Document O1MLqj1w8791vgv8NYxM0O0RK

/|R 1%-OS07 ACUTE TOXICITY TO AQUATIC INVERTABRATES (DAPHNIA MAGNA) TEST SUBSTANCE Identity: Perfluorooctanoic acid, ammonium salt; may also be referred to as PFOA ammonium salt, Ammonium perfluorooctanoate, PFO, FC- 116, FC-126, FC-169, or FC-143. (Octanoic acid, pentadecafluoro- , ammonium salt, CAS # 3825-26-1) RIt'esmpuarriktys:wasTnhoet 3suMffipcrieodnutlyctclhoat rnaucmtebriezrewd,atsho3u7.ghThcuertreesntt sinafmorpmleatiisonFC-143. ainnddicCat9epseirtfliusoaromaixntaulroegoufe9c6o.5mp-1o0u0n%ds.test substance and 0 - 3.5% C6, C7, scTtohumedfipeolesllothewadivnDegabpieshenanniasaumbpabegrrencvaeiadsteteudddbiseyusamcmmonoadrreyucroetfecsdeentvotetereavslatpluraetveioduiesltyThese METHOD: TYGMyeLepaPther::ocdoNSm:otaptliecteaNdco:utt1ne9o8te2d. SSATEepuxnspepatcoplyoisletireuiscgrr:aa:elDnUpmiasSepmorEhinoPnaidiAtago:-erEm4i:nR8aFg-Lghi:,rnosTaDute-ruIsmnlusptthea,rraMytouNur.en,gp(H0.a5n-1d.5dimssmo)lved oxygen SPcDotriolmeuctmtrkieooaanntnmwsdetaotntecetsk:rt:ssNCooloaultrutbinotoionont,en-f5dipl.tger/erLepdarwaetilol nw:atTeer.st solutions were created by a CScEmtoxapnbdoceilesiptuntyhrtre)oa. fvtiteohsnessetedlsso:tsci2nh5ge0mrmaitcLea:gllOsaosnscluebtieoankse:rsNcoot nntoatiending 200 mL test solution (6 Number of replicates: two Number Number of of dcoapnhcennidtrsaptioernsre: pfilviceaptelu:s1a0b- l2a0nk control RESULTS Element values: 48-hour EC50 = 126 (86-183) mg/L to >1000 mg/L Element values based on nominal concentrations 003811 CONCLUSIONS Tbinehceo>n1tes0si0stt0esanmmt.gp/LVle.alrTueehsseulgvtsaenfluoeerra4gt8ee-ndheoirnuartMeEaCiny5oJ0 uffon1re9D8o2af pd1he9n8tei2armimnidnaiegcdnaat4e8wd-eharoe4u8r-hEoCu5r0S to iEnCco50nsoifs1te2n6cimesg/mL awyithbead9u5e%tocodnifffeidreenncceesInintedrvieatl.of 86 to 183 mg/L. These SPuaublm, Mittinenr:eso3tMa, Company, 55133 Environmental Laboratory, P.O. Box 33331, St. DATA QUALITY Reliability: Klimisch ranking 3. The method is not described, sample purity wsoutahbsesrnt.aonTtchpeerocppouenrrcplyeoncstheraaortiafoctnhtsee.rsizeTehsdteuadvnaiedlusietwslaafcsrkotsmoaemnvauallyltuitpiaclteaeltdeciosffntesfrirecmonntattdrioaandpihcontfiedteasdctihets. REFERENCES These studies were conducted by the 3M Company, Environmental Laboratory, St. Paul, MN, completed from May to June, 1982. OTHER Last changed: 5/25/00 003812 ENVIRONMENTAL LABORTORY AQUATTC TOXICITY DATA S'-'EET Tyre Test< t c CO M ater4al Tested f t W 3 Lot U L Test Organism \J. Source O o fu tt ffc L Oat? Rec'd I t