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Great Lakes Science Advisory Board Report to the International Joint Commission
The Appendices to the
1982 Annual Report
Great Lakes Research Review
November 1982 Windsor, Ontario
Table of Contents
I INTRODUCTION i i i
APPENDIX I. CORRESPONDENCE A. Request f o r Research I n f ormati bn B. V e r i f i c a t i o n o f Codea and C l a s s i f i e d
In fo rmat ion C. V e r i f i c a t i o n o f Research Exbenaiture
APPENDIX I I. RESEARCH AGENCIES AND ORGANIZATIONS PROVIPING 13 RtSEARCH 1kFORFiA11Gh
APPEhLIX Ill. RESLAHCh NEEDS 17 A. Requirea by the 1978 Great Lakes Water Qua1 i t y 15
Agreement B. Recmirr~enaat ions o f the Science Advisory Baara i 1 C. Recornrnenaations o f the Water Q u a l i t y Boara 22
APFEhblX I V . CLASSIF l C A l lOh A~LJ L O D I ~ G SYSTLM OF RESEARCH PROJECTS 27
APPEkDIX V. CURRENT RESEARCH ACTIVITIES I N 7hE GREAT LAKES 3 3
APPttvLlX V I . HISTORICAL RtSEARCH ACTlVlTItS I N ThE GkLA7 LAKES 113
APPENDIX V I I . TITLES OF PROJECTS 205 A. Current Research P ro jec ts 207 B. H i s t o r i c a l Research P ro jec ts 23 7
Introduction
This volume i nc l udes t h e Appendices t o t h e Science Adv i so r y Board 's 1982
Annual Repor t on Great l a k e s research. The main o b j e c t i v e o f t h i s r ev i ew i s
t o determine how f u l l y t 4 e e x i s t i n g research e f f o r t i s meet ing t h e
requ i rements o f t h e 1978 Great Lakes Water Qua1 i t y Agreement. Based on t q i s
r ev i ew t h e Board reached c e r t a i n conc lus ions r e g a r d i n g research needs and
formulated recommendations.
Copies o f t h e Science Adv i so r y Board 's 1982 Annual Repor t on Great Lakes
research may be ob ta ined f rom t h e I n t e r n a t i o n a l J o i n t Commission a t t h e Great
I l a k e s Regional O f f i ce i n Windsor, On ta r io , Canada.
iii
Abbreviations
Th i s l i s t i nc ludes abbrev ia t ions o f a l l t he names and l o c a t i o n s u5ed i n t h e 1982 Annual Repor t oq Great Lakes research.
ACB ACE ACRES AE S AE.SCI.CONS. AG . CAN. AINL.ASSOC. APWA AQ.TEC.ENV.CON. ARC ARG. NAT. CAB
Abatement and Compliance Branch Army Corps of Engineers Acres Consul t i n g Serv ices L i m i t e d Atmospheric Environment Serv ice App l ied Ear th Science Consu l tan ts I nco rpq ra ted A g r i c u l t u r e Canada A i n l e y pnd Assoc ia tes American P u b l i c Works Assoc ia t ion Aqua Tech Environmental Consu l tan ts I ~ c . Animal Research Centre Argonne Nat iona l Labo ra to r y
B EAK Beak Consu l tan ts L i m i t e d BGSU Bowl ing Green S t a t e U n i v e r s i t y BRANTFORD P.U.C. B r a n t f o r d P u b l i c U t i l i t i e s Commission
CAN.RES. INST, CANVIRO C C I W CHI .MED.SCH. CI-ARK COL. COMP SC. COR. PUB.SER.CTD. CQR. U. CR. INST.SC. CWR U. CWS
DAL. U. DEARBORN DEPAUL U. DET. ED. DFO DO E DO F DSS
EHD EMR EMS E.NAZ.COL. ENL E PS ERL-D ESEERCO EV.HAM. INC.
Canadian Researcfi I n s t i t u t e Canv i r o Consu l tan ts l i m i t e d Canada Centre f o r I t11 and Waters Chicago Medical School Clarkson Co l lege of Technology Computer Sciences Corpora t ion Corpus Pub1 i shers Serv i ces C i m i t ed Co rne l l U n i v e r s i t y Cranbrook I n s t i t u t e o f Science Case Western Reserve U n i v e r s i t y Canada W i l d l i f e Serv ice
Dalhousie U n i v e r s i t y Dearborn Environmental Consul t i n g Serv i c e s Depaul U n i v e r s i t y D e t r o i t Edison Canada Department o f F i s h e r i e s and Oceans Canada Department o f t h e Environment Dofasco Canada Department o f Supply and Serv ices
Env ironmen t a l Heal t$ D i r e c t o r a t e Canada Department o f Energy, Mines and R e ~ o u r c e s Env ironmen t a l Management Serv ice Eastern Nazarene Col lege Eldorado Nuclear L i m i t e d Environmental P r o t e c t i o n Se rv i cq Environmental Research Laboratory-Dul u t h Empire S ta te E l e c t r i c Energy Research Corpora t ion Evans-Hami 1 t on I nco rpo ra ted
ABBREVIATIONS (*ontV
. . . . . . . . . . . . . . , : ' , I . < . . . . . . . . . . . . . . . . , . , i., ? .. . ; . . . . . . FWS ~ ' i sh and w i l d l i f e Se rv i . . c6, ' . . . . . - .: . . . : . - . ' , . . , " ... . . . . . . . . . ' . . . . . , . ;
GE , . GLER!, GCFC ' . . . . :
GC FI- .. . , .
i.: :.: GI-f:RB.- ; . : , - + - : ,-
GO.STO.LTD. G0V.SU. GREG.GEOSc.I-TD., . - GSC.-; .: .. , , .
. . . Genera4 E l e c t r i , c Company , . ,. .
Great Lakes Environmen.ta1 Research Cab -'.: . . : . . . . . Great Cakes Fish,ery', Commission . * . . , . . . . . I
. . . . Great Lakes ' F i s h e r j . Lab Great 1-ak es F i s h e r i e s .Research Bran - . c@*-. . . ' . . . .
. . . . Gore and S t o r r i e ,i i , m i t ed . . . . . . . . . . ...
. . . . . Governors. S ta te ~ n i v e r s i t y . : . . . : . . . . . . . Gregory Geos c ience C i . m i t ed , . ,
Geo1o.gi-cal Survey o f Canada - - - - , .
. .
HRS Harrow Research S t a t i o n . . . . ..
HY D . CONS .I-TD. ~ y d r o l o ~ y Consu l tan ts L t d .
IEC I n t e r n a t i o n a l Environmental Consu l tan ts I JC I n t e r n a t i o n a l J o i n t Commission 11-L. GS. I 1 1 i n o i s S t a t e Geolog ica l S'urvey 1'. INST. TEC. I 1 1 i n o i s I n s t i t u t e o f Technology IND.BIO.T.1-AB I n d u s t r i a l B io-Test L a b o r a t o r i e s I nco rpo ra ted I NF. LTD. I n f o r m e t r i c a L t d . 1NST.ARM-FRAP. I n s t i t u t e Armand- F r a p p i e r 1NST.PED. I n s t i t u t e o f Pedology INT. ENV. CONS. I n t e r n a t i o n a l Environmental Consu l tan ts INT. SAT. INF. I n t e g r a t e d S a t e l l i t e In fo rmat ion Serv ices L i m i t e d IWD ' I n 1 and Waters D i r e c t o r a t e
Y PA Ker Pr ies tman and Assoc ia tes KU. CO. Kuhlmun Corpora t ion
LAKEHEAD U. LAVAL U. LAW.MAT.SK.ENG. LC RS LRR I
MAC.1-TD. MAN. COC . MCGII-C LJ. McM. U. MCN. AS. MED.COL.WI. M IAN1 MI.DNR YINN.DNR M1.PUB.H.
, . , . . .
Lakehead U n i v e r s i t y . .
Lava1 U n i v e r s i t y . ' , . . .
Cawler, Matusky and Skel l y Engineers . .
Large Lake Research S t a t i o n Land Resource Research I n s t i t u t e
James F. MacLaren L i m i t e d Manhattan Col 1 ege McGi 11 U h i v e r s i t y YcMas t e r Un i vers i t y W.R. IvlcNeil and Assoc ia tes Medical Co l lege o f Wisconsin Miami U n i v e r s i t y Mich igan Department o f Na tu ra l Resources Minnesota Department o f Na tu ra l Resources Mich igan Department o f Pub1 i c Heal t i
I . . * P r e v i o u s l y known as rea at Lakes ~ i o l i m n o l ~ ~ ~ Lab
ABBREVIATIONS ( C n i - . . .
. .
MOL SON ' S MO. CO. PWA MONT.SU. MSG MS U MTU MUC
NASA N HW NO AA NRC NWR I NW U NYSDEC.
OM AF OM NR OM0 E OM0 E N OMOH QMOl ONT. H. OR F 0s U
PSlR ILTD. PHI I .AC.NAT.SC. POI- Y PUR. U.
QUE. H. QUE. U.
REG.MUN.OTT.CAR. RES.TRIA. INST. RESEARCH CONS. R PF
SCIEX SUCB SllNY SYR. U.
TE X TEXAS A&M TOR
Molson 's Brewery (On ta r i o ) L t d . Monroe County Pure Water Assoc iq t i on Montana S t a t e U n i v e r s i t y M ich igan Sea Gran t Mich igan S t g t e U n i v e r s i t y M ich igan Techno log ica l U n i v e r s i t y Montrea l Urban Community
Na t i ona l Aeronau t i cs and Space A d m i n i s t r a t i o n Na t i ona l Hea l t h and Wel fa re Canada Na t i ona l Oceanic and Atmospheric A d m i n i s t r a t i o n Na t i ona l Research Counc i l o f Canada - Na t i ona l Water Research I n s t i t u t e Nor thwestern U n i v e r s i t y New York S ta te Department o f Envirqnmental Conversat ion
O n t a r i o M i n i s t r y o f A g r i c u l t u r e and Food On ta r i o M i n i s t r y o f Na tu ra l Resources On ta r i o M i n i s t r y o f t h e Environment On ta r i o M i n i s t r y o f Energy O n t a r i o M i n i s t r y o f H e a l t h On ta r i o M i n i s t r y o f Labour On ta r i o Hydro On ta r i o Research Foundat ion Ohio S ta te U n i v e r s i t y
P r o c t o r and Redfern L i m i t e d P h i l adel p h i a Academy o f Na tu ra l ' . Sciences Pol y s a r Purdue U n i v e r s i t y
Quebec Hydro Queen ' s Un i vers i t y
Regional M u n i c i p a l i t y o f Ottawa C a r l e t o n Research T r i a n g l e I n s t i t u t e Research Consu l tan ts Ros lyn Park Farms
Sc iex I nco rpo ra ted S t a t e U n i v e r s i ty Co l lege o f B u f f a l o S t a t e U n i v e r s i t y o f New York Syracuse U n i v e r s i t y
Texaco Canada Texas A and M U n i v e r s i t y Met ro Tor onto
ABBREVIATIONS ( C o n t i n u e q - '
U.ALB. U n i v e r s i t y o f A lber ta , . f.. . . . . . . . .
:, ..'I .. . . . U. BC . , . U n i v e r s i t y o f . B r i t i - s h C o l u m b i 3 .: . . . . . . .
U.CAt- IF. 8 Uni.versi t y ~ o f ,Gal i f o r n i a . . - . .
U.CINN. Un ivers i t y . : o f C jnc innat i U. DAY. :. .- . U n i v e r s i t y o f Dajton U.DET. ..' ' - . .. .: . . .; U n i v e r s i t y o f D e t r o i t . :
U.GUE. -. Uni.versi t y . . o f Guel p$.. u. I:.-
,. ~ . . " M . . , . . . " . .: .:; ... U n i v e r s i t y o f I l l i n o i s
. . . U n i v e r s i t y o f M.ichigan . .
U.MINN. '"' : - - - - Univers. i ty o f M-innesota . . . . . . . .. ' " U , .NY::<i,,!::.,.., . ? .... :' . .. , .. . . . . . . . . . . . . : . d n i v e r s i t y o f New Yo'rk
U.OTT. ' . ' Uni'versi.ty. o f Ottawa, .. . . . U.QUE. ':. . . . . . . Un iver .s i ty ,of Quebec
USCG Uni ted S t a t e s C.oast Guard I.,, .' .': ' . . : .-
. . United States Department of t he I n t e r i o r ' USEPA Uni ted States. Environmental P r o t e c t i o n Agency US FDA United States Food and Drug Admin is t ra t ion USGS , . United States Geo1,ogical Survey U S S C S ' ' . ' . . United States S o i l Conservation Serv ice :'
. . . U.TEX. - Un ivers i ty o f Texas . .
U. TOR. U n i v e r s i t y o f Toronto UTRCA . . Upper Thames River 'conservat ion A u t h o r i t y U.TRENT U n i v e r s i t y o f Trent U .MAT. Univers i t y o f Waterloo
. . U.WI. - .Un i ve rs i t y - o f Wisconsin U.WIN. U n i v e r s i t y o f :Windsor . .
U. WO. U n i v e r s i t y o f Western Ontar io
W.H.OCEAN.INST. WI.DNR W IEPC W MB WTC
. .
ZENON.ENV. ENT.
Woods ole' Oceanographic I n s t i t u t e Wisconsin Department o f Natur a1 Resources Wisconsin E l e c t r i c Power Company Waste Management Branch Wastewater Techno1 ogy Centre
York U n i v e r s i t y . .
Zenon ~ n v ironmental ~ n t e r p r i s e s . - '
. . :. . , .
Appendix I Correspondence
A. Request for Research In format ion
B. V e r i f i c a t i o n of Coded and C l a s s i f i e d In format ion
' C. V e r i f i c a t i o n o f Research Expenditure
INTERNATIONAL JOINT COMMISSION GREAT [AKES SCIENCE ADVISORY BOARD
100 O u e l l e t t e Avenue, 8 t h f l o o r , Windsor, O n t a r i o N9A 6T3
F i l e 3000-5-11 February 8, 1982
CORRESPOIVDEIVCE -- (A) : REQUEST FOR RESEARCH INFORMATION -.- ,
I '
Dear S i r :
Re: RESEARCH ACTIVITIES RELATING TO THE GREAT LAKES - The Science Adv i so r y Board (SAB) o f t h e I n t e r n a t i o n a l J o i n t Commission ( I JC) i s
a t t emp t i ng t o determine t h e e x t e n t t o which e x i s t i n g research programs i n t he Great Cakes bas in a r e meet ing t h e needs o f t h e Great Lakes Water Qua1 i t y Agreement. I t i s recogn ized t h a t major agency and i n s t i t u t i o n a l r esea rch programs are n o t de- s igned t o s p e c i f i c a l l y meet t h e needs o f t h e Agreement and t h i s rev iew i s n o t meant t o be c r i t i c a l o f o t h e r research a c t i v i t i e s . Rather, t h e purpose i s t o develop s u f f i c i e n t i n f o r m a t i o n t o enable t h e Board t o adv i se t h e Co~iimission of t h e scope o f on-going research a c t i v i t i e s which are . d i r e c t l y r e l e v a n t t o t h e needs i d e n t i f i e d i n t h e Agreement and r e q u i r e con t inued suppor t , and t o i d e n t i f y any research areas
I which do n o t appear t o be adequa te ly addressed.
The SAB has d i r e c t e d i t s members and t h e s t a f f o f t h e IJC Regional O f f i c e t o undertake t h e task o f c o l l e c t i n g i n f o r m a t i o n on research programs d i r e c t l y r e l a t e d t o t h e Great Cakes. The s t a f f o f t h e Regional O f f i c e w i l l c on tac t t h e va r i ous agencies, o rgan i za t i ons , and research 1 abo ra to r i es which a re . i nvo lved i n such a c t i v i t i e s . Your coopera t ion i n p r o v i d i n g t h i s i n f o r m a t i o n t o t h e s t a f f w i l l be apprec ia ted.
The s p e c i f i c i n f o r m a t i o n which we a r e seek ing f o r each research p r o j e c t i nc ludes t he f o l l o w i n g :
1. Funding o r Suppor t ing Agency/Organizat ion 2. Per forming Agency lOrganizat ion 3. P r o j e c t T i t l e 4. P r i n c i p a l I n v e s t i g a t o r and Telephone Number 5. Funding b y F i s c a l Year 6. Dura t ion o f P r o j e c t ( a n t i c i p a t e d comple t ion ) and Man Years I n v o l v e d 7. P r o j e c t Summary i n c l u d i n g :
7.1 P r o j e c t O u t l i n e 7.2 A n t i c i p a t e d B e n e f i t s 7.3 I d e n t i f i e d B e n e f i t s t o Date ( r e s u l t s o r pub 1 i c a t i o n s )
Enclosed f o r your i n f o r m a t i o n a re t h r e e t y p i c a l examples of p r o j e c t d e s c r i p t i o n s p r o v i d i n g t h e t y p e o f i n f o r m a t i o n we seek.
You may i n c l u d e any a d d i t i o n a l i n f o r m a t i o n which you b e l i e v e may be use fu l .
A l l i n f o r m a t i o n cou ld be sen t Sy March 10, 1982 t o Dr. F.K. Fahmy, a t t h e IJC Great Lakes Regional O f f i c e , 100 Ouel l e t t e Avenue, Windsor, On ta r i o N9A 6T3.
Yours v e r y t r u l y ,
MRPlrnatb' Encl cJsures (AS. Noted )
W. 9. Drynan Sec re ta r y
7 Science Adv iso ry Board
. ,
' INTERNATIONAL ,JOINTCOMMISSION :
. .
GREAT LAKES SCIENCE A l j V I S O K Y .BOAKL .
. . 1bC U u k l l t r t t e Avenue:, .8 th t l o o r , k i n a s o r , O n t a r i o hYA bT3
F i l e 3000-5-11 biaj 3, 1982
Dear S i r : . .
knc losea a re cop ies o f a con~puter p y i n t o u t : : o f surrlciaries o f j o u r resehrch p ro jec ts . . . l h e s e a re t h e p r o j e c t s which you had'se.nt t o u s i n r e s p o n s e t o a r e q u e s t
' t roni. t h e Sci ence Aav i ,sory board. . , . ,
. . . . . . . . . .,
, . - I
The n ~ d t ~ c i d l ht i . ich yau clre r e c e i v i n g no\" . i s o n l y a a r a f t . ' k e ' u r g e y o u ' t o ' - . 1 rev iew ttiis,.draft;:carefu!ly,:a11d make sure t h a t t h e i n f o r m a t i o n i n c l u d e d i s accura te at;a acceptab lk . cu l o b . The approach we .use0 t o ' c1 a s s i t j " t h e . p ' r o j e c t s a n a " aescr i46, t h e i r - ob jeet i :ves has tieen -approved by t h e Science p a v i s o r y Boara., he canno t "a1 tg r *.
- . : the ;approach, : b u t . k L - c a r l charlye t h e i n f o r n ~ a t i . o n t o mcre a c c u r a t e l j r e t l e c t . t h e . .
-scope o f work ana. t h e o b j e c t i v e s o f y o u r p ro jec ts : . . . . . . . . .
. . . , . . . . .
The f o l1bh.i t ~ g a e s c r i bes t h e approach bihich. he f ol. l .o\~eci t 6 c l a s 5 i f j , j b u r '' p r o j e c t s and to. d e s c r i b e t h e i r o b j , e c t i v e s :
" . : . . . . .
Reseaich k e o ; h e r e c l a s s i t i ~ a a c c o r a i ng t o t h e ' n a t u r e o f t i l e p r o b l e m ticiny s tuu iea , research s u b j e c t i s ) , and t h e a c t i v i t y u n d e r ' w h i c h t h i s p r o j e c t may f i t . '
\~ i t h i n the. requ iv .e~nen. ts o t t h e Great Lakes, k 'a ter Qua1 i t j Agreenitnt ( l a b l t 1 ) . . .
:
. . . A. kesearch Problems . . .
S i x s p e c i t i c problenrs h e r e i a e n t i f i e o : t o x i c o rgan ics , t o x i c meta ls , phospt~orus, n u t r i e n t s , pattiogens anti thermal y o l l u t i o n ( S e c t i o n A o f Tab le 1 ) . ' kach problem i s coueci b j a c a p i t a l l e t t e r , e.9. A,b,C,U as i ( 1 6 i c a t e a i r ~ t h e Table. I f t h e p r o j e c t a e s c r i p t i o n i n d i c a t e d t h a t t h e problem was t o x i c substances, b u t d i d n o t i n u i c d t e k h e t h e r i t was ,dedl i n g k i t r ~ . t o x i c m e t a l s o r o r c ~ a n i c s , o r , i t t h e p r o j e c t was dea l i n g w i t h o t h e r a e l e t e r i o u s substances, e. y . asbestos f i b e r s o r ck~ lc r i c ies , t h e n i t was c l a s s i f i e d under. "Contan~in,ants - yer lera lU o r k i t h t h e code l e t t e r "E" .
. .. , i
I f t i l e p r o j e c t has d e i l i n y ' w i t h a s p r c i l i c prciolem *h ic i l was n o t among t h e problems nent ioneu, f o r example c u r r e n t measurements, then i t was c l a s s i f i e d as "Other" w i t h a c o w l e t t e r "h". . .
. . . .
~f t h e P ~ O ~ E C ~ a i o n ~ t s p e c i f j t h e e x a c t n a t c r e 'o f t h e problbm, ii hds c l a s i i f i e d u n ~ e r . ~ " t i n s y e c i fie,a,I1 w i t h a CQde l e t t e r '!.I1'. . .
.. . '
I t he p r o j e c t d e a l t b i t h mcre t h a r ~ 'one o f t h e broblems i t i e n t i f i e ~ hbove, t h e n i t bias c.l a s s i t - i e d .under :"Sev€ra.l I!. I n a1 1 cases, .groups o f keywords here use^ t o
. . , i ~ c r ~ t i t j t h e spec i t i c prcblenls t e i n y i n v c s t i gatec. . .
/. . . . .
L . Ftesearct~ SuGj.ect . . , , j . . . . .
TI; i n v t s t ~ y a t e a probl'em, rese i i r ch a c t i v i t 6 s m i i j i n v o l v e scimr or' a l l of. t h e t o 1 low ing s u b j e c t s (see, Secti:on 6 o f T a b l e 1 ) :
V e r i f i c a t i o n o f Coded and C l a s s i f i e d I n f o r m a t i o n Page 2 May 3, 1982
Code -- "ON Source and L o a d ~ : -----
Dete rmina t ion o f t h e s o u r c e ( ~ ) o f t h e problem and t i e q u a n t i t i e s of p o l l u t a n t s r e a c h i n g t h e Great Lakes;
" 1 I' Character i s t i cs : -- I d e n t i f i c a t i o n o f t h e c h a r a c t e r i s t i c s o f t h e problem. I n t h e case of a p o l l u t a n t , i t i s impo r tan t t o know i t s p h y s i c a l , chemical and t o x i c o l o g i c a l p r o p e r t i e s . For example, s c i e n t i s t s found t h a t t h e r e i s a c o r r e l a t i o n between t h e s t r u c t u r e o f some chemicals and t h e i r a c t i v i t y i n t h e environment, i n c l u d i n g t h e i r r a t e s o f bioaccumul a t i o n and pe rs i s t ence i n b i o l o g i c a l systems;
" 2 " Fate and Transpor t : D e t e r m i n a t i o n i f - c h e f a t e o f t h e p o l l u t a n t i n t h e env i ronment i n c l u d i n g r e t e n t i o n o f i tr c h a r a c t e r i s t i c s , t h e i n f l u e n c e o f env i ronmenta l f a c t o r s on these c h a r a c t e r i s t i c s , and i t s d i s t r i b u t i o n among t h e va r i ou? compartments of t h e environment, i . e . water, sediment, a i r and b i o l o g i g a l systems. It i s a l so impo r tan t t o know how t h e substance moves f rom one l o c a t i o n o r compartment t o another;
"3" Environmental Impacts: --------- De te rmina t ion of t h e impacts o f t h e problem on t h e b i o t i c and a b i o t i c components o f t h e environment;
"4" Human Heal t 3 E f f e c t s : E s m a z i o i i ' o f t he p o t e n t i a l impacts o f t h e ' problem on human h e a l t h ;
"5 " ----- Method Development and Model ing : Development o f new techniques and methods t o measure t h e problem, and development o f mathemat ica l models t o p r e d i c t i t s behav i o u r and p o t e n t i a1 impact on t h e environment and human heal t+;
"6" C r i t e r i a : ----- Development o f o b j e c t i v e s , standards, c r i t e r i a , gu ide1 i nes and r e g u l a t i o n s ;
"7" Management: ------- Development o f c o s t - e f f e c t i v e management s t r a t e g i e s t o c o n t r o l and/or a1 1 e v i a t e t he problem.
C . A c t i v i t y under t h e A reement 6-7e ~ ~ ~ f ~ ~ p - t ~ t o r e a te eachp rob lem t o one o r more o f t h e seve ra l a c t i v i t i e s (sources) o u t l i n e d i n t h e Agreement; f o r example: atmospher ic, dredging, i n d u s t r i a l mun i c i pa l , sh ipp ing , non-po in t , o t h e r , unspec i f i ed , seve ra l (see Sec t i on C of Table 1 ).
The i n f o r m a t i o n wh ic? we r e c e i v e d f rom t h e v a r i o u s o r g a n i z a t i o n s v a r i e d w i d e l y i n format and i n t h e degree o f d e t a i l p rov ided f o r each resea rch p r o j e c t . For t h e ?urpose of t h i s rev iew, i t was e s s e n t i a l t o s t anda rd i ze t h e format and t o develop a f l z x i b l e computer program f o r t h e s t o rage and r e t r i e v a l o f t h i s i n f o rma t i on .
V e r i f i c a t i o n o f Coded and C l a s s i f i e d I n f o r m a t i o n . Page 3 May 3, 1982
I n t h e a t t ached computer p r i n t o u t s , each p r o j e c t was i d e n t i f i e d b y an I n t e r n a t i o n a l J o i n t Commission ( I JC) s e r i a l number, f o l lowed b y a l e t t e r i n d i c a t i n g whether i t i s a Un i t ed S ta tes p r o j e c t (A) o r a Canadian p r o j e c t (C), then t h e agency p r o j e c t number as i n d i c a t e d on your p r o j e c t d e s c r i p t i o n , f o l l o w e d b y a t r i p l e cod ing c l a s s i f i c a t i o n system c o n s i s t i n g o f a c a p i t a l l e t t e r i d e n t i f y i n g t l i e problem b e i n g i n v e s t i g a t e d , fo l l owed by up t o t h r e e numbers r e f e r r i n g t o t h e s u b j e c t ( s ) b e i n g addressed and f i n a l l y a y m z 1 l e t t e r i d e n t i f y i r l g t h e a c t i v i t y . under which t he p r o j e c t i s b e i n g conducted. For example, a p r o j e c t which i s d e a l i n g w i t h t h e problem of t o x i c o rgan i cs and i s address ing t h r e e s u b j e c t s i n c l u d i n g f a t e and t r a n s p o r t , human h e a l t h e f f e c t s , and method development, and i s r e l a t e d t d p o l l u t i o n f rom i n d u s t r i a l sources would be ass igned a code o f "A 245 c".
For the convenience o f t h e reader , cod ing l e t t e r s and numbers a re a l s o t r a n s l a t e d i n t o words under each p r o j e c t summary.
I n a d d i t i o n t o t h e cod ing system, we used a s e t o f keywords t o i d e n t i f y t h e s p e c i f i c aspects o f each study. These keywords may i nc l ude : names of s p e c i f i c p o l l u t a n t s under i n v e s t i g a t i o n ; environmental components b e i n g examined, whether water , sediment o r b i o t a ; l o c a t i o n of t h e s t udy i n c l u d i n g t h e name o f t b e l a k e , bay o r r i v e r ; as w e l l as any o the r s p e c i f i c i n f o r m a t i o n which m igh t a s s i s t t he Board i n i t s rev iew.
The i n f o r m a t i o n s t o r e d i n t h e computer a l s o i nc l udes t h e name o f . t h e f u n d i n g o rgan i za t i on , t h e name of t h e o r g a n i z a t i o n per fo rn i ing t h e research and t h e funds a l l o c a t e d f o r t h e p r o j e c t i n each f i s c a l year .
I f you have any comments o r want any changes t o be made t o t h e summaries o f you r p r o j e c t s , p lease use t h e same system o u t l i n e d above. For example, i f t h e p r o j e c t was c l a s s i f i e d as d e a l i n g w i t h "Contaminants genera l " , b u t you know t h a t t h e i n v e s t i g a t o r i s s t u d y i n g t o x i c meta ls , then p lease make t h e change acco rd i ng l y . You may i n c l u d e t he changes on t h e a d d i t i o n a l copy o f t he computer p r i n t o u t dh i c h i s i nc l uded f o r your convenience.
Please send t o us your changes before May 15, 1982.
If you have any ques t ions p lease c a l l Dr. Ron Drynan o r myse l f a t (519) 256-7821 (Cd7.) o r (313) 963-9041 (U.S.).
S i n c e r e l y yours ,
FKf /math F.K. Fahmy, Ph.0. . A c t i n g Sec re ta r y
Enclosures (As not2d)
INTERNATIONAL JOINT COMMI&&ION . \.... GREAT LAKES S C ~ E N C ~ ADVISORY BOARD
106 O u e l l e t ~ c A ~ e n u ~ , 6 t h f l u o r , k i n c s o r , O r ~ t a r i o N5A GT3
F i l e 3000-5-11 Au9ust 12, 1582
C D ~ R E S P O L U E I ~ C E (11 : VERIF ICAI icri UF RESEALIH ~ ~ F E N L I T ~ ~ ~ E
b e a r S i r : . .
I n o u r previc;hs c o r r e s p ~ r ~ d t r ~ c e , l i e i n d i ~ a t e c i t t ~ a t yob \ t i l l Le k e p t in fornreu o t t h e p r o g r e s s b e i n g maae b j t h e Sc ience A d v i s o r y Boara o f t h e I n t e r n a t i o n a l d o i n t C ~ m n ~ i s s i u r i un ' I t s rev iek t o f Great Lakes r e s e ~ r c h . The Boaro has p repareu sumriihries o f r e s e a r c h prc iyraa a e s c r i p t i o n s wh ich were p r o v i d e t i by . t w e n t y - f o u r r e s e a r c h .
