were observed in this treatment group on Day 5 , when two birds displayed wing droop. All other birds at this test concentration were normal in appearance and behavior for the duration of the test. In the 293 ppm a.i. treatment group there were eight treatment-related mortalities, occurring on Days 5 , 6 and 7. Signs of toxicity were first observed on the morning of Day 4 and continued to be exhibited through the morning of Day 8 for the single bird euthanized on Day 8, and through the afternoon of Day 8 for the single bird surviving until Day 22. Signs of toxicity included a ruffled appearance, reduced reaction to stimuli (sound and motion), lethargy, wing droop, loss of coordination, lower limb weakness and convulsions. The single remaining bird appeared to have recovered and was normal in appearance and behavior from the afternoon of Day 9 until test termination. In the 586 ppm a.i. treatment group mortalities were first noted on Day 3 and continued to be observed through Day 7, at which point all birds had died. Overt signs of toxicity were first observed on the afternoon of Day 2 and continued through the morning of Day 7 , when the final birds were found dead. Signs of toxicity observed among birds in the 586 pprn a.i. treatment group included a ruffled appearance, reduced reaction to stimuli (sound and motion), lethargy, depression, wing droop, loss of coordination, lower limb weakness, lower limb rigidity, prostrate posture, and convulsions. In the 1171 pprn a.i. treatment group 100% mortality had occurred by the morning of Day 4. Signs of toxicity in the 1171 ppm a.i. treatment group were first observed on the afternoon of Day 2, with the first mortalities noted on the morning of Day 3. Signs of toxicity observed prior to death included a ruffled appearance, reduced reaction to stimuli (sound and motion), lethargy, depression, loss of coordination, wing droop, and lower limb weakness and rigidity. WILDLIFE INTERNATIONAL, LTD -17- PROJECT NO.: 4.54-103 Body Weight and Feed Consumption When compared to the control group, there were no apparent treatment related effects upon body weight among birds in the 18.3, 36.6 or 73.2 ppm a i . treatment groups. However, there was a concentration responsive reduction in body weight gain or body weight loss in the 146, 293 and 586 pprn a.i. treatment groups during the exposure period (Days 0-5) (Table 2 and Appendix VI). Differences from the control group were statistically significant at p < 0.05 for the 146 ppm a i level and at p<O.Ol for the 293 and 586 ppm a.i. levels. A statistically significant (p<O.Ol) reduction in body weight gain continued to be observed at the 146 ppm a.i. test concentration through Day 8 of the study. At the 293 ppm a i concentration a statistically significant (p<O.Ol) mean weight loss continued through Day 8 of the study and a marked reduction in weight gain was noted through Day 15 of the study. Due to total mortality, body weight effects could not be determined for the 1171 ppm a.i. level during the exposure period or for the 586 and 1171 ppm a i . treatment groups for postexposure period. There were no apparent treatment related effects upon feed consumption at the 18.3, 36.6, 73.2 or 146 ppm a.i. test concentrations (Table 3 and Appendix VII). However, a reduction in feed consumption was noted at the 293, 586 and 1171 ppm a i treatment groups during the exposure period (Days 0-5). There were no treatment-related effects on feed consumption in any of the surviving treatment groups during the Day 6-8 post-exposure period. In the 293 ppm a i . treatment group only one bird survived to Day 22. The reduction in feed consumption observed at the 293 pprn a.i. test concentration during both the Day 8-1.5 and 15-22 post-exposure periods was the result of having only one bird in the pen, and was not considered to be treatment related. Gross Necropsy During the course of the test, all birds that died were subjected to a gross necropsy. Necropsy results for birds found dead were similar. Common observations included thin condition, loss of muscle mass, altered spleen color, autolysis of tissues and pale organs. Details of the necropsy findings are presented in Table 4. Half of the surviving birds were subjected to gross necropsy on Day 8 and the remaining birds were necropsied on Day 22, following test termination. On Day 8, one bird in the 73.2 pprn a.i. treatment group was noted with a slightly pale liver. Due to the isolated nature of this finding, it was WILDLIFE INTERNATIONALLTD, -18- PROJECT NO.: 454- 103 not considered to be related to treatment. The single bird euthanized from the 293 ppm a.i. treatment group was observed at necropsy to have with a lack of muscle mass and general thinness. Since these findings correlated with an impact upon body weight noted at this concentration, the findings were considered to be treatment related. Necropsy results were unremarkable for all other birds euthanized on Day 8. Similarly, Day 22 necropsy findings were unremarkable for all birds. CONCLUSION The dietary LC50 value for northern bobwhite exposed to PFOS was determined to be 220 ppm a.i. with a 95% confidence interval of 164 ppm a i . to 289 ppm a i . The slope of the concentrationresponse curve was 7.005 and the chi-square value was 0.023. The no mortality concentration was 73.2 pprn a.i. Based upon treatment related mortality, signs of toxicity and effects upon body weight gain at the 146 pprn a.i. a.i test concentration, the no-observed-effect concentration was 73.2 ppm a i . WILDLIFE INTERNATIONAL,LTD -19- PROJECT NO.: 454-103 REFERENCES 1. U.S. Environmental Protection Agency, 1996. Series 850 - Ecological Effects Test Guidelines (draft), OPPTS Number 850.2200: Avian Dietary Toxicity Test. 2. U.S. Environmental Protection Agency. 