jt jf f iatch No. - Age: First-Instar young (0,5-1.5mm) No. Organisms per treatment^-& < L ________ Test Chamber: 250ml glass beaker Test Solution Vol.: 200ml Test Solution Depth: 6cm. Time Started /0:3<g ( O f f * Pate Started 5/2U Z. Date Completed Dilution Wfter Carbon-filtered well water CTemp. Q jf* C, D .0. ppm , pH_ . j Investigator (Full Signature) ^ (95% Confidence Limits)___ __ fit S Tank No. Control Symptoms or Reactions 24-Hr. Total No. Affected 48 Hr. 72-Hr. 96-Hr. Comments: ------------------------------- BEST COPY AVAILABLE 0Q3S13 ENVIRONMENTAL LABORTORY AQUATTC TOXICITY DATA S'-'EET Tyre Test Material Tested F c / h s __ Lot Test Organism Source P M i R L Date Reo'd {S/fj/J&iatch No._______ __ Age: First-In star young (0,5-1.5mm) No. Organisms rer treatment 10 Test Chamber: 250ml glass beaker Test Solution Vol.: 200ml Test Solution Depth: 6cm. Time Started^ ?*>/ ___Date Started Date Comnleted| Dilution Wrter Carbon-filtered well water (Temp. C, D .0. ppm , p H ) Investigator (Full Signature) Init. ank Cone. N o . L.mg/1 c Control - 1* l 3*.. Uo 1 3m a Total Amount Added 2 4 (90 2O ___ L<^ 5 0 Confidence limits) _______ fed 24 Hour s Total D.O. No. Dead pH ppm O /tG *Jto 48 lours Total D.O. No.Dead pH ppm S7 9 X Of/O 8.7 $>z. Vl6 ? ,7 y to f t ? .Z fir?V /a Y fo 8 f7 g .Z , Z .! -73-Hour s Total I D.O. No.Dead pH ppm <v~ V / V , V ,o > K Z Y/o AA'k. > -96-Hou :s Tot&I D No.Dead >H Pi / 'O 1h *1 V /tf / t l s Li 8 V/ * % > / I * f Test Temp. C. Initials S Date A rK /tV & '?S d 'L- Coraments XL. SlvtAA* Effects other than Mortality EC^ A t) tr rift*- 2M 6 * Tank No. Control Symptoms or Reactions 24-Hr. Total No. Affected 48 Hr. 72-Hr. 96-Hr. 3SI1] ii1:17:11.'']1 1 Comments : 003814 ENVI ROVENTAI. LABORTORY AQUATIC TOXICITE DATA Sf-rEET Tyre Test V^i..rCjr Material Tested / 1/3 Lot 3 7 Test Organism uo<- Source fb ltd i 3L Dat Rec'd f2/;ylf/Batch No._______ __ Age: First-Instar young (0,5-1.5mm) No. Organisms per treatment 2 O Test Chamber: 250ml glass beaker Test Solution Voi.: 200ml Test Solution Depth: 6cm. Time Started. / ( J O M l Date Started S Z l'L Date Completed b f z J f i Z ) Dilution Wrter Carbon-filtered well water (Temp. 2 C, D 0. ppm > pH____ _J Investigatcr f 3 A ^ c ^ fyU /eS & t L C ^ (95% Confidence lim i t s ) _ _ _______ (Full Signatura} ank No. Init. Cone. _mg/l C Control t 10 lo o OO r /coo Total Amount Added ' a. 030o 3.00 24 Hours Total D.O. No. Dead pH ppm O 0 H1 /I 48 Hours itfffT l Hour S Total D.O. total I D.O. No.Dead pH ppm No.Dead pH ppm Z/ 1 d i 02 j f I.f <T7- 1 5 X !' 