,
i r ~ s t i t u t i o n s . These i r b s t i t b t i o n s a r e c a r r y i n g o u t t t i e b u l k o f G r e a t Lakes w a t e r qua1 i t y r e s e a r c h . The Board i s aware t h a t t h e r e a r e a few o t h e r s t a t e agenc ies arid a c a c ~ n i i c i n s t i t u t i b n s h t , i c h a r e n u t i n c l u a e a i t - , t h i s r e v i e w t h a t nlaj u n a e r t a k e SCillik
p r o j e c t s d e a l i n g w i t h t h e Grea t Lakes. However, t h e i n t e r ~ t i o n o f t h i s . y e a r ' s r e v i e h t o c o n c e r i t r a t e or1 t h o s e i n s t i t u t i o n s ' a e a l i n 9 p r i r n a r i l y w i t h G r e a t Lakes . '
w a t e r q u a l i t y problems.
t n c l o s c c i s Apkenc ix V k h i c h i n c l hoes sul i l l i~ar ies o f c u r r e n t r e s k a r c h e f f o r t s . E r ~ c l o s e d as w e l l i s Appendix V I wh ich i r i c l u a e s summaries o f h i s t o r i c a l r e s e d r c h e t t b r t s . The l a t t e r has r e v i e w 6 b j t h e boarc i n truer t o o f t e r m i n e t r e n d s i n r e s e d r c h S U ~ J ~ C ~ S o v e r t h e l a s t e i g h t yea rs . G e t a i l e a d e s c r i p t i o n s o f t h e s e p r o j e c t s h e r e i n c l u o t o i r l tk,e l 9 7 t L i r e c t o r j o f Grea t Lakes Research ana R e l a t e d A c t i v i t i e s .
As was i r i a i c a t e a t o you b e f o r e , r e s e ~ r c h p r o ~ e c t s were c l a s s i f i t a ano coaea a c c o r d i n g t o r e s e a r c h neeus i d e r ~ t i f i e a by t h e Boara (Append ix 111). Tab les 2 arid 3 ( a t ~ a c h e u ) i n c l u o r : s l rmn~kr ies o f t k ~ e nunlbers of p r o j e c t s a e a l i n g w i t h each r e s e a r q i ~ s u b j e c t t o r t h e v a r i o u s r e s e a r c h problems, c u r r e n t ana h i s t o r i c a l , r e s p e c t i v e l y . Fo r exanlkle, t h e r e i s a t o ~ a ' l o f 54 c u r r e n t r e s e a r c h p r o j e c t s d a a r e s s i n g t h e prob lem o f t o x i c o r 9 a n i c s . E leven o f t hese p r o j e c t s a r e a e a l i n g h i t h sou rce and l s a o ~ l ~ g , f o r t y - f i v e a r e d e a l i n g w i t h f a t e ana t r a n s p o r t , f o r t j - f i v e d e a l i n 9 k i t h filethou aevelopment, e t c . I t i s n o t uncommon t o f i n o a p r o j e c t a a a r e s s i n g more t h a n one S U L J ~ C ~ dred. H c c o r ~ i n y l y , t h e t o t a l number o f p r o j e c t s unaer t h e s u b j e c t c a t e g o r y h i l l o f t e n exceed t h e t o t a l number o f p r o j e c t s unaer each prob lem.
T a u l ~ s i ario 3 shobi t h e a i s t r i b u t i o n o f t h e r e s e a r c h e f f o r t amorly t l ~ e v a r i o l i s problenis a r ~ d r e s e a r c h s u b j e c t s . Comparing t h e d a t a o f t h e s e two t a b l e s w i 11 shOu the t r e n a i n research .en iphas is o v e r t h e 1 a s t ~ i s h t yEhrs .
C u r r e n t anu h i s t o r i c a l p r o j e c t buac,et a l l o c a t i o n s a r e r e s p e c t i v e l j documented i r ~ TaL les 6 ano 7.
A l w er lc loseL a r e 1 i s t s o f a b b r e v i a t i c n s usea i n t h e v a r i o u s apbena ices ano t i t l e s of a1 1 p r o j e c t s i n c l u d e d i n t i i e i n v e n t o r y .
P l e ~ s e r e v i e h t h e er ic losea m a t e r i a l c a r e f u l l y arid c o n t a c t us a s s o b n as p p s s i b l ? i f you have any concerns about t h e accu racy o f t h i s i n f o r m a t i o n .
_ i . . . . . . . . . . . . . . % < . . . . . . . . : . . . . . . . . . . . . . . . . . : . . . . . , .. . .
. . : . . . . . . , . : - . . _ : .~ ~. . . . . . . . . . . .
'V,er'i.f icat i on o f Research ' ~ x p e n d i t u r e . - '.'Augu-st 12, 1982 . . . .
Page 2 . . . . . , . . . . .
The Board a l s o i s r eques ' t i ng - you r ass is tance on two issues, research: budgets! and t h e number o f researchers i n your o rgan i za t i on . Table 13 summarizes t h e numbers o f p r o j e c t s . . and t h e resources a1 l o c a t e d f o r these - projects.:- .Some o f t h e p r o j e c t d e s c r i i jy ions provide-d"to t h e Sc'ience Adv iso ry "Board' d i d ' not' i n c l u d e budget f i g u r e s . Table 13 shows bo th t h e t o t a l number o f p r o j e c t s t~nder taken as:-we1 1. :as: t h e nurr~ber o f p r o j e c t s f o r which budgets were repo r t ed .
. . . . .. , . . - , , . . . . . . . . . I , , . . . .: . . . . .
: The , ~ : ~ c k o f 'komplete i n f o r m a t i o n o n research budgets- i s c o n s t i t u t i n g a p rob lem . to , t h e . Board. . I t i s d i f f i c u l t t o , compare resea rch e f f o r t s w i t hou t . some- kno!wledge o f * t h e budgets , i n vo l ved . Accord ing ly , t;he Board . i s s o l i c . i , t . i ng you r ass:is.tance .i:-
. . . . , . P lease p r o v i d e . . us- w-it11,the f o l l o w i n g i n f o r m a t i o n : . . . ' . . . . . . . . . . .. $ . . . . . . . . . . . . . .
: . I . I
. .
. . ( . l ' ) ~ " : ~ o t a ' l ( n o t - d e & i 1 ed p r o j e c t b y p ro jec t ' ) budgets f o r c u r r e n t : -- rea at - ~ a k e s : r e s e a r c h i n c l u d i n g t h e years .:1981, 1982 and. est imates. o f . 1983. I f . - you . .
. . . . . . . A
. . f i nd : - d i f f i c u l t y i n r e p o r t i n g . budgets, a,! l o c a t e d f o r -- Great Lakes research, . p lease r e p o r t your t o t a l research budget and es t ima te r . o u g h l y the. ., ;...r
percentage of t h i s budget used f o r Great Lakes research. . . . . .
. ( 2 ) 1f pos;:ible, h i s t o r i c a l i n f o r m a t i o n o n t o t a l b u d g e t s between 1974-1977. T h e Board ' recogn izes t h a t i t m a y b e d i f f i c u l t , i f . n o t even i m p o s s i b l e . t o
. . : bb ta i n some o f t h e h i s t o r . i c a 1 i n f o rma t i on . - T h i s , however, - shou ld , n o t , . . . .
d iscourage you from p r o v i d i n g - u s w i t h any a v a i l a b l e . i n f o rma t i on o r .rough est imates. . . .
. . . . . ( 3 ) ,Total . research s t a f f . a t yqu r l a b o r a t o r y o r -agency. . .
. . . . . . . ., . . . . , . .
. . . , . , ::
. one more problem r e q u i r e s your ass is tance. ;Some research i n s t i tu t i onsL :have . ., . . . . . r e p o r t e d ' t o t a l budgets i n c l u d i n g s a l a r i e s and personnel r e 1 a ted cos ts , such as b e n e f i t s . Others o n l y r e p o r t e d o p e r a t i n g budgets. . To be cons i s t en t , t h e Board u rges -you t o d i s t i n g u i s h . between t h e two. It w i l l be u s e f u l if; you can r e p o r t b o t h t o t a l and o p e r a t i n g budgets. . .
. . , .
p lease i n c o r p o r a t e your f i n d i n g s . i n t o t h e t a b l e o f Res,ou.rce A1 1 ocat: ion b y . ,
Agency, which .'has been . i n c l uded , f o r your . . conveni ence. . .
Your e a r l y response on t h e above issues w i l l be g r e a t l y apprec ia ted . You may a l so t2 lephone your comments and your r e p o r t e d budgets t o us a t (519) 256-7821 . Canadian l i n e , o r (313) 963-9041 Un i ted S ta tes l i n e .
, , S i n c e r e l y yours, I
FKF/matb . . . . . . .
. . . . . . . . F..K. Fahmy,. Ph..D.. . . . . . .
. . . Ac.t.in.9 S e c r e t a r . ~ . .;. . . . . . . . . , , . .
Enclosures (As no t zd )
Appendix I1 Research Agencies and Organizations
Providing Research Information
RESEARCH AGENCIES AND ORGANIZATIONS PROVIDING RESEARCH INFORMAT ION
WN ITED STATES ----.---
B r i g . General S c o t t Smith Dr. Fred Meyer, D i r e c t o r D i v i s i o n Engineer Na t i ona l F i she ry Research Labo ra to r y U.S. Army Corps of Engineers U.S. F i sh and W i l d l i f e Se rv i ce Nor th Cen t ra l D i v i s i o n P.O. 818 536 S. C la rk S t r e e t 2630 Fanta Reed Road Chicago, I l l i n o i s 60605 Lacrosse, M I 54601
D r . Char les E. Herdendorf M r . A l f r e d M. Beeton Sea Grant D i r e c t o r D i r e c t o r Center f o r Lake E r i e Area Research Mich igan Sea Gran t Program Ohio S t a t e U n i v e r s i t y Mich igan S t a t e U n i v e r s i t y 484 W. 12 th Avenue I n s t i t u t e o f Water Research Columbus, Ohio 43210 2200 Bon i s tee1 Boulevard
East Lansing, Mich igan 48824 Dr. Donald F. Squi res D i r e c t o r Dr. Rober t A. Ragotzk ie , D i r e c t o r Sea Grant I n s t i t u t e Sea Grant I n s t i t u t e Program S t a t e U n i v e r s i t y o f New York U n i v e r s i t y o f Wisconsin-Madison
and Cornel 1 U n i v e r s i t y 1800 U n i v e r s i t y Avenue 411 S ta te S t r e e t Madison, Wisconsin 53706 Albany, New York 12246
Dr. N. Jaworsk i , D i r e c t o r M r . R ichard M. Wood Environmental Research Lab. - p u l u t h Research Speci a1 i s t U.S. Environmental P r o t e c t i o n Agency Niagara Mohawk Power Co rpo ra t i on 6201 Congdon Boulevard 300 E r i e Boulevard West Du lu th , Minnesota 55804 Syracuse, N.Y. 13202
Dr. Eugene Aubert, D i r e c t o r Dr. S. I. Shibko NOAA/ERI, Ch ie f , Contaminants 81 Natu ra l Toxi can t s Grea t Lakes Env i ronmenta l Res . 1-aboratory Eva1 u a t i o n Branch 2300 Wash tenaw Avenue D i v i s i o n o f Tox ico logy, HFF-159 Ann Arbor, Mich igan 48138 Food and Drug A d m i n i s t r a t i o n Department o f Human Heal t h Serv ices M r . C l i f f o r d R i s l ey , J r . 200 C. S t r ee t , S.W. Ch ie f Xash i ng ton , D.C. 20204 S u r v e i l l ance and Research S t a f f
Great Lakes N a t i o n a l Program Of f i ce D r . D.C. McNaught U .S. Environmental P r o t e c t i o n Agency D i r z c t o r 536 S. C la rk S t r e e t Minnesota Sea Grant Program Chicago, I l l i n o i s 60605 P ro fesso r o f Ecology 435 Animal Sc ienceIVet . Medic ine Mr. C ra i g Kennedy 1988 F i t c h Avenue Joyce Foundat ion U n i v e r s i t y o f Minnesota 135 South I-aSal l e S t r e e t St . Paul, Minnesota 55108 Chicago, I l l i n o i s 60603
D r . Joseph Kutl<uhn, D i r e c t o r M r . Randy L. Eshenroder Great L a4 es F i shery Labor a t o r y Sen io r S c i e n t i s t f o r F i s h e r y Resources 1451 Green Road Great '-ates F i s h e r y Commi s s i o n Ann Arbor, Mich igan 48105 1451 Green Road
15 Ann Arbor, M ich igan 48105
CANADA -- . . .
:Dr. J.B. Murphy . . M r . E.T. Wagner, Di - rector , : . . . . . . , . . . .
Ontar io Region. . ;.? :. .:: . . . . .. Medical Consult ant , .. :: . . . . . . .
I n l and Watsrs D i rec to ra te ... Extramural ~esearch , Programs Direct 'orate- ' . .
Department o f Environmen-t . . - . . - , Heal th Services and'2romotior-i Branch . . . . .
P.O. Box 5050 Heal t h and We1 f a r e Canada' . - . . . Bur l ington, Ontar io ',7R 4A6 Ottawa, Ontar io ' K I A .0L2 ' . '
. . D r . G.K. Rodgers . . M r . John I,. ~owl.and . . . .
. . .
D i rec to r . . Speci a1 Adv,i . . sor . , . ,. ,
. . . Nat ional Water Resea.rch I n s t i t u t e - : - -Resources" . .
I n 1 and Waters Di . rectorate .., . A g r i c u l t u r e Canada . . . . . . . Env ironment Canada. - : . - 'Ottawa, Ontar io K I A OC5 ',, .
. , . . Canada Cen t re r fo r I n land Waters . . . .
. . < ,., '.,
P.O. Box 5050 D r . Bruce E. Jank, Act.ing D i r e c t o r Bur1ington;Ontar io L7R 4A6 . . . Wastewater Technology Center
. - Environmental P ro tec t i on S e r v i c e . .' . . .
D r . Richard .Thomas, D i rec to r . . -Departmentof.Environment . " . . .
Great Lakes F i she r ies - Research Branch. . , Canada Center f o r I n l a n d waters . . . . . - . . . . .
. , . . > . . . Department o f F isher ies and. Oceans . : - ' P. 0. Box 5050 . . . Canada Centre f o r I n l a n d Waters Bur l ing ton , Ontar io . k7R'4A6 "
P.O. BOX 5050 . . - : . .
Burlin'gton.., Ontar io L7R 4A6 . - .- . - D r . E. Somers . . . . . . . . . , - . . . . . . . . . . . D i r e c t o r General
? .
. . . . M r . ~ . ~ . . ' - ~ a w r i e . . . . . . .. .. . . . ~.
. - . . . . ' ; Environmental. Health. D i r e c t o r a t e
. . . . . . . . Supervisor . . . , . - Heal t b &'Welfare'Canada. Research Sect ion Environmental Heal th. Centre ' . ' ' " .1
. . F isher ies Branch . . . Tunney's Pasture . .
Ontar io M i n i s t r y o f 'Natural ' ~ i s o u r i e s , . Ottawa, Ontar io KIA (1.2 P i O . BOX SO .: . .
. . . .
Maple, Ontar io LOJ:IEO . : , - . . D;'. <w.R.' '~ffer, ~ariecjer- . , . . . , Environmental Studies a+, Assessments
Mr . Paul D. Foley Ontar io Hydro ' . .
Coordi na to r 700 U n i v e r s i t y venue : ' . / I
Development & Research ~ r o u ~ . - . Toronto, Ontar io ' M S G 1x6 . . .
Pol 1ut ion 'Contro l . Branch. On t a r i o -Min i s t , r y .of the ~ n v ironment . . . , . .
135 :.St . ' , C l a i r Avenue West . - .,
Toronto, Ontar io M4V..lP5. . . .
. . . . - . , . . . . . . . . . . . . : . .
i , I ' . . .
Appendix 111 Research Needs
A. R E Q U I R E D B Y T H E 1978 GREAT CAKES WATER Q U A C I T Y AGREEMENT
B. RECOMMENDATIONS OF THE S C I E N C E A D V I S O R Y BOARD
C. RECObPlENDATIONS OF T H E WATER Q U A L I T Y BOARD
R E S E A R C H NEEDS
A. REQUIRED BY THE 1978 GREAT C A K E S WATER QUAI- ITY AGREEMENT
A R T I C L E I ' --t-r ---
"Researck" means development, demonstration and other research ac t iv i t ies but does not include monitoring and surveillance of water or a i r quality.
ARTICLE V
2. The Parties shall use their best e f for t s to ensure that :
(a) The principal research funding agencies in both countries orient the research programs of their organizations in response to research prior i t ies identified by the SAB gnd recommended by the Commission; and
( 5 ) Mechanisms be developed for appropriate cost-effective international cooperation.
I ARTICLE VI -. - .- - - . -
I . .
1 . The Parties shall continue t o develop and implement programs and other measures t o f u l f i l the purpose of th is Agreement and to meet the General and Specific Objectives including:
( e ) research and educational programs be strengthened to fac i l i t a t e . integration of cultural , biological and chemical pest control tzchniques;
( g ) development of c r i t e r i a for the identification of pol luted sediments; (j) identification of harmful quantit ies of hazardous pol luting
substances; ( 1 ) programs t.1 identify airborne pol 1 utant sources and re1 a t i ve source
con t r ib~ t ions , including the more accurate definition of wet and dry deposition rates .
A N N E X 3 A-.- - 2. ( e ) Maintenance of a viable research program t o seek maxinium efficiency
and effectiveness i n the control of phosphorus introductions into the Great Lakes.
ANNEX 7 --..-. -.-
4 . The Parties shall Encourage research to investigate advances i n dredging technology and pathways, f a t e and effects of nutrients and con taminants of dredged materials.
. . . . ANNEX 12 , ; . . . .
, . , . . . > . . . . . . .
4 . Mon i t o r i ng . M o n i t o r i n g and research programs i n suppor t o f t h e Great Lakes I n t e r n a t i o n a l S u r v e i l l ance P lan should be e s t a b l i s h e d a t a l e v e l s u f f i c i e n t t o i d e n t i f y :
Temporal and spat i -d l . t rends ' i 'n c o n c e n t r a t i o n . of p e r s i s t e n t t o x i c , . .
substances such as PCB, mi rex, DDT, mercury and d i e l d r i n , and o f o t he r s.ubstances known t o be p resen t .in b i o t a and sediments o f the,. . .::-..-.I . . . . . . . Great. 1-akes System;
.: The ; inpach:of p e r s i s t e n t t 0 x . i : ~ substances on . t h e h e a l t h o f humans and . . . . . . ' . t he . qua l . i t y , and h e a l t h o f l i v i n g aqu.at ic.systems;. . ./
: Theso ,u rces of i n p u t o f p e r s i s t e n t t o x i c substances; and The presence o f p r e v i o u s l y u n i d e n t i f i e d p e r s i s t e n t t o x i c substances .. . . . : ; :-.-., . . --. ...
E a r l y Warn.i,n:g: Sys:tem. . An ear l ' y warning.. system c o n s i s t i fig o f , b u t go t . . :
r e s t r i c t e d . to,, t h e f o l l o w i n g . elements s h a l l be e s t a b l i s h e d t o ' k r i t i c ipa te " fuku i re : toxi-6 substances problems: . . . , . . . . . . . . . .
: . . . . . . . . . . . . . . . ;.. , . . . . ,. ... . . . . . . . . .
8 - . . ' I . . :
D6velopmenl and use o f s t r u c t u r e - a c t i v i t y c o r r e 1 i t i : o n s t o p r ' e d i c t envi fonmen:tal c h a r a c t e r i s t i c s o f chemicals; Compi:l a t i . on and rev i ew o f t r ends i n t h e p roduc t i on , impor t , and use : of chemi c a1.s ; . .
.Review 0.f t h e r e s u l t s o f env i ronmenta l t e s t i n g on new chemicals; Toxic.o~l:ogi,ca.l research on chemicals, and rev i ew o f research conducted - . - i n o t h e r coun t r i es ; Maimtenance . o f a b i o l o g i c a l - t i s s u e .bank and sediment bank t o - p e r m i t . '
.
r e t r o a c t i v e : a n a l y s i s . t o e s t a b l i s h . t r ends over ti.me; , - . . , . ~
Moni t o r i n g . ' t o c h a r a c t e r i z e t h e presence and s i g n i f i c a n c e o f chemical r es i dues i n t h e environment; Developmen t: 'and% use: of. mathematical , .models t o p r e d i c t consequences o f va r i ous l o a d i n g r a t e s o f d i f f e r e n t chemicals; and Development of a d a t a bank f o r s t o rage o f i n f o r m a t i o n on phys i ca l / chem ica l p r o p e r t i e s , t o x i c o l o g y , use and q u a n t i ' t i e S i n commerce-of known and suspected p e r s i s t e n t t o x i c substances.
7. --- Research. Research should be i n t e n s i f i e d t o determine t h e pathways, f a t e and e f f e c t s of t o x i c substances aimed a t t h e p r o t e c t i o n o f human hea l t h , f i s h e r y resources and w i l d l i f e o f t h ? Great Lakes Bas in Ecosystem. I n p a r t i c u l a r , research should be conducted t o determine:
( a ) The s i g n i f i c a n c e o f e f f e c t s o f p e r s i s t e n t t o x i c substances on humarl ' : - h e a l t h and aqua t i c l i f e ; . .
( b ) ' 1nterac.t. i v e e f f e c t s o f r es i dues of t o x i c substance's. on aqua t i c l i f e , w i l d l i f e , and human h e a l t h ; and
( c ) Approaches t o c a l c u l a t i o n o f acceptab le l o a d i 11g r a t e s f o r p e r s i s t e n t t o x i c substances, e s p e c i a l l y those which, i n p a r t , a re n a t u r a l l y , .
o ccu r r i ng . . . . . .
: > ! '
. . . . . . . . . . . . . . , , . - . . . . . . . . I j ' . , .
. . . . . . . . . . . . . . .
0 . RECOMMENDATIONS OF THE SCIENCE ADVISORY B04RD
1981 Annual Zeport
- sources and pathways o f hazardous substances i n t ~ t he Great Lakes and t h e i r environmental and human h e a l t h e f f e c t s (p. 7)
- methodology f o r determin ing r e l a t i v e b i o a v a i l a b i l i t y of var ious forms of phosphorus (p. 21)
- t h e r e l a t i o n s h i p between phosphorus and b i d l o g i c a l p r o d ~ c t i v i t y and t h e movement of phosphorus through 1 arge lake 'ecosystems ( p. 21 )
- long range t r a n s p o r t o f atmospheric p o l l u t a n t s and t h q i r i n t e r q c t i o n s i n t h e water, sediment and b i o t a o f l a r g e lakes (p. 33)
1980 Annual Report
- compartmenta l izat ion o f hazardous substances i n l a r g e l ake ecosystems ( P * 18)
- degradat ion pathways f o r hazardous substance? p. 19)
- ex ten t t o which p o l l u t a n t s may be t r a n ~ m i t t e d t o lakes v!? --groundwater, fo r .example from i n d u s t r i a l waste d isposa l s i t e s (p. 34)
- development o f methods t o determine ne t b e n e f i t o f p o l l u t i o n c o n t r o l measures (p. 55)
1979 Annual Report -
- p o t e n t i a l e f f e c t s o f man-made chemicals i n t h e environment (p, v i )
- support f o r research program on a c i d p r e c i p i t a t i o q and i t s ef fects , as recommended by U.S. Counci l on Environmental Qua1 i t y (1978) (p. 20 and 21)
1978 Annual Report - c o s t - e f f e c t i v e programs f o r reduc ing phosphorus loadings, e s p e c i a l l y r u n o f f f rom urban and a g r i c u l t u r a l lands (p. 32)
- development and v e r i f i c a t i o n o f improved e u t r o p h i c a t i o n models (p. 32)
1977 Annual Report
7 s tud ies t o determine t h e exchange o f p e r s i s t e n t t o x i c m a t e r i a l s among the a i r , water, sediment and b i o t a (p. 4)
- development of b e t t e r a n a l y t i c a l methods . f o r i d e n t i f y i n and q u a n t i f y i n g t o x i c o rgan ic chemicals i n t h e environment 9. p. 4 )
- b i o l o g i c a l a v a i l a b i l i t y o f phosphorus (p. 15)
1976 Annual Repor t ---- ----
- Repor t on "Great Lakes Water Qua1 i t y Research Needs 1976" i d e n t i f i e d - . 117 e c o l o g i c a l issues, 47 t e c h n o l o g i c a l i ssues and 71 s o c i a l -
e c o n o m i c - p o l i t i c a l i ssues f 3 r which research was needed (?. 3)
1975 Annual d e p o r t . , - - . . . . . . . . . . . . . . . . . . . , . . . - , , . .' .: . ? ' . . . . . . . < 1 . ) . - I . . . . . ;
- s o c i e t a l impact o f t h e C l a d o p i o r a prob lem ( n . 6 )
- I long- term, l a r g e - s c a l e ' d r i f t and d i s p e r s a l p a t t e r n 5 i n t h e Great "
Lakes (p: i ) , .
C. RECOMMENDATIONS OF THE WATER QUALITY BOARD
1981 Annual Repor t
- The absence o f any p r i o r i t y o r r a n t i n g o f substances found i n t h e Great Lakes ecosystem which have t h e g r e a t e s t p o t e n t i a1 t o ' a d v e r s e l y a f f e c t human and env i ronmenta l hea l t ? . (p. 5 )
- Prepare a s i n g l e p r i o r i t y l i s t o f t o x i c substances i n t h e Grea t Lakes Bas in f o r wh ich i n v e n t o r y d a t a must be developed, r a n t these substances a c c o r d i n g t o t h e i r p o t e n t i a l env i ronmenta l and human h e a l t h e f f e c t s , and p e r i o d i c a l l y update t h e l i s t and t h e r a n t i n q .
- Cont inue e f f o r t s t o deve lop and use s t r u c t u r e a c t i ' v i t y c o r r e l i i t i o n s and o t h e r new s c r e e n i n g t e s t s f o r t o x i c substances o c c u r r i n g i n t h e
, . . . . G rea t Lakes Bas in . (p. 6 ) . . , . . .
- F i e l d m o n i t o r i n g and r e s e a r c h a c t i v i t i e s be i o o r d i n a t e d , i~ o r d e r t o a c q u i r e t h e i n f o r m a t i o n needed f o r p r i o r i t y s e t t i n g and hazard assessment. (p. 7)
- Ecosystem s t y d i e s o f t h e t r a n s p o r t , f a t e , and e f f e c t s o f ambient l e v e l s o f t o x i c substances i n t h e Great Lakes be encouraged. (p. 7)
- Conduct j o i n t f i e l d and r e s e a r c h programs i n t o t h e a tmospher ic d e p o s i t i o n o f t o x i c substances, i n o r d e r t o conduct s c i e n t i f i c assessments and r e f i n e c o n t r o l s t r a t e g i e s . ( p . 7)
- Dev3lop a common d e f i n i t i o n o f hazardous waste, and deve lop c o m p a t i b l e programs t o ensure t h e s a f e t r a n s p o r t and d i s p o s a l of hazardous wastes among t h e j u r i s d i c t i o n s . (p. 8)
. . . . : .1 . . - . . . . . . . 1980 Annual Repor t . . : . -.-----------.--.-----
- Causes o f ' t h e s h i f t i n t r o p h i c c o n d i t i o n s i n Lake M i c k i g a n a r e n o t f t ~ l l y . u n d e r s tood, a1 though t h e y m i g h t be r e l a t e d t o t h e s e v e r i t y o f t h e w i n t e r of 1975-77. 'The e x t e n t t o wh ich t ' i e phosphorus c o n t r o l programs c o n t r i b u t e d t o t h i s improvemeot and t + e permanence o f t h i s improvement a r e t ? e s u b j e c t s o f add i t i o n a l r e s e a r c h and m o n i t o r i n g . (0. 13)
- S tud ies a t power p l a n t s have n o t addressed lakewide impacts and u s u a l l y suggest t h a t impirlgement and en t ra inment a r e i n s i g n i f i c a n t c~rnpared to commercial catches and t h a t ' popu la t i ons w i 11 compensate f o r i n t a k e losses . To date, most o f t ? e s t u d i e s have Seen concerned w i t h t h e l o c a l e f f e c t s o f i n d i v i d u a l p l a n t s r a t h e r than system-wide e f f e c t s . ( 9 . 19, 20)
- T h e r e l a t i o n s h i p between reduc t i ons i n phosphorus loads from mun ic ipa l sources and t h e ecosystem o f t h e r e c e i v i n g water i s c3mpIex and cannot be r e a d i l y eva lua t sd b y f i e l d measurements. There i s i n s u f f i c i e n t i n f o r m a t i o n r e 1 a t i n g f i s h and p l ank ton popu lp t i ons t o changing phosphorus loads. It i s p robab le t h a t env i ronmenta l changes have a f f e c t e d f i s h s tocks, a l tbough o the r s t r esses a re p resen t i n t h e system. ( p . 24)
- Because of gaps i n knowledge o f t h e e u t r o p h i c a t i o n process, mathematical models used t o es t imate l a k e responses t o changes i n phosp+orus loads a r e regarded o n l y as p l ann ing t o o l s , and a r e used t o q u a n t i f y and i n t e r p r e t t h e models which are based on c o n s i d e r a t i a n of t o t a l phosphorus i nc l ude : t h e seasonal success ion of a l g a l spec ies, whic! i i s p r e s e n t l y 1 i m i t e d t o two spec ies; and f i n a l l y t h e q u e s t i o n of t h e b i o a v a i l a b i l i t y . ( p . 24)
1978 Annual Report ---.------ .----
- S c i e n t i s t s have d i f f e r e n t op in i ons on t h e reasons f o r t h e low d i s s o l v e d oxygen i n t h e Lake E r i e c e n t r a l bas in . Some a t t r i b u t e t h i s phenomenon t o t he r e c e n t i n f l u e n c e o f man i n t l i e f o r m o f inc reased phosphorus discharges. Another group views t he problem as an ongoing s i t u a t i o n t h a t has n o t changed a p p r e c i a b l y ~ v e r t h e p a s t 20 o r 30 years. ( p . 13) * .