1982. Pesticide Assessment Guidelines, FIFRA Subdivision E, Hazard Evaluation: Wildllfe and Aquatic Organisms, subsection 71-2, Environmental Protection Agency, Office of Pesticide Programs. Washington, D.C. 3. Organization for Economic Cooperation and Development. 1984. Avian Dietary Toxicity Test. OECD Guideline for Testing of Chemicals. Guideline 205. Paris. 4. American Society for Testing and Materials. 1987. Standard Practice for Conducting Subacute Dietary Toxicity Tests with Avian Species. ASTM Standard E857-87. Annual Book of ASTM Standards, Vol. 11.04. Philadelphia, PA. 5. National Research Council. 1996. Guide for the Care and Use of Laboratovy Animals. Washington, D.C. National Academy Press. 125 pp. 6. Stephan, C.E. 1978. U.S. EPA, Environmental Research Laboratory, Duluth, MN. Personal Communication 7. Stephan, C.E. 1977. Methods for Calculating an LC50. Pages 65-84 InAquatic Toxicology and Hazard Evaluations, American Society for Testing and Materials. Pub. No. STP 634. Philadelphia, PA. 8. Finney, D.J. 1971. Statistical Methods in Biological Assay, 2nd ed., Griffin Press, London. 9. Thompson, W.R. 1947. Bacteriological Reviews, Vol2, No.2: 115-145. 10. Dunnet, C.W. 1955. A Multiple Comparison's Procedure for Comparing Several Treatments with a Control. Jour. Amer. Statis. Assoc. 50:1096-1121. 11. Gulley, D.D. 1990. TOXSTAT Release 3.2. The University of Wyoming. WILDLIFE INTERNATIONAL, LTD - 20 - PROJECT NO. : 454-103 TABLE 1 Cumulative Mortality from a Northern Bobwhite Acute Dietary Toxicity Study with PFOS Experimental Group (ppm a.i.) Day0 No. Dead Per No. Exposed Exposure Period Day 1 Day2 Day3 Day4 Day5 No. Dead Per No. Exposed Post-Exposure Period Day6 Day7 Days' Control 0 0130 0130 0130 0130 0130 0130 1/30 1/30 1/30 Treatment 18.3 36.6 73.2 146 293 586 1171 Oil0 0110 0110 0110 Oil0 0110 0110 0110 0110 Oil0 0110 0110 0110 0110 0110 0110 0110 Oil0 0110 Oil0 Oil0 1/102 019 019 0110 0110 Oil0 Oil0 0110 2110 Oil0 0110 0110 1110 2/10 5/10 0110 0110 0110 3/10 10110 10110 0110 Oil0 Oil0 019 411 0 8110 10110 0110 011 0 0110 119 8110 10110 10110 0110 011 0 Oil0 119 8/10 10110 loll0 The LC50 value was calculated to be 220 ppm a.i. with a 95% confidence interval of 164 ppm a.i. to 289 ppm a i . ' -No mortalities occurred in any of the control or treatment groups from Day 8 to Day 22. * ~ Bird euthanized on day 3 after sustaining a broken leg. WILDLIFE INTERNATIONAL, LTD -21 - PROJECT NO. 454-103 TABLE 2 Page 1 Mean Body Weight (g) from a Northern Bobwhite Acute Dietary Toxicity Study with PFOS Experimental Group (ppm a.i.) Exposure Period Change' Day0 Day5 Day0-5 Post-Exposure Period Change' Day 8 Day 5-8 Total Change' Control 0 Mean 20 30 10 38 8 18 SD 1 4 3 5 2 4 Treatment 18.3 Mean 21 31 11 40 9 20 SD 1 4 3 5 2 3 36.6 Mean 20 31 11 39 8 19 SD 2 3 2 3 1 2 73.2 Mean 20 30 9 37 7 16 SD 1 2 1 3 1 2 146 Mean 20 27* 7* 33* 6** 13** SD 2 3 3 3 2 4 293 Mean 20 18** -2 * * 18** -2 * * -1 ** SD 1 2 2 4 4 5 586 Mean SD 20 16** -4 * * 1 2 2 1171 Mean 20 SD 1 'Mean change is calculated separately from the mean body weights using individual body weights (See Appendix VI). (-) = No data available due to mortality. *Statistically different from the control group at p < 0.05 (Dunnett's t-test). **Statistically different from the control group at p < 0.01 (Dunnett's t-test). WILDLIFE INTERNATIONAL, LTD - 22 - PROJECT NO.: 454-103 TABLE 2 Page 2 Mean Body Weight (g) from a Northern Bobwhite Acute Dietary Toxicity Study with PFOS Experimental Group (ppm a.i.) Day8 Post-Exposure Period Day 15 Change' Day 8-15 Day 22 Change' Day 15-22 Total Change'@-22) Control 0 Mean SD 37 59 23 6 10 5 82 22 45 13 3 8 Treatment 18.3 Mean SD 40 68 24 6 8 3 87 23 47 7 3 3 36.6 Mean SD 38 65 26 3 5 2 89 24 50 7 2 4 73.2 Mean SD 35 60 24 3 4 2 79 20 44 4 2 2 146 Mean SD 34* 58 24 3 3 1 79 21 45 2 2 1 293 Mean 2 SI) 21 35 14 55 20 34 586 Mean SD 1171 Mean SD `Mean change is calculated separately from the mean body weights using individual body weights (See Appendix VI). *n=1, could not be evaluated statistically with Dunnett's t-test. (-) = No data available due to mortality. *Statistically different from the control group at p < 0.05 )(Dunnett's t-test). WILDLIFE INTERNATIONALLT,D - 23 - PROJECT NO.: 454-103 TABLE 3 Page 1 Mean Feed Consumption (g/bird/day) from a Northern Bobwhite Acute Dietary Toxicity Study with PFOS Experimental Group (ppm a.i.) Control 0 Treatment 18.3 36.6 73.2 146 293 586 1171 Exposure Period Day 0-5 Mean 9 SD 2 9 8 10 9 5 6 4 Post-Exposure Period Day 6-8 10 2 11 12 13 10 9 19 (-) = N o data available due to mortality. WILD LIFE I NTER NATIONAL , LTD - 24 - PROJECT NO.: 454-103 TABLE 3 Page 2 Mean Feed Consumption (ghirdday) from a Northern Bobwhite Acute Dietary Toxicity Study with PFOS Experimental Group (ppm a.i.) Control 0 Mean SD Post-Exposure Period Day 8-15 Day 15-22 9 13 2 1 Treatment 18.3 36.6 73.2 146 293 586 1171 10 12 14 15 13 15 11 14 8 9 (-) = No data available due to mortality. WILD LIFE INTER NATIONAL , LTD - 25 - PROJECT NO.: 454-103 TABLE 4 Group Gross Pathological Observations from a Northern Bobwhite Acute Dietary Toxicity Study with PFOS Birds that died during the course of the study Finding Control N= 1 146 N =2 Male, Female, and Undetermined PPM A.I. 293 586 N =8 N =10 1171 N =10 Abdominal cavity, some autolysis 0 Abdominal cavity, autolysis throughout 0 Crop, empty 0 Emaciated 