11 Hou Total :s C No.Dead >H p f) tu ip 2 - Test Temp. C. Initials S Date Comments : Z J J '/ f Effects other than Mortality E^50- Tank No. Symptoms or Reactions Control Z 3 S ____ ____ . fe d i/e fro *.-ia c n 24-Hr. 3 Total No. Affected 48 Hr. y --Hr. 9, 1 r ... 1r 73 YJiS^Hx. Comments : BEST COPY AVAILABLE C03S15 I T'$r*\ 1' 0 ' 0 '5H0-- _ 7 1 0 ij*c!0 j 1 7' 5 0 0 ? 0 ?5 ? 100 0 j 0 j 17 - *j'i'.Ja *Z.:r Ll *Zi. * ' COMMENTS FOR CURVE 4 7 iz!4 HR RUN E COMC . LOG CONC. FRACTION RESPOND ING i0 100 5 00 100o CHI--SO 1 c dm 69897 PRDBRBIL ITY IS > 0, 05 ij 0. 05 0. 5 0.85 NO OF ITERATIONS INTERCEPT <R> SLOPE <; r* --7.61349 . 7 4 7 3 08 H E T E R O G E N IET Y FACTOR <HV = 1 LC-50 = 589981 95 PCT. LOWER CONF. LIMIT -- 95 PCT. UPPER CONF. LIMIT = .'.Sr: NO. DF CONC. !FOR CURVE 5 7 --j INPUT D A T A - C D N C . j ND. EXPOS ED? NO. D E R D ? 1 0 ? LiJ *;'* 1 Ijl_liz!U ,i8 ? 5 0 0 ? ? 0 CO M M ENTS FOR iCURVE 5 ' 48 HR RUN :E CONC. LOG CONC. FRACTION RESPONDING 10 1 1 1j0 c. - 5 00 .69897 CHI-SG! P R O E R B I L I T Y < 0.05 0. 1 0.3 1 BEST COPY AVAILABLE FITTED FRACTION 5.788753E-07 0. 017 0985 0.4 17381 0.7355148 CHI SO FDR LINEARITY CHI SO FOR PROEREIL ITY 5.054567 0.07987569 -i. .-G = 0.66042/ 4 04.5 14 861.9653 FITTED FRACTION 0.03887939 0.509768 0.8987583 NO OF ITERRTIONS INTERCEPT <R> SLOPE CHI SO FOR ^ V CHI SO FOR LINEARITY PROBABILITY 6 -3.55151 1.78838 1 7.774071 0.0053 00149 H E T E R O G E N IETY FRCTOR <H> = 7.7 74 u 1 b = 8 8 8 c*5 1'"1 SINCE b IS G R E ATER THRN 1 ? THE CONF. LitjITS ARE NOT D E F I N E D C i_-- s ii -- 9t'i by5*9 95 PCT LOWER CONF. LIMIT 95 PCT UPPER CDMF. LIMIT 00 C03S16 iVfr'i PPL M ENV I E Dh MENT AL L A> F A IU ^ v P R O B IT ANALYSIS FDR BIDASS AY DATA*** ND DP CURVES 5 ND. OF CDNC. FDR CURVE 1 7 4 INPUT DATA-CuNC. >NU. EXPOSED tN U .DEAD " 1 Cij 0 j 0 ? 10 0 * 0 j 1 ? 5 ij0 j 0 j4 7 1 0 00 j 0 >17 COMMENTS FDR CURVE 1 ? 4 HR RUN Ft CDNC. LOG CDNC. FRACTION RESPONDING FITTED FRRCTIDN 10 100 5 00 1000 CHI-SQ l' c. .69897 y PROBABILITY < 0.05 0 0.05 0. , 0.85 .821752E-07 -0 . 0 1 3 4 2 6 2 -i .>"'0.3959862 - . 0.7177 021 ; V. 4 UNDERFLDLi RT L I N E O'!550 DF M R I N P R D G R R M ND OF ITERATIONS f INTERCEPT CRj -- 7.793 Out SLOPE <B> . 7 8 9 1-'uy CHI SO FDR LINEARITY 6.95989 CHI SO FDR PROBABILITY 0.03081836 H E T E R O G E N IETY FRCTDR <H> = 3. 479644 G = 5.140073 SINCE G IS GREATER THAN 1, THE CDNF. LIMIT S ARE NOT DEFINED LC-50 = 621.606 95 P C T . LONER: CDNF. LIMIT = 95 PCT. UPPER CDNF. LIMIT 0 0 NO. DF CDNC. FDR CURVE T, -.