- Leve ls o f PCBs have a l s o d e c l i n e d i n h e r r i n g g u l l eggs (Tab le 2.2), as have l e v e l s o f DDE, DDT, d i e l d r i ~ , and HCBs. Assoc ia ted w i t h these dec l i nes has Seen a d i s t i n c t i n c rease i n r e p r o d u c t i v e success f rom 0.15 i n 1974 t o 1.01 i n 1978. A l though t h e e f f ec t s of contaminants on r e p r o d u c t i v e success i s n o t f u l l y understood, t h e p r w e n t f i n d i n g s a re encouraging. (p. 13)
- l e v e l s of d i o x i n i n Saginaw Bay ranged f rom 10 t o 1,000 pg/g ( p a r t s per t r i l l i o n ) , and i n Cake Onta r io , ranged f r om 4.6 t o 5 . 5 pg/g. F u r t h e r assessments o f these concen t ra t i ons and t h e i r env i ronmenta l imp1 i c a t i o n s a re r equ i r ed . ( p . 17)
1 -.--.- 1977 Annual Repor t
I - The W a t ~ r Qua1 i ty Board recommends t + a t Governments develop r a t i o n a l I schemes t o o rde r p r i o r i t i e s f o r e v a l u a t i n g t h e r i s k o f t o x i c
chemica ls t 9 human h e a l t h and environment. ( p . 1 )
- The Water Qua1 i ty Board recommends t $ a t Governme~ts p l a c e inc reased emphasis on research and development o f techniques f o r d isposa l o f mun ic ipa l sludg?, i n c l u d i n g p re t rea tment o f wastes e n t e r i n g mun i c i pa l systems and a1 t e r n a t i v e technology f g r d isposa l o r reuse o f waste t rea tment by-products . (p. 1 )
. . - The Water Q u a l i t y Board recommends t h a t i n t h e env i ronmenta l
assessment o f s i g n i f i c a n t water in takes , t 9e Goverriments. r e q u i r e an ; "eva l .ua t ion - od ; the; e f f ec t on- l a k e w i d e l f i s h pop.ul.ations. ; ( 9 . . 1')
, . . . .
- . , . . A r g c k n t pi-oposal b y D e t r o i t ~ i i s o n : for a once-through s i t e o n t h e ,
.St. C l a i r R i v e r suggests t h e need f o r i n t e r n a t i o n a l cooperat ior j i n t h e assessment of t he impact o f such- f a c i l i t ies. , p a r t i c u l a r l y i n v iew of t h e p r o x i m i t y of t h i s f a c i l i t y t o o t h e r s on t h e U n i t ~ d S ta t2s and Canadian shores, and concern t h a t e x i s t i n g f a c i l i t i e s may a l r eady be a f f e c t i n g wa l leye popu la t i ons . , (p. 74) .
. . . . .
1976 Annual Report -- -- ---- --
- Standard procedures need t o be developed t o assess t h e a d d i t i v e and s y n e r g i s t i c e f f e c t s i n rece iv , ing waters o f t o x i c m a t e r i a l s f rom complex i n d u s t r i a l e f f l u e n t s . (p. 18)
- S u r v e i l l a n c e programs t o i d e n t i f y t h e presence o f t o x i c m a t e r i a l s i n t h e env i ronment and research programs t o determine t h e i r e f f e c t on human h e a l t h were a l s o recomvended. (p. 26)
1975 Annu31 Report - - - - ---------
- Continued suppo r t be g iven t o t h e development o f " l a t e e f f e c t models" to p rov i de guidance f o r e u t r o p h i c a t i o n and o t h e r p o l l u t i o n c o n t r o l programs. Fu r t he r , i t i s recommended t h a t inc reased e f f o r t s 'be made t o r e f i n e t h e es t imates o f phosphorus load ings f r o 7 t h e atmosphere and l a n d dra inage, and determine t h e f r a c t i o n a v a i l a b l e f o r b i o l o g i c a l growth. ( p . 13)
- The Board f u r t h e r suggests h a t e f f o r t s be con t inued toward t h e f u r t h e r s c i e n t i f i c development and v e r i f i c a t i o n o f " l a k e e f f e c t " mathematical node ls and urges t he use o f such models b y governments t o gu ide the development and assessment o f remedia l programs. (P* 70, 71)
- The economic and t e c h n i c a l f e a s i b i l i ty o f r e q u i r i n g f u r t h e r r e d u c t i o n s i n p$osphorus con teq t a f po i n t - sou rce d ischarges be i n v e s t i g a t e d . ( p . 71)
1974 'dnnua-1. Report . . . .:. . , .., . --..-.-------A
, .. ( . . '
- I n v i ~ w of t '?e con t inued se.oious ppoblems w i t i i d i s s o l v e d oxygen depl ?ti on i n Cake E r i e , Governments a c t i v e l y suppor t con t inued i n v e s t i g a t i o n s and research i n t o t h e problem as a bas i s f o r assess ing t $e e f f e c t i v e n e s s o f remedia l programs and m o d i f y i n g t$em as -equ i red . (p. 10)
- That e f f o r t s cont inue t o be made to i d e n t i f y the e x t e n t of , and develop programs f o r , t he c o n t r o l o f . p o l l u t i o n from combined sewer over f lows. (p. 11)
1973 Annual Report -
- The need f o r data on t h e l e v e l s and e f f e c t s o f a v a r i e t y o f p e r s i s t e n t contaminants i n the Great Lakes environment has become i n c r e a s i n g l y ev iden t i n recen t years. Most S ta te and P r o v i n c i a l environmental agencies have responded t o t h i s need b y i n s t i t ~ t i n g s u r v e i l 1 ance programs to moni tor l e v e l s o f mercury, c h l o r i n a t e d hydrocarbons and t h e i r res idues, and more recen t l y , PCBs i n the wat?r, sediment and b i o t a o f t he Great Lakes. ( p . 35)
- Add i t i ona l research i s necessary t o determine the environmental s i g n i f i c a n c e o f observed l e v e l s o f PCBs i n t he b i o t a and t o eva lua te human h e a l t h imp1 i c a t i o n s . (p. 38)
- Considerable research, p a r t i c u l a r l y i n t h e f i e l d o f p u l p and paper, i s Seing conducted across Canada and elsewhere, and the M i n i s t r y i s mon i to r i ng t h i s work. Technology f o r t h e c o n t r o l o f t o x i c i t y i n paper m i l l e f f l u e n t s i s s t i l l l ack ing . (p. 73)
- P o l l u t i o n v i a over f lows from combined storm and s a n i t a r y sewers cont inues t o be a major p rob len i n t he Great Cakes. (p. 83)
- Because of v e r y h igh cos t o f c o n t r o l 1 i n g combined sewer discharges b y e x i s t i n g methods such as sewer separat ion, l i t t l e emphasis has been p laced on t h i s problem i n t h e past . However, a c t i v e research programs are underway which w i l l more adequately de f i ne t h e scope o f t he problem, and lead t o t h e developinent o f t h e most economical methods of c o n t r o l and/or e l im ina t i on . (p. 83)
Appendix IV Classification and Coding System
of Research Projects
CLASS I F ICATION AND C O D I N G SYSTEM OF RESEARCH PROJECTS
The f o l l ow ing descr ibes t h e approach used' t o c l a s s i f y Great !-akes research p r o j e c t s and to descr ibe t h e i r o b j e c t i v e s :
Research needs were c l a s s i f i e d . accord inq t o t h e n a t u r e o f t he problem b e i n g s tud ied , research s u b j e c t ( s ), and t h e - a c t i v i --- ty under which each p r o j e c t may f i t w i t ' l i n t h e r e q f i i o T t he Great Lakes Water Q u a l i t y Agreement (Tab le 1 ) .
A. Research Problems --.--- S i x s p e c i f i c problems were i d e n t i f i e d : t o x i c o r an i cs , t o x i c meta ls ,
p+osphorus, n u t r i e n t s , pathogens, and thermal d ischarges 9 Sec t i on A of Table ' 1 ). E w h of these problems i s coded b y a c a p i t a l l e t t e r , e.g. A,B,C,D, as i n d i c a t e d i n t h e t a b l e . I f t h e p r o j e c t d e s c r i p t i o n i n d i c a t e d t h a t tine problem Has t o x i c substances, b u t d i d n o t i n d i c a t e whether i t was d e a l i n g w i t h t o x i c meta ls o r o rgan ics , o r i f t h e p r o j e c t was d e a l i n g w i t h o t h e r d e l e t e r i o u s substances, e.g. a s b e s t ~ s f i b e r s o r c h l o r i d e s , t+en i t was c l a s s i f i e d as "Contaminants - genera l " wi t11 t h e code l e t t e r "EN.
If t h e p r o j e c t was d e a l i n g w i t h a s p e c i f i c problem which was n o t among t h e problems mentioned, f o r example c u r r e n t measurements, then i t was c l a s s i f i e d as "Other" w i t h a code l e t t e r "H".
If the p r o j e c t d e s c r i p t i o n d i d n o t s p e c i f y t h e 2xac t n a t u r e of t h e problem, i t was c l a s s i f i e d under "Unspec i f i ed" w i t h a code l e t t e r "I".
If t h 2 p r o j e c t d e a l t w i t h more than one o f t h e problems i d e n t i f i e d above, then i t was c l a s s i f i e d as "Several ". I n a1 1 cases, groups o f keywords were used to i d e n t i f y t h e s p e c i f i c problems b e i n g i n v e s t i g a t e d .
b Research -----.- Subject To i n v e s t i g a t e a problem, research a c t i v i t i e s may i n v o l v e some o r a l l of t h e f o l l o w i n g s u b j e c t s (see Sec t i on B o f Table 1 ) :
Code l i - 7 1 - 0 Source and Load ing .----------
De te rmina t ion of t h e s o u r c e ( ~ ) o f t h e ~ r o b l e m and t h e q u a n t i t i e s of t h e p o l l i ~ t a n t s r e a c h i n g t h e ' ~ r e a t ~ a k e s ;
Character i s t i c s I T e T f ~ Q i c a T T o T o f t + e c h a r a c t e r i s t i c s o f t h e problem. I n t h e case of a p o l l u t a n t , i t i s impo r tan t t o know i t s p h y s i c a l , chemical and t o x i c o l o g i c a l p r o p e r t i e s . For example, s c i e n t i s t s found t h a t t 7 e r e i s a c o r r e l a t i o n between t b e s t r u c t u r e 9 f some chemica ls and t h e i r d c t i v i t y i n t h e environment, i n c l u d i n g t h e i r r a t e s of bioaccurnu! a t i o n and p e r s i s t e n c e i n b i o l o g i c a l systems;
. . . . ' . . . . .'.
, . . - , - .
. . . . . . . 2" Fate and Transpor t
B e t e r m i n a t i o n o f t h e f a t e o f the p o l l u t a n t i n t h e env i ronment i n c l u d i n g r e t e n t i o n o f i t s c h a r a c t e r i s t i c s , t9e i n f l u e n c e o f env i ronmenta l f a c t o r s on these c h a r a c t e r i s t i c s and i t s d i s t r i b u t i o n among the va r i ous c~mpar tments o f t h e environment, i e . water,
. . sediment, a i r and .S io j og i ca1 . systems. It i s . a l s o impo r tan t t o $now. how the substance moves f rom one. l o c a t i o n o r . compartment t o another; ., . .
113" Env jronmen t a l ..Impacts ,. , . , . . . . - . ,. - -- .- . -. -- , . .
: . : De te rm ina t i on o f t h e impacts o f the: p r o b l e m o n 1 i v i n g and non- l , i v in$ . . , ! . . .- . .. cornponen t s o f . t h e env i'ronment; . . . . . . . . .. . , . . , : :
" 4" Human Heal t b E f f ec t s ~ i i i i ~ ~ ~ n ~ t e n t i a l impacts o f t he problem on human hea l t'l;
- . . . . . I . . . . . ' . "5 " - ~ e t h o d , ~ e v e l o ~ m e n t a n d ~ o d e l ---- i n g ' . _ ,... . .
, D e v e l o p ~ ~ 6 t . o f o f n e w t e c h n i q u e ~ and methods t o mea~sure" the probjem,.and i . . - . - . . -development o f matnemat,ical mode.1~ t o p r e d i c t i t s behav iour an,d . , . . . . .. .,
p o t e n t i a l impact on the . env.ironmen t and human : hea l t l i ; . . . . . .. . . . . : . ,
, . . . . . . . . . C r i t e r i a : . : . . . .
Development o f o b j e c t i v e s , standards, c r i t e r i a , guide1 ines and . . . . . . .
r e g u l a t i o n s ; . .
IMan ---?=--a a pmen t . . .I
neve opnent o f c o s t - e f f e c t i v e management i t r a t e i i e s t o c o n t r o l and/or..'. : a l l e v i a t e t he problem.
. .
A c t i v i t y Under t h e Agreement ------- -- An at tempt was made t o r e l a t e each problem t o one o r more o f t h e
severa l a c t i v i t i ek -8 (sources) ou t1 i ned i n t he ' Agreement, f o r example atmospheric, dredging, mun i c i pa l , sh ipp ing , non-po in t , o ther , unspec i f i ed , severa l (see Sec t i on C o f Table 1 ).
I n t h e a t t ached computer p r i n t o u t s , each p r o j e c t was i d e n t i f i e d b y an I n t e r n a t i o n a l J o i n t Commision ( I JC) s e r i a l number, f o l l o w e d by a l e t t e r i n d i c a t i n g whether i t i s a Un i t ed S ta tes p r o j e c t ( A ) . o r a Canadian p r o j e c t ( C ) , then t h e agency p r o j e c t number as i n d i c a t e d on each p r o j s c t d e s c r i p t i o n , f o r o n l y c u r r e n t research and b y page number as i t corresponds t o t h e 1975 Research D i r e c t o r y f o r h i s t o r i c a l research, fo l l owed b y a t r i p l e cod ing c l a s s i f i c a t i o n system c o n s i s t i n g o f a c a p i t a l l e t t e r i d e n t i f y i n g t h e problem be ing i nves t i ga ted , f o l l o w e d b y t o t h r e e numbers r e f e r r i n g t o t h e sub jec t ( s ) b e i n g addressed and f i n a n y a smal l l e t t e r i d e n t i f y i n g t i e a c t i v i t y under which the p r o j e c t i s be ing conducted. For example, a p r o j e c t which i s deal i n g w i t'i t h e prob 1 em o f t o x i c o rgan ic5 and i s address ing three s u b j e c t s i n c l u d i n g f a t e and t r a n s p o r t , human h e a l t h e f f e c t s , and method development, and i s r e l a t e d t o p o l l u t i o n from i n d u s t r i a l sources would be assigned a code , ~ f "A 245 c " . +
For t ' i e 'convenience o f t'le reader , cod ing l e t t e r s and numbers a r e a l s o tr ansl a t ed i n t o words under each p r o j e c t smmary.
I n add i t i o r l t o the coding system, a s e t o f teywords was used t o i d e n t i f y t he s p e c i f i c aspects o f each study. These keywords may inc lude: names of s p e c i f i c p o l l u t a n t s under i nves t i ga t i on ; environmental components be ing examined, whether water, sediment o r b io ta ; l o c a t i o n o f t he s tudy i n c l u d i n g the name o f t h e 1 ake, bay o r r i v e r ; as w e l l as any o ther s p e c i f i c in fo rmst ion which migh t a s s i s t t f ie Board i n i t s review.
The i n fo rms t i on s t o r e d i n t h e computer a l s o inc ludes t h e name o f t he funding organ iza t ion , t h e name o f t he o rgan i za t i on per fo rming t h e research and the funds a l l o c a t e d f o r the p r o j e c t i n each f i s c a l year.
TAFLE 1
CLASSIFICATION AND CODING OF RESEARCH NEEDS
R ES EARCH PROBLEM ------- CODE - Toxic organics A Toxic msta ls B Phosphorus C N u t r i e n t s D Contaminants - general E Pathogens F Thermal discharges G Other H Unspeci f ied I Several J
ACT1 V ITY (SOURCE) --.---- CODE - Atmos pher i c Dredging I n d u s t r i a l Mun i c i pal Shipping Non-point Other Unspeci f ied Several
B. ' RESEARCH SUBJECT . . ' CODE - - . .
Source and l oad ing . 0 Character i s t i cs 1 Fate and t r a n s p o r t 2 Environemtal impacts . 3 Human h e a l t h e f f e c t s . 4 Method development . ,
and model ing , . 5 : 6 C r i t e r i a
Management . . 7 Other 8. Unspec i f ied : 9 . .
Appendix V Current Research Activities
in the Great Lakes
TODAY'S GATE I S OCTOBER 1 9 , 1 9 8 2
RPPEtJDIX '4: CURFEHT RESEGFCH L C T I V I T I E S I N THE CREBT L b K E S
= t Z S I = = = t S D = I D = 1 5 : = S 8 = ' - f L = = = = f L = = : : t C = = t = = = = S i = = = = = = = = Z S = = = = = = = = ~ = = = ~ = = = = = = = = = = = = = = = = = = = z = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = =
I . J . C . LGENCY PROJECT FUNDING PERFORR! NE Rl lDVNr S E R I B L PROJECT CODE ORGGNIZRTION ORGRNIZf iT I O N FUNDED KEYYPEDS
NO. NO. = = = = = = = = = = t = = = = = = = = = = t = = S f t - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - = - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - = - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - -
E 1 3 6 h ERL-D ERL-D F Y B 1 1 0 2 , 6 8 0 T O X I C I T Y TESTING, P R I O R I T Y C H E R I C f i L S , F I S H ,
(E=CONTf iN IN f iNTS, CEN. l = C H A R A C T E R I S T I C S 3=EHVIRONRENTRL I R P A C T S 6 = C R I T E R I P h = U N S P E C I F I E D SOURCES)
0 0 2 P 0 3 0 2 B 1 5 6 h ERL-D ERL-D F Y 8 l 4 3 , 6 0 0 T O X I C I T Y T E S T I N G P ..:, ,
( B = T O X I C R E T A L S I ~ C H A R L C T E R I S T I C S 5=tlETHOD DEV. b. R O D E L I H C 6 = . C R I T E R I P h = U N S P E C I F I E D SOURCES) . .
i
0 0 3 A 0 3 0 3 E 7 i ERL-D ERL-D F Y 8 1 1 1 , 8 0 0 I J C , T O X I C SUBSTPNCES, hDVISORY, k?, - - F Y 8 2 1 4 , 4 0 0
( E = C O N T A N I N L N T S t CEN. 7=NLNPCERENT i r S E V E R A L SOURCES)
0 0 4 A 0 3 0 5 B 3 5 h ERL-D ERL-D FYBi 2 0 , 0 6 0 T O X I C I T Y , CADWIUH, F I S H * . . FY82 3 4 , 4 6 0 S T . L O U I S R I V E R ,
I
( B = T O X I C METALS 3 = E W V I R O ~ # E N T f t L ] # P A C T S 5=#ETHOD D E V . b H O D E L I N C h = U N S P E C I F I E D SOURCES)
0 9 5 A 0 3 0 9 B 1 3 5 h ERL-D ERL-D F Y 8 1 7 9 , 1 0 0 T O X I C I T Y TESTING, F I S H , CADRIUR, F Y 8 2 1 5 4 , 9 0 0 HARDNESS, L L K I L I N I TY t SUSPENDED S O L I D S ,
( B = T O X I C H E T b L S l = C H A R A C T E R I S T I C S 3=ENVIRONRENTRL I R P A C T S 5=f lETHOD D E V . b R O D E L I N C h = U N S P E C I F l E D SOURCES)
0 0 6 A 0 3 1 0 E 1 2 3 h . . ,ERL- ,D E R L - D F l J 0 l 2 1 , 0 6 0 T O X I C I T Y , P R I O R I T Y C H E M I C A L S * 8 I O T A a F Y 8 2 3 0 , 4 0 0 MATER C H E W I S T R Y ,
( E ~ C O H T A H I W A N T S , C E N . 1 - C H A R A C T E R I S T I C S 2 - F A T E AND T R b N S P O R T 3 = E N V ? . f i O N # E N T A L I M P A C T S h - U N S P E C I F I E D S O U R C E S ) . .
0 0 7 A 0 3 1 9 E l 5 h E R L - D E R L - D F Y S 2 ' 2 4 , 0 3 0 T O X I C l T Y T E S T I N G , S T R E A M S ,
( E = C O W T A # I W A N T S , G E N . l = C H A i ? t i C T E R I S T I C S S = H E T H O D D E V . t H O O E L I N G h = U N S P E C I F I E O S O U R C E S )
B 2 3 a E R L - D E R L - D F Y S l 4 , 1 0 0 A C I D R R I N , H E A V Y R E T A L S , F Y 82 2 5 , 1 0 0 I H T E R A C T I V E E F F E C T S , L R K E S ,
< @ = T O X I C N E T A L S 2 = F R T E AND TRQNSPORT 3 = E N V I R O N H E N T i i L I M P R C T S Q = A T H O S P H E R I C S O U R C E )
w 8 0 9 A 0 4 0 6 A 1 2 5 h,. . E R L - D ul . .
E R L - D F Y 8 1 6 , 0 0 0 S T R U C T U R E - A C T I V I T Y , T O X I C I T Y , F Y 8 2 . . 1 1 , 2 0 0 B I O A C C U B U L f i T I OH. P E R S I S T E N C E . F I S H ,
MODELS,
( G = T O X I C O R G A I I I C S l = C H A R C i C T E R I S T I C S 2 = F b T E AND TRRt4SPORT S = H E T H O D D E V . b M O D E L I N G h = U N S P E C I F I E D S O U f i , C E S >
3 1 0 R 0 4 0 2 A 5 h E R L - D : E R L - D
! A = T S X I C O R G A N I C S 3=19ETHOD D E Y . B M O D E L I N G h = U N S P E C I F I E D S O U R C E S )
F Y B i 1 1 0 r 4 9 9 A H R L Y S I S , D I O X I N S * FURRNS.. F I S H - F Y 8 2 1 0 6 . j 3 0 0 .
A 1 5 h E E L - D E R L - D ~ r e i i e 6 , a o o S T R U C T U R E - A C T I V I T Y , T O X I C I T Y , F Y B ? 1 8 1 ; 4 6 0 5! O A C C U H U L A T I SW, P E E S ! S T E N C E , S E H Z E N E S ,
H D D E L S ,
( A = T O X I C O R G A N I C S 1 " C H A R A C T E R I S T I C S S=WETHOD D E V . 8 H O D E L I H G h = U N S F E C I F ! E @ B O ' U R C E S ~
. , . . . .. . . . .. . . . . . . . . 8 1 2 FI ' 0 4 0 5 ' FI' 1 5 ' h '" E ~ ~ - D .. . E . R L - D . . : . , ' - F Y 8 1 - - 1 7 , 5 0 0 . S T f i T I S T I C A L I S O D E L L I N G ,
F Y 8 2 1 6 , 6 0 0 S T R U C T U R E - A C T I V I T Y ,
F Y G i 4 6 , 8 9 0 T O X I C I T Y T E S T I N G . . C H E A I C G L I $ I X T V P E S , F Y 8 2 5 0 , 3 9 0 F I S H , R O D E L S ,
( E = C O N T A N I N f i t ! T S , C E N . J = E N V I R O N R E N T A L I M P A C T S 5 = M E T H O D D E V . & N @ D E L I N C h = U N S P E C I F I E G S O U R C E S )
0 1 4 A 0 4 0 9 A 3 5 h ' E R L - D HOHT . S U . '
. . F Y B I 1 6 0 , 0 0 0 T D X I C I T Y T E S T I N G : F I S H : F Y 8 2 f 5,ooa
( F I = T O X I C O R C G N I C S r j = E t i V I R O N l i E H T F I L . I H P A C T S B = H E T H D D , D E V . & H O G E L I N G h = U H S P E C I F I E G SOURC'ES )
w " 1 5 d 0 4 1 0 .. C I : Z h E R L - D U . l d l . F Y 81 1 5 , 8 9 0 S U R V E I L L A N C E , P E S T I C I D E S , P C P ' S , F I S H , O l F Y 8 2 6 % 6 0 9
! i ! = T O S I C O E G Q N ! t S 2 = F A T E RNG T R R N S P O R T h = O N S P E C I F ! E D S O U R C E S i
a 1 2 5 h E R L - D . .
F Y 8 1 1 8 4 , 9 8 0 T O X I C I T Y T E S T I N G . S T R U C T U R E - A C T I V I T Y , F Y 8 2 1 7 6 , 6 6 0 B I O D E C R 6 D A T I O N ,
( $ = T O X I C O R G A N I C S : = C H 6 E A C T E E I S T I C S 2 = F A T E A N D T R C N S P O R T 5 = f l E T H O D D E Y . b M O D E L I N G h = U N S P E C I : ! E D S O U R C E S )
f i 3 h , E R L - D E R L - D 1 1 : 7 0 0 T O X I C I T Y , S T R U C T U R E - A C T I V I T Y , F I S H , 5 1 , 5 0 0 P H Y S I O L O G Y ,
. ' ! A = T O X I C O R G A N I C S J = E N V I R O N N E N T A L I N P R C T S h = U N S P E t I F I E D S O U R C E S )
6 1 8 A 0 4 2 7 A 7 h E R L - D H O N T . S U . F Y e l 2 9 4 , 4 4 6 T O X I C I T Y , S T R U C T U R E - A C T I V I T Y , F Y 8 2 2 9 6 , 2 6 0 P R O G R A H D E Y E L O P H E N T ,
( C I - T O X I C O R G A N I C S 7 = M A N A C E W E N T h = U N S P E C I F I E D S O U R C E S )
9 1 9 CI 0 4 3 9 CI 1 5 h E R L - D E . NCIZ. C O L . F Y 8 2 4 9 , 0 0 0 T O X I C I T Y , S T R U C T U R E - B C T I Y I T Y , WODELS,
( C I = T O X I C O R C R N I C S l = C H b R R C T E R I S T Z C S S = R E T H O D D E V . b R D D E L I N C h = U N S P E C I F l E D S O U R C E S )
6 2 0 A 0 4 3 1 A 2 3 d E R L - D E R L - D F Y 8 2 3 5 , 6 6 0 B I O A V A I L A B I L I T Y D I O X I N S , F U R I N S . F I S H .
( & = T O X I C O R G A N I C S P = F A T E AND T R A N S P O R T 3 = E H V I R O N H E N T A L l M F L C T S d = M U H I C I P R L S O U R C E )
W 0 2 1 CI 0 2 0 9 E 2 3 h E R L - D E R L - D F Y 8 1 2 3 , 5 0 0 CISBESTOS F I B E R S , A t t U f l U L A T I O N : F I S H ,
F Y 82 3 3 , 6 0 0
( E = C O H T C I R I N C I N T S , C E N . 2=FCITE R N D TRCINSPDRT 3 = E N V I R O H R E N T Q L I W P C I C T S h = U N S P E C l F I E D S O U R C E S )
0 2 2 A 6 2 1 3 E 0 2 c E R L - D E R L - D F Y 8 1 4, 6 6 6 S U R V E I L L A N C E 4 A S B E S T O S F I B E R S , F Y 8 2 9,600 D : S T R I G U T l O N , L R K E S U P E R I O R ,
( E = C O N T C I R I H A N T S , C E N . O=SOURCE R N D L O R D I N G 2 = F A T E A N D T P Q N S P O R T r = I H D l - i S T R I P L S O U R C E :
E 15 h E R L - D E R L - D F Y 8 2 5 4 , 3 0 4 S T R U C T U R E - A C T I V I T Y , F I B R I L S , C A R C I N O G E M E C I T Y , S T A T I S T I C A L W O D E L L I M G ,
( E = C O H T A H I H A N T S , GEM. i = C f 4 A R I C ? E R ! S T ! C S 5 = # E T H D D b E V 9 # O D E L I N G h - U W S P E C T F I E D S O U R C E S !
9 2 4 A 9 2 1 6 . . . .
, , € 5 f E R L - D . . E R L - D FY 8 2 n P H Y S I O L O G Y , FISH.. TOXICITY, . . ., C R E H I C A L P I X T U R E S : L E R C H R T E S : RDDELS,
( E = C O N T A U l N A N T S , G E N S=METHOD DEV % U D D E L I N C f = N O N - P O I N T S O U R C E )
A 2 3 5 :g E R L - D E R L - D F Y 8 l . 1 2 0 , 9 0 0 P E S T I C I D E S , T O X I C 1 TY P I O T P , S T R E A R S , F Y 8 2 4 6 - 3 9 9 RODELS,
( A - T O X I C O R S R N I C S 2 - F A T E AND TRGNSPORT 3 = E N V I R O H M E N T Q L I U P B C T S 5=METHOD D E V . t U O D E L I N G g = O T H E R S O U R C E S )
2 3 g . E R L - D E R L - D , . F Y 8 1 2 1 , 1 0 0 D I R Z I N D N , T O X I C I T Y , 8 I O T P : P H Y S I O L O G Y ,
F Y 8 2 ' 1 5 , 3 9 0 S T R E A R S ,
. c : A = T O X I C O R G A N I C S 2 = F A T E AND TRANSPORT S r = E N V I R O N M E N T L L I N P R C T S p = O T H E R S D U R C E S )
L 2 3 g E R L - D E R L - D F Y P l 3 , 5 0 0 P E S T I C I D E S : S U S P E N D E D S O L I D S , B I O A C C . U U U L A T I O N , F I S H . , T O X I C I T Y ,
. .
( A - T O X I C O R G G N I C S ? = F A T E PND TRRNSPORT J = E N V I R O N U E N T B L I M P R C T S g = O T N E R S O U R C E S )
0 2 6 d 6 1 0 8 E 5 g E R L - D E R L - D
( E - C O H T A H I H A N T S , C E N . 5-WETHOD D E Y . b H O D E L I H C g - O T H E R S O U R C E S )
F Y 82 34 ,560 T O X I C I T Y , T O X I C I T Y TESTING. MODELS. F Y 8 3 Z50,bOO F Y 8 4 2 b 0 . 0 0 ~ .