0 Fractured leg 1 G.I. tract empty 0 Gizzard contents bile stained 0 Heart, anterior portion mottled white color 0 Heart, pale 0 Intestinal contents tar-like 0 Keel, prominent 0 Kidneys, pale 0 Liver, pale and mottled 0 Loss of muscle mass 0 Muscular-skeletal, pale 0 Small in stature 0 Spleen, black 0 Spleen, dark 0 Spleen, grey 0 Spleen, grey-brown 0 Spleen, pale 0 Spleen, small 0 Spleen, small and pale 0 Thin 0 Not Remarkable 0 0 2 2 4 0 0 1 1 0 2 5 2 0 2 5 8 1 0 0 0 0 1 1 0 0 2 5 1 0 1 0 0 0 0 2 1 0 0 2 0 0 1 3 10 0 0 2 0 1 0 0 0 0 4 7 9 1 0 0 0 0 3 0 0 0 0 1 0 0 0 0 2 0 0 1 0 0 0 0 1 0 1 0 1 0 0 0 1 0 0 3 0 0 0 4 2 0 1 0 0 WILDLIFE INTERNATIONALL,TD - 26 - PROJECT NO. : 454- 103 Experimental Group (ppm a.i.) Control 0 0 0 0 0 0 Treatment 18.3 18.3 Table 5 Cumulative Mortality (Estimated Cumulative Dose, mglkg') from a Northern Bobwhite Acute Dietary Toxicity Study with PFOS No. Dead Per No. Exposed (Cumulative Dose, mgkg) Exposure Period No. Dead Per No. Exposed Post-Exposure Period Pen Day0 Day 1 Day 2 Day 3 Day 4 Day 5 Day6 Day7 Day82 1 015 015 015 015 015 015 015 015 015 2 015 015 015 015 015 015 015 015 015 3 015 015. 015 015 015 Of5 015 015 015 4 015 015 Oh 015 015 015 015 015 015 5 015 015 015 015 015 015 1 I5 1 I5 115 6 015 015 015 015 015 015 015 015 015 1 015 2 015 015 (7) 015 (6) 015 (14) 015 (12) 015 (21) 015 (1 8) 015 (28) 015 (24) 015 (35) 015 (30) 015 015 015 015 015 015 36.6 1 015 015 (13) 015 (26) 015 (39) 015 (52) 015 (65) 015 015 015 36.6 2 015 015 (11) 015 (22) 015 (33) 015 (44) 015 ( 5 5 ) 015 015 015 73.2 1 015 015 (33) 015 (66) 015 (99) 015 (132) 015 (165) 015 01 5 015 73.2 2 015 015 (32) 015 (64) 015 (96) 015 (128) 015 (160) 015 015 015 146 1 015 015 (46) 015 (92) 015 (138) 015 (184) 015 (230) 015 1 I5 115 146 2 015 015 (49) 015 (98) 115 (147) 115 (196) 115 (245) 1I5 115 115 293 1 015 015 (66) 015 (132) 015 (198) 015 (264) 115 (330) 115 415 415 293 2 015 015 (101) 015 (202) 015 (303) 015 (404) 115 (505) 315 415 415 586 1 015 015 (213) 015 (429) 115 (639) 215 (852) 215 (1065) 415 515 515 586 2 015 015 (178) 015 (356) 015 (534) 015 (7 12) 315 (890) 415 515 515 1171 1 015 015 (256) 015 ( 5 12) 315 (768) 515 515 515 515 515 1171 2 015 015 (256) 015 (512) 015 (768) 515 515 515 515 515 The LC50 value was calculated to be approximately 220 ppm a.i. with a 95% confidence interval of 164 to 289 ppm a.i.. *- Bird was euthanized due to a broken leg. I - Estimated cumulative dose is based upon the average body weight and feed consumption over the 5-day exposure period, and serves as a rough approxiinaton of the actual amount of test substance consumed. *- No mortalities occurred in any of the treatment or control groups after Day 8. WI LD LI FE INTERNATIoNAL , LTD - 27 - PROJECT NO.: 454- 103 APPENDIX I Certificate Of Analysis WILDLIFE INTERNATIONAL, LTD - 28 - PROJECT NO.: 454-103 APPENDIX I1 DIET FORMULATION WILDLIFE INTERNATIONAL LTD. GAME BIRD RATION' INGREDIENTS Fine Corn Meal Soy Bean Meal, 48% Protein Wheat Midds Protein Base Agway Special, 60% Protein Alfalfa Meal, 20% Protein Dried Whey Ground Limestone Eastman CalPhos Methionine Premix + Liquid Vitamin and Mineral Premix (see below) GL Ferm (Fermatco)* Salt Iodized Total PERCENT ("A) 44.83 30.65 6.50 6.00 4.00 3.00 2.50 0.90 0.60 0.35 0.32 0.25 0.10 100.00 VITAMIN AND MINERAL PREMIX AMOUNT ADDED PER TON Vitamin D3 Vitamin A Riboflavin Niacin Pantothenic Acid Vitamin B12 Folic Acid Biotin Pyridoxine Thiamine Vitamin E Vitamin K (MenadioneDimethylpyrimidinolBisulfite) Manganese Zinc Copper Iodine Iron Selenium 2,000,000 I.C.U. 7,000,000 I.U. 6 grams 40 grams 10 grams 8 mgs 600 mgs 64 mgs 1.2 grams 1.2 grams 20,000 I.U. 5.8 grams 102 grams 47 grams 6.8 grams 1.5 grams 51 grams 182 mgs I The guaranteed analysis is a minimum of 27% protein, a minimum of 2.5% crude fat and a maximum of 5% crude fiber. 2Fermentation By-products (Source of Unidentified Growth Factors). WILDLIFE INTERNATIONAL, LTD - 29 - PROJECT NO.: 454-103 APPENDIX I11 ANALYTICAL METHODS AND RESULTS WILDLIFE INTERNATIONAL, LTD - 30 - PROJECT NO.: 454-103 INSTRUMENT: APPENDIX I11 Table 1 Typical L C M S Operational Parameters Hewlett-Packard Model 1100 High Performance Liquid Chromatograph with a Perkin-Elmer API 1OOLC Mass Spectrometer equipped with a Perkin-Elmer TurboIonSpray ion source. Operated in selective ion monitoring mode (SIM). ANALYTICAL COLUMN: Keystone Betasil CI8column (100 mm x 2 mm I.D., 3 pm particle size) OVEN TEMPERATURE: 30C STOP TIME: 10.0 minutes FLOW RATE: 0.220 mL/minute MOBILE PHASE: 72.0% Methanol : 28.0% NANOpureB Water containing 0.1?4n Formic Acid INJECTION VOLUME: 25.0 pL PFOS RETENTION TIME: Approximately 7.0 minutes INTERNAL STANDARD RETENTION TIME: Approximately 4.8minutes PFOS MONITORED MASS: INTERNAL STANDARD MONITORED MASS: 498.6 amu 426.7 amu WILDLI FE INTER NATIoNAL, LTD -31 - PROJECT NO.: 454-103 APPENDIX I11 Table 2 Matrix Blanks Analyzed Concurrently During Sample Analysis Number (454- 103-) MAB-1 Sample Type Matrix Blank Measured Concentration of PFOS' - (ppm a.i.) < LOQ MAB-2 Matrix Blank < LOQ ' The limit of quantitation (LOQ) was 1.15 ppm a.i. based upon the product of the lowest calibration standard analyzed (0.00229 mg a.i./L) and the dilution factor of the matrix blank samples (500). WILDLIFE INTERNATIONAL, LTD - 32 - PROJECT NO.: 454-103 APPENDIX 111 Table 3 Matrix Fortifications Analyzed Concurrently During Sample Analysis Sample Number (454-103-) MAS- 1A MAS-4A Concentrations of PFOS (ppm a i ) Fortified Measured 4.57 4.54 4.57 4.79 Percent Recovered 99.2 105 MAS-2 183 176 96.1 MAS-5 183 162 88.3 MAS-3 MAS-6 1830 