[ INPUT D A T A - C D N C .?N D . EXPOS ED ND. DEAD '' 1 0 > iJ> 7 100j 0f6 ; ? 500 20* 20 COMMENTS FOR CURVE : ? 48 HR RUN A CDNC . LDG CDNC. FRACTION RESPONDING 10 1 100 c 5 00 .69897 CHI--SU PROERE ILITY < 0.05 0. 1 0.3 1 ,/ / V, . ' 7-'6: .4,- If / *' FITTED FRACTION V 4 0.03887939 0.5097682. u ysy f c , ND DF ITERATIONS INTERCEPT `.A> SLOPE (E> CHI SO FDR LINEARITY CHI SO FDR PROBABILITY & -3.552151 1.788331 (*'1*'('4*U I*'l-1 0.00530014 Hb.T E.ROGE NI El Y FACTOR (R.i = 7. 774071 b -- 3282.571 SINCE G I S GREATER THRU 1 , THE CDNF. L I M I T S ARE.NOT DEFINED 003817 ,r 'RUN PR DB IT 3 M E N VIR N M E N T ftL L ftB D ftftTDR V P R O B IT fthftL Vi-1 > F O R BIDftvSftY DftTft**"*'* r-H OF CURVES ~ 1 -0 , OF C D N C . FDR CURVE i ? 3 IN PU ! BftTft-- LONG. ?H D . EXPOSED.* NO. DE PI* ? 1 0 -40?4 i' 1 LIi.i.4 IJ;ic! ? 5 0 0 *4 0 ?4 0 CONHENTS FOR CURVE 1 ? C O M B I N E D 48 HR RUN ft&B CDNC. LDG CDNC. FRRCTIDN RESPONDING 10 1 100 5 00 . ft.9897 C H I-SQ PROBftBILITY < 0.05 0.1 0 .3 1 BEST COPY AVAIl ABLE FITTED FRACTION 0.0388795 0 .5 U97 ft'fc'9 0 .8987511 NO OF ITERftTIDNS INTERCEPT t.ft> SLOPE LB> CHI SO FOR L INEARITY CHI SQ FDR PROBftBILITY ft -3 .5515 1 r'yyjc* 15.54809 8 .045137E-05 H E T E R D G E N I E TY F PC TOR' (H-1 = 15,54809 G = 3 8 . 549 SINCE G IS G R EATER THftN i. T H E CDHF, LI M l S ARE NOT DEFINED LC-50 = 9 ft.89595 9 5 P L T . L 01.0E R CDNF. LIMIT cr 95 PCT. UPPER C O N F . LIMIT 5= 0 o 0.03818 V 5 3i EFA P R O B I T A N A L Y S I S P R O G R A M USED FOR CALCULATING EC VALUES Version 1.4 FC-143 Daphnia magna acute static 48~nrs exposure Cone . Number Exposed Number Resp. Observed Proportion Responding Ad jus t e d Proportion Responding 10.0000 100.0000 500.0000 1000.0000 40 40 42 40 4 0.1000 12 0 . 3 0 0 0 42 1.0000 40 1.0000 0.1000 0.3000 1.0000 1.0000 Predicted Proportion Responding 0.0306 0.5327 0.9262 0.9792 Chi - Square Heterogeneity = 19.408 ^ ^ ^ ^ ^ ^ ^ ^ ^ ^ ^ ^ ^ ^ ^ ^ ^ ^ ^ ^ ^ ^ ^^ ^ ^ ^ ^ ^ ^ ^ ^ ^ ^ ^ ^ ^ ^ iTl ** ^ ^ ^ ^ ^ ^ ^ 4, 4^ ^ ^ U ^ ^d r ^d r ^d r ^^ fd r ^4 ^Ur ^dr ^4 W^ ^^ ^^ ^ ^ ^ ^^ ^ ^4 *Ur ^^ ^ ^ ^^ ^ ^ ^4 ^ ^d r 4f ^Ur rdjrl * WARNING * ** * Significant heterogeneitv exists. The results reported % * for this data set mav not be valid. The results should # * be interoreted with appropriate caution. # v tI ^^ ^ rfv ^ t ^ ^ ^ ^ ^ ^ ^ ^ ^ ^ ^ ^ ^ rf^ ^ ^ ^ ^ ^ ^^^ ^^^^^ ^ ^ ^ ^1 ^1 ^ ^ ^^^^ J. ^ 4 ^ d r ^ 4 ^ 4 ^ ^ ^ 4 ^ ^ d ^ ^ ^ ^ ^ 4 4 ^ ^ 4 ^ ^ ^ ^ ^ 4 ^ ^ ^ 4 r ^ 4 U r ^ ^ 4 ^ d r d 4 * ^ 4 W ^ 4 ^ d r 4 4 Ur ^ Ur Ur ^ 4 4 *v*v* ^ ^ ^ * ^ rp r^ ^ r ^ ^ ^ ^ ^ ^ ^ ^ ^ ^ ^ ^ ^ ^ ^ r ^ r ^ ^ ^ ^ r p ^ ^ ^ ^ ^ ^ ^ m 'm ^ ^ ^ ^ ^ ^ ^ f ^ ^ jf> ^ ^ ^ ^ ^ ** ,. N O T E ** * SloDe not significantly different from zero. * EC fiducial limits cannot be computed. # # * ^^U ^t ^ ^4 ^^ 4 r ^d r *4 ^* ^ ^4 ^U^ ^U r ^U ^^ ^4 rrf^r r^ ^ ^d r ^4 ^^ ^4 ^^ ^4 ^4 ^\ k ^^ ^4 ^1^ ^4 r ^U r ^W ^4 ^U r ^^ rU^ ^iV U r ^U ^U r ^ ^U r ^U ^U r ^^ ^U r ^U ^U ^W ^1^ d^/ ^4 ^U ^Ur ^U r ^Ur ^^ 4^ ^4 ^^u ^4 ^4 Mu 1.958058 Sigma = 0.511587 Parameter Estimate Std. Err. 95% Confidence Limits Intercept Slooe 1.172584 1.954700 1.712521 0.772273 ( -6.196393, ( -1.368389, 8.541559) 5.277789) Theoretical Spontaneous Response Rate 0.0000 C03S19 B U RL IN GT ON RESEARCH. INC. TRIMMED SPEARMAN-KARBER METHOD.FOR CALCULATION OF EC50 AND LC50 V A LU ES IN BI OA SS AY S FOR REFERENCE. CITE M .A . H A M I L T O N . R.C. R U S S O , A N D R .V . T H U R S T O N , TRIMMED SPEARMAN-KARBER METHOD FOR ESTIMATING LETHAL CONCENTRATIONS IN TOXICITY BIOASSAYS. ENVIRON. SCI. TECHNOL. 11(7) 714-719 CORRECTION 12(4) 417 (1978). 1977. MEDIAN D A T E _____ T E S T # ___ ._15 / 3 1 / 8 2 CHEMICAL. .FC-143 SPECIES_ _Daphnia magna DURATION 48 hours RAN DATA C O N C E N T R A T I O N (m o / L ) 1 0 , 00 100.00 5 0 0 . 0 0 1000.00 NUMBER EXPOSD 40 40 42 40 MORTALITIES 4 12 . 42 40 SPEARMAN-KARBER TRIM 10.00 SPEARMAN-KARBER ESTIMATES eC50 125.7965775 957. L O W E R C O N F I D E N C E 86.29 UPPER CONFIDENCE 183.39 003820 BURLINGTON RESEARCH. INC T r i m m e d S p e a r m a n - K a r b e r M e t h o d -for C a l c u l a t i o n ot EC50 and LC5 Values in Bioassavs 6.907E 3 3 3 X 3 6.044 3 3 3 3 5 . 180E L3 N3 3 C3 G 4.317E N C 33 E3 N3 T 3.453E R3 A3 T3 0I 3 2.590E N3 3X 3 3 1.726E 3 3 3 3 .S 6 3 4 E 3 3 3 3 X X gdddddeddddddddeddddddddddddddeddddbdddddddddedddddddddddddde LC10 LC25 LC50 LC75 LC100 MORTALITIES C03821 FC-143 Daphnia magna acute static 48-hrs exoosure PLOT OF ADJUSTED PROBITS AND PREDICTED REGRESSION LINE Probit 10+ o 9+ o 8+ /+ -- .5+ 4+ --o 3+ a B BSB BB M B 8BB BBB abaa B abb BBBB BBBB baa O BB 8a BB aaba a 1+ 0+ E C 001 E C 10 EC25 EC5C EC75 EC90 003822 EC FC-143 Daphnia magna acute static 48-hrs exoosure Estimated EC Values and Con-fidence Limits Point Cone. Lower Upper 95% Con-fidence Limits EC 1.00 EC 5.00 E C 10.00 E C 15.00 E C 5 0 .00 EC85.00 E C 9 0 .00 E C 9 5 .00 E C 9 9 .00 5.8607 13.0782 20.0635 26.7824 90.7942 307.7991 410.8741 630.3306 1406.5795 003823