0 2 9 A 0 5 9 9 - . E . 3 5 a E R L - D U.., U I tin F Y 8 1 3 9 , 9 0 0 Q T R O S P H E R I C P E P O S I T I O N , T O X I C I T Y t F Y 8 2 7 4 , 8 0 0 f l Q U A T I C E N V I R O H R E N T S , R O D E L S ,
-!E=CON.TAMINAI;TS.. G E N . 3 = E N V I R O N # E N T L L IMPFLCTS S=HETNOD, D E V . B NODELING b = ' L T f l O S P H E R I C SO'URCE) . .
0 3 0 A 0606 E 7 h E R L - D E E L - D r ' L L R S F'4'8i
I E = C O H T A # I H A N T S , G E H . 7=MBNBCEMEHT h = U H S P E C I F I E D S O U R C E S )
0 , 606 PROCRbM D E V E L O P M E N T , U A T E R Q U A L I T Y , PLAN,
0 3 1 B O 6 G l E 7 h E R L - D E R L - D / L L R 8 F'iB1 4 4 , fififi P R O F R A Y P E V E L O P M E H T : F q T E G N D TFGHSPDF!T, F Y B Z 1 7 9 ~ 5 0 C E t 4 V i R D H l i E t i i R L i E P t ? C T . M O D E L S .
V 3 3 h $663 C 05 h - E R L - D E R L - D / L L F ; S F Y B l 682 4 0 0 S T A T 1 S T I C A L MODELL L H G : L A K E H O E C I ~ ~ , F Y B Z 103, 760 Si4G!NBM B A Y ,
! C = F H G S P H U R U S O=SOURCE AND LOBD:HC S = # E T H O D D E V . h P l O D E L I N C h = U N S P E C I F I E D S O U R C E S )
E 57 h E R L - D E R L - D / L L R S
i E = t O N T Q M I H B N T S , G E N . 5 = f l E T H O D D E V . R M D D E L I N G 7 - f l f i N A G E M E H T h = U N S P E C I F I E D S O U R t E 5 i
H 2 5 b E R L - D U . C B L I F . F Y 8 1 8 5 . 5 0 0 S U S P E N D E D MBTER I B L S , F IODELS, . F Y 8 2 . 9 0 , S G O
r t ! = O T H E R : = F h T E d H C TRRt;SPORT 5 = f l E T H O D D E V . H o D E L I H G C = D R E D G I N C > ,
5 3 6 L 0 6 ? 6 .J 9 2 5 h ERL-D E R L - D C L L R S F Y 8 l 4 2 , 7 0 0 T O X I C H E T L L S - T O X I C O R G A N I C S , HPDELS: , . , . . . . . . ...
. . F Y 8 2 4 3 , 0 0 0
! J=SEVEP.PL C:=SOVRCE 6ND L O d D I N G Z = F L T E L # D TR6NSP(IRT 5= f lETHOD P E V . b F O P E L I N T ; h=URSPECIF !ETr SOURCES,
. .
0 5 : A *LO: . . E 2 4 h E R L - D U I . P U 6 . H . F Y 8 1 2 6 8 ; 6 0 0 DBTA C O L L E C T I O N . BREAST M I L K .
F Y 6 l 1 0 , 8 0 0
(E=CON:A#INf iNTS, CEN 2 = F R T E CIND TRANSPORT 4=HUPIAN HECILTH E F F E C T S h = U N S P E C I F I E D SOURCES)
0 3 8 FI 0 6 0 8 D 9 3 h ERL-D U . H I N N F Y 8 l 5 5 , 8 6 0 ZOOPLANKTON, L A K E HURON, S R G I N A Y P L Y ? FY B 2 0
f D = N U T R I E t J T S O=SOLlRCE LND L D A D I F C 3=ENVIRONHENTAL I N P L C T S h = V N S P E C I F I E D SOURCES?
-I= 0 0 3 9 L 0 6 0 9 D 9 3 5 h E R L - D U fl F Y P l 8 , 8 0 0 PHYTOPLBNKTDN, MLSTEULTER TRELTMENT,
F Y 8 2 7 9 - 4 0 0 L L K E HURON: 8 A G i N L U P R Y , r jDDELS,
( D = N U T R I E N T F O=S@URCE LND L O L D I N C 3 = E N V I R O N H E N T L L I H P L C T S 5= f lETHOD D E Y . b H D D E L I N G h = U N S P E C I F I E D SOURCES)
C 1 2 h E R L - D C L A R K . FOL . F Y 8 I 8 0 , 3 0 0 P I O ~ S S L Y . PIOLVAILABILITY, F Y 8 2 5 0 , 3 9 0 SUSPENDED SOL IDS , L L K E E R I E ; R I V E R S ,
(C=PHOSPHORUS l = C H G R A C T E R I S T I C S 2 = F L T E AND TRANSPORT h = U N S P E C I F I E D SOVRCES?
0 4 1 L 0 6 1 1 . ;
9 9 a E R L - D . . .
DEPGUL U . F Y R I 7 1 , 3 9 9 P F P ' S : P R E F I P I T B T I O N , L A K E t 4 I F H I G A N ~ . . .
! G = T O K I C ORGRNICS O=SOURCE LNG L O L D I N G a = B T l l 0 6 P H E R I C SOURCE)
. . . .
J 2 5 h E R L - D M A N . C D L . F Y 8 i 8 , 6 0 6 R B D I O A C T I V I T Y J P C B ' s , E U T R D P H I C A T I O N , F Y 8 2 2 5 7 , 3 0 0 MODELS,. . : - .
( J m S E V E R A L PIFATE AHD T R A N S P O R T 5 = M E T H O D D E V . k M O D E L I N G h = U N S P E C I F ! E D S O U R C E S )
0 4 3 A 0 6 1 3 J 0 2 5 h E R L - D C R . I N S T . S C . F Y 8 1 2 9 0 , 0 0 0 T O X I C O R G A N I C S , N U T R I E N T S , F Y 8 2 2 1 1 5 0 0 D L T A C O L L E C T I O N ? E C O S Y F T E H , 19ODELSd
( J = S E V E R f i L OPSOURCE f iND L O R D I N G Z = F R T E R N D T R R N S P O R T 5 = n E T H O D D E Y . b H O D E L I N C h - U N S P E C I F I E D S O U R C E S )
0 4 4 A 0 6 1 4 E 7 h E R L - D ( 7 0 H P . SC . F Y 8 1 2 2 0 , 0 0 0 PROGRAR D E Y E L O P H E N T , COHPUTER, F Y B Z 2 9 6 , 7 9 P Y R T E R Q U A L I T Y ,
( E = C O N T R R I N A N T S , C E N . 7 = R A N A C E H E N T h = U N S P E C I F I E D S O U R C E S )
E E L - D / L L R S F Y 8 2 1 6 5 8 9 0 6 R I V E R S , F L I H T R I V E R , D A T A COLLEC:ION, MODELS,
( E = C O H T A M I N A # T S , G E N . 0=SOURCE AND L O A D I N G :=RETHOD D E Y . t M O D E L I N G h = U N S P E C I F I E D S O U R C E S )
6 4 6 A 6 6 2 2 A 2 h E R L - D T E X A S d t M F Y 8 2 1 6 , 0 0 6 P C B ' s , A N A L Y S I S ,
( A = T O X I C O R G A N I C S 2 = F A T E AND TRAHSPORT h = U N S P E C I F l E D S O U R C E S !
E 0 2 5 h E R L - D E R L - D F Y 8 2 2 , 5 0 0 L A K E H I C H I G A N J L A K E E R I E , T O X I C S U B S T A M C E S , P E R S I S T E N C E , E U : R O P H I C H T I O H J # O D E L S ,
( E=COHTA#INANTS, G E N . O=SOURCE A H D ' L O A D I N C PIFATE AND T R A N S P O R T 5 = M E T H O D D E V . 6 H O D E L I NC h = U N S P E C I F l ED S O U R C E S )
A 3 ' h. 'ERL'D . : U . R I NN.. F Y 8 2 . , 5 9 9 0 0 0 TOXAPHEHE, - PLANKTON, PHYGIOL@GY, LGRE SUPERIOR,
. . .
( 61 -TOXIC ORGRNICS 3 = E N Y I R O N f l E N T R L I H F A C T F h - U R S P E C I F I E D SOURCES)
0 4 9 A 0 6 2 6 E 7 h ERL-D f l T U F Y 8 2 7 0 , 8 0 0 P O L L U T I O N , OXYGENZ L A K E H I C H I G A H , CREEH B A Y , SOURCE AHD LORDING:
( E = C O N T A H I H A N T S , GEN. 7 = H A N A C E q E N f h = U H S P E C I F I E D SOURCES? . .
E 7 h E R L - D . . . . . .
L L R S F Y 8 2 2 2 . 8 0 0 C H L O R I D E S , S A L T S * ECOLOGY 8
PHYTOPLANKTON. SOURCE AND L O A D I N G . PLAN,
. . ( E = C O M T A H I H A N T S , GEN. 7=HANAGEPIENT h = U H S P E C I F I E D S0URCE.S)
C M 0 5 1 A 0 6 2 8 C 7 h ERL-D , L L R S
(C=PH@SPHORUS 7 -HANACEREHT h = V N S P E C I F I E D SOURCES?
. .
0 5 2 G 0 6 2 9 A 2 4 5 h E R L - D R E S . T R I A I N S T F Y 8 2 5 0 , 8 0 0 P C B ' S , A N A L Y S I S ,
r P = T O X I C O S G f l N I C S 2 - F A T E AFD TRfiNSPORT 4=HUf lAN H E A L T H E F F E C T S 5= f lETHOD DEY b R O D E L I N G h = U N S P E C I F I E D SOURCES)
E ,7 : i ERL-D, L L R S F Y 8 2 1 0 , 8 0 0 T O X I C SUBSTANCES, T O X I C I T Y , : P R O C R I f l DEYELOPHENT, HEARSHORE,
F A T E AND TRANSPORT, EWVIROHHENTBL I H P A C T , L A K E S U P E R I O R . S T . ' L O U i S HirRPOR..
i E = t O t ! T A R I N A N T S : C E N . T=WANGGEHENT i s S E Y E R A L SOURCES )
6 5 4 R 0 6 3 1 E 3 5 6 h E R L - D E R L - D F Y 0 2 7 1 , 5 6 0 H A Z A R D A S S E S S M E N T ,
i E = C O N T A # I H A t J T S , C E N . 3 5 E H V I R O N W E N T A L I H P A C T S 5 = # E T H O D D E Y . & t 4 D D E L I H G 6 - C R I T E R I A h = U N S P E C I F I E D S O U R C E S )
0 5 5 b 0 6 3 2 E Z h E R L - D ARGOHHE H A T . L A P F Y 8 2 5 0 > 0 0 0 B I O A C C U P I U L A T I O N . T O X i C S V R S T A H C E S ,
( E = C O H T Q H I N R N T S t G E N . Z = F Q T E PHD T R Q N S P O R T h = U H S P E C I F I E D S O U R C E S )
! A = T O X I t O R G f i H I C S 2 = F A T E AND TRANSPORT h = U N S P E C I F I E D S O U R C E S ,
F Y 8 1 1 0 0 ~ Q O Q P E P ' S : WATER, S E D I f l E N T S , R I V E R S : F I S H , FY 8 2 l O Q t 0 0 0 L A K E H I C H I G R R 1
F Y 0 1 9 9 , 4 8 5 T O X A P H E N E , A T M O S P H E R I C D E P O S I T I O N . F Y ~ 1 4 0 , 0 O O L A K E M I C H I G A N 2 P R E C 1 P : T A T I O N .
i A = T O X I C O R G A N I C S 0:SOURCE AND L O A D I N G 2 = F A T E AND TRAMSPORT a = A T F ? O S P H E R I C S O U R C E )
0 5 8 A 0 6 3 5 A 2 h E R L - D C R . I N S T . S C .
( A = T O X I C O R G A N I C S 2 = F A T E AND TRANSPORT h = U N S P E C I F I E D S O U R C E S )
F Y 2 2 1 9 5 ; a E 3 S E D I W E H T S . B I O T A , M h T E R F D U i . BENTHOS, L A K E ER:E, DETRU!T R I V E R , A N a i Y S I S , B I O A C C U W U L A T 1 OH,
4 5 9 A 0 6 3 6 H 25 h E R L - D D S U F Y B 2 2 0 , 0 0 0 S E D I t 4 E H T S d HEARSHORE, L A K E E R I E , t40DELS2
( H = O T H E R 2 = F A T E AND TRRNSPORT SnPlETHOD D E Y . 6 W O D E L I H G h = U N S P E C I F I E D S O U R C E S )
063 B 8 H 3 h G L F C U . Y I .
( H = O ~ H E R Z = E N V I R C N H E N T B L I H P R C T S h = U N S P E C I F I E D S O U R C E S )
0 6 1 R 9 E 7 h G L F C P R I V R T E C O N S U L . F Y 8 2
( E = C O N T A f l I N A N T S . . GEM. 7=RANRGEHENT h = U N S P E C I F I E D S O U R C E S )
F Y 8 l 9 , 0 0 0 T E R P E R Q T U R E ~ L I G H T , OXYGEN.. F I S H , F Y 8 2 3 , 0 0 0 R O P I L I T Y , G E N E T I C S ,
7 , 2 0 0 R E H i t B I L I T R T I O N , E C O S Y S T E H : F I S H : C O S T - B E N E F I T ,
E 73 h C L F C C L F C F Y 8 1 4 8 , 5 0 0 E C O S Y S T E H , R E H f i B I L I T i t T I O N : E t O N P R I C S , F Y 8 2 1 6 , 9 0 0 ECOLOGY, C O S T - B E N E F I T : F I S H -
i E = C O H T A l l I N G N T S I G E N . 7 = f l A N R G E U E N T 3 = E N V I R O N R E N T B L I f l P R C T S h = U N S P E C I F I E D S O U R C E S )
C c 963 B 1 3 0 0 - 8 3 4 1 0 - 9 7 4 - 1 0 .J 3 i F Y S G L F L
i J = S E Q E R R L 7 = E N V I R O N H E N T R L I R P R t T S i = S E V E R G L S O U R C E S )
0 6 4 1 1 3 0 0 - 8 3 4 1 0 - 9 7 4 - 2 0 D 0 3 i F U S
F Y 8 1 2 1 8 , 0 0 0 F I S H , H A P I T B T , NERRSHORE, P R f i D U C T I Q I T Y , F Y 8 2 2 1 0 , 4 0 0 D R E D G I N G *
F Y 8 1 1 6 2 , 6 0 0 A T H O S P H E R I C S O U R C E , N D N - P O I N T SOURCE, F Y 8 2 1 8 9 . 9 0 0 R I V E R S , S U S P E N D E D S O L I D S ,
U b T E R Y U A L I T Y , G I O T A , BENTHOS, P L b N K T G N P R O D U C T I V I T Y 4 A Y I I L A B I L I T Y ,
( D = N U T R I E N T S O=SOURCE AND L D f i D I N C 3 = E N V I R C N # E N T A L I K P f i C T S ; = S E V E R A L SGURCE:)
G L F L F Y 8 2 2 0 , 0 0 0 SHORE, E R O S I O N , R I T I G A T I O N < E N V I R O N H E N T R L I f l P A t T , R O U A T I C E N Y I R O N H E N T S , N E A I S H O R E , L f i K E HUROH,
i J = S E Q E R R L 3 = E N V I R O N R E H T B L I A P A C T S 7 = R B N B G E H E N T b = D R E D G I N G )
. -
0 6 6 A 1 9 3 3 - 7 7 2 - 3 8 J 3 7 i ACE . . . - .
FY 0 2 5 4 , 3 0 0 WON-POI HT SOURCE, DREDGING, . . EHVIROH#EWTAL I t l P A C T , MATER Q U A L I T Y ,
B I O T A , BEHTWUS, F I S H , L A K E E R I E ,
0 6 7 L 1 3 0 6 - 8 3 4 1 0 - 9 7 4 - 6 0 H 3 7 g FMS C L F L F Y 8 1 1 7 2 , 0 6 0 ENVIRONMEHTAL I M P A C T , F I S H , PHYSIOLOGY, F Y 8 Z 1 8 6 , 1 0 6
(H=OTHER 3-ENVIRONMENTAL IMPACTS 7-MANAGEMENT g-OTHER SOURCES )
0 6 8 A 1 1 1 0 - 8 3 4 1 0 - 7 5 6 - 5 0 E 2 3 5 i FMS C L F L F Y 8 1 3 3 2 , 0 0 0 DYNARICS D l S T R I B U T I ON, TRENDS, F Y 8 2 3 0 4 , 7 0 0 T O X I C I T Y 8 A N h L Y S I S , F I S H .
MASTE HnNACEMENT,
. (E=CONTAWIH&NTS, GEM. 2=FATE AND TRANSPORT 3=ENVIRONMENTQL I M P f i C T S 51METHOD D E V . & M O b E L l N C ;=SEVERAL SOURCES)
i= Ln 0 6 9 R 1 1 1 0 - 8 3 4 1 0 - 7 5 0 - 7 0 E 1 3 5 i FWS G L F L F Y 8 i 9 3 , 0 0 0 T O X I C SUBSTRtiC.ES, T O X I C I T Y , P I O T R , F I S H ,
F Y 8 2 1 2 3 , 3 0 0 PHYSIOLOGY, B I O C H E H I STRY, iIETHODOLOGY.
( E = C O U T A R I N R N T S ~ CEU. l = C H R R A C T E R I S T I C S 3=ENVIROUREUTRL I I l P R C T S 5 = I E T H O D DEV. & RODELINC i = S E V E R R L SOURCES)
A 1 4 h NOAAJSUNY.COR.U SUNY,COR.U F Y 8 2 4 0 , 9 0 7 B I O T A , ALGAE, CHEMICAL C H A R A C T E R I Z A T I O N J L A K E E R I E , L A K E H I C H I G A N J
( A = T O X l C O R G l U I C S l = C H R R R C T E R I F T l t S 4=HUI lAN HERLTH EFFECTS h = U N S P E C I F I E D SOURCES)
F Y 0 l 4 2 , 2 2 9 P A R T I C U L A T E S , SUSPEHDED S O L I D S , FY 0 2 4 4 , 4 5 1 TE#PERATURE, I H T E R A C T I VE EFFECTS,
B I O T A ,
i H=OTHER 3=EHVIRONHENTAL 1 HPACTS h=UH.SPECI F I E D SOURCES )
H 2 3 7 b NOAA,ACE,SUNY SLlNY,COR.U F Y 8 l 1 6 6 , 5 6 9 SEDIRENTS: HRRBOUR, YASTE f lANACEHENT, VRTER Q U R L I T Y t
(H=OTHER 2 = F A T E @ND TRANSPORT Z=EHVIRONf lEHTAL IRPRCTS f = R A H A t E f t E N T b = D R E D G I N t )
1 9 , 7 5 9 SEDIMENTS, PLRN, HRRBOUR, 1 0 , 2 9 7
E 3 7 c NORAnSUNY,COR.U SUNY,COR.U FY 8 1 2 3 , 0 1 4 VASTE HRNACERENT, B I O T A t . F I S H , FY 8 2 8 6 , 0 9 3 01 OACCL~RULRTI ON 8 LEACHATES,
L A K E ONTRRIO,
(E=COHTdf t INRNTS, GEM. 3=ENVIRONRENTAL I H P I C T S ?=flRNBCEfiENT c = I N D U S T R I A L SOURCE)
H 7 f WOAAnSUHYjCOR.U SUNYtCOR.11 F Y B l 4 6 , 3 3 8 EROSION, NEARSHORE, F Y 8 2 5 1 , 3 8 9
(H=OTNER 7-NRNACEMENT C=NON-POINT SOURCE)
H 2 5 7 g NOAA.SUHY,COR.U SUNY.COR.U FY 8 1 4 3 , 7 9 2 MAVES. NEARSHORE. FY 8 2 4 9 . 3 6 6
(H=OTHER 2 = F b T E AND TRANSPORT 5:tlETHOD DEV. & HODELINC 7=#ANf iCEHEHT g=OTHER SOURCES)
H 3 5 f HOAR ,6UNY,COR. U SUNY, COR. U F Y 8 1 5 4 , 4 3 8 EROSION, S O I L , L A K E ONTRRIO, HODELS, F Y 8 2 6 4 , 2 8 1
H 23 f NOBA,SUNY ,CUR . U S U N Y a C 0 R . U F Y 82 8 9 , 6 0 7 D Y N A M I C S , E R O S I O M , N E A R S H O R E , L A K E O N T A R I O , L A K E E R I E ,
(HIOTHER 2 s F A T E AND T R A N S P O R T 3 = E N V I R O W # E N T A L I M P A C T S f = N O N - P O I N T SOURCE-)
H 2 3 f N O R A , S U N Y , C O R . U S V N Y , C O R . U F Y 8 2 2 7 , 5 6 8 E R O S I O N , H E A R S H O R E > T E f i F O R R L V I ~ R I * T I @ N I W A V E S >
! H = Q T H E R Z = F A T E Q H D TRFIHSPORT 3 = E N V I R Q N R E N T R L I R P i t C T S f = H D N - P O I N T S O U R C E )
3 8 4 R F I i S - 1 H 7 f N O R A I S U N Y t O O R . U S U N Y , C O R . U
! H = @ T H E R ? = W R N A C E R E N T f = N O N - P O I N T S O U R C E )
2 W 0 8 1 A C / P - 1 I 7 h N O A A , S U N Y J C O R . U S U N V d C 0 R . U
! I = U N S P E C I F I E D 7 = H A H A C E H E N T h = U N S P E C I F I E D SOURCES )
0 8 2 A E / K - 6 I 7 h H O A A , S U M Y , C O R . U S U N Y , C O R . U
( I = U # S P E C I F I E D 7 = f l A N G C E R E H T h = U N S P E C I F I E D SDURCES )
083 FI R / L - 3 I 7 h N O R A , S U H Y , C O R . U S U N Y , C O R . U
! I = U N S P E C I F I ED 7 = f l i t N A G E H E N T h = U N S P E C I F I E D SOURCES )
F Y 81 8 9 , 4 3 8 PROGRAM D E Y E L O P # E N T , E D U C A T I O N * FY 8 2 5 0 , 3 9 5 N E A R S H O R E .
F Y B l 1 2 4 2 1 7 8 L E G A L I T I E S , E D V C R T I O N ~ N E A R S H O R E , F Y 8 2 1 2 4 , 4 9 6
! H = O T H E R 7 = R A N R G E f l E N T h = U H S P E C I F I E D SOURCES)
0 3 5 A E / I - 3 I 7 h N 0 h A SUNY, C O R . u F Y 81 2 0 6 , 2 5 0 E D U C 6 T I ON, . . FY 82 1 9 3 . 7 5 0
< I = U H S P E C I F I E P 7 = M A W A C E H E H T h - U N S P E C I F I E D S O U R C E S )
! I = V N S P E C I F I E D T=I IbNI?GEMENT h = U H S P E C I F I E D S O U R C E S )
.I= tP: fi P / H - 3 I 7 h HORB SUNY, COR . U S U N Y , L O R . 11 F Y 8 1 2 7 8 , 3 4 1 b D V I S O R Y , PROGRBR D E Q E L O P R E H T t
F Y 8 2 1 3 1 , 0 4 2
! I = U N S P E C I F I E D i = I I B N I ? G E H E N T h = U N F P E C I F I E D S O U R C E S )
358 R b / F P - 1 E 7 h N O A b t f l S G H S U
! E = C O N T S H , I N S N T S : C E N . 7=Rf i tJGCEHENT h - I J N S P E t i F I E @ SOURCES;
$89 R ,.B/'C- I I 7 h NORA,HSG U 14
. ! , I = U N S P E C l F I E D T = f l B N F I C E f l E N T h - U N S P E C I F I E D SOURCES )
0 3 0 A E / C L E - 3 I 7 h WOAA U M
( I = U N S P E C I F I E D 7=MAHACEMENT h=UWSPECI.FI ED SOURCES )
FY 81 124 643 IHFORMATION, EDUCATIOH, FY 82 5,000
FY 8 2 4 3 , 0 0 0 E l OTB, F I S H , H A B I T B T , RE HA PI LIT AT ION^ P R O D U C T I V I T Y , RODEL51
( H = @ T H E R 3=ENYIRONMENTAL I U P B C T S S=flETHOD DEV. f iODELING h = U N S P E C I F I E D SOURCES)
RSU F Y 8 2 1 2 , 8 4 0 P E S T I C I D E S , T O X I C I T Y T E S T I N G , B I O T B , F I S H : PHYSIOLOGY,
( A = T O X I C ORGBNICS 3=ENVIRONMEHTAL IMPACTS 6 = C R I T E R I A h = U N S P E C I F I E D SOURCES)
B 3 5 h WOAA F Y 8 2 2 2 , 4 0 2 B I O A S S A Y , C I D M I U I , Z I H C . T O X I C I T Y TESTING. B I O T A . F I S H , PHYSIOLOGY 8 TEHPORAL V A R I A T I OH, D I S T R I G U T I O H , SURVEILLANCE.
i B = T O X I C METALS 3=EWVIROWllEHTAL IMPACTS 5=METHDD D E V . & HODELIHC h = U H S P E C I F I E @ SOURCES)
A 13 h WOAA F Y 8 i 29,895 P C B ' S , DYHAMICS, UBTER. SEDIHENTS, FY 8 2 46 .632 B I O A C C U H U L A T I O H A B I O T A , PLAMKTOW,
ZOOPLAWKTON~ LAKE WICHIGGN, ECOSYSTEM, TEHPORAL V A R I d T I O H t
( A = T O X I C ORGANICS 2 = F A T E AND TRANSPORT 3=ENYIROHMENTAL IMPACTS h = U N S P E C I F I E D SOURCES)
095 B R / T S - 2 2 A 2 h HOIA UM FY 8 2 4 0 , 2 5 8 B I O T B , PLAHKTON, ZOOPLRHKTOM, P l f l ' s ,
( I = T O X I C ORGANICS 2=FATE AND TRANSPORT h = U N S P E C I F I E D SOURCES)
F Y 8 1 3 8 , 1 9 4 S E D I N E N T S , H Y D R O L O G Y , P R O D U C T I V I T Y , F Y 8 2 3 9 , 8 8 3 R I V E R S : R Q R S H , B I OTR: NgCROPHY T E S ,
T E R F O R A L V B R I B T I O N : P A T E R C H E R I S T R Y , Y R T E R Q O A N T I T Y :
! D = N U T R I E N T S O = S O U R C E d N D L O R D I H G 2 = F A T E GND TRRNSPORT 3 = E N V I R O N R E N T R L I t l P R C T S h = U N S P E C I F I E D ~ O U R C E S )
F Y 8 1 6 8 , 7 3 4 B I O Q S S A Y . GREEN B A Y : R I V E R S : F O X R I V E R , F Y 82 1 6 , 3 3 7 L R K E b l I C H I C G t i , V R T E R Q U G L I T Y ,
E U T R O P H I C Q T I O H r B I O T A : P L Q H K T O N :
! D = N l J T R I E N T S 3 = E H V I R O H M E N T G L I W P I C T S 5 = R E T H O D D E V : Z t l O D E L I N t h = U N S P E F I F I E D SOURCES i
F Y 8 2 2 8 , 3 5 6 A G R I C U L T U R E , V R S T E Rf iNGGEf lENT, S E D I M E N T S , P E S T I C I D E S 3 B I O T A ? B E N T H O S , R L G A E , S U R V E I L L R I C E , R I V E R S , S k L I N E R I V E R , P A T E R Q U A L I T Y ,
! J = S E V E R A L C = S O U R C E AND L O A D I I C J = E N V I R O N R E N T R L I W P A C T S 7 - N Q N A G E H E N T f = t i O N - P O I N T S O U R C E )
V1 0 3 9 9 A R / P R - 1 I 7 h NORR,RSC U f l
< I = U N S P E C I F I E D 7 = R t ? H R G E R E N T h = U N S P E C I F I E D S O U R C E S )
F Y 8 1 4 4 5 , 6 1 4 f l D R I N I S T R R T I O N , PROGRRR D E V E L O P R E N T , F Y 8 2 2 5 4 , 8 0 1 I N F O R R A T I O N S E D U C R T I ON J
F Y 8 1 3 4 , 4 0 8 P C B ' s , D Y N A M I C S , C O S T - B E N E F I T , B I O T G , F I S H , P H Y S I O L O G Y , L A K E f l I C H I G R N > MODELS,
< G = T O X I C ' O R G B N I C S 2 = F R T E AND TRFlNSPORT 5 = R E T H O D D E V . h R O D E L I N G 7-RANCIGERENT h = U N S P E C I F l E D SOURCE'S?
F Y 8 1 4 2 , 9 5 7 N I T R O G E N * O R G R H I C C O N T A R I N A N T S : B I O T R , P R O D V C T I V I T Y , L A K E A I C H I G A N , E C O S Y S T E R , R I CROORGAN I S A S , B A C T E R I R . P L f i H K T O N , Z O O F L A N K T O N <
! E = C O N T A R l k k G N T S : G E N . O=SO?IRCE GND LOGDZNC 2 = F A T E AND T R G N S P O R T h = U N S P E C I F I E D S O V R C E S )
F Y 8 1 2 6 . 9 8 3 R A C R O P N Y T E S , ECOLOGY a P R O D U C T I V I T Y , D I S T R I B U T I O N J H E A R S H O R E , E R O S I O N , OPEN LAKE, POLLUTIOH, L A K E n I c H r c a n ,
( D = N U T R I E N T S b = S O U R C E AND L O A D I N G ~ = E N ~ I R O N W E N T A L I H P A C T S h = U N S P E C I F I E D S O U R C E S )
1 0 3 A R / A Q - 1 1 ' J 3 h N O A A , U . M I . U . U I .
i J - S E V E R A L 3 * E N V I R O N M E N T A L I M P A C T S h = U N S P E C l F I E D S O U R C E S )
1 0 4 CI R / t B - 5
( E = C O N T A # I H k N T S , C E N . 7 = R A N A C E f l E N I h = U N S P E C I F I E V S O U R C E S )
F Y 8 1 4 4 , 3 0 4 N U T R I E N T S , A M M O N I A , OXYGEN, TEMPERATURE, B:OTA, F I S H , PHYSIOLOGY.