1830 1576 86.1 1716 93.7 Mean = 94.7 Standard Deviation = 6.99 cv = 7.38 N= 6 Note: Results and corrections for new test substance purity were generated using MacQuan version 1.5 software and manual calculations. Values have been rounded for reporting purposes. WILDLIFE INTERNATIONALL,TD PROJECT NO.: 454-103 - 33 - APPENDIX I11 Table 4 Nominal Concentration (ppm a.i.) 18.3 Sample Number (S-454-103-) 2 3 4 5 6 7 Homoeeneitv of PFOS in Avian Diet Location Sampled in Mixing Vessel PFOS Measured Concentration (ppm a.i.) Top Left 18.5 Top Right 23.4 Middle Left 18.3 Middle Right 17.3 Bottom Left 19.4 Bottom Right 19.9 Mean Measured Concentration (x) Standard Deviation (SD) Coefficient of Variation (cv)' x = 19.5 pprn a i SD = 2.13 pprn a.i. CV = 10.9% Mean Percent of Nominal 107 1171 18 19 20 21 22 - 23 P Top Left Top Right Middle Left Middle Right Bottom Left Bottom Right 1239 1221 1118 1301 1163 1133 x = 1196 pprn a.i SD = 70.2 ppm. a.i CV = 5.87% Note: Results and corrections for new test substance purity were generated using MacQuan version 1.5 software and manual calculations. rounded for reporting purposes. 1Coefficient of variation was calculated using full precision of mean and standard deviation results. 102 Values have been WILDLIFE INTERNATIONAL,LTD PROJECT NO.: 454-103 - 34 APPENDIX 111 Table 5 Verification of PFOS Concentrations in Avian Diet Nominal Concentration (ppm a.i.) 0.0 18.3 Sample Number (S-454-103-) 1 __ Sampling Interval (Day) 0 __ PFOS Measured Concentration' (ppm a.i.) < LOQ __ Percent of Nominal __ -- Mean Measured Concentration (ppm a i ) -_ 19.5' Mean Percent of Nomina 1 __ 107' 36.6 8 0 45.7 125 40.2 110 9 0 34.6 94.5 73.2 10 0 11 0 77.8 106 74.5 102 71.2 97.3 146 12 0 13 0 176 120 174 119 172 117 293 14 0 15 0 274 93.8 29 1 99.3 307 105 586 16 0 17 0 550 93.9 537 91.6 523 89.4 1171 _- _- -- -- 1196' 1022 Note: Results and corrections for new test substance purity were generated using MacQuan version 1.5 software and manual calculations. Values have been rounded for reporting purposes. 'The limit of quantitation (LOQ) was 1.15 ppm a.i. based upon the product of the lowest calibration standard analyzed (0.00229 mg a.i./L) and the dilution factor of the matrix blank samples (500). 'Result obtained from Table 4. WILDLIFE INTERNATIONAL, LTD PROJECT NO.: 454-103 - 35 - APPENDIX I11 Table 6 Ambient Stability of PFOS in Avian Diet During the Northern Bobwhite LCSO Study Concentration (PPm a.1.) 0 Sample Number (S-454-103-) 1 Day 0' Mean Measured Concentration (PPm a.1.) -- Mean Percent of Nominal __ Sample Number (S-454- 103-) 24 Dav 5 Measured concentration' (PPm a.1.) < LOQ Mean Measured Concentration (PPm a.1.) _- Mean Percent of Day 0 -- 18.3 2-7 19.5 107 25 19.2 19.6 101 26 19.9 36.6 8,9 40.2 110 27 44.4 49.1 122 28 53.8 73.2 10,ll 74.5 102 29 76.4 77.2 104 30 77.9 146 12, 13 1 74 119 31 177 176 101 32 174 293 14, 15 291 99.3 33 318 317 109 34 315 586 16, 17 537 91.6 35 560 613 114 36 665 1171 18-23 1196 102 37 1260 1224 102 38 1187 'Day 0 results obtained from Table 4 and Table 5. 'The limit of quantitation (LOQ) was 1.15 ppm a i . based upon the product of the lowest calibration standard analyzed (0.00229 mg a.i./L) and the dilution factor of the matrix blank samples (500). WI LDLI FE INTERNAT IoNAL , LTD - 36 - PROJECT NO. 454- 103 APPENDIX 111 METHOD OUTLINE FOR THE ANALYSIS OF PFOS IN AVIAN DIET Prepare matrix fortification samples in the desired avian feed stock using the dry mix technique. 1 Dry Mix Technique For the high-level matrix fortification sample, weigh the requisite quantity of Wildlife International Ltd. (WIL) ration into a weigh boat. 1 Weigh the requisite quantity of test substance (PFOS) into a beaker. 1 Add % of the WIL ration and the test substance to a largcr bcakcr. 1 Rinse the bcaker that containcd the PFOS with small portions of thc remaining ration and transfer all portions to the larger beaker. 1 Mix the contents of the larger beaker well and transfcr the mixture to a Waring blcndcr. 1 Blend the mixture for -5 minutcs stopping at 1 minute intervals to scrape down the sides of thc blcndcr. During the third interval transfer the fortified feed to a beaker, mix well and return the mixture to the blcndcr to complete mixing in the specified time. 1 Prcpare the next two matrix fortification levels by serial dilutions. Follow the same procedure described for the high-level matrix fortification except weigh the appropriate quantity of fortified matrix (high or mid-level) rather than the test substance. 1 Weigh 10-g samples of the matrix blank, matrix fortification and test samples into wcigh boats and transfer to 16-oz. French-square glass bottles. Record the weights. For each sample, measure 100 mLs of methanol with a graduated cylinder and transfer volume to the French-square bottle. 1 Cap bottles and place on shakcr tablc. Allow the samples to shake for a minimum of 30 minutes at 250 rpm. I Vacuum filter each sample with qualitative filter paper and rinse retained feed 3 times with mcthanol into the filtrate. 1 Transfer the filtrate to a 200-mL volumctric flask and bring the flask to volume with methanol. 