FYW1 3 2 , 2 1 7 PROGRAf l D E Y E L O P H E N T , G R E E N B A Y 8
F Y 8 2 3 3 , 9 2 4 L L K E R I G H I G R N , P O L L U T I O N , B I O T A , F I S H , F R O D O C T i Y i T Y , P t i ' i S l C i ~ L L I H H O L O G Y ,
F Y 8 1 3 2 , 2 7 3 D Y N A M I C S , E U T R O P H I C A T I O N , OXYGEN H Y P O L I M N I O N , D I S T R I B U T I O N , TEMPORAL VAR I A T I O N . C H L D R O P H Y L L ,
. G R E E N B A Y , L A K E M I C H I G A N .
: D = N U T R I E N T S 2 - F A T E AND TRANSPORT 3 = E N V I R O N M E N T A L I H P A C T S h = U N S P E C I F I E D S O U R C E S )
F Y 8 1 6 4 , 2 5 4 ORGAWIC C O N T A M I N A N T S , 1 N D U S T k l AL SOURCE.
0 # U N : C I P A L SOURCE, A H A L Y S I S , S E D I HENTS B I O T A , R I V E R S , FOX R I V E R , GREEX B A Y . L h K E M I C H I G A N .
i E = C D N T A H I N A P . I T S , G E N . O=SOURCE AND L O A D I N G 5 = M E T H O D D E Y . . & M O D E L I M C i=SE!,EEAL " J U R C E S j
1 0 7 A R / W M - 2 1 CI 1 2 5 h N O A C I , U . Y I . U M I F Y W I 7 2 , 3 0 7 T O X I C S U B S T A N C E S , S O R P T I O N , E Y C I P O R L T I ON, F Y 8 2 8 0 , 8 9 2 L I G H T , D E G R A D A T I O N , F O X R I V E R ,
CREEH BCIY: L A K E f l I C H I G P N , R O D E L S , P C B ' s , S T R U t T V R E - R C T I V I T Y ,
( R = T O X I C O R G f i N I C S l = C H C I R A C T E R I S T I C S Z=FCITE AND T R R I S P O R T S=PlETHOD D E Y S H O D E L I H G h = U t 4 S P E C I F I E D S O U R C E S )
F Y 8 1 7 9 , 4 9 0 P E R S I S T E N C E * SEDIf lEWTS: D I S T R I B U T I O N , F Y 8 2 5 7 , 4 6 7 S i N K S ? TREHDS: GREEN PAY:
LRKE H I C H I G R H , , . . .
! J=SEVERAL O=SOURCE AND LOADING 2 z F Q T E AND TRkMSPORT h - U N S P E C I F I E D SOORCES!
1 0 9 B R i R U - 2 3 Q 0 i NORA,U.L ) I . U . V l . F Y 8 1 5 4 * 0 8 5 P C B ' s , ATHOSPHERIC SOURCE: f l U N l C I P f i L SOURGE' I N D U S T R I f i L SOURCE,
> SED:l4EMTS, L g h E H I :CHIGRH:
( Q = T O X I C ORGQNICS 9-SOURCE AND LOQDINC i=SEVERAL SOURCES) . .
F Y 8 1 1 0 . 6 9 1 WATER O U Q L I T Y , P C B ' s , B I O T B , F I S H , PHYSIOLOGY, L A K E R I C H I G A N :
!E=CONTARINANTS: CEN. J=ENVIRONRENTQL IRPQCTS h = U N S P E C I F I E D SOURCES)
F Y 8 1 5 3 . 6 2 9 T O X I C SUBSTANCES.. SUSPENDED A R T E R I A L S , F Y 8 2 4 9 , 2 0 5 P A R T I C U L A T E S , SEDIPIENTS, LRKE N I C H I G R H ,
(B=T.OXI C HETQLS 1 - C H Q R A C T E R I S T l CS 2=FATE RND TRQNSPORT h = U N S P E C I F I E D SOURCES)
FY81 4 4 , 6 6 6 T O X I C SUBSTANCES, B I D A V A I L A B I L I T Y 2
FY82 2 7 . 3 2 2 SUSPENDED SOLIDS. P L R T I C U L A T E S . L A K E S U P E R I O R ' HARBOUR,
. > . . . 1 1 3 d R ~ R U ' - 2 7 k 2 3 h N 0 d A ~ U . M I . U . W I . F Y 8 1 6 3 , 1 0 9 D l O X I N S , FURANS. P E R S I S T E N C E *
FY 8 2 5 1 , 3 3 6 D I S T R I B U T I O N : T O X I C I T Y TESTING,
. . PHYSIOLOGY, @ I O T A , F I S H ,
.. . ( A = T O X I C d ~ ~ n n l c s 2 = F A T E QND T R A N S P O R T ~=ENVIRONHENTAL I R P I C T S UNSPECIFIED SOURCES) .
F Y 8 1 4 8 , 5 6 5 H U H I C I P A L SOURCE, I N D U S T R I A L SOURCE, SEOAGE, M A S T E W6i4 I iCERENTa E C O N O M I C S , R I V E R S ; FOX R I V E S ; !:REEN B A Y , L A K E M I C H I C L N r RODELG,
~ E P C O N T A M I N A N T S , GEM. 3 ~ E N V I R D N # E N T A L I H P A C T S S r M E T H O D D E V . 8 M O D E L I N G ~ P M A N A G E H E N T i = S E V E R R L S O U R C E S >
1 1 5 A R / N A - 7 H 6 f N O A A , U . M I . U . Y I
L HIOTHER O=SOURCE AND L O R D I N G C x N O N - P O I N T S O U R C E )
F Y 8 1 3 6 , 9 5 7 L B K E S U P E R I O R 8 E R O S I O N , HYDROLOGY I TEWPOR4L V A R I A T I O N ,
F Y 8 1 7 2 , 6 5 3 L A K E H I C H I C P N , H Y D R A U L I C S , GROUHDMATERI FY 6 2 6 6 , 6 3 0 S E D I N E H T S : M O D E L S ,
i E = C O N T A H I N A N T S , G E N . O=SOURCE AND L O R D I I G 2 = F A T E AND T R A N S F O R T S=HETWOb DEG'. & MClDELI N C r = S E V E R A L S O U R C E S )
VI w 1 1 7 b R S / R - 3 E 7 i N O R R I U . Y I . U . U I .
( E ~ C O N T R H I H R P T S I GEM. 7 ~ H R N R G E R E N T i - S E V E R R L SOURCES )
F Y 8 1 8 , 6 7 9 PROCRAH D E V E L O P H E I T , REMOTE S E N S I N G . TEWPORPL V A R I A T I O H . GREEN B A Y , L R K E H I C H I C P H . COWPUTER.
1 1 9 11 R / F - 9 D 3 5 h H O A R , U . H I N N . U.RINI. F Y 8 l 2 0 , 7 4 2 P H O S P H O R U S , N I T R O G E N , S I L I C R , F Y 8 2 1 7 , 9 9 0 T E l l P E R R T U R E , L I G H T , B I O T R t R L G R E ,
P R O D U C T I V I T Y , P L R N K T 3 t 4 , F I S H , L R K E S U P E R I O R . D U L U T H , HRRBOUR, R O D E L S ,
< D = N U T R I E N T S 3 - E N Y I R O H R E N T R L I R P R C T S 5 = R E T H O D D E Y . b N O D E L I N G h = U M S P E C I F I E D S O U R C E S )
. .. . . - .. . . . - . .
1 2 0 A R / C L - 1 A 2 5 h . -NORR,U . H I N H . '. u . R I N N . . . F Y B ~ 29,_800 A I R , MATER, B I O T A , S E D I f l E N T S , P C B ' s , F Y 8 2 , 2 1 , 7 6 0 C H L O R I H A T E D H Y D R O C A R B O N S ,
TERPOR'AL V f i R I f i T I O N , D Y W ~ ~ H I C S P .. . LRKE S U P E R I O R , RODELS:
( A - T O X I C ORCRNICS Z = F R T E OND T R A N S P O R T S = R E T H O D D E Y , b RODEL.ING UNSPECIFIED S O U R C E S ) ..
. . - . ... . 1 2 1 A R / C L - 6 H 2 5 c N O A ~ ? U . R I N N . U . R I N N . F Y 8 2 2 0 , 1 0 0 . S E D I R E N T S , D I S T R I B I J T I O N t CURRENTS.
L A K E S U P E R I O R . RODELS, . .
Li ,
! H=OTHER . 2 = F f i T E OND TRf iNSPORT 5=PIETHOD D E V . 8 R O D E L I N C C=INDUSTR~AL SOURCE) . . . ,
. . , .
U . f l I N N . F Y 8 2 1 1 , 5 6 0 S E D I R E N T S , E R O S I O N , CURRENTS, D Y N A H I C S , L A K E S U P E R I O R ,
(H=OTHER 2 = F A T E AND TRANSPORT c= IWDUSTRTf iL SOYRCE)
! E=CONTARINANTS, CEN. ~ = R A N Q G E R E N T h = U N S P E C I F I E D S O U R C E S )
1 2 4 A H / P - 2 E 7 h NORA U . W I NW
, i E=CONTA)I ) INANTS, C E N . 7=!iAPIACEWENT h=UWSPECIF I 'ED SOURCES) 1
F Y 8 1 2 1 , 8 3 0 PROCRAH DEYELOPNENT, E D U C A T I O N . F Y 8 2 . i s a 600
F Y 8 1 7 , 9 0 0 F I E L D SUPPORT, FY 8 2 1 5 , 0 4 9
. ( € = C O N T A N I N A N T S , C E N . i = t l A N A G E R E N T h = U N S P E C I F I E D SOURCES) \
1 2 6 A R / G O - 1 J 23 h N D A A , O S U D S U FY 82 3 4 , 2 0 0 S E D I M E N T S , D R C A N I C E O H T A M I H A N T S ~ B I O T A , L L G A E , A C C U H U L A T I ON, D Y N A W I CS, P A L E O L I M N O L O G Y A D l S T R I B U T I D H , L A K E E R I E ,
i J - S E V E R A L 2 = F k T E RND TRANSPORT 3 = E N V I R O N M E N T A L I M P A C T S ~ = U ' N S P E C I F I E @ S O U R C E S )
J 1 b N O A R t B L S U , K U . C O B G S U
1 2 8 A R / O E - I R 2 5 h H O A R , O S U OSU
F Y 82 4 5 , 8 0 0 S E D I f l E N T S , C H E f l I C R L C H R R f i C T E R I Z R T I O N , L R K E E R I E ,
! A = T O X I C O R C R N I C S 2 = F R T E RND TRANSPORT S=RETHOD D E V . h R O D E L I N G h = U N S P E C I F I E D S O U R C E S )
Ln 119 B R/OE-3 H 7 f H O A B . B C S U
: H = O T H E R 7=k!AHACEflEHT f = E O N - P O I N T SOURCE )
B C S U
1 3 6 A R / C E - 1 H 27 f H O A A . D S U D S U
C H E O T H E R O = F A T E AND TRANSPORT 7 = H A N A C E M E N T f INON-POINT SOURCE )
1 3 1 A R / E R - 1 E 37 h HOAR,OSU OSU
FY82 16 .600 S E D I M E N T S , E R O S I O N . N E A R S H a R E , D l S T R I B U T I O N , T E H P O R A i V A R I A T I O H , L A K E E R I E ,
F Y 82 4 8 , 4 0 0 f l A R S H , B I O T A : F I S H : H R B I T A T , P R O D U C T I V I T Y . ECOLOGY, L R E E E R I E ,
(, E = C O H T B H I N R N T S , C E H . 3 = E H V I R O N t l E H T A L I H P b C T S 7=t lGt4ACEMENT h = U H S P E C l F I E D S O U R C E S )
E 3 h N O I A t B C S U B C S U F Y 8 2 3 9 , 4 0 0 A S B E S T O S F I B E R S , A B U Q T I Z SvSTEFlS. . B I O T A , L G K E E R I E ,
! E = C O H T Q R I N I 3 H T S : F E N . 3 = E N Q I R O N f l E N T A L I M P A C T S h = U N S P E C I F I E D SOURCES )
! 3 3 A E / E O - 1 I 7 h NOAA.OSU 0 S U
! I = U N S P E C I F I E b ? = # A N A G E W E N T h = U N S F E C I F I E D SOURCES )
1 3 4 1 E / R I D - 1 I 7 h N O I A , O S U D S U
( I = U N S P E C I F I E D 7 = H I 3 N A t E B E N T h = U N S P E C I F I E D SOURCES )
Ln cn 1 3 5 1 E / R P - 1 H 7 h N O R A t O S U O S U
! H=OTHER ? = t I A N B C E R E N T h = U t i S P E C I F I E D SOURCES)
FY82 3 8 . 7 0 6 A D M I N I S T R P T I O N , E D U C A T I O N a
F Y 91 6 4 , 9 5 6 E D U C G T I ON- FY 8 2 8 4 , 7 0 0
F Y 82 1 5 , 0 0 0 E D ! J C A T I D N , I N F O R M A T I O N t
F Y 8 1 2 0 8 , 7 0 0 A D V I S O R Y , E D U C A T I O N . . I H F O R H f i T I O H , F Y B 2 2 4 5 , 2 0 0 E R O S I O N , L h K E E R I E ,
F Y 8 2 2 1 , 5 0 0 PROGRQR D E Q E L O P R E H T , A D V I S O R Y , E D U t R T I O N n I N F O R R A T I O N , L G K E E R I E ,
! H = O T H E R 7 = t t A N B G E R E N T h = U N S P E C I F I E D SOURCES)
1 3 8 d W/P-1 H 7 h NOAA*OSU
(H=OTHER 7=NANAGEHENT h m U N S P E C l F I E D SOURCES)
E 3 h RCE HFRL
F Y 0 1 1 1 0 . 2 0 0 . PROCRAN DEV,ELOPWEIT. A D W I N I S T P A T I O H . F Y 8 2 1 4 3 . 2 0 0
( E = C O H T R n I N Q H T S , CEN. 3=EHVIROHHENTRL IMPRCTS h = U N S P E C I F I E D SOURCES)
F Y 8 2 8 , 5 0 0 T O X I C SUBSTRHCES? S E D I f l E H T S > HBRBOUR, P i O T G : P l O f i S S G Y ,
E 2 h CLFC NFRL
<E=CONTRRINRNTS.. GEN. 2=FRTE ~ H D T R A N s P O R T h = U N S P E C I F I E G SOURCES)
E 25 i MOAA CLERL
F Y 8 1 1 4 2 , 2 5 0 I H T E R e C T I V E EFFECTS, L Q f l P R I C I D E S , F Y 8 2 187,SOG
F Y 8 1 5 8 1 . 0 0 0 NEARSHORE, OFFBHOREA CURRENTS, F Y a 2 6 2 2 . 0 0 0 TEMPERATURE, D I S T R I B U T I O N .
TEMPDRAL V d R I A T I O N . ECOLOGY. YATER D U A L I T Y . DYNAMICS. C I R C U L h T I O N , MODELS.
(E=CONTAMINANTSA GEN. 2 z F R T E AND TRANSPORT S=METHOD D E V . 8 NODELINC i a S E V E R A L SOURCES)
H 2 9 f NORA CLERL F Y 8 1 3 0 9 . 0 0 0 EROSIOM, ME4RSHOREr DYNAMICS, YAYES, F Y 8 2 3 1 6 . 0 0 0 TEMPORAL V A R I A T I O N . #DbELS.
(H=OTHER 1 = F A T E AND TRRNSPORT S=#ETHOD D E V . 8 MODELING f=MOH-POINT SOURCE)
CLERL F Y 8 1 2 9 5 . 0 0 0 ATHOSPHERIC SOURCE, DREDCIHG, F Y 8 2 3 5 2 , 0 0 0 NOH-POINT SOURCE> P a R T I C U L R T E S ,
DYNRHICS, D I S T R I B U T I O H t TEnPDRAL V 9 R I B T I O H . RDDELS, T C X I C CRGRNICS.
( J = S E V E R A L l = C H R R R C T E R I S T I C S 2 -FRTE AND TRRNSPORT 5=METHOD DEQ. &. NODELIHG i = S E V E R R L SOURCES)
R 1 2 9 i NORR G L E R L F Y 8 1 3 4 6 , 0 0 0 E N V I R O N R E H T R L S I R U L R T I ON: E C O S Y S T E R , F Y 8 2 4 8 3 , 0 0 3 F C B ' F : ' P l i H ' 5 , R G D E L S ,
! C ! = T O X I C ' O P G C ! # I C S l = t H C I R R t T E R I S T I C S 2 = F f i T E FIND T E A M S F O R T 5=l ' rETHOT: CiEV.. % R O b E L I t i G i = S E V E R I L S O U R C E S )
1 4 5 CI P -5 D 3 5 h . NORA G L E R L F Y B I 2 1 9 , 0 0 0 E C O L O G Y , B I O T A : P L f i N K T O N : T R E N D S , F Y 8 Z 2 7 4 , 0 0 0 E N V I R O N H E H T R L S I R U L R T I ON, N U T R I E N T G ,
R O D E L S :
D 0 2 5 h HORR G L E R L F Y 8 1 6 2 5 , 0 0 0 E U T R O P H I C R T I O N , H E A R S H O R E , F Y 8 2 4 9 4 , 0 0 0 E N V I R O N R E H T R L S I R U L R T l ON, E C O L O G Y *
P H O S P H D R U S , B I O R V R I L A B I L I T Y , A O D E L S ,
I D = N U T R l E N T S O = S O U R C E AND L O R D I N C 2 = F A T E RND T R l N S P O R T 5 = R E T H O D D E V . 8 R D D E L I H G UNSPECIFIED S O U R C E S )
H 0 2 5 g HORR G L E R L F Y 8 1 4 2 7 , 0 0 0 H Y D R O L O G Y , P R E C I P I T R T I O N , R U N O F F , F Y 8 2 4 8 3 , 0 0 0 C R O U N D Y R T E R , E V f i P O R R T I O N , R O D E L 6 8
' ( H = O T H E R O = S O U R C E A N D L O R D I H G 2 = F R T E R N D T R R N S P O R T 5 = f l E T H D D D E V . &'HODELINC g = O T H E R S O U R C E S )
1 4 8 d P - 9 E 7 i . H o d 0 C L E R L
( E = C O N T d R I N R N T S , G E N . 7 = H A N R G E R E N T i - S E V E R I L S O U R C E S )
E 3 5 7 i HORR C L E R L F Y 8 1 3 1 3 , 0 0 0 S Y S T E M S A H A L Y S I S , C O S T - B E N E F I T , B O D E L S , F Y 8 2 3 0 7 , 3 0 0
! E = C O H T A t 4 I N d H T S , C E N . 3 = E H V I R O N f l E N T R L I M P R C T S 5 z F E T H O D D E V . H O G E L I N G f = R A N A G E R E N T i = S E Y E R R L S O U R C E S )
( EaCOWTAW I H L H T S , GEN. ~ P H A N ~ C E M E W T i m S E Y E R A L SOURCES)
F Y 0 1 22,000 PROCRAH DEVELOPWEIT , F Y 0 2 . 63,000
. .
151 A 2 B 0 h ESEERCO L A Y W A T . S K . E N C . F Y 0 1 lSO,000 YATER, R I V E R S , L A K E S , FY 82 13,060
! B = T O X I C N E T A L S O=SOURCE AND L O A D I N G h = U N S P E C I F I E D SOURCES)
1 5 2 R 0 0 2 1 5 A 5 h USFDA USFDA F Y 8 2 2 2 4 , 0 0 0 D I O X I N S , R N B L Y S I S ,
! Q = T O X I C O R C f i N I C S S=f lETHDD DEV . & R O D E L I H C h = U H S P E C I F I E D SOURCES?
i f 3 A 1 J 6 h JOYCE FOUND. U . M I .
( J = S E V E R A L 6=SOURCE AND L O A D l N G DE UNSPECIFIED SOURCES)
155 L 3 J 3 ' f USEPA U . U I .
i J = S E V E R A L 3=E!4VIRO!lREWTAL I H P A C T S P=HC!N-POINT SOURCE)
F Y 0 2 7 6 , 8 0 6 T O X I C SUBSTANCES, E U T R O P H I C A T I OH,
FY 8 1 5 4 , 9 3 3 D A T A COLLECT I OW, TRENDS. L h K E E R I E , L A K E W I C H I C A N ,
F Y 0 1 119,469 S L L T S , B I O T A , PLANKTOM, PHYTOPLBHKTOH, OFFSHORE, L A K E H I C H I C A H , TBEMDS,
1 5 6 R 4 J O a U S E P A USEPA, R I . DWR F Y 8 2 1 , 0 0 0 R T R O S P H E R I C D E P O S I T I O N , P R E C I P I T R T I O W . Y R T E R C H E R I S T R Y . L A K E S , C H L O R I D E S , N U T R I E N T S ,
!..I=SEYERRL O = S @ U R C E AND L O A D I H G e = f i T M O S P H E R I C S O U R C E ?
1 5 7 R 5 8 0 4 USEPA,NIWH. ,DHR, ERL-D, U . R I W N . F Y B 2 . 2 0 , 0 0 0 MERCURY, A T M O S P H E R I C D E P O S I T I O N ,
! B = T O X I C I I E T B L S O = S D U R C E RND L O b D I H G a = R T l ! O S P H E R I C S O U R C E ?
1 5 8 R 6 E 5 a U S E P A C O V . SU F Y 8 2 7 1 , 9 3 2 E Q U I P R E N T 2 R T A O S P H E R I C D E P D S I T I D N ,
( E = C O H T f i f l I H R N T S , G E N . 5 = R E T H O D D E Y . & H O D E L I H G e a R T W O S P H E R I C S O U R C E ?
Ol 0 1 3 9 R 7 C 7 d U S E P A 1 L . I N S T . T E C . F Y B l 8 4 , 4 0 7 U R T E R B U R L I T Y , U R S T E WRNQGERENT. S E Y b G E ,
( t s P H @ S P H O P U S T = R R N R G E R E H T d = I I U H I C I P R L S O U R C E ?
1 6 O A 8 G H 3 4 e USEPA.USCC USEPA. U S C C F Y 8 1 5 0 , 0 0 0 L A K E S , H I T I G A T l O N .
( H - O T H E R 3 - E H Y I R O H N E N T A L I N P A C T S 4 = H U f l A N H E A L T H E F F E C T S e = S H I P P I N C >
1 6 1 R 9 J 1 5 h U S E P f i R Q . T E C . E H Y . C O N . F Y 8 1 7 1 , 0 0 0 S E D I R E H T S , T O X I C S U B S T R N C E S , B I D R S S A Y r T O X I C I T Y T E S T I N G , RETHODOLDGY,
( J z S E Y E R R L I = C H b R R C T E R I S T I C S 5 = R E T H O D D E V . & R O D E L I H C h = U H S P E C I F I E D S O U R C E S ?
F Y 8 1 1 5 2 4 000 T O X I C S U B S T A H C E S , B I O A C C U H U L A T I O N , F Y 8 2 9 4 4 0 0 0 T O X I C I T Y T E S T I N G , B I O T A , HETHODOLOCY,
( J = S E V E R A L 3 = E H Y I R O H H E M T A L I R P A C T S 5 - H E T H O D D E V . & . R O D E L I N G t = D R E b C I N C )
G L E R L FY81 3 4 4 , 0 0 0 L 6 K E S t I C E , D I S T R I P U T I O N , FY82 364: 0 0 0 TEl4PORRL V Q R I R T I O N , R T M O S P H E R I C SOURCE,
R i k l O S P H E R l C D E P O S I T I O N , N O W - P O I N T SOURCE, SHORE, MDDELS,
( H c O T H E R 0 = 5 0 U R C E RND L O R D I N G Z = F A T E RMD T R A N S P O R T 5 = l l E T H O D D E V . 8 t l O D E L I N t i z 8 E V E R R L SOURCES >
1 6 4 A E / G L E - 2 I 8 h H O A A 2 # S C
: I =UHSPEC:F I E D 8 = O T H E R ~ = U W S P E C I F I E ~ S O U R C E S )
1 6 6 A R / C L E - 4 H B h H O A A a # S C
( H = O T H E R 8 = O T H E R h = U N S P E C I F I E D S O U R C E S )
F Y 8 1 364 2 5 6 E D U C A T I O N , L Q U A T I C E N Y I R O N R E N T S ,
FY81 3 5 , 6 3 7 P R O t R A R D E V E L O P R E N T , E D U C A T I ON, L A K E S ,
F Y 8 1 4 4 . 7 7 9 E D U C A T I O N , I H F O R W A T I O M ,
F Y B l 3 4 , 4 5 9 B O T T O H S U B S T R A T E S , T E # P E R A T U R E , F I S H , H A B I T A T , D I S T R I B U T I O N , L A K E R I C H I G A N , MODELS, HODELS,
( H E O T H E R J Q E N V I R O H R E N T A L I R P A C T S 5 = H E T H O D O E V . h R O D E L I N C h = U W S P E C I F I E D ' S O U R C E S )
RSU
( B = T O X I C O P G A N l C S 3 = E P V I R O H f l E H T B L I f l P d C T S 5=METHOD D E V . C R O D E L I N G 6 = C R I T E R I d h = U H S P E C I F I E D SOURCES) .
FY 8 1 2 3 , 4 8 9 P E S T I C I D E S t P C B ' s , TERPFRBL V R R I d T I O N , F I S H , S d G l N R V B d Y , L A K E M I C H I C d N t L d K E HURON, L d K E E R I E ,
f B = T O X I C O R C b N l C S 2 = F d T E dPD TRdNSPORT 4=HUMdN H E B L T H E F F E C T S 6 = C R I T E R I B h = U N S P E C I F I E D ' S O U R C E S )
1 7 0 Q R /FPR- I F 3 h N O A B . R S C n s u F Y ~ I 3 3 , 9 8 5 BICTERI f i , FISH,
( F=PBTHOGENS 3 = E N V I R O N f l E H T d L I H P d C T S h=UNSPEC I F I E D SOURCES)
0-l
N 1 7 1 I? R / T S - 1 3 R 9 h NORA,BSC U fl . . '
t TOXIC ORGQNICS 9 = U N S P E C I F I E D h = U N S P E C I F I E D SOURCES)
FY 8 1 1 5 i 0 5 3 P C B ' S , I N F O R H A T I O H , D I T R C O L L E C T I O N ,
F Y 8 1 36,380 CHL0R:UATED HYDRDCWRBDNS, PCB ' S J ORGAN!C HATTER, SURFACE F I L M S , .
P L R T I CULATES, OLTER, A I R , L T H O S P H E R I C D E P O S I T I O M ,
i J = S E V E R A L C=SDURCE AND L O A D I U C 2 = F A T E AND TRhNSPORT a = L T M O S P H E R I C SOURCE)
F Y 8 1 29,249 P C B ' s , B I O T I , PLANKTON, P R O D U C T I V I T Y > ECOLOGY, B l O A C C U B U L d T I O H ~ B I GdSSdY, t4ETHODDLOGY,
( B = T O X I C O R G A N I C S 3 - E N V I R O K f l E N T I L I H P d C T S 5=RETHOD D E V . h H O D E L I H G h = U N S F E C I F I E G SOURCES)
1 7 4 A R / T S - 1 0 E 7 h HOIA,WSG WSU
(E=CONTARIWANTS, GEN. 7=MANLGERENT h = U H S P E C I F I E D SOURCES?
F Y 8 1 2 0 , 9 6 8 TDXIC SUBSTANCES, REGULATIDNS, L E G A L I T I E S , ADHIWISTRATIDN, ADVISORY,
F Y 0 l 3 1 , 3 6 2 SEDIMENTS: SUSPENDED S O L I D S , MBRSH, HYGROLDGY, flETHODOLDGY. R k D I G B C T I V I T Y ,
(H=OTHER 2 = F B T E QHD TRnWSPORT $=METHOD DEV . & n 0 D E L I F G h=UFSPEC I F I E D SOURCES)
1 7 6 R R i t W - 6 I .23 h NORA, MSG U R F Y B I 1 9 , 4 4 0 RBRSH: ECOSYSTER,
( I = U N S P E C I F I E D 2=FATE BHD TRAHSPORT 3=ENYIRONRENTAL IMPACTS h = U N S P E C I F I E D SOURCES)
1 7 7 A R / G L F - 1 1 7 h NOLAIMSC H S U.
( I = U H S P E C I F I E D 7=#AUACEWENT h = U H S P E C I F I E D SOURCES )
1 7 8 B B / C L - 2 W 2 b NOLA,U.WINN. U . W I N N
i H=OTHER ;=FATE AND TRANSPORT b=DREDCING )
1 7 9 B E / T - 2 I 8 h t 4 O R A t U . n I H N . U . ill MN
( I = U H S P E C I F I E D B=OTHER h = U H S P E C I F l E D SOURCES )
F Y 8 1 7 9 , 4 9 6 PROCRAPI DEVELOPMENT, ECOSYSTEM. LAKE H I CHICAN,
F Y B I 2 0 , 5 1 2 EDUCBTION, LBKES, R IVERS, ECOSYSTEM, L A K E SUP.ERIOR, it4F:CRfliiT ION..
H 9 . .i NORO, OSU asu
(H=OTHER S=f lETHOD DEV. B - P l O D E L I N L i=SEkJERRL SOURCES)
1 8 1 A T / C D - 1 H 8 h W0EIA;OSU OSU
IH=OTHER OTHER R=UNSPECIFIED S O U R C E S )
. .
i e z R E / C D - I H 7 r H O R R , O S U ,
(H=OTHER i= f lRNBGEREHT f = N O H - P O I N T SOURCE)
07 r 1 9 3 R R / P E - 1 H 8 h HORR,OSU
(H=OTHER &=OTHER h - U H S P E C I F I E D SOURCES)
OSU
OSU
F Y 8 l 4 0 , 3 0 0 LRKE E R I E : MODELS, EHVIR@Hf lENTBL S I R U L R T I O N z P H Y S I F R L L I R H O L O L Y : BTROSPHERIC SOURCE, NOH.-POI HT SOURCE ...
, .
F Y 8 1 47.966 EDUCATION, P R O C R A M DEYELOPWENT.
FY 8 I 6 , 4 0 0 EDUCRTIOH, PROLRRH DEVELDPNEHT, SHORE, IHFORRRTION,
F Y 8 1 2 1 , 9 0 0 IHFORPlRTIaN, PROLRAM DEYELOPRENT, L R K E E R I E ,
184 R R / G B - 1 8 : D.92. f N r 3 R R , U . Y I . U .C I1 . FY 8 2 6 4 , 6 1 4 PHOSPHORUS: N l T R D G E H * CARBON, RBRSH, . . . . GREEN BRY> HERRSHORE, OFFSHORE,
TEHPORRL V B R I A T I O H , B I O T R , PLRHKTON,
. . ZOOPLRNKTON,- FRODUCTIV i TY ,,
( D=HUTRIENTS O=SOURCE RND LOODING 2=FOTE RND TRQNSPORT f=NOH-PO I N T SOURCE )
FY 8 2 5 6 , 1 4 7 RODELS, MPTER QURLITY. . DYHRHICS, D R T k COLLECTION, FOX R I V E R , GREEN BOY, L R K E HI C H I GRH,
. .
( J = S E V E R O L S=HETHOD DEV. I ~ O D E L I H C ' h = U N S P E C I F I ED SOURCES)
F Y 82 5 2 , 5 6 5 P A H ' s , P C B ' s , T O K A P H E M E , A I R , M A T E R , T E H P O R A L V f i R I A T I O N i TRENDS, L A K E M I C H I C A N ,
( A - T O X I C O R G A N I C S O=SOURCE &MD L O A D I N G P = F A T E AND TRAMSPORT a = A T W O S P H E R I C S O U R C E )
F Y 82 4 1 , 1 8 0 P R I O R I T Y C H E R I C R L S , c H L o R i t 4 1 T E ? HYDRIYCARBOHS: P C B ' s , P H E N O L S , H E T G L S , D a T R Q U B L I T Y * P E S T I C I D E S ,
( J = S E V E R R L O=SOURCE BND L O R D I N G 2 z F f i T E R N D T R A N S P O R T 4 = H U H k N H E R L T H E F F E C T S c = I N D U S T R I A L S O U R C E )
F Y 82 4 2 , 110 T O X I C G U B S T L N C E S . MUTAGENS, C B R t I N O G E N E C I T Y , B I O T R , F I S H , RETHODDLOGY,
( E = C O N T A f l I N d N T S , G E N . J = E N V I R @ N F i E N T L L I H P d C T S S = f l E T H O D D E V . B I q D D E L I N G h = U N S P E C I F I E D S O U R C E S )
F Y 8 2 3 9 , 6 7 2 Y A T E R Q U A N T I T Y . Y A T E R . L V A I L A B I L I T Y 4
H I D R O L O C Y , E C O H O H I C S , LEGALITIES. MODELS, P L h N ,
( H = O T H E R S = N E T H O D D E V . & H O D E L I N C 7 = H A # f l C E M E N T i = S E V E R A L SOURCES )
1 9 0 A 7 1 1 2 3 0 D 3 h U S E P A J L L R S ~ O S U O S U
( D = N U T R I E N T S 3 = E N V I R O N H E N T A L I H P A C T S h = U N S P E C I F I E D S O U R C E S )
F Y 8 1 1 0 3 , 9 8 2 Y A T E R Q U A L I T Y , OXYGEN, E U T R O P H I C A T I O M . B I O T A , F I S H , L A K E E R I E ,
1 9 1 L 7 1 1 8 4 6 H 25 g U S D I s O S U O S U F Y 8 l 1 3 1 , 7 3 0 HETHODOLOCYa H O D E L S , Y A T E R Q U A N T I T Y R I V E R S , L A K E S , TEHPERWTURE,
( H = O T H E R 2 = F k T E b N D TRANSPORT S=WETHOD D E Y . 6 WOPELIWG g=OTHER S O U R C E S !
0 0 1 C 0 1 9 ~ 2 h G L F R B * U . Y A T . F Y 8 1 1 0 , 0 0 0 C H E R I C A L R I X T U P E S J I N T E R A C T I V E E F F E C T S , E H V I R O N R E N T A L S I R U L A T I O N , P H Y S I O L O G Y , B I O T A , P H Y T O P L A N K T O N , T O X I C I T Y :
( B = T O K I C R E T A L S Z = F R T E A H 0 TRANSPORT h = U H S P E C I F I E D S O U R C E S )
0 0 2 C 0 2 1 B 3 h G L F R B G L F R B , U . C U E . F Y 8 1 1 1 , 0 0 0 T O X I C S U B S T A N C E S , I N T E R A C T 1 VE E F F E C T S , F Y 8 2 7 , 0 0 0 T O X I F I T Y , F I S H , P H Y S I O L O G Y , L E A D ,
S E L E N I U R t
l B = T O X I C R E T A L S J = E H V I R O H R E N T A L I'HPFICTS h = U H S P E C I F I E D S O U R C E S )
E 3 5 6 h G L F R B G L F R B F Y 8 1 1 3 , 5 0 0 P H Y S I O L O G Y 8 F I S H , RETHODOLOCY, T O X I C I T Y , F Y 8 2 3 0 t 0 0 0
l E = C O H T A R I N A N T S , G E N . 3 = E N V I R O N R E N T A L I H P A C T S 5 = R E T H O D D E V . a R O D E L I H G 6 = C R I T E R I A h - U N S P E C I F I E D S O U R C E S )
A 1 3 5 h G L F R B G L F R B , N V R I F Y 8 1 3 5 , 7 0 0 S T R U C T U R E - A C T I V I T Y , T O X I C I T Y , B I OTA, F Y I 2 5 1 , 5 0 0 F I S H , S T A T I S T I C A L M O D E L L I N G ,
l A = T O X I C O R G A H I C S l = C H A R A C T E R I S T I C S 3 = E N V I R O N R E N T A L I R P A C T S S=NETHOD D E V . a R O D E L I N G h = U N S P E C I F I E D S O U R C E S )
A 3 3 h C L F R B C L F R B F Y 8 1 6 , 0 0 0 T O X I C I T Y J B I O T A ' , P H Y S I O L O G Y ,
l A = T O X I C O R G R H I C S 3 = E N V I R O N R E N T A L I R P A C T S 5:NETHOD D E V : h R O D E L I N G h = U N S P E C I F I E D SOURCES ).
.: . ,
2 : .
E. 7 h C L F R B C L F R B F Y 8 1 4 5 , 5 0 0 T O X I C O L O G Y , F I E L D S U P P O R T , F Y 8 2 2 0 , 0 0 0 R D R I N I S T R A T I ON, . , . .
! E=CONTA!l i t4GNT6, GEN;. 7 =RANAGERENT h = U N S P E C I F I E D S O U R C E S )
6 6 7 C 0 3 6 H 23 h C L F R B U . T O R . F Y 8 1 2 , 5 0 6 L I G H T , T E H P E R A T U R E 4 P H Y S I O L O G Y B I O T A ,
( H - O T H E R 2 a F A T E AND T R I N S P O R T 3mENV I R O N t 4 E N T A L I H P A C T S h - U N S P E C I F I E D S O U R C E S )
0 0 8 C 0 0 5 E 3 h G L F R B G L F R B F Y B I
( E = C O H T A f l I N A N T S , C E N . 3 + E N V I R O N P I E N T A L I M P A C T S h = U H S P E C I F I E D SOURCES )
4 , 5 0 0 B E N T H O S , S E D I F I E N T S J A N A L Y S I S > G I S T R I B U T I O H , , L f i K E E R I E ,
J 3 h G L F R B G L F R B F Y 8 l 1 2 6 . 0 0 0 T O X I C O R G A H I t S , T D X I C I I E T Q L S , TRENDS, B I O T A , F I S H , B E N T H O S , Z O O P L A N K T O N , . S U R V E I L L f i N C E ,
! J = S E V E R R L 3 = E H V I R O N R E H T R L I PIP A C T S h = U H S P E C I F I E G S O U R C E S )
D 3 h G L F R B CLFRB, NUR I F Y 8 1 1 1 ~ 0 0 0 E U T R 0 P H I C A T : O N J P H Y T O P L A N K T O N . C Y N A W I C S F Y 8 2 2 6 , 0 0 0 ECOLOGY*
( 0 - H U T R I E N T S 3 = E N V I R O N W E H T f i L I M P A C T S h = U N S P E C I F I E D S O U R C E S )
6 25 h C L F R B C L F R B , NYR I F Y 8 1 7 , 0 0 0 N A N N O P L A N K T O N . D Y N A M I C S * ZOOPLANKTON. FY 8 2 1 8 , 6 0 0 WETHODOLOCY, B I O A S S A Y , 6 L G A E ,
B : O A C C U M U i A T I O N ,
( S = T O X I C H E T A L S 2 - F A T E I N D T R A N S P O R T S=METHOD D E V . L R O D E L I N G h = ' U N S F E C I F I E C S O U R C E S )
A 5 h C L F R B C L F R B F Y 8 1 2 0 , 5 0 0 C H L O R I N A T E D HYDROCHRBONSJ P C B ' s , F Y 8 2 2 8 , 0 0 0 P L A N K T O N , F I S H , T I G B U E BANK >
( A = T O X I C O R G A N I C S 5=WETHOD D E V . t H O D E L I N G h = U N S P E C I F I E D S O U R C E S )
* FORMERLY KNOWN A S GREAT LAKES BIOLIMNOLOGY LAB (GLBL)
B 36 , b GLFRB . . . .
GLFRB F Y 8 1 1 5 , 0 0 0 PHYTOPLCINKTON, BIOCISSRY, FYSZ 5 0 , 4 0 9 C H E f l I C R L CHARACTERIZ f iT ION,
B I O A Y C I I L C I B I L I T Y , SEDIREN?S, LAKE OHTCIRIO, R I V E R S ,
. . . . . .
4 1 4 C 4 9 9 D 2 3 h CLFRB GLFRB . .. FY81. 1 0 9 , 5 0 0 TRENDS, B I O T R , SURVEILLCINCE: F Y 8 2 8 4 , 9 0 0 LRKE ONTCIRIO, OPEN LOKE, MEORSHORE,
VCTEE CHElq lSTRY, S T A T 1 S T I C R L R N A L Y S I S ,
( D = N U T R I E N T S 2=FCITE AND TRANSPORT 3-ENVIRONMENTAL IRPACTS h = U N S P E C I F I E D SOURCES)
0 1 5 C 0 2 0 D 23 h GLFRB GLFRB F Y 8 l 4 9 , 0 0 0 LAKE OHTCIRIO, BOY OF Q U I N T E . ECOSYSTER, F Y 8 2 3 7 . 0 0 0 B I O T G , ECOLOGY, DRTG COLLECTION,
!D=NUTRIENTS 2 = F A T E AND TRRNSPORT 3=ENYIRONMENTAL IRPACTS h = U N S P E C I F I E D SOURCES)
J @ 2 3 a GLFRB GLFRB, DOEaOflNR F Y 8 1 2 0 3 , 5 0 0 ATMOSPHERIC D E P O S I T I O N , R C I D RCIIN, pH, F Y 8 2 1 6 0 , 0 0 0 AOUCITIC SYSTERS, LCIKES, STREAflS,
B V h E E R I N G C A P A C I T Y , ORGANIC COHTARINRNTS, RETCILS,. B I O T A ,
. .
! J = S E Y E R A L 9=SOURCE AND LOODIHC, 2=FCITE CIND TRQNSPORT 3=ENVIRONMENTCIL I f lPRCTS a=RTMOSPHERIC SOURCE)
6 1 7 C 6 7 2 I 7 h CLFRB CLFRB FY 8 1 1 4 , 0 0 0 R I N E R A L h C I D S , HEhYY METALS, . . F Y 8 2 3 6 , 5 0 6 hTWOSPHERIC D E P O S I T I O M , SURVEILLANCE, L A K E HURON, CEORGIRN 6AY, P R E C I P I T A T I O N , B I O T h , SEDIMENTS.
. . . . .
. . ( I = U H S F E C I F I E D 7=WANACEMENT h = U N S P E C I F I E D SOURCES)
YORK U . F Y 8 l 3 , 2 2 1 CIEROSOL, D I S T R I B U T - I O N , REROTE SENSING,
. . . . S R T E L L I T E S ,
( E = C O H T A t l l N A N T S , CEN. 2=FRTE AND TRRNSPORT a=CITMOSPHERIC SOURCE)
0 1 9 C I R - 2 0 I 7 h . O ! ~ D E J O H O L ~ O H O E N OHOE F Y 8 1 2 3 4 , 0 0 0 D I O X I N S , F U R A N S . P C B ' s , F Y 8 2 7 5 ~ 0 0 0 C N L O R I N A T E D A R O W L T I C S ,
M U N I C I F A L SOURCE, I N D U S T R I I L SOURCE, A T W O S P N E R I C S O U R C E , H E A L T H S T A N D A R D S ,
( I = U N S P E C I F I E D ?=MdNACEWENT h m U N S P E C I F I E D S O U R C E S )
3 2 0 C H C - 1 I 7 h OADE R E S E f i R t H C O N S . F Y B I 5 , 3 0 0 T O X I C I T Y , I N T E R f i C T I V E E F F E C T S , F I S H ,
! I = U N S P E C I F I E D 7 - H f i N R G E A E N T h = U N S P E C I F I E D SOURCES )
0 2 1 C L S - 9 F 7 d OHOE OWOE
( F = P A T H O C E N S ?=WANLCEMENT d = # U N I C I P A L SOURCE )
cn co 0 2 2 C L S - 1 2 A 5 h OBOE ONOE
( f i = T O X I C O R G A N l C S S = f l E T H D D D E V . L H O D E L I N G h = U H S P E C I F l E D S O U R C E S )
F Y 8 1 1 6 , 0 0 0 U L T R A V I O L E T , D I S I M F E C T I O N . S E U A G E , M I C R O B I OLOCY 8
0 WOE
F Y 8 1 4 , 0 0 0 A N L L Y S I S , C A P I L L A R Y C O L U f l N S , P E S T I C I D E S , F Y 8 2 1 0 , 0 0 0 P C B ' S , F I S H ,
F Y 8 1 1 4 , 0 0 0 A N A L Y S I S , F U R A N S , D I O X I N S , A I R , Y A T E R , F Y 8 2 1 0 , 0 0 0 F I S H , S E D I M E N T S , C A P I L L A R Y C O i U # N S a
( A - T O X I C 0 R G F ) N I C S S = f l E T H O D D E V . L H O D E L I N G h = U N S P E C I F I E G S O U R C E S )
A 5 c OWDE OMOE F Y 8 1 6 , 6 0 6 L H A L Y S I S , C A P I L L A R Y COLUMNS, P H E N O L S , F Y 8 2 7 , 6 0 0 C H L O R I N A T E D A R O M A T I C S , F Y G 3 7 , 0 0 6
( A m T O X I C O R G A N I C S 5 = W E T H O D D E Y . H O D E L I N C c a I N D U S T R I b L S O U R C E )
. . . . . . . 0 2 5 C L S - 1 5 a 5 ti O f lDE, ONOE F Y B l 6 1 0 0 0 CHRORRTOGRRPHY: R N 6 L Y S I S p P E S T I C I D E S ,
( O = T O X I C ORGbHIGS 5-BETHOD D E V . & HODELINC h = U N S P E C I F I E D SOURCES) . <
. A
0 2 6 C L S - 1 6 . - f i . 5 h O f l O E , OflOE. : F Y B 1 7 , 3 3 3 P C B ' S , A N R L Y S I S , FISH.. P E S T I C I D E S , F Y B 2 7 , 3 3 3 FY 8 3 7 , 3 3 3
. . . . . . . . ( G = T O X I C ORGRNICS S=RETHOD DEV. & HODELINC h = U N S P E C I F I E D SOURCES) , .
9 2 7 C , L S - l B ' . . 5 h OflDE . , , OflOE F Y B l 4 , 5 0 0 URTER. P E S T I C I D E S , P C B ' s ,
( 6 = T O X I C ORGdNICS SmflETHOD DEV. 6 f lODELINC h = U N S P E C I F I E D SOURCES)
U 0 3 2 8 C L S - 1 9 . ., . FI 5 h SCIEX,OnOE OflOE FY 8 1 1 , 5 0 0 D I O X I N S , F I S H , SEDI f lEHTS,
! f l = T O X l t ORCONICS 5s f lETHDD D E V . 8 HODELI NG h = U N S P E C I F I E D SOURCES)
A 5 h OWOE . , . . . .
F Y 8 1 52 6 0 0 B I O T A , F I S H , PCB'S. A N A L Y S I S , F Y 8 2 5 a 0 0 0
( & = T O X I C ORGANICS SzWETHOD DEV. h HODELI I IC h = U N , S P E C I F I E D SDURCES) . . - . . . . ,
0 3 0 C L S - 3 1 H 5 h DflDE OflOE F Y B l 6 , 0 0 0 CHLOROPHYLL, P N B L Y S I S , F Y B 2 . . 6 , 0 0 0 ,
. . . ' . . , . . . . . .
!H=OTHER S=flETHOD D E V . 8 MODELING h = U N S F E C I F I E D SOURCES) . . ?. . ; .
A 3 h O B O E OROE 1 0 , 9 0 0 T O X I C I T Y J P E S T I C I D E S , F I S H , PHYSIOLOGY 4
1 0 , 5 0 0
( A = T O X I C O R C h N I C S 3mEWVIRONBEHTAL I # P A C T S h m U N S P E C I F I E D SOURCES)
f 2 4 6 h OROE BEAK F Y 6 1 2 4 , 5 0 0 C H L O R I N A T I O H , SEYACE, H I C R O O R C A H I S H S ~ D I S I N F E C T I O N , STREARS- "EALTH S T G H G A R D S ~
(F -PATHOCEHS 2 = F A T E AND TRANSPORT 4=HlJflAH HEALTH EFFECTS 6 = t R I T E R I f i h = U N S P E ' C l F I E D SOURCES)
0 3 3 C P C - 1 1 A 0 2 d , OHOE DROE F Y 8 1 , 3 5 , 0 0 0 S U R Y E I L L A N F E P OATER Q U A L I T Y ,
! A = T O X I C ORGRN I C S ?=SOURCE LNG LOADIHG 2 - F A T E AND TRANSPORT d = O U N I C I P A L SOURCE )
E 0 2 d OWOE OMOE FY 8 1 1 0 , 6 0 0 ASBESTOS F I B E R S , SURYEILLAMCE,
(E=COUThWIUAHTS, GEU. O=SOURCE AND L O A D I N G 2=FATE AND TRANSPORT d = R U N I C I P A L SOURCE)
0 5 5 C P C - 2 1 A 2 h OWDE OROE
( A = T O X I C ORGANICS 2 = F A T E AND TRANSPORT h = U H S P E C I F I E D SOURCES)
0 3 6 C P C - 2 3 J 2 d OflDE OPlOE
( J = S E V E R R L 2 9 F A T E AND TRANSPORT d m R U N I C I P A L SOURCE)
6 , 0 0 0 D I S I N F E C T I O N . CHLORINATION, STREAMS, 3 , 6 0 0
1 , 0 0 0 P R I O R I T Y C H E f l l C A L S , T D X I C RETALS, T O X I C ORCLNI FS, G N A L Y S I S, SEWAGE,
0 3 7 C P C - 2 4 F 7 d OHOE OflOE
! F=PATHOGENS 7=!'iRNFlGEliENT d= f lUNIC I .PAL SOURCE) . ,
038 C P C - 2 5 A 2 d OMDEJDOE . . CANYIRO, . . . , . . .
( R = T O % I C ORGANICS 2 - F A T E RND TRdHSPORT d = H U H I C I P A L SOURCE)
F Y 8 1 15.000 P R I O R I T Y CHEMICALS. SEMACE*
039 C P C - 2 8 C 7 d OflOE L INL .C ISSOC F Y 8 1 8 0 . 0 0 0 SEMAGE, CHEHICAL R I X T U R E S ,
cC=PHOSPHOPUS 7=flRNRGERENT d = R U N I C I P A L SOURCE)
( CaPHOSPHORUS 2 = F b T E RND TRANSPORT d=l iUN I C I P F l L SOURCE)
. ,
0 4 1 C P C - 3 0 J 27 E ' DOE, OROE R E C ; ~ ~ U N ; 011. C C I ~ F Y 8 1 ' , 7 0 , 0 0 0 URBAH RUNOFF, IHPOUNDRENTJ MLTER Q U A L I T Y , P R E C I P I T A T I O N ,
. . . ( J = S E V E R I L 2=FRTE OND TRANSPORT 7=RONbGEflENT f=NON.-POINT SOURCE) . . . . .. . .
. . , . * . .
0 4 2 C- P C - 3 7 .. - C 7 :d OflOE OPOE
(C=PHOSPHORUS 7=PlFlNRGEflENT . d=flUNIC!PRL SOURCE)
0 COST-BENEFIT , SEWAGE, URSTEMATER TREATRENT,
0 4 3 C P L - 1 J 7 d OWOE O W O E ~ C O . S T 0 . L T D F Y 8 1 1 8 , 0 0 0 H A R S H , S E U A C E , C O S T - B E H E F I T , S U R V E I L L A H C E , N U T R I E N T S , H E A V Y H E T A L S , B A C T E R I A ,
i J m S E V E R b L 7 - I I A N A C E R E H T d - H U N I C I P A L S O U R C E )
0 4 4 C P L - 7 A 2 h OflOE O R F F Y B l 4 7 , 3 0 0 A N A L Y S I S , Y R T E R , T E M P O R A L V A R I A T I O N ,
( A = T O X I C O R G A N I C S 2 = F A T E AND T R A N S P O R T UNSPECIFIED ' S O U R C E S )
0 4 5 c P L - 1 2 A s c o n o E ncn.u. F Y B ~ 3 9 , 1 0 0 ANALYSIS,
( A a T O X I C O R G A N I C S 5 - R E T H O D D E Y . & n O D E L I N G c = I N D U S T R I A L S O U R C E )
U W 0 4 6 C P L - 1 4 A 7 f OWAF,OWOE U . C U E . F Y 8 1 4 7 , 5 0 0 B I O L O C I C A L C O N T R O L , S T E R I L I Z A T I O H ,
F Y 82 9 5 , 0 0 0 P E S T I C I D E S . F Y 83 9 5 , 0 0 0
C A = T O X I C O R G A N I C S 7=WAHACEWENT f = W O N - P O I N T SOURCE >
L h K E H E I D U . F Y 8 1 1 6 , 9 0 0 P R I O R I T Y C H E R I C A L S , A H A L Y S I S . T O X I C I T Y . P R O C R A I D E Y E L O P W E H T ,
C A = T O X I C O R G A N I C S 5-WETMOD D E V , h, H O D E L I N C I = M b N l l C E R E H T h = U H S P E C I F I E D S O U R C E S )
A 2 3 6 c OUOE,DOE L A K E H E A D U . F Y 8 l 5 3 , 3 0 0 T O X I C I T Y I M T E R A C T I V E E F F E C T S , F Y 8 2 1 4 3 , 5 7 0 B I O A C C U n U L A T I O N , F I S H , P H Y S I O L O G Y , F Y 8 3 1 4 3 , 5 7 0
( A = T O X I C O R G f i N I C S 2 = F A T E AND T R A N S P O R T 3 = E N V I R O H N E H T A L I R P A C T S C = C R I T E R I f i c = I H D U S T R I A L S O U R C E )
. . . . . . -. . .
0 4 9 C U R - 1 0 E 2 5 7 i O N H R ~ O R O E ~ T O R . . O R O E F Y 8 1 ' 8 6 8 ' 0 0 0 P L R N , H R R B O U R , C U R R E N T S , C I R C U L R T I O N , N E R R S H O R E , O P E N L R K E , D I S P E R S I O H ,
. .
, . D R E D G I N G , R U N I C I P R L SOURCE,
. . . I H D I U S T R I R L ' S O U R C E , R O D E L S , . . . . ., . .
, .
( E = C O H T f 4 R I H A W T S , G E N . 2 r F R T E R H D T R R N S P O R T S = f l E T H O D D E Q . & R O D E L I N G 7 = R f i H R G E R E H T i = S E V E R R L S O U R C E S )
9 5 0 (! Y R - 1 1 E 0 2 i O R O E t O R H R , T E K . OROE 2 2 , , 0 0 0 S U R Q E I L L d H t E : H E R R S H O R E , C U R R E N T S , WRTER B U d L I T Y n X H D U S T R I R L S O U R C E , U R q a U R U H O F F , N O H - P O I H T S O U R C E ,
s , ,
( E = C O H T F I ~ ~ I N F I N T S ~ G E N . O=SOURCE R N D L O R D I H C Z = F R T ~ ' R N D T R ~ N S P O R T . i = S E V E R R L S O U R C E S )
951 C U R - 1 3 E 7 h O N h R ~ O l i O E ~ O N O L OROE
( E = C O H T R R I H d N T S n G E N . 7 = R R N B G E l l E N T h = U H S P E C I F I E D S O U R C E S )
U -i=
9 9 2 C U R - 2 2 J 7 h OROE OROE
( J = S E V E R B L 7 = R R N R G E R E N T h = U N S P E C i F I E D S O U R C E S )
F Y B I 2 , 4 0 2 , 0 0 0 P R O G R R l i D E V E L O P N E H T , S U R V E I L L R N C E , P O L L U T I O N , V R T E R Q U A L I T Y , T R E N D S ,
F Y 8 1 6 5 , 0 0 0 P R O G R d N D E V E L O P R E N T , R L G R E , D I S T R I B U T I O H , T R E N D S , S T R E R A S , N E R R S H O R E , L R K E O N T R R I O , N I R C R R R R I V E R , N U T R I E U T S , P C P ' S , H E A V Y R E T R L S ,
0 5 3 C Y R - 2 3 E 7 d OROE O f l O E F Y 8 1 8 0 , 0 0 0 R R R S H n S E Y d G E , C O S T - P E N E F I T I . .
( E = C O H T R R I N R H T S , G E N . 7 - R R N R G E R E N T ~ = R u M ~ c I P ~ L S O U R C E )
. - . .. ,
Q S P C Y R - 2 4 J 2 3 5 h OROE OROE F Y 8 1 0 T O X I C O R G R H I C S , T O X I C R E T R L S , B I O A S S R Y . B I O , T R , R L G d E , I N T E R R C T I V E E F F E C T S , T c x . : l t ~ I T Y 8
., . ( J = S E V E R R L 2 = F k T E FIND T R R N S P O R T J = E H ~ I R O N N E U T R L " I ~ ~ P R C T S S = R E T H O D D E V . k R O D E L ' I N C . h = I J U S P E C I F I E D - S O U R C E S )
4 3 5 C k l R - 2 6 C 3 7 d O M N R , O H O E , C C I Y OMOE F Y 8 1
( C = P H O S P H O R U S 3 m E N V I R O N M E N T A L I H P A C T S 7 = M A N A C E H E N T d - M U N I C I P A L S O U R C E !
3 S E Y A C E , L A K E HURON, B A Y O F Q U I N T E , S T U R C E D N B A Y ,
A 4 3 d EPS.OMOE OMOE F Y 8 1 1 4 , 4 0 0 B I O A C C U H U L A T I O N , F I S H , N E B R S H O R E , SEMACE,
i A = T O X I C O R G A N I C S O=SOURCE AND L O A D I N G 3 = E N Y I R O N H E N T A L I M P h C T S d = H U R I C I P A L S O U R C E )
E 33 c OflOE OHOE F Y 8 1 7 0 , 0 0 9 T O X I C I T Y , T D X I t SLlBSTCiHCES.. B I @ R S S f i Y . . S I S A C C U i W L B T I O t i , B I @ T R 3
E = t @ N T R W I N R N T S , G E N . 3 = E N V I R O N R E H T A L I f l P R C T S 5 = f l E T H O D D E V . R O D E L I N G ~ = I N D I J S T R I ~ ~ L SI)URCE;
A 6 7 c OMOE OMOE F Y a l 4 0 , 0 0 6 P R I O R I T Y C H E M I C A L S . SEMACE. S T . C L A l R R I V E R ,
C R = T O X I C D R G i ? H I C S O=SOURCE AND L O A D I N G 7-P lANAGEMENT c = I H D U S T R I A L S O U R C E )
A 1 3 5 h O l l O E OMOE F Y 8 1 1 0 T O X I C I T Y F I S H , S T R U C T U R E - A C T I Y I T Y , M O D E L S ,
( A = T O X I C O R G A N I C S l = C H A R A C T E R I S T I C S 3 = E N Y I R O N M E N T A i I H P A C T S S = H E T H O D D E V . b M O D E L I N G h = U N S P E C I F I E D 2 O U R C E S )
E 0 2 3 i ONDE OHOE F Y 8 1 4 0 , 0 0 9 P E R 5 1 S T E N C E : HUNT C I P A L SOURCE, I N D U S T R I A L S O U R C E . S U R V E I L L R N C E , T E I I P O R R L V f i R I f i T I D N , G I S T R I P U T I O H , ,TRENDS, B I O T R , F I S H , H E R R S H O R E ,
( E = C O H T R H I N R H T S , G E N . O=SOURCE RND L @ f i D I t + G 2 = F R T E R H D T R R N S P O R T 3 - E N V I R O H H E N T R L I H P R C T S ; = S E V E R R L S O L I R C E S )
L B K E H E l D U . F Y 8 l 1 4 8 > 3 2 7 T O X I C I T Y T E S T I N G , H R Z R R D P S S E S S R E N T , F Y 8 2 1 1 8 , 2 6 1 C H E R I C R L M I X T U R E S , I N T E R f i C T I V E E F F E C T S , F Y 9 3 1 1 8 , 2 4 2 B I O T I ~ , F I S H : B I O R C G O R U L A T ! D N r
C d = T O X I C O R G d H I C S 2 = F A T E dWC T R d N S P O R T S=ENVIROMRENT~L I H P f i C T S 6 = C d l TERICI .==I N C U S T R I R L S O U R C E ). . .
94.004 B I O A F S R Y , T O X I C I T Y . T D X I C S V B S T f i N C E S , B I O T f i : C H E H I C L L R I X T U R E S , S E W f i G E ,
i E = C O H T f i R I N B N T S : C E H . 3 = E H V I R O N f l E N T k L I f l P d C T S 5 = H E T H O D D E V . C B O D E L I N G 6 = C R I T E . R I f i . c = I N P U S ' T I ? I l L S O U R C E > .. . . .