1 Prepare appropriate dilution(s) to bring final concentration into the calibration range of the LCMS methodology. Use mcthanol for intermcdiatc dilutions, if required. For all final dilutions usc 50% mcthanol : 50% NANOpureB water solution containing 0.100 mg 4H PFOS (internal standard)/L and 0.05% formic acid (v/v). Ampulatc and submit samples for LC/MS analysis Figure 1. Analytical method flowchart for the analysis of PFOS in avian diet. WILDLIFE INTERNATIONALL,TD - 37 - APPENDIX 111 PROJECT NO.: 454-103 0.000 0.100 0.200 0.300 Concentration (Ratio) 8 1 0.400 0.500 Figure 2. A typical calibration curve for PFOS. Slope = 2.77397; Intercept = 0.01894; r = 0.9981. Curve is weighted (l/x). WILDLIFE INTERNATIONALLTD, - 38 - APPENDIX 111 PROJECT NO.: 454-103 intensity: 1995 cps 167 100 90 80 70 60 50 40 30 31 1.30 61 2.55 91 3.81 121 5.06 151 6.32 21 1 7.57 8.83 scan Time ~~~ Figure 3. A representative ion chromatogram of a low-level (0.00229 mg a.i./L) PFOS standard. WILDLIFE INTERNATIONALL,TD - 39 - PROJECT NO. : 454- 103 intensity: 26954 cps .. 3.1 61 1.30 2.55 91 121 151 181 21 1 3.81 5.06 6.32 7.57 8.83 Time Figure 4. A representative ion chromatogram of a high-level (0.0457 mg a.i./L) PFOS standard. WILDLIFE INTERNATIONALL,TD -40- APPENDIX 111 PROJECT NO.: 454-103 10 9 4 8 7 6 5 4 3 2 1 -4 1 ;0 166 1 intensity: 230 cps I I 216 31 61 91 121 151 181 21 1 1.30 2.55 3.81 5.06 6.32 7.57 8.83 scan Time Figure 5. A representative chromatogram of a matrix blank sample (454-103-MAB-1). The arrow indicates the retention time of PFOS. WI LDLIFE INTERNATI oNA L, LTD -41 APPENDIX I11 PROJECT NO.: 454-103 intensity: 6238 cps 66 "7 144 1.30 2.55 3.81 5.06 6.32 7.57 8.83 Time Figure 6. A representative chromatogram of a matrix fortification sample (454-103-MAS-1A). WILDLIFE INTERNATIONALLT,D -42 APPENDIX I11 PROJECT NO.: 454-103 intensity: 7248 cps - Figure 7. A representative chromatogram of a test sample (454-103-2). WILDLIFE INTERNATIONALL,TD - 43 - APPENDIX IV DIET PREPARATION PROJECT NO.: 454- 103 Weight and volume of constituents used to prepare test diets: Nominal Concentrations (ppm a.i.) 0 18.3 36.6 73.2 146 293 586 1171 SubTsetsatnce I Basal Ration 0.1818 0.3638 0.7282 1.4659 2.9123 5.8239 1 1.6483 8999.8 8999.6 8999.3 8998.5 8997.1 8994.2 8988.4 Diets were prepared as follows: 05000.0 g of basal ration was weighed into a tared Hobart mixing bowl. *The test substance was weighed in a tared weigh boat. *Approximately 100 g of basal ration was taken from the mixing bowl and placed in a Waring blender. .The test substance was added to the blender and the weigh boat was rinsed with additional ration, with the rinse also being placed in the blender. *The blender contents were blended for approximately 60 seconds and transferred to the mixing bowl. The blender was rinsed with additional ration, with the rinse also being placed in the mixing bowl. .The bowl was placed on a Hobart mixer and the contents were mixed for approximately six minutes. The remaining ration as added to the bowl and the contents were mixed for six more minutes. .The diet was transferred to a labelled paper feed bag. WILDLIFE INTERNATIONALL,TD -44 - PROJECT NO.: 454-103 Experimental Group (ppm a.i.) Control 0 0 0 0 0 0 Treatment 18.3 18.3 36.6 36.6 73.2 73.2 146 146 293 293 586 586 1171 1171 APPENDIX V Cumulative Mortality by Pen from a Northern Bobwhite Acute Dietary Toxicity Study with PFOS No. Dead Per No. Exposed No. Dead Per No. Exposed Pen Exposure Period Post-Exposure Period Day0 Day 1 Day2 Day3 Day4 Day5 Day6 Day7 Day8l 1 015 015 015 015 015 015 2 015 015 015 015 015 015 3 015 015 015 015 015 015 4 015 015 015 015 015 015 5 015 015 015 015 015 015 6 015 015 015 015 015 015 015 015 015 015 015 015 015 015 015 015 015 015 1/5* 1I5 115 015 015 015 1 015 015 015 015 015 015 2 015 015 015 015 015 015 1 015 015 015 015 015 015 2 015 015 015 015 015 015 1 015 015 015 015 015 015 2 015 015 015 015 015 015 1 015 015 015 015 015 015 2 015 015 015 1/5* 115 1 I5 1 015 015 015 015 015 115 2 015 015 015 015 015 115 1 015 015 015 115 215 215 2 015 015 015 015 015 315 1 015 015 015 315 515 515 2 015 015 015 015 515 515 015 015 015 015 015 015 015 015 015 015 015 015 015 015 015 015 015 015 015 1 I5 115 1 I5 115 115 1 15 415 415 315 415 415 415 515 515 415 515 515 515 515 515 515 515 515 The LC50 value was calculated to be 220 ppm a.i. with a 95% confidence interval of 164 pprn a i to 289 ppm a.i. * - Bird was euthanized due to a broken leg. 1 - No mortalities occurred in any of the control or treatment groups after Day 8. WILDLIFE INTERNATIONAL, LTD PROJECT NO.: 454- 103 Experimental Group (ppm a.i.) 0 0 0 0 - 45 - APPENDIX VI Individual Body Weights (g) from a Northern Bobwhite Acute Dietary Toxicity Study with PFOS Page 1 Bird 1 2 3 4 5 Mean SD 1 2 3 4 5 Mean SD 1 2 3 4 5 Mean SD 1 2 3 4 5 Mean SD Day 0 19 20 21 22 23 21 2 19 20 20 22 22 21 1 19 20 20 22 22 21 1 19 19 19 21 22 20 1 Day 5 24 27 32 32 39 31 6 26 25 29 33 31 29 3 23 26 29 30 35 29 5 28 27 30 32 33 30 3 Change Day 0-5 5 7 11 10 16 10 4 7 5 9 11 9 8 2 4 6 9 8 13 8 3 9 8 11 11 11 10 1 Day 8 27 34 42 40 50 39 9 35 35 37 43 39 38 3 30 29 32 37 40 34 5 37 35 36 42 43 39 4 Change Day 5-8 3 7 10 8 11 8 3 9 10 8 10 8 9 1 7 3 3 7 5 5 2 9 8 6 10 10 9 2 Total Change 8 14 21 18 27 18 7 16 15 17 21 17 17 2 11 9 12 15 18 13 4 18 16 17 21 21 19 2 WILD LIFE INTER NATIONAL , LTD PROJECT NO.: 454-103 Experimental Group (ppm ai.) 0 -46- APPENDIX VI Individual Body Weights (8) from a Northern Bobwhite Acute Dietary Toxicity Study with PFOS Page 2 Bird 1 2 3 4 5 Mean Day 0 19 20 21 20 22 20 Day 5 28 27 32 30 34 30 Change Day 0-5 9 7 11 10 12 10 Day 8 35 36 44 44 40 Change Day 5-8 7 9 12 10 10 Total Change 16 16 23 22 19 0 1 18 30 12 39 9 21 2 21 35 14 46 11 25 3 19 29 10 37 8 18 4 21 32 11 41 9 20 5 22 32 10 42 10 20 Mean 20 32 11 41 9 21 SD 2 2 2 3 1 3 Group Mean 20 30 10 38 8 18 Total SD 1 4 3 5 2 4 WILDLIFE INTERNATIONAL, LTD PROJECT NO.: 454-103 -47- APPENDIX VI Individual Body Weights (8) from a Northern Bobwhite Acute Dietary Toxicity Study with