9C3 C H G - 2 .' . A 3 h, , O f l O E , E P S , R f i r L A K E H E A D 1-1. . F Y P l 1 6 , 4 9 4 T O X I C I T Y T E S T I N G , F I O T B , F I S H ,
? f i = 1 O X I C OnT-?!JIGS 3 - E H V i R O N ! l E . N T d l . I f l P R t l S h = I 1 E ( S ? E C I F I E D S O U R C E S )
( F = P B I H O G E N F S = R E l H D D D E V . g R O D E i i tkil h = ! I H F P E C I F J E . D B i l i l R C i F . ) , .
( E = C O H l B R I N d t r l S, G E M . 5 = R E l ' H O D D E V . 6 R D D E L I N G h = ! ? t i S P E C I F 1 E P S O U R C E S ) - .. * . .
0 6 ? C P B C - ? B A 2 h O R O E U . M D .
( + ? = T O X I C O R C + ? N I C S ? = F A T E A H D T R A N S P O R T h = U H S P E C I F I E D SOURCES !
J 0 4 d OMOE
( J = S E Y E R A L Q = S O U R C E B N D L O A D I N G 4 - H U W A N H E d L T H E F F E C T S d = R U N I C I P A L SOURCE )
E 7 d OMO€ . H H Y ZEHOt4 E N Y . E N l . F Y a l 1 5 Q J 309 O R C A H l C C O H T H R I N A N I S . S E U A C E . F Y S 2 39 , f>OO
( E = C U H T f t M ! ~ 6 N ? S , G E N . 71RRNBGEMEI;: d = # U ! ~ I C I P R L S O U R C E )
B R a H l F G R D P . 11. C F Y 8 1 14,040 O R G B H I C C D H l R A I N f i t 4 l S : V R T E R , C H L O R I N A T I O N , Y B S l E W B T E R l R E f i l P l F H 1 ,
( E = t O H T R R I H A N T S , G E N . 7 = f l R N f i G E R E N T d = n U N l C I P R L SOURCE )
6 7 1 C P C - 1 5 B 7 d OPlOE DWOE
( 6 - 1 O X 1 C M E T d L S 7 = N A N f i G E H E N T d = H U H I C I V A i SOURCE )
4 7 2 C P C - 2 2 E 7 h ORDE OBOE
( E = C O H l R I ' l l H A H T S , G E N . 7= f lRNACEPlEt4T h = U N S P E C I F I E D S O U R C E S )
F Y a ! 1 3 , 0 6 0 I R O N ; C H E t 4 I C A L W I X T U R E S . MA:ER,
< F = P f i T H O C E H S i = n f i N A C E P E N T d = R U % ! C I P A L S O U R C E )
F Y P I 4 - 5 . . 0 0 0 U L T R A Y I O L E l ' < D I S I N F E C T I O N , S E Y A C E ,
I N T . E N V . C O N S . F Y 8 1 2 1 , 7 0 0 O R G A N I C C @ N T R ! ? l N A N T S t GRAND R I V E R , S U R V E I L L f i N C E s T E R P n R h L V R R I A T I ON, A N f i L Y S I S , F I S H ,
i E = C O N T A # I H O N T S , G E N . 0 - S O U R C E ? N D L O A D I N G Z = F A T € R N F I R A N S P O R T d = F i U H I C I P A C S O U P C E i
0 7 5 C P L - I 1 E 7 d DOE, @HOE R E C . H U N . @ T T . C d R F Y 8 1 6 8 , 0 0 0 U R B A N R U H O F F , P L A N t P O L L U T I OH, E N V l R O N f l E N T P L I # P A C T R I V E R S , S T R E A R S a
I R P O U N D f l E N ~ ..
( E = C O N T A # I H O N T S ~ G E N . T Z R R N d C E # F N T d = f l U W l C I P b L S O U R C E )
F Y 8 1 6 2 , 2 8 5 P C P ' S , D I O X I N S , T O X I C I T Y T E S T I N G < F Y P 2 2 3 , 0 3 8 P H Y S I @ L O G Y ,
! A = T O X I C O R G b N l C S 4 = H U R A N H E A L T H E F F E C T S h = U N S P E C I F I E D S O U R C E S ?
0 7 7 C Vk-9 E 0 2 h - O f l O E . : OflOE F'lai 40, 0b.0 C R O U R D Y A T E R ~ POLLUTION J
i E = C D N T A P l I U A ! 4 ? S , C E N . 0 - S O U R C E f?ND L O A D I N G Z = F A T E AND T R A N S P O R T h = U N S P E C I F I F D S O U R C E S )
F Y S l PC: 0 0 0 HARBOUR, L A K E O N T A R I O , O X Y G E H ? SUR'JE I L L P N C E E N Y I R n l ~ l 4 E F J ! f i L 5 I F i U l QT I P N , T R E H F S : H O D k L S t
( € = C O H T ? N I N Q N T S ~ C E N . O=SOORCE I?ND LORDING 2 = F A I E AND I R d N S P O R l S = N E T H O D D E V . & H O D E L I N C h = U N S P E C I F I E D S O U R C E S i
6 7 9 C l d R - 1 4 E 7 h 0 N O E ; O N H R O N Q E
i E = C U H T k ? R ! W A F T S , C E N . 7 = W A N A C E M E H T h = U H S P E C I F I E D S O U R C E S >
F Y 8 1 3 6 , 6 6 4 O X Y G E N , R I V E R S , C O S T - B E N E F : 1 8 B I O l A,
F Y ~ I 0 d C I D L I K E S . H E V l R I L I Z A ~ ! O N : A B U R i !C S Y F l E C q S :
( E = C O H T d R l H A N T S : G E N . Z . = E N V l R O H R E H T A L I N P f i C l S 7 - N A N I C E R E N T I - A T F I O S P H E R I C S O U R C E )
081 C M R - 2 5 E 7 h OMGE. O f l O E
( E = C @ H T f i A I N A N l S , C E N . i = A d N I C E R E H l h - U H S P E C J F I E D S O V R C E S i
F Y 8 1 5 6 , 6 6 4 E C O L O G Y , P H Y T O P L A H K T O N , A C I fJ L n k t S , EUTRi?PH;CA: IO t4 , NU7R:EH:S2
( E - C C I H T A M I H ~ N T S , GEt4 . 3 = E N Y I R O N N E N T A L I M P A C T S h = U H S P E C l F l F D S O U R C E S )
O B 3 C hlR-32 J 2 3 h ORDE OROE F Y x : 3 6 , 6 0 0 l O # I C I T Y T E S 1 I H C , p H , 1il;::l Pl;1:7i?! 5. B i U T n , F I S H , I H T E R 6 C : I V E E F F E C T S ,
< J = S E V E R P L 2 = F A 1 E A N D T R I N S P O R T 3 : E N V l R O t l R E H T A L I A P R C T S h = U N S P E C I F I E D S O V R C E S )
F Y 8 1 1 7 0 . 0 9 0 1 O X I C F I E T I L S ? pH, . Y b l E R G H E f l I S l R Y : i N T E R 2 C T I V E E F F E C T S . T 3 X 1 C I T.f 1 t S ? I N i l B I O T G . . F I S l ! , P H Y S I O L O G Y +
< J = S E V E R A L ? = F U T E A H D T R A N S P O R T 3 = E N Y I R O N R E H T A L I t l P I C T S h = U N S P E C l F l E D S O U R C E S )
F Y B l - . I 1 , 0 0 9 1 C ; X l C l T Y T E S T I H G . . Z O O P L A N K T O N , F Y R Z 4.. 49P
( B = T U % : C HE1 A L S 1 - C H B R A C T E R I S T I C S 3 = E N V I R O N # E N T A L I N P A C T S 5 = H E T H O D D E Y . & H O D E L I N C R = U H S P E C I F I E ? - S O U R C E S ) : . .
0 8 7 C 0 1 3 P 1 2 3 h C L F R P
( P = T @ X I C R E 1 R L S l = C H A R R T . T E R I S T I C S 2 = F F I T E RND' TRFIHSPORT S=E N V I R D N R E N T R L I M P F I C T S h : = U I i S P E C I F I E D S O U R C E S > , .
C3 0 S 8 C 6 6 0 5 - 1 5 6 9 - 3 4 r N ) F 1 2 4 h NHM I N S T . G R A . - F R B P F Y 8 1 3 , 3 6 6 R U H Q F F ,
( F = P Q T H Q t E N S 1 - G H B R F I C T E R I S 7 I CS 2 - F Q T E R N D T R R h S P D R l 4 = H U R R N H E F I L T H E F F E C T S h - U K S P E C I F ] E D . S O U R C E S ?
0 8 9 C 6 6 0 6 - 1 7 8 1 . - 5 4 ! N : F 0 2 , h . NHbl U . @ l T . . . F Y8 1 3 8 , 0 0 0 M B T E R : B A B L P S I S ,
( F = P G T H O C E H S 0 - S O U R C E QND L O A D 1 NC Z = F A T E RND T R Q H S P O R T h = U N S P E C I F I E D S O U R C E S i . .
. .
! F = P ~ ~ T H ~ G E N S O e S O U R C E R N D LDGDING Z = F A T E 'RND T R F I H S P O K T h = i l N S P E C I F I E D S O U R C E S i
6 9 1 C 6 6 6 6 - 1 7 9 3 - 5 4 ! N ) F 0 h HHM Ot40H
( F = P A T H O G € i : S + = S O U R C E AND L O B D I N G h = U N S P E C : l F l E D S O U R C E S !
0 9 2 C 6 6 0 6 - 1 8 5 2 - 5 4 i N ; F 3 h HHU U . b l I N .
( F = P B T H O C E H S + = S O U R C E BND L O A D I N G h = U N S P E C l F l E t S O U R C E S )
F Y 0 1 3 8 , 0 3 6 S U R Y E I L L A H C E , M A T E R .
0 9 3 C 6 6 9 5 - 1 ? 4 6 - 5 4 L N ) F 0 2 h HHU I N S T . R R n . - F R A P F Y B l 1 9 , 6 8 2 R V N O F F ,
( F = P A T H O G E H S O = S O U R C E BND L O B D I N G 2 - F A T E I N D T R Q N S P O R T h - U H S P E C I F i E D SOURCES;
C 0 2 3 P R G . C A H . L R R I . , H R S F Y 8 1 5 4 , 4 6 0 S U B S U R F A C E D R A I HRGE, S O I L , SURVE I L L A N C E , F Y 8 2 1 4 , 6 b 0 A G R I C U L T U R E , WODELS.
( C = P W O S P H O R U S O = S O U R C E AND L O R D I N G 2 = F A T E AND T R R N S P O R T S=PIETWOD D E V . h H O D E L l N C +'=NOH-POIHT G O v R C E j
U . C U E . . L R R I F Y 8 1 732 6 0 0 S E D I H E H T S , R U N O F F E R O S Z O N . A C R I C U L T U R E , F Y 8 3 4,020 WODELS,
( H = O T H E R $ = S O U R C E B U D L O R D I N G 2 z F h T E AND T R R N S P O R T 5 = F l E l W O O D E V . t t i O D E L I N C f = N O N - P O I NT SDURCE j
096 C 3 E 7 f R G . C A N . , O l l A F U T R C A
( E = C O H T B f l l N A H T S , C E N . ? = I l A N B C E H E H T f = N O N - P O I N T S O U R C E )
F Y 8 1 20,000 M P i E R Q U A L I T Y , E R O S l O l 4 , R C R l C U L T U R E , I I l P L E f l E H T B T l ON,
F Y P l 5 6 , 5 0 9 PROGRGR D E V E L O P R E N T , U A T E R Q U A L I T Y , F Y 8 2 5 6 , 8 0 0 R G R I C U L T U R E ,
( E = C O N T P f l I N A F T S , C E t i . 7-RRNRGEPIEt4.T . f - N D N - P O I N T S O U R C E )
0 9 8 C 5 P 0 1 2 f R C . C f i N . L P F I , I P S T P E G F Y P l -. a b , 5 9 8 S O I L , E R O S I D H , F Y 8 2 4 2 , 5 9 9
i H = O T H E F 0 - S O U R C E P H D L O A b l N t I = C H P R R C T E R I S T I C S 2 = F f l T E PND T P b C S P O P T f = H O N - P O I N T S O U R C E 1
0 9 9 C 6 . E 2 3 f ,, R C . C A N . L R R I F Y ? l 5 2 , 5 9 0 H I T R D C E N , PHOSPHDRIJS, A G R I C U L T U R E , F Y P Z . 56: . 400 RLINCFF.. t R ? ! l t I D U t i T E R . P ? A N V R E .+
M G i E R P U A L i T Y ,
( E = C O N T A f l I N R N T S , G E N . 2 = F b T E I N D T R A N S P D R T 3 = E N V l R O N f l E N T R L I I'lPbCTS f = N O H - P O I NT S O U R C E ) . . ,
03 'O 1 0 0 C 7 E 27 h RG.CFIN L R C F Y P l 7 7 3 , 4 9 0 P E S T 1 C I D E F , f l I C R O O R G f i N 1 S U S ; D E G R A P R T I OH,
A R U n T I t S Y S T E R S , S O I L - C R O U N D U I ~ T E R ,
( E = C O N T f l l l I H f l H T S , C E N . 2 = F f i T E I N D TURNSPORT 7 - f i A N R C E H E N T h = U N S P E C l F l E D S O U R C E S )
E 2 f R C . C A N . F Y S ! 4 5 , 0 0 0 H U T R I E N T S , O R C R N i C C O N T A U I N A N T S , F Y 5 2 4 5 , G o 0 P O L L U T I O N , ~ I G R I C U L T U E E . C R O V H D U R T E R ,
S T R E h f l S , A C C U R V L R T I D N , S O I L ,
( E = C O H T P R l N R N T E , G E N . 2 = F b T E R N D T P A N S P O R T f = N O N - P O I N T S O U P t E )
1 0 2 C 3 E 5 a l UP D G L . 11. F Y P I 1 1 , 0 0 0 T O X I C S U P S T I H C E S , R C I P R A I N I R N I L Y G I S , . .
( E = C O H T I ? R I N A N T S . . G E N . 5 = H E T H O D D E V . h R D D E L I H C a = d T R O S P H E R l C SOURCE:
1 0 3 C 5 i S 3 h I U D U . G U E . F Y 0 1 5 , 5 0 0 P E S T I C I D E S , T O X I C I T Y , B I O T A ; B E N T H O S , P H Y S I O L O G Y i
( A P T O X I C O R G A N I C S 3 = E N V I R O N W E H T A L I H P A C T S h e U H S P E C l F I E D S O U R C E S )
L A K E H E i i D U . F Y 8 1 1 1 , 0 0 0 B I O D E G R A D A T I O N , T O X I C 1 : Y T E S T I N C , H l C R D O R C A N I S H S , B I C T E R I A , F U N C I , A L G A E I N T E R A C T I V E E F F E C T S , H O G E L S ,
( A = T O X I C O B C A M l C S P=F iSTE AND T R d H S P O R T 5 = H E T H O D D E V . b H O D E L l H C h = U H S P E C I F I E D S O U R C E S )
1 0 5 C 7 € 0 i I Y D L I ~ V I I L U .
( E = C O N T A H I N A N T S . . C E N . O=SOI?PCE B N D L O f i D I HI; i =SEVERCIL S O U R C E S >
5,300 R R D I O A C T I V I T Y . S T . LAWRENCE R I V E R , f i T t l O S P H E R I C D E P O S l T I O N :
( D = H U T R I E H T S 2 - F A T E AND TRAMSPORT S = H E T H O D D E Y . b H O D E L l N C h - U H S P E C I F I E D S O U R C E S )
H c M . U . F Y 2 1 1 5 , 4 0 0 URGi9N R U N O F F , S E Y A C E , M A T E R Q U A L : T Y , E H Y I W O H W E H T B t I?lP6CT, H A L S O U R , B A C T E R I A , W U T R I E'ATS, j;;l.;pE"""- n u c U S O L : 2 S . MODELS.
< J = S E V E P A L :=#€:HOD D E V . & H O D E L I N C ? = H A N A G E M E H T d = H U N I C I P A L S O U R C E S
U . B U E F 7 8 1 12, $ 6 4 P f i L E O L I H N O L O C Y A A C I D L A K E S , T E M P O R A L V A R I A T I O N , B E Q I H E r i T J ,
( J = S E V E R A L 1 = F A T E &RD T R A N S P O R T 3 = E H V I R O N W E N T B L I W P A C T S 5 = M E T H O D D E V . h H O D E L I H G h = U H S P E C I F l E D S O U R C E S )
I O F C 1 3 J 02 i l WD. Q U E . U. F Y 8 1 9: 5 0 0 S E D I l 4 E N T S : R I V E R S , TEf lPORCtL VRRJ C i T I O N : .. .. . . , . . . . D I S T R I P ? j T I O N ,
( J = S E Q E R @ L C e S O l I R C E AMD L O f i D I N G 2 - F R T E AND T R A H S P C R T i = S E Q E R k L S O U R C E S )
U . T O R .
I R = T O X I C O R G B N I C S 1 : C H ~ R A C T E R I S T I C S Z = F R T E Q N D T R e H S P O R T 5 = f l E T H O D D E V . 8 U O D E L I H G h = L I N S P E C I ' F I E D S(3?1RC:ES) . ..
1 1 1 C 1 6 J 2 h I U D U . MPT
( J = S E Q E R A L 2 = F R T E B N D T R A N S P O R T h = U N S P E C l F l E D S O U R C E S )
( B = T O X I C P I E T C L S 2 = F R T E AND T R R N S P O P T 5 = R E T H O D D E V . b H O D E L J N G h = U N S P E C I F I E D S D U R C E S ) . . . ..
F Y O I . ' .-6,006 N E T H Y L B T I O N , L E A D . S E D I H E N T S , C H E M I C A L C H R R A C T E R I Z A T I O N . T I N ,
( A = T O % I C O R C f i N I C S l = C H A R A C T E R I S T I C S 2 = F A T E AND T R A N S P O R T h = U N S P E C I F I E D S D U R C E S S
1 1 4 C - . 1 8 ' - . E . 25 h . . I MD U . MAT . , F Y 8 1 1 1 2 000 GROUNDWATER, R O D E L S ,
( E = C O N T A A I N A K T S , G E N . Z = F f i T E RND T R A N S P O R T 5 = R E T H O D D E Q . f R O D E L I N G h = U N S P E C l F l E D S O U R C E S > . ..
1 1 5 C 20 J 7 f I'd@
( J = S E Y E R A L 7=#AWRCEMEWT f =Hog-PO!!iT SOURCE !
R 23 h G L F R B G L F R P
F Y 8 1 8 , 6 0 0 'HYPOL I M H I UCI, OXYCEH; V A T E R CHEW1 S T R Y . S U R Y E I L L A N C E , T O X I C S U 5 9 T d H C E S .
F Y 8 l 5 0 , 0 0 0 P N Y S I O L O C Y , T E H P E R C t T U R E : P I O T k : F Y 8 2 36 ,500 B I . O A C C U f l U L R T I OH, P E H Z E H E S , P H E N D L S ,
( + ? = T O X I C O R G R H l C S 2 m F R T E AND TRRMSPORT J = E N V I R O N R E N T R L I H P A C T S h = U N S P E C l F l E D S O U R C E S )
1 1 7 C $ 1 5 6: 2 a E L F R O G L F R B
( % = T O X I C R E T A L S 2 = F A T E QND T R A N S P O R T a = A T # O S P H E R I C . S O U R C E )
FY.31 4 , 6 0 0 p H , L E a D . W E T H Y L A T I C N , & I O T A r # I C R D O R G A H I S M S , S E D I WENTS,
03 Ln
1 1 8 C 0 1 6 J 2 5 h G L F R B G L F R B F Y 8 1 7 , 0 0 0 D Y N A R I C S , E H V I R O N H E N T R L S I R U L I T I O N , B I O T A , A L G B E , Z O O P L I N K T O H , B E N T H C S , S E D I A E H T S , R O D E L S .
( J = S E V E R R L Z = F R T E AND T R I N S P O R T S = l l E T H O D D E V . b R O D E L I N G h - U N S P E C I F I E D S O U R C E S ) ,
J 1 3 h C L F R B C L F R B , NMR I F Y 8 1 2 4 , 3 0 6 S T R U C T U R E - A C T I V I T Y , T O X I C I T Y . F Y a 2 1 7 , 3 5 0 T D X I C O R G A N I C S , T O X I C N E T d L S , T I N ,
A L C d E , Z I i 4 C .
( J - S E V E R A L i = C H A R A C T E R l S T l C S 3 = E N V I R O N M E N T Q L I # P R C T S h = U N S P E C I F I E D S O U R C E S )
F Y 8 2 2 1 0 , 0 0 0 P C B ' S , T O X I C I T Y , P H I R R R C O U J H E T I C S , B R E A S T K I L Z , I N F A N T f l D H # E Y S ,
( A = T O X I C ORCGN!CS 2 = F g T E AND T R A N S P O R T 4 = H U R k K H E A L T H E F F E C T S h = U N S P E t l F I E D S O U R C E S >
1 2 1 C 109: . . H 7 , . g : . N U R I H Y R I
( H = . O T H E R - 7 = F i f i N A G E R E H T g = O T H E R SO*URCES>i , ,
F Y 8 1 5 1 , O O h B I O T f i : F I S H . . H R B I T C I T P B O T T O f l S U B S T R R T E S , F Y 8 2 - - - 7 - I , ? 0 0 H E R R S H O R E : T E P I P O R R L V R R I R T I O N ,
. . , . . . . .
1 2 2 C 1 1 0 H' 1 2 5 h N l d R l H Y R l F Y 8 1 5 , 0 0 0 S E D I R E N T S , U R T E R : I N T E R B C T I V E E F F E C T S , . D I S T R I B U T I O N , S T G T I S T I C Q L G H t i L Y S ! 5 , H D D E L S : . . . . .
( H = O T H E R 1 = C H A R A C T E R 1 S T I C 6 Z = F f i T E RND T R A H S P O R T S = f l E T H O D D E Q . h ' ~ ~ O D E L IHC -' ' h = U N S P E C l - . F . I E D - S O U R C E S ) .
. . , 1 2 3 C 2 1 0 A 1 3 5 h NWR1,DOE N Y R I F Y 8 1 7 0 , 5 0 0 S T R U C T U R E - R C T I V I T Y t H R Z f i R D R 8 S E S S P l E N T ,
F Y 8 2 5 4 - 0 0 0 T Q X I C I T Y T E S T I N G : S I O T Q r B E N Z E N E S - . P H E N O L S
. . . .. . . . - .
( A P T O X I F O R G R N I C 6 l = C H A R R C T E R I 6 T I C S J = E N V I R D N f l E N T A L ^ I f l P R C T S NETHO HOD D E Q . B N O D E L I H C . h = U N S P E C . l F I E D S O U R C E S )
w 0-1 1 2 4 . t 8 1 - 2 1 1 . . . A - 5 - h Hh lR1,DOE H Y R l ' , F Y P l 8 2 , 0 0 0 f i N A L Y S I S , P C B ' S , S E D I R E H T S : B I O T f i .
R I V E R S : H I C I C 6 R G R I V E R : L f i R E O N T R R I O >
( R = f O X 1 C. O R G R N I C S 5 = R E I H O D D E V ., & A D D E L I N C h = U N S P E C I F I E D S O U R C E S , ) . .. . . . . . .
1 2 5 C 8 2 - 2 1 1 - ' . A I S . h . , : NUR.,I ,DOE . . . : H Y R I . . . . .
F Y 8 2 . , . 3 2 , 5 0 0 S T R U C T U R E - A C T I V I T Y , P C B ' S , D I O X I N S , . . B E N Z E N E S , P H E N O L S , H B Z R R D R S S E S S H E N T . .
( A = T . O X I C O R G R N l t S I = . C H R R R C T E R I S T I C S , S = f l E T H O D D E V . Q PlOOEL I N C h s U N S P E C I F I E D - S O U R C E S ) ' . . .. : . 1 :
. .
1 2 6 'r. ' 2 1 2 . . . . - a 0 2 h N Y R I H Y R I F Y 8 1 1 0 1 , 0 0 0 R H A L Y S I S . S E D I R E H T S , U R T E R , 01 OTG, F I S H , F Y 8 2 1 3 , 0 0 0 D I S T R I B U T I O H , S I H K S , R I V E R S ,
~ .. N I f i C R R R R I V E R , L R K E O N T 9 R I D : .. .
( A = T O X I C O R G A N I C S O = S O U R C E RND L O R D 1 HG 2 = F f i ? E AN^ T R R H S P O R T UNSPECIFIED S O U R C E S i
A 0 1 2 h U M R I N M R l F Y 0 2 7 0 , 0 0 0 C H L O R I N A T E D H Y D R O C A R B D M S , P C B ' s , A N A L Y S I S 8 S E D I M E N T S , 5 1 CTh, A B U A T l C S Y S T E M S , T R E N D S , R I V E R S , N l A C A R E I R I V E R , . L A K E O N T A R I C ) ,
( A - T O X I C O R C f i U I C S O=SDURCE AM0 L O A D I N G l = C H A R A C T E R l S T I C S 2 = F A T E AND T R A N S P O R T h = U N S P E C l F I E D S O U R C E S )
F Y 8 1 4 4 , 0 0 0 C H L O R I N A T E D H Y D R O C P R R O N F : V B T E i ? . 9IR: E V Q P O R A T I B N :
S U R F A C E F I L A S ,
( d = T O X I C O R C R N I C S 2 = F A T E AND TRRNSPORT h = U N S P E C I F I E D S O U R C E S )
1 2 9 C 2 1 8 A 2 5 h N W P I , D O E N U R I F Y 8 2 35,300 B I O A V A I L i t B I L I T Y r S E D I C E H T S .
( A = T D X I C O R G R N l C S Z = F P T E A N D TRRNSPORT 5 = R E T H O D D E V h f l O D E L I H G h = U H S F E C l F l E D S D V R C E F ,
N M R I F Y 8 2 2 , 0 0 4 S U R F A C E F I L H S , R I V E R S , NidGALA R ! C E R L A K G E R I E , L A " - ~ i , - ' ' - " nk i H d i i l r
< A = : O # I C D R C A U l C S 0 - S O U R C E AND L O A D l H C ;=FATE AND TRANSPORT h = U H S P E C l F l E D S O U R C E S )
A 2 h N U R I ,DOE U M R I
( A = T O X I C O R G A N I C S 2 = F A T E AND T R A N S F O R T h = U N S P E C I F I E D S O U R C E S )
1 3 2 C 2 2 2 a 1 h N l d R I N M R l
( R a i C f S i C ORGCINICS l = C ! i R R Q C T E R I S T I C S h = U N S P E C I F l E D S O U R C E S )
F Y 8 1 9 2 . 5 0 4 S U S P E N D E D S O L l b S , S E D 1 f l E t 4 T S . F Y 6 2 3 6 , 0 0 0 D I S T R I B I J T I O R , 6 : C T k : BEH:Hi:l'S,
B I O A C C U H U L A T I O H , R I V E R S . N I A G A R A R I V E R 2 L A K E O N T A R I O ,
F Y 8 1 44 . . 0 0 0 T O X I C S U B S T A H C E S , D I S T R I B U T I O N , F Y P 2 1 1 2 : 0 0 Q R Y f i I L R B I L I T Y : S U S P E N D E D S Q L I D S ,
S E E i R E t i T S , H E T A L S F E C i A i i O H , L A K E O H T R R I O :
( E = C O H T A H I M R H T S , F E N . I = C H k R A C T E R I S T I C S 2 c F I T E ~ N D T R A N S F O R T h c t J N S F E C l F ] E D S O U R C E S ,
6 25 h H M W I ,DOE U M R 1 , C L F W B F Y 8 2 i i b , h O d M E T H Y L U T I O t i , T I N , L E A D , U H A L Y S I S , A P U H T Z C E U V I R O U W E N T S , C O k l P L E X A T I O N , M U T E R , T O X I C I T Y , O R C A H O T I H S ,
i B = T O X I C M E T A L S L * = F h T E A N @ T R h W S P O R T S = H E T H O D D E V . & l 4 O D E L l W G ~=UNSP 'ECIF IED S O U R C E S 5
1 3 5 C, 2 3 3 G 1 2 5 h N Y R l N M R I F Y 8 2 8 , 0 0 0 ORGf iHOT I N S , S U R V E I L L A N C E : G Q U f i T I C S Y S T E f l S , P E R S i S T E i i C E . S U R F A C E F I L R S . f i H G L Y S I S , Y A T E R , S E D I n E H T S , B I O T f i : F I S H , P L t k E . .
( A - T O X I C O R G d H l C S l = C H A R A C T E R l S T l C S 2 l F f i T E A N D T R G N S P O R T S = f l E T H O D D E V . b H O D E L I N K h = U N S P E C I F I E D S O U R C E S 1
B 2 3 c N Y R I F Y 8 2 6 8 , 0 0 0 D Y t 4 k f l I C S t S E G I f l E H T S , S U S P E N D E D S O L I D S , A V f i I L B B I L I T Y , B i O T 9 z P L R N K T O N , P H Y T O P L A N Y T O ~ ! : e I D R S S A Y , N E G R S H D R E , H I R G i i R A R I Y E R .
( B = T O X I C R E T k L S 2 = F R T E G N D T R A N S P O R T 3 = E H V I R O N R E H T k L I R F R C T S c = l H D U S T S l f i L S O U R C E )
H V R I , G L F R B F Y 8 1 7 2 , 0 0 0 R A D I O 9 C T I V I T Y , S U R V E I L L f i H C E , T R E N D S , F Y 8 2 8 4 , 0 0 0 O P E N L A K E ; 8 I O T f i . - F I S H ,
( E = C @ N T k f l I N G N T S , G E N . O = S O U R C E f i N D L O A D I N G S - E N V I R G H R E H T f i L I R P f i C T S c = l H D U S T R I R L S O U R C E ;
1 3 8 C 2 4 1 E 25 c H Y R I ,DOE N Y R I F Y E l 3 9 , 0 0 0 R A D l O A C T I V I T Y , M A S T E R G N A C E R E M T : F Y 8 2 5 8 , 0 0 0 GROUNDWPTER, L E R C H R T E S , L A K E O N T G P I 0 3
( E = C O N T P W I N G F T S , G E H . Z a F O T E AND T R f i N S P O R T S = R E T H O C D E V & R O D E L I NG c = I H G U S T R l fiL S O U R C E i
E 0 2 5 c NMR1,DOE H M R I F Y 0 2 1 3 0 ~ 3 0 6 R L D I O A C T I Y I T Y , A U A L Y S I S , S E D I R E H T S , TRENDS, R I V E R S , H I A G A R l R I V E R , L L K E O N T A R I O ,
( E - C O N T A H I N I N T S ; G E H . O=SOURCE AND L O L D I N G 2 n F A T E AHD T R A N S P O R T S = W E T H O D D E V . b M O D E L I N C c = I N O U S T R I A L S O U R C E !