PFOS Page 3 Experimental Group (ppm a.i.) 18.3 Bird 1 2 3 4 5 Mean SD Day 0 19 19 21 22 22 21 2 Day 5 26 33 27 34 36 31 4 Change Day 0-5 7 14 6 12 14 11 4 Day 8 34 39 35 46 46 40 6 Change Day 5-8 8 6 8 12 10 9 2 Total Change 15 20 14 24 24 19 5 18.3 1 19 28 9 38 10 19 2 19 28 9 37 9 18 3 20 29 9 38 9 18 4 22 34 12 44 10 22 5 22 35 13 44 9 22 Mean 20 31 10 40 9 20 SD 2 3 2 3 1 2 Group Mean 21 31 11 40 9 20 Total SD 1 4 3 5 2 3 WILDLIFE INTERNATIONAL,LTD -48 - PROJECT NO.: 454-103 APPENDIX VI Individual Body Weights (g) from a Northern Bobwhite Acute Dietary Toxicity Study with PFOS Page 4 Experimental Group (ppm a.i.) 36.6 Bird 1 2 3 4 5 Mean Day 0 18 19 19 21 21 20 Day 5 26 30 29 30 34 30 Change Day 0-5 8 11 10 9 13 10 Day 8 35 39 37 38 43 38 Change Day 5-8 9 9 8 8 9 9 Total Change 17 20 18 17 22 19 36.6 1 19 29 10 37 8 18 2 19 29 10 37 8 18 3 21 32 11 40 8 19 4 22 35 13 44 9 22 5 23 36 13 44 8 21 Mean 21 32 11 40 8 20 SD 2 3 2 4 0 2 Group Mean 20 31 11 39 8 19 Total SD 2 3 2 3 1 2 WILDLIFE INTERNATIONALL,TD - 49 - PROJECT NO. : 454- 103 APPENDIX VI Individual Body Weights (8) from a Northern Bobwhite Acute Dietary Toxicity Study with PFOS Page 5 Experimental Group (ppm a.i.) 73.2 Bird 1 2 3 4 5 Mean SD Day 0 18 19 20 21 21 20 1 Day 5 26 26 29 32 30 29 3 Change Day 0-5 8 7 9 11 9 9 1 Day 8 32 33 36 39 36 35 3 Change Day 5-8 6 7 7 7 6 7 1 Total Change 14 14 16 18 15 15 2 73.2 1 18 27 9 34 7 16 2 20 31 11 38 7 18 3 21 30 9 37 7 16 4 21 32 11 39 7 18 5 22 32 10 41 9 19 Mean 20 30 10 38 7 17 SD 2 2 1 3 1 1 Group Mean 20 30 9 37 7 16 Total SD 1 2 1 3 1 2 WILDLIFE INTERNATIONAL, LTD - 50 - PROJECT NO.: 454-103 APPENDIX VI Individual Body Weights (g) from a Northern Bobwhite Acute Dietary Toxicity Study with PFOS Page 6 Experimental Group (ppm a.i.) 146 Bird 1 2 3 4 5 Mean SD Day 0 19 19 20 22 23 21 2 Day 5 28 28 24 33 28 28 3 Change Day 0-5 9 9 4 11 5 8 3 Day 8 35 32 38 32 34 3 Change Day 5-8 7 4 5 4 5 1 Total Change 16 13 16 9 14 3 146 1 18 24 6 31 7 2 19 27 8 35 8 3 19 27 8 33 6 4 21 5 23 24 1 28 4 Mean 20 26 6 32 6 SD 2 2 3 3 2 Group Mean 20 27* 7* 33* 6** Total SD 2 3 3 3 2 (-) = N o data available due to mortality. *Statistically different from the control group at p < 0.05 (Dunnett's t-test). **Statistically different froin the control group at p < 0.01 (Dunnett's t-test). 13 16 14 5 12 5 13** 4 WILD LIFE INTER NATIONAL , LTD -51 - PROJECT NO.: 454-103 APPENDIX VI Individual Body Weights (g) from a Northern Bobwhite Acute Dietary Toxicity Study with PFOS Page 7 Experimental Group (ppm a.i.) 293 Bird 1 2 3 4 5 Mean SD Day 0 18 19 20 22 22 20 2 Day 5 20 17 18 Change Day 0-5 2 -2 -2 Day 8 21 20 -2 -1 21 2 Change Day 5-8 1 1 Total Change 3 3 293 1 19 19 0 15 -4 -4 2 19 3 20 20 0 4 20 17 -3 5 21 16 -5 Mean 20 18 -2 15 -4 -4 Group SD 1 2 2 Mean 20 18** -2 * * 18** -2 * * - 1** Total SD 1 2 2 4 4 5 (-) = No data available due to mortality. *Statistically different from the control group at p < 0.05 (Dunnett's t-test). **Statistically different from the control group at p < 0.01 (Dunnett's t-test). WILDLIFE INTERNATIONAL, LTD PROJECT NO.: 454-103 - 52 - APPENDIX VI Individual Body Weights (8) from a Northern Bobwhite Acute Dietary Toxicity Study with PFOS Page 8 Experimental Group (ppm a.i.) 586 Bird 1 2 3 4 5 Mean SD Day 0 18 20 21 21 22 20 2 Day 5 Change Day 0-5 Day 8 13 -7 18 -3 17 -5 16 -5 3 2 Change Day 5-8 Total Change 586 1 19 16 -3 2 20 3 20 16 -4 4 19 5 21 Group Mean 20 SD 1 Mean 20 16 -4 0 1 16** -4 * * Total SD 1 2 2 (-) = No data available due to mortality. **Statistically different from the control group at p < 0.01 (Dunnett's t-test). WILDLIFE INTERNATIONAL, LTD PROJECT NO.: 454-103 - 53 - APPENDIX VI Individual Body Weights (g) from a Northern Bobwhite Acute Dietary Toxicity Study with PFOS Page 9 Experimenta1 Group (ppm a.i.) Bird Day 0 1171 1 18 2 20 3 20 4 21 5 21 Mean 20 SD 1 Day 5 Change Day 0-5 Day 8 Change Day 5-8 Total Change 1171 1 18 2 20 3 20 4 22 5 21 Mean 20 SD 1 Group Total Mean 20 SD 1 (-) = No data available due to mortality. WILDLIFE INTERNATIONAL, LTD PROJECT NO.: 454-103 Experimental Group (ppm a.i.) 0 0 - 54 - APPENDIX VI Individual Body Weights (g) from a Northern Bobwhite Acute Dietary Toxicity Study with PFOS Page 10 Bird 1 2 3 4 5 Mean SD 1 2 3 4 5 Mean Day 8 27 34 42 40 50 39 9 35 35 37 43 39 38 Day15 42 56 69 63 78 62 14 Change Day8-15 15 22 27 23 28 23 5 Day22 61 77 92 84 104 84 16 55 20 74 53 18 74 64 27 85 74 31 103 59 20 80 61 23 83 Change Day 15-22 19 21 23 21 26 22 3 19 21 21 29 21 22 Total Change 34 43 50 44 54 45 8 39 39 48 60 41 45 0 1 30 54 24 79 25 49 2 29 45 16 63 18 34 3 32 54 22 77 23 45 4 37 55 18 75 20 38 5 40 68 28 95 27 55 Mean 34 55 22 78 23 44 SD 5 8 5 11 4 8 Group Mean 37 59 23 82 22 45 WI LDLI FE INTERNATIoNAL , LTD PROJECT NO.: 454-103 - 55 - APPENDIX VI Individual Body Weights (g) from a Northern Bobwhite Acute Dietary Toxicity Study with PFOS Page 11 Experimental Group (ppm a.i.) 18.3 Bird 1 2 3 4 5 Mean SD Day 8 34 39 35 46 46 40 6 Day 15 Change Day 8-15 Day 22 Change Day 15-22 53 19 78 25 65 26 85 20 60 25 86 26 73 27 95 22 71 25 92 21 64 24 87 23 8 3 7 3 Total Change 44 46 51 49 46 47 3 - Experimental Group (ppm a.i.) Bird Day 8 36.6 1 35 2 39 3 37 4 38 5 43 Mean 38 SD 3 Day 15 Change Day 8-15 Day 22 Change Day 15-22 60 25 81 21 65 26 91 26 65 28 91 26 61 23 83 22 72 29 97 25 65 26 89 24 5 2 7 2 Total Change 46 52 54 45 54 50 4 WILD LIFE INTERNATI oNAL , LTD - 56 - PROJECT NO.: 454-103 APPENDIX VI Individual Body Weights (g) from a Northern Bobwhite Acute Dietary Toxicity Study with PFOS Page 12 Experimental Group (ppm a.i.) 73.2 Bird 1 2 3 4 5 Mean SD Day 8 32 33 36 39 36 35 3 Day 15 Change Day 8- 15 Day 22 Change Day 15-22 54 22 76 22 58 25 77 19 62 26 79 17 65 26 87 22 59 23 78 19 60 24 79 20 4 2 4 2 Total Change 44 44 43 48 42 44 2 Experimental Group Change Change (ppm a.i.) Bird Day 8 Day 15 Day 8-15 Day 22 Day 15-22 146 1 35 58 23 81 23 2 32 55 23 77 22 3 4 38 63 25 81 18 5 32 57 25 78 21 Mean 34* 58 24 79 21 SD 3 3 1 2 2 (-) = No data available due to mortality. *Statistically different from the control group at p < 0.05 (Dunnett's t-test). Total Change 46 45 43 46 45 1 WILDLIFE INTERNATIONAL,LTD - 57 - PROJECT NO.: 454-103 APPENDIX VI Individual Body Weights (g) from a Northern Bobwhite Acute Dietary Toxicity Study with PFOS Page 13 Experimental Group (ppm a.i.) Bird Day 0 293 1 21 2 3 4 5 Mean 21 SD (-) = No data available due to mortality. Day 5 35 Change Day 0-5 14 Day 8 55 Change Day 5-8 20 35 14 55 20 Total Change 34 34 WILD LIFE INTERNATIoNAL , LTD PROJECT NO.: 454-103 - 58 - APPENDIX VI1 Feed Consumption (g/bird/day) by Pen from a Northern Bobwhite Acute Dietary Toxicity Study with PFOS Page 1 Experimental Group (ppm a.i.) Pen Exposure Period Day 0-5 Post-Exposure Period Day 6-8 Control 1 9 12 2 7 12 3 8 7 4 12 12 5 9 9 6 10 9 Mean 9 10 SD 2 2 WILDLIFE INTERNATIONAL,LTD PROJECT NO.: 454-103 - 59 - APPENDIX VI1 Feed Consumption (ghirdday) by Pen from a Northern Bobwhite Acute Dietary Toxicity Study with PFOS Page 2 Experimental Group Exposure Period Post-Exposure Period (ppm a.i.) Pen Day 0-5 Day 6-8 18.3 1 9 10 2 8 11 Mean 9 11 36.6 1 8 14 2 7 9 Mean 8 12 73.2 1 10 12 2 10 14 Mean 10 13 146 1 7 8 2 10 12 Mean 9 10 293 1 4 8 2 6 10 Mean 5 9 586 1 6 16 2 5 22 Mean 6 19 1171 1 4 2 4 Mean 4 - No data available due to adult mortality. WILDLIFE INTERNATI oNAL , LTD PROJECT NO.: 454-103 - 60 - APPENDIX VI1 Feed Consumption (g/bird/day) by Pen from a Northern Bobwhite Acute Dietary Toxicity Study with PFOS Page 3 Experimental Group (ppm ai.) Pen Exposure Period Day 8-15 Post-Exposure Period Day 15-22 Control 10 14 10 12 7 12 Mean 9 13 SD 2 1 Experimental Group (ppm a i ) Pen 18.3 1 36.6 1 73.2 1 146 1 293 1 Exposure Period Day 8-15 10 14 13 11 8 Post-Exposure Period Day 15-22 12 15 15 14 9 WILDLIFE INTERNATIONAL, LTD -61 APPENDIX VI11 CHANGES TO PROTOCOL PROJECT NO.: 454-103 1. The protocol was amended to indicate that bile will be collected from all study birds. The protocol was clarified to indicate the collection of liver from birds that died during the course of the study 2. Blood samples were collected on Day 8 and Day 22 in non-heparinized 5 ml borosilicate glass test tubes. The protocol indicated that heparinized vacutainers would be used. 3. The protocol was amended to change the test concentrations from 0,20,40, 80, 160,640 and 1280 ppm a i . , to 0, 18.3,36.6, 73.2, 146,293, 586 and 1171 pprn a.i. Test concentrations were changed to reflect the test substance purity given in the new certificate of analysis. 4. The temperatures from several brooder units on Day 4, 7, 8, and all brooder units on Day 22 were not recorded 5. The afternoon observations were inadvertently not recorded for 2 birds in the 640 ppm a.i. treatment group on April 26, 1999. - WILDLIFE INTERNATIONALLT,D - 62 APPENDIX IX PERSONNEL INVOLVED IN THE STUDY PROJECT NO.: 454-103 The following key Wildlife International Ltd. personnel were involved in the conduct or management of this study: (1) Mark Jaber, Wildlife Toxicologist (2) Joann B. Beavers, Director, Avian Toxicology (3) Sean P. Gallagher, Senior Biologist (4) Courtney Casey, M.S., Senior Biologist (5) Willard R. Nixon, Ph.D., Manager, Analytical Chemistry (6) Timothy Z. Kendall, Supervisor, Analytical Chemistry (7) Raymond L. Van Hoven, Ph.D., Scientist (8) Ellen Mank, Chemist WILDLIFE INTERNATIONAL,LTD - 63 APPENDIX X REVISED STUDY SUMMARY PROJECT NO.: 454-103 This study was reported using a test substance purity of 90.49%. The test substance characterization was revised on 9/7/00, following study completion, and the punty was determined to be 86.9%. The Sponsor requested that the results of this study be revised to reflect the most recent purity analyses. The results previously presented were simply corrected by the ratio of the two purities or a factor of 0.9603. No attempt was made to recalculate analytical standard concentrations or measured concentrations from original raw data. As such, minor errors due to rounding may be present. Attached is the revised summary page from the final report and the most recent certificate of analysis. AMENDED WILDLIFE INTERNATIONAL, LTD PROJECT NO.: 454-103 -64REVISED STUDY SUMMARY BASED ON A PURITY OF 86.9% SPONSOR'S REPPRESENTATIVE: LOCATION OF STUDY, RAW DATA AND A COPY OF THE Ms. Susan A. Beach WILDLIFE INTERNATIONAL LTD. PROJECT NUMBER: TEST SUBSTANCE: STUDY: NOMINAL TEST CONCENTRATIONS : TEST DATES: - LENGTH OF TEST: TEST ORGANISM: SOURCE OF TEST ORGANISMS: I1 AGE OF TEST ORGANISMS: LC50: 95% CONFIDENCE LIMITS: NO MORTALITY CONCENTRATION: NO-OBSERVED-EFFECTCONCENTRATION: 454-1 03 PFOS (Perfluorooctane Sulfonic Acid Potassium Salt) PFOS: A Dietary LC50 Study with the Northern Bobwhite 0, 17.6, 35.1, 70.3, 141, 281, 562 and 1125 ppma.i. Experimental Start - April 22, 1999 Biological Termination - May 14, 1999 Experimental Termination - May 14, 1999 22 days Northern Bobwhite (Colinus virginianus) Wildlife International Ltd. Production Flock I Easton, Maryland 21601 I 10 days at test initiation 212 pprn a.i. 158 and 278 ppm a.i. 70.3 ppm a.i. 70.3 ppm a.i. AMENDED WILDLIFE INTERNATIONALLTD, - 65 - PROJECT NO.: 454-103 Phone: (814) 231-8032 Inc. I Laboratories, Ilege. PA 18801 www.cen1releb.m FQX'(814)P1-1253M(814)231-1580 LWTERIM CERTIFICATEOF ANALYSIS Revision 3 Centre Analvticd Lnborntorles COA Reference # 023-018A Twt N l w hrlty' AppcIdentification 1. 'calcium' 2. Magnesium 3. sodium 4. Potassium' 5. Nickel 7. Mmganesc . . W S ) Total % Impurity I POAA Residual Solvents (TGA) Purity by DSC inorganic Anions (IC) 1. chloride 2. Fluoride ' 3. Bmmide 4. NjtntC 5. Nitrite 6. Phorphate 7. Sulfate' 2. PFPA 3. HFBA Elemental Analysis : 2. Hydrogen 3. Nitmgea 4. Sulfur 5 . Fluorine COA023-018A spednt~tiom Wbitc Crysbllme Powder - Theoretical Valuc 17.8% Thmtical Value = 0% ?hmretical Value = 0% 4. TheoreticalVdue = 5.95% 5. Theorrtical Value = W h Ruult 86.9% Cimfolms Poaitivc 1. O.O05wt/wt.% 2. 0.001 W M . % 3. 1.439wtM.% 4. 6.849 wlhvt.% 5. co.oolWt/wt./D 6. 0.005 wtJwt.% 7. 6).001wt./Wc% 1.91 wt"iwt.% 8.41 wt/wt.% None Detected 0.33 wtlwt.% None Detected Not Applicable' 1. co.015 Wt/W% 2. 0.59 wtJwt.99 3. 4.040wthvr% 4. *).009Wthvt% 5. d0.O06wt/wt% 6. -=0.007wLhuT4? 7. 8.76 Wt1wt.36 1. co.1 wt&% 2. <O.l wtlwt% 3. 0.10wt./Wt% 4. 0.28wt./Wt% I . 12.48 wt.hwt.% 2. 0.244wt.h.% 3. 1.74wtJwt.% 4. 8.84wtJwt.% 5. 54.1 wtJwt% P a s I of 3 AMENDED WILDLIFE INTERNATIONALLT,D - 66 - PROJECT NO.: 454-103 Date of- C u r t E Analytical Laboratorks, Inc. 3048 Research D h State College,PA 16601 www.centrehb.com Phone: (814)231-8032 Fax: (814)231-1253or(E14)~1-1580 INTERIM CERTIFIC.4 TE OF ANALYSIS Revirion 3 Centre Analytical LaboratorieJ COA Reference # 023418A Analysis: 08/31/00 ExpirationDate: OW3 1/06 Storage Conditions: Frozen frloDC Re-ass-cnt Date: 0813 1/06 'Purity = 1Wh- (sum of metat impurities, 1.45%+ L W impurities, 8.41%+hor@c Fluoride, 0.59?h+NMRimpurities, 1.905%+0rganic acid impurities,0.38%+POAA. 0.33%) - Total impurity from all tests = 13.07% purity 100% 13.07% = 86.9% *Potassiumis expected in this salt form and is themfore not considered an impurity. 'Purity by DSC is generally not applicableto materialsof low purity. No mddthumwas observed for this sample. 'Sulfur in the sample appears to be convertedto SO4 and hence detected using the inorganic anion method conditions. The anion result agrees well with the sulfur determinationin the elemental analysis, lendingwnfidcncc to this intapretation. Based on the results,the SO,is not considered an impurity. STPA KFEA NFTA PITA Trifluoroacctic a c i d Heptaflmrobutyric acid Nonafluoropentwoic acid Pmtanuoropropanoic acid %heoretical value calculationsbased on the cmpmcal formula, C~IF~~S@X+(MW=~~E) This work was conducted under EPA Good LaboratoryPractice Stpndnrds (40 CFR 160). COA023-018A Page 2 Of 3 AMENDED WILDLIFE INTERNATIONALL,TD - 67 - PROJECT NO.: 454-103 Cent= Analytical laboratories, Inc E r n Phone:(814) 231-8032 Fa:(814)231-1253 tX (814)231-1560 INTERM CERTIFICATEOF ANALYSIS Rwfsion 3 Centre Analytical Laboratories COA Reference #: O23418A LC/MS Purity Profile: Imparity c4 c5 C6 c7 Total Wwt % 1.22 1.33 4.72 1.14 8.41 Note: The C4 and C6 values were calculatedusingthe C4 and C6 standardcalibration curves, respactively. The C5 value was calculated using the average result from the C4 and C6 standard e w e s . Likewise, the C7 value was calculated using the average result from the C6 and C8 standard curves. Scientist, Cenhe Analytical Laboratories j6hnFlahnty / Date Laboratory Manager,Centre Analytical Laboratories COAO23-018A Page 3 af 3 AMENDED ~ _ _ WILDLIFE INTERNATIONAL, LTD PROJECT NO.: 454-103 - 68 APPENDIX XI Report Amendment 1. Original Report: Title Page Amended Report: The amended report date was added. The total number of pages was changed from 62 to 69. Reason: To indicate that the report was amended and note change in pagination. 2. Original Report: Amended Report: Reason: Page 2 The amended report date was added and the exceptions to the compliance statement were revised. To show the amended report date, provide new signatures and dates for the amended report and to update the compliance statement. 3. Original Report: Amended Report: Reason: Page 3 The audit dates for the amended report were added. To show the amended report audit dates and to provide a new signature and date for the amended report. 4. Original Report: Page 4 Amended Report: New signatures and dates were affixed and a title change was made. Reason: To provide signatures and dates of approval for the amended report and to update a manager's title. 5. Original Report: Amended Report: Reason: Page 6 Appendix X, Revised Study Summary, and Appendix XI, Report Amendment, were added to the Table of Contents. To revise the Table of Contents to include the revised summary and report amendment. 6. Original Report: Page 7 Amended Report: A footnote and the amended report date were added to the Summary page. Reason: To direct the reader to Appendix X, which contains the revised study summary and to show the amended report date. 7. Original Report: Amended Report: Reason: Page 8 A footnote was added to the Test Substance text. To direct the reader to Appendix X, which contains the most recent Certificate of Analysis. AMENDED WILDLIFE INTERNATIONAL,LTD - 69 APPENDIX XI Report Amendment (continued) PROJECT NO.: 454-103 8. Amended Report: Reason: 9. Amended Report: Reason: Pages 63-67, Revised Study Summary, were added to the report. To provide additional information. Pages 68 and 69, Report Amendment, were added to the report. To provide details of changes made to the original report. AMENDMENT SIGNATURES: Study Director Wildlife International, Ltd. Management REVIEWED BY: Quality Assurance &cu? Date Date 3-22 -04 Date AMENDED