1 4 0 C 3 0 9 E 0 2 f N W R I I4 M R I F Y F Z 4 7 ; t o 0 T D X I G S U E S T h H C E S . . !1RBhH R U N J F F .
( E = C O H T 6 R I M b N T S . G E N . O=SOURCE RND L O R D I N G 2 = F L T E RND T R R N S P O R T f = N O N - P O I N T S O U R C E )
1 4 1 C 3 1 0 E 6 3 3 f N W R I F Y 9 2 3 4 - 4 0 0 U R B f l H R U N O F F , U f i T E R Q U f i L I T Y , M A T E R B U @ N T ! T ' i : E N V i R O t i H E t i T f i L S i f i U L S i i O t i . . M O D E L S ,
( E = t S H T R f l I M k N T S ~ G E N . O = S O U R C E f i N D L O R D I N G J = E H V I R O N R E N T G L I f l P G C T S S=PIETHOD D E V . k N O D E L I N G , f = H O N - P O I H T S O U R C E ?
F Y 8 2 2 , 0 0 4 N E A R S H O R E ; H A S T E W A H A C E P I E H T ~
1 4 3 C 353 E 6 2 P MMRI .DOE N M R I FY 8 1 1 0 9 ~ 0 0 0 T O X I C S U B S T A N C E S , U R B A N R U N O F F ,
( E = C O K T A M I N A t ; T S , C E N . O=SOURCE AND LOAD: H C :=FATE A H @ T R A N S P O R T f=NON-POi HT SOURCE;
E 0 3 5 h W Y R I . D O E HYR!
( E m C O H T A M I U A N T S ; G E N . 6 = S O U R C E P.ND L O R D I N G 3 = E N V I R O N F l E H ? A L I M P A C T S 5 - M E T H O D D E V . B M O D E L I N C h = U N S P E C I F I E D S O U R C E S )
1 4 5 C . 4 2 0 : C - 0 2 h N V R I N M R I F Y B l 4 1 - 0 0 0 OXYGEN.. D Y N R R I C S . T R E R D S : G N R L Y S i S , . . : F Y 8 2 . . 2 3 , 0 0 9 T E N P O R G L V I R I I T I O N , E U i l i O P H i G i l T I O N ,
L R K E E R I E : N Y P O L I A N I D N ,
( C = P H O S P H O E Q S O = S O U R C E k N D LOGD!NG Z = F R l E I N D T R G N S P O R T h = O W S P E t l F l E D S O U E C E S i
N V R I F Y e l 1 8 , 0 0 0 D I S T R I B U T I O H , T E R P O R I L V R R I f i T I O H : F Y 8 2 4 1 , 0 0 0 T R E N D S , S E D I R E N T S , P B R T I C l i L f i T E S ,
L R K E O H T I R I D ,
( E = C O N T A R I N I W T S , C E N . 2 = F A T E Q N D T R G N S P O R T h = U N S P E C I F I E D S O U R C E S >
F Y 8 1 1 5 , 0 0 0 L R K E E R I E , D E G R I D I T I O N , T R E N D S , F Y 8 2 1 7 , 0 0 0 R E H I B I L I T G T I O N , IHF~RN~~TIGN,
F Y 8 1 3 5 , 0 0 0 B I O T G , B E N T H O S , S U P V E I L L G M C E >
F Y 8 2 2 4 , 0 0 0 D I S T R I R U T I O N , T E R P O R A L V G P I A T I O W , E C O L O G Y , M I T E R Q U A L I T Y , R I V E R S , N I R C R R R R I V E R , L G K E O N T G R I D ,
( C = P H O S P H O R U S 2 = F G T E I N D T R A N S P O R T 3 = E N V I R O N f l E N T R L I H P G C T S h = U N S P E C I F I E D S O U R C E S )
E 0 2 h N W R I N M R I F Y 8 1 2 3 , 0 0 0 S E D I f l E N T S , N U T R I E N T S , D E C O R P O S I T I O N ,
. . - F Y 8 2 9 0 , 0 0 0 A C C U R U L I T I O H , P L G N K T O H , P H Y T O P L G N K T O N , : N E R R S H D R E , O F F S H O R E , N I A G A R I R I V E R ,
. . L R K E O H T A R I D ,
( E = C O N T I f l I N I H T S , G E N . O=SOURCE & N O L O R D I H C 2 = F R T E AND T R A N S P O R T h = U N S F E C I F I E D S O U R C E S ;
N W R I ~ $ 8 1 4 1 , 0 0 0 O R G R N I C C O N T G f l I N R N T S ~ B I O T R , A L G f i E , F Y 8 2 2 0 , 0 ' 3 9 P R O D U C T I V I T Y ~ D E C O I 4 P O S I T I O N , S E D I P I E N T S ,
OXYGEN,- ' N U T R i E H T S : DYNGP!!CS: L I K E E R I E : E P I L ! f l N I O t i :
. . . . .
( D - N U T P I E N T S l = C H R R R C T E R I S T I C S 2 = F P T E RND T R I t i S P O R T J = E t J V I R O N N E N T P L I F P A C T S h = U N S P E C I F I E D S D U R C E S ~
1 5 1 C 4 2 8 H i 2 h H M R I N M R I F Y 8 1 2 0 , 0 6 0 S E D I H E H T S , S U S P E N D E D 4 A T E R I A L S , F Y 0 2 1 8 , 0 6 0 L R ~ E O H T n R I O ,
( H = O T H E R l = C H A R A C T E R I S T ! C S 2 = F A T E AND T R A H S P O R T h = U N S P E C I F l E D S O U R C E S )
F Y B l 3 7 , 0 0 0 B I O A V 6 I L 6 B I L I T Y ~ S O R P T I O N , I R O N : F Y 82 1 6 , 0 0 0 S E D I R E H T S : 8 8 7 GF Q U I H T E , L A K E E R I E :
L Q K E O H i i ! E i @ , :
( C = P H O S P H O R U S Z = F R T E 6ND TRRNSPORT J = N E T H O D D E V . C l 9 O D E L I H C h = U N S P E C I F I E D S O U R C E S )
N W R I
( C = P H O S P H O R U S 5 = R E T H O D D E V . 8 PiODELI NC h = U H S P E C I F I E D SOURCES )
1 5 4 C 47 '5 D 2 h N W R l N W R l
( D - H U T R I E N T S 2 = F A T E AND TRANSPORT h = U N S P E C I F I E D S O U R C E S )
N M R I
3 , 0 0 0 S E D I W E H T S , # A C R O P H Y T E S , L A K E S .
F Y 8 2 4 , 0 6 0 B I O T A : A L G A E , P R O D U C T I V I T Y . @ I S T B 1 & U T ] a H 2 E g : e a P H ; f n " " ' I I L . , ~ .
NEARSHORE, MATER 2 U A L ; T Y ; Z S D E L S
( @ = N U T R I E N T S 3 = E N V I R O N H E H T A L I P l P A C T S S = M E T H O D DEC'. L W O D E L I N C 6 = C R I T E R I A h = U H S P E C I F I E D S O U R C E S )
H M R I F Y 8 2 1 7 2 , 6 6 0 L A K E OHTAR!O, B I O T A ; A L G A E , P H Y S i O L O C Y >
E U T R 0 P H : C A T I O N . L I A T E R G U H L I 7 ' ; .
( D m N U T R I E N T S 2 - F A T E AND TRARSPORT 3 = E N Y I R O N W E N T A L I M P A C T S h = U N S P E C I F I E D S O U R C E S j
N U R I F Y 8 1 3 2 , 0 0 0 S E D I F ? E H T S , D I S T R I 8 l J T I O N , . F Y 8 2 5 8 , 0 0 0 . T E H P O R A L V L R I A T I O N , T R E N D S ,
S E D I R E N T B A N K . ( E = C Q H T A R I N L H T S , C E N . O = S O U R F E !?NO L O A D I N G P = F A T E AND T R R N S P O R T h - U N S P E C I F I E D S O U R C E S )
D 0 3 7 h H W R I H U R I F Y 8 2 ' 3 0 , 0 0 0 L A K E E R I E . . S U R V E I L L A N I I E , P R G F R A R P E V E i O P ? l E t i T . . T R E N 3 5 : n X Y G E H :
I D = N U T R I E N T S Q = S O u R C E AND L O A D I N G 3 = E N V I R O N H E N T A L I R P R F T S 7 = R A H A F E f l E N T h = U N S P E C I F I E D S O U R C E S )
E 2 3 5 h H W R I N U R I F Y 8 2 1 7 , 0 0 0 E N Y I R O H R E N T A L S I R U L A T I O N ; U A S T E R A N R G E H E N T - E C G S Y 6 T E Y D Y N R R I C S : Y R T E R Q U R L I T V , R D G E L 5 ,
( E = C O N T F ) R I N L H T S . . G E N . 2 = F f i T E A N D T R A N S P O R T 3 = E N Y I R O N H E N T R L I P I P A C T S ' 5 = R E T H O D D E V . L'HODELIHC h = U N S P E C I F I E D S O U R C E S )
E 25 h N W R I N U R I F Y 8 2 2 1 - 0 0 0 N E A R S H O R E , C I R C U L A T I O N - D Y M A R I CS, D I S P E R S I O N , R I V E R S , N ! R t R R R R I V E R , L A K E O N T A R I O : P L V f l E S , M O D E L S
( E - C n N T R R I N b N T S : C E N . 2 = F F ) T E A N D T R A N S P O R T 5 = R E T H O D D E V . 8. R O D E L I H C h = U N S P E C I F I E D S O U R C E S )
A 1 2 5 h N M R I 1 6 1 C 5 0 4 W M R I F Y 8 1 3 0 j 0 0 0 Y A T E R , S E D I M E N T S , I N T E R A C T I V E E F F E C T S , F Y 8 2 1 0 . 6 0 0 S D R P T I O H . P B R T I C U L A Y E S , D I S T R I B U T I O N A
R I V E R S , N I A C A R ~ R i VER. L U K E O N T A R I O , . . M O D E L S . . .
( A - T O X I C O R G A N I C S I = C H A R A C T E R I S T I C S 2 = F A T E A N D T R A N S P O R T S = # E T H O D D E V . L H O D E L I N C h = U N S P E C I F I E D S O U R C E S )
C 0 2 5 h H W R I H U R I F Y P l 4 3 , 0 0 0 D I S T R I B U T I O N , T E R P O R A L Y R R I A T I O N : F Y 8 2 1 7 , 3 0 0 T R E N D S , S T A T I ST i C A L R D D E L L I NF, R I V E R S -
N i A , F A R B R I V E R , S T . L A W R E N C E R I V E R , L A K E O N T A R I O ~ ,
( C m P H O S P H O R U S 0 - S O U R C E A N D L O A D I N G 2 n F A T E A N D T R R N S P O R T 5 = f l E T N O D D E V . L H O D E L I N C h = U N S P E C I F I E D S D U R C E S )
. . . .
E 2 5 h NMRI ,DOE HMRI F Y 8 1 2 0 ~ 0 0 0 NEARSHORE, C I R C U L A T I OH, D I S P E R S I O N , F Y 8 2 4 5 , 0 0 0 MODELS,
( E m C O H T 6 H I H A P T S , GEN. 2mFATE L H D TRANSPORT SmHETHOD D E V . 6 H O D E L I N G h = U N S P E C I F l E D SOURCES)
1 6 4 C 509 H 5 h NldRI N Y R I
( H = O T H E R S=PIETHOD D E V . 6 R O D E L l N G h = U N S P E C I F I E D SOURCES)
1 6 5 C 5 0 9 H i 2 h HldRl N M R I
F Y 82 1 0 , Q00 I N S T R U M E N T A T I O N , CURREHTF, TEHPERRTURE: OXYGEN:
FY 8 1 2 6 2 . 0 0 0 P H Y S I C A L L I H N O L O C Y , L A K E E R I E , F Y 8 2 3 6 . 0 0 0
(H -OTHER l = C H A R A C T E R I S T I C S 2 = F A T E AND TRAHSFORT h = U N S P E C I F I E D SOU.RCES)
H 1 2 h HWRI N Y R I F Y 8 1 7 9 , 0 0 0 L A K E O H T A R I O , P H Y S I C A L L I R N O L O C Y ~ F Y S Z 1 1 3,000 NEARSHORE.. OPEN L A K E , CURRENTS,
I N T E R A C T I V E E F F E C T S , TEHPORRL VAR I f i T I O N , N I u t i r R A R I V E R ,
(H=OTHER l = C H Q R A C T E R I S T I C S 2 = F A T E AND TRANSPORT h = U N S P E C I F I E D SOURCES i
J 0 2 5 h HYR1,DOE H M R I . C L F R B F Y B l 2 5 , 0 0 0 S T A T I S T I C A L H O D E L L I N G , D I S T R I B U T I O N , FY 8 2 4 0 , 0 0 0 TEHPDRAL V R R I A T I O N . :RENDS. N U T R I E N T S ,
OXYGEN, CHLOROPHYLL, Y O X I C SUBSTdNCES, AI IWUNIA,
( J = S E V E R A L C=SOURCE AND L O A D I N G 2 2 F A T E AND TRAHSPORT 5=WETHOD D E V . b H O D E L I N C h = U N S P E C I F I E D SOURCES)
F Y 8 1 1 3 0 ~ 0 0 0 YATER Q U A L I T Y > A V A I L I B I L I T Y , L I G H T , FY 8 2 1 6 s 0 0 0 CHLOROPHYLL, SUSPEHDED HATER I A L S .
S H T E L L I T E S , . k i ( N b # I C S , l i i V E R S , Y I A G A R l R I V E R . MODELS,
( H - O T H E R l = C H A R A C T E R I S T I C S 2 e F A T E AND TRAWSPORT S=HETHOD D E V . h H O D E L I H G h = U W S P E C I F I E D SOURCES)
N M R l F Y 8 2 3 , 9 0 0 GROUNDYBTER, L B K E S , E N V I R O N R E N T R L S I R U L R T I O N , R R D I O B C T I V I T Y , R D D E L S :
( E = C O N T P I I S I N A H T S , G E N . 2 = F R T E BND TRFlHSPORT S=P!ETHOD D E V . I I S O O E L I H C h = U N S P E C I F I E D S O I J R C E S i
N M R I F Y 8 2 3 7 , 0 0 0 L P ~ I I N I S T R R T I ~ N , S U R Y E I L L R N C E 1
D G T A C O L L E C T I O N ,
( E=COHTFIRIHFINTSI C E N . 7 = H B N B C E f l E H T h = U N S P E C I F I E D S O U R C E S )
( H = O T H E R 7 = f l B N R C E R E H T h = U N S P E C I F I E D S O U R C E S )
173 C 5 9 9 H 7 h H M R I H U R I
( H - O T H E R 7 = H A t 4 A C E H E H T . h - U N S P E C I F I E D S O U R C E S )
1 7 4 C 6 1 4 E 9 - h N U R I 8 D O E ., N M R I
F Y 8 1 9 8 , 0 0 0 PROCRBH D E V E L O P f l E N T . F Y 8 2 1 0 3 , 0 0 0 S T B T I S T I C B L B N G L Y S I S , C O H P U T E R ,
R D V I S O R Y ,
F Y 8 l 9 , 0 0 0 PROGRAR D E V E L O P R E N T : CORPUTER, S U R V E I L L A N C E , U B T E R Q U t i L I TY > H O O E L S , I H S T R U R E N T B T I O N ,
F Y 02 1 5 . 0 0 0 P H Y S I C A L L I R N O L O C Y , I N S T R U B E N T A T I O N . S U R V E I L L A N C E . N E k R S H O R E , MODELS.
F Y 8 l . 3 0 , 5 9 0 P R I O R I T Y C H E H I C B L S , F l N L L Y S I S , I N S T R U R E N T G T I O N , M Q T E R , F E D I R E N T S t C H R O W G T O t R Q P H Y >
( E - C O N T R I S I N A N T S , G E N . S=RETHOD D E V . I H O D E L I N G h = U N S P E C I F I E G S O U R C E S )
1 7 5 C 6 1 5 A 5 h N U R I ,DOE HMRI FY 6 1 4 6 , 5 0 0 A N h L Y S I S J BENZENES, TDXAPHENE, UATER, F Y 6 2 1 6 0 , f J 0 0 SEDI#Ei4T;, B I O T H , F 1 5 S )
( & = T O X I C O R G A N I C S 5-HETHDD D E V . B H O D E L I N G h = U N S P E C I F I E D SOURCES)
I R = T O X I C O R G A N I C S S=PlETHOD D E V . 8 f l O D E L I N t h = l J N S P E C I F I E D SOIJRCES i
N U R I 1 7 7 C 6 2 7 E 5 h N V R I ,DOE
( E = C O N T Q f l I N Q N T S , GEN. 5=f lETHOD D E V . & H D D E L I N C h = U H S P E C I F I E D SOURCES)
8 1 , 0 0 0 B N Q L Y S I S , D I O X I N S t FURRNS. SEPI f lEHTS. . 6 1 : 0 0 0 SUSPEHDED SOL IDS. . B I O T f i : FJ6H. .
5 0 , 0 0 0 B H B L Y S I S , C B R C I N D G E N E C I T Y , AUTACENS, H l C R O O R t t i N I S M S : B 9 t T E R i A . . R I V E R S ; N I k C R R R R I V E R ,
F 0 6 h N U R I H M R l F Y 8 1 4 5 . 6 0 0 H I C R O O R C A N I S H S J B A C T E R I A , S U R V E I L L A N C E , F Y 8 2 4 5 . 6 4 0 L A K E O N T A R I O , I JC,
( F = F A T H O C E N S 6-SOURCE AND L O A D I N G 6 r C R I T E R I A h = U N S P E C I F I E D SOURCES)
1 7 9 C 6 5 3 E 7 k N U R I 'DOE NMRI
( E=CONTRRINRNTS, CEN. 7=f lQNACEf lENT h = U N S P E C l F I E D SOURCES)
1 8 0 C 6 7 0 H 7 h H M R l
(H=OTHER 7 = R I N B C E f l E H T h = U N S P E C I F I E D SOURCES)
5 9 . 0 0 0 P R O C R l H DEYELOPHENT. ADVISORY, 9 2 , 0 0 6 DATA Q U A L I T Y , I J C ,
F Y 8 1 8 3 , 0 0 0 CORPUTER I HSTRUf lE t tTAT I3H: F Y 3 2 1 0 0 , 0 0 0 I D H I N I S T R R T I ON,
1 8 1 C , 2 2 . . .. . J 4 6 7 i , E H D . EHC F Y 8 1 4 5 8 , 0 0 0 T O X I C ORGANICS: T O X I C RETGLS, F Y 8 2 1 , 0 8 2 , 9 0 0 H I C R O O R G R N I S H S ~ URTER GHEAISTRY, F Y 8 3 8 2 5 , 0 0 0 S U R V E I L L R N F E - P R I O R I T Y F H E H I G t i L S I
A N A i Y S I S , . REGUiGT i OMS.. RL~TfiGENB..
( J z S E V E R R L 4*HUARH H E A L T H EFFECTS 6 = C R I T E I I R 7=HdNRFERENT i -SEVERAL SOURCES)
1 6 2 C 2 3 J 4 6 7 i EHD EHC F Y 8 1 3 4 1 . 7 4 6 T O X I C SUBSTANCES, MICROORGAHISWS, F Y 8 2 1 a 1 3 1 . 4 4 6 ASBESTOS F I B E R S , P R I O R l T Y C H E M I C A L S * F Y 8 3 1 ~ 2 4 3 , 0 0 6 HETHODOLOCY, MODELS, D l S I N F E C T I O N .
I H F ORHAT ION, SEMhCE,
( J z S E V E R A L 4=HUMAH HEALTH EFFECTS 6 a C R I T E R I A 7=#ANACEHEWT i s S E V E R A L SOURCES)
1 8 3 C 2 4 J 4 5 7 c EHD EHC F Y 8 1 7 5 1 , 4 0 0 P R I O R I T Y C H E H I C A L S , I U T A G E H S , F Y 8 2 9 6 4 , 9 0 0 CRRCINOGENECITY, T O X I C I T Y , PHYSIOLOGY. F Y 8 3 9 5 0 , 0 0 0 P H A P Y f i C O K I N E T I C S .
( J = S E V E R Q L 4=HURAN H E A L T H EFFECTS 9=l lETHOD DEV. b RODELINC T=HANRGERENT c a I N D U S T R I A L SOURCE)
J 4 5 EHG FYBI' 2 9 8 , 4 0 0 T O X I C ORGAN1 CS, T O X I C RETALS t LEAD, F Y 8 2 3 0 6 , 9 0 0 CRDPIIUR: PIETHODOLOFY, RNRLYSIS , F Y 8 3 4 9 0 : GO0 HRZARP- A S S ' E S S ~ ~ E E ? T !
( J = S E V E R A L 4=HURRN H E d L T H EFFECTS 5=RETHOD D E V , b RODELINF n=ATROSPHERIC SOURCE)
1 8 5 C 2 6 J 4 5 i . EHD EHC , F Y 8 1 2 2 7 , 6 0 0 T O X I C ORGANICS, H I CRODRGGNI SRS, ' ' F Y 8 2 3 9 6 , 4 0 0 AETHODOLOGY, RNALYSIS. . NEARSHORE,
F Y 8 3 3 8 0 , 0 0 0 HRZARD ASSESSMENT, SURVEILLGNCE, . . . SEMAGE,.. 5 0 IL , , ATROSPHERIC SOURCE,
. . . I : ' . . .
( J z S E V E R A L 4=HLlf lAN H E A L T H EFFECTS 5=RETHOD D E V . b MODEL I N C i = S E V E R f i L SOURCES
1 8 6 C . 2 7 . A 4 5 7 h EHD , EHC . , F Y 8 1 4 4 8 , 2 0 0 P E S T I C I D E S , RUTAGENS, HAZARD I S S E S S M E N T < .. . ' F Y 8 2 9 9 3 , 3 0 0 AGRICULTURE, T O X I C I T Y , PIODELS,
F Y B 3 1 , 0 9 0 , 0 0 0 ADVISORY, I H f O R l ~ R T I O N ~ METHODOLOGY>
( A = T O X I C ORGPlNICS ~ = H U ~ A N HEALTH E F F E C T S S = R E T H O D ' DEV. & RODEL I H G 7=HAHkGEHENT . h = U N S P E C I F I E D SOLIRCES i
B 4 5 7 a EHD F Y 0 1 6 9 0 a 5 6 0 6 C I D R A I N , ATMOSPHERIC D E P O S I T I O H , F Y 8 2 1 , . 4 2 6 ~ 5 0 0 ATHOSPHER! C SOURCE, I H D U S T R I A L SOURCE. F Y 0 3 9 0 0 ~ 0 0 0 HAZARD USSESSHENT, S U R V E I L L A N C E ,
ERU'IPNEWT. A D V I S O R Y , P A H ; 5 ,
( B = T O K I C WETALS 4=HU#AH H E A L T H EFFECTS S=METHOD D E V . k MODELING 7m#ANACE#ENT o = A T # O S P H E R I C SOURCE)
1 9 0 C 0 2 9 i 0 1 E 7 c DOF,DSS, E P S UTC, ACB F Y 8 1 7 6 , 0 0 0 1 0 % I C SUBSTLNCES, N I TROCEN: FY 8 2 5 1 . 6 5 0 UR'STEWRTEF T R E R T R E H T :
C O E I t i C EFFLUENT TRERTKE:4:, , . . . . . .
( E = C O H T A M I N d N T S , CEN. 7 = f l A N A L E i l E N T c ~ I N D U S T R I A L SOURCE ) . .
F Y 8 1 8 0 , 0 0 0 VASTEVBTER TRERTRENT, F Y 8 2 1 4 8 , 5 0 0 P I O i G G I C k L CONTROL: C O k L L I R U E F L C T I O H :
( E = C O H T A R I H A N T S , L E N . 6 = C R I T E R I I T=RANALEf lEHT c = I N D U S T R I k L SOURCE)
(0 1 9 0 C 0 1 - 2 4 / 0 4 E 6 7 d EPS, DSS 0 . BC F Y 8 1 1 2 0 ~ 0 0 0 LEACHATES, C H E M I C A L C H A R h C T E R I Z A T I O H a
F Y B 2 2 0 , 0 0 0 MASTE RANACERENT, 61 O L O C I C k t COU:ROL, ORCAHIC COHT A i I l N A H T S , T O X I C SUBSTA'RCES,
( E = C O R T A f i I N A N T S , CEN. 6 r C R I T E R I A 3=MANACEHENT d=MUN I C I P A L SOURCE )
1 9 1 C . 8 1 - 2 6 / 0 5 . C 2 3 7 d O#OE,EPS, DSS UTC, C A N V I R O F Y 0 1 2 5 0 ~ 0 0 0 B I O A V A I L A B I L I T Y . UASTEMATER TREATMENT, F Y 0 2 3 8 , 0 0 0 L A K E E R I E , L A K E O H T A R I O ,
(C=PHOSPMORUS 2 = F A T E AND TRANSPORT 3 = E N Y I R O R H E H T A L I M P A C T S 7-HANACENENT d = M U N I C I P L L SOURCE)
UTC, C A N V I R O F Y 0 1 1 0 1 r 2 0 0 YASTEMATER TREATMENT, M U N I C I P A L SOURCE, F Y 8 2 1 2 4 8 0 0 0 I W D U S T R I AL SOURCE 8
ORCAWIC C O N T A H I H A H T S , ANAEROBIC PROCESSES. H H A E R D B I C F I L T E R , F L U I D I Z E D BED,
( EmCOHT A H I W A N T S J CEN. 7*MANACE#ENT i =SEVERAL SOURCES )
( E P C O N T G H I N R F T S , C E N . i = t l R N R C E A E N T i c S E V E R R L S O U R C E S )
9 6 , 0 0 9 A N R E R O B I C F I L T E R , R E T H A N E , 4 2 , 5 0 0 MRSTEWRTER T R E R T R E N T ,
O R C R N j C C O N T R A I N R H T S , I N D U S T R I A L GOURCE, R U H I C I P R L SOURCE,
1 2 , 5 ? 0 A G R I C U L T U R E ? M R S T E M R T E R T R E R T R E N T , O R C R N I C C O N T R A I N R N T S ~ A N I E R O B I C F I L T E R ,
F Y 8 1 1 9 0 , 0 0 0 RRNURE, A G R I C U L T U R E r V A S T E R A H A C E A E N T , F Y 8 2 3 0 , 0 0 0 R E T H R N E , A N R E R O B I t D I G E S T I O N ,
C O R P O S T l N G #
( HIOTHER ? = R Q N I C E R E N T f = N O N - P O I N T S O U R C E )
c n C3
1 9 6 C 7 8 - 9 / 1 1 H 7 d OROE,NRC!EPS
( H o O T H E R ? = R R N R C E # E N T d = f l U N I C I P R L S O U R C E )
H 7 i E P S
( H = O T H E R 7 = P i f i N R C E f l E N T i = S E Y E R f i L SOURCES )
7 1 , 7 0 0 SEVACE, A N f i E R O B I C D I G E S T I O N . R I X I N G , 6 9 , 2 0 0
1 0 , 2 0 0 SEWACE, C O S T - B E N E F I T , 3 , 0 0 0 U R S T E U B T E R T R E R T R E N T , R C T I Y R T E D S L U D G E ,
PROCE,SS C O N T R O L 3 - I N D U S T R I A L SOURCE, R U N I C I P R L SOURCE..
. .
F Y 8 2 1 0 0 , 0 0 0 , P H O S P H O R U S , , N I T R O C E N , B I O L O C I C A L % O N T R O C n
( D = N U T R I E N T S 7:WGNAGEPlENT d = R l l N I C I P R L SOURCE )
1 9 9 C 8 0 - 1 2 / 1 2 H 5 7 i E P S F Y 8 1 5 4 8 0 0 0 SECONDARY C L R R I F I C A T I D H . P R O C E S S D E 8 1 GNJ F Y 8 2 9 , 0 0 0 S E D I M E N T A T I D N , M A S T E M L T E R T R E A T M E N T ,
, . I N D U S T R I A L SOURCE, ~ U i ~ I C I . P ( r L SOURCE J
(HIOTHER 5 - H E T H O D D E V . b M O D E L I N G 7 = M f i N A C E # E H T i + S E V E R A L S O U R C E S )
2 0 0 C 8 0 - 1 4 1 3 4 J 2 5 i E P S F Y 8 1 1 9 , 0 0 0 T O X I C S U B S T A N C E S , L E A C H A T E S , F Y 8 2 3 3 , 0 0 0 C H E R I C A L C H A R A C T E R I Z A T I O N , R E T H D D O L O C Y .
T O X I C S W O G I L I T Y . BEMACE S L U D G E , L E A C H I N G PROTOCOL-,
< J = S E V E R A L 2 n F A T E AND TRANSPORT 5 - N E T H D D D E V . b M O D E L 1 NC i = S E V E R A L SOURCES )
2 0 1 C 8 0 - 1 5 / 3 5 H 57 d E P S M T C F Y B l 1 0 , 0 0 0 ' V L S T E Y R T E R ' T R E L T f l E N T , COHPUTER, F Y B2 3 , 0 0 0 A D V I S O R Y , C D S T - B E N E F I T , PIODELS,
( H = O T H E A S=P?ETHOD D E V . b R O D E L I N G i=!ldNACE!lENT d = ! l U N I C I P d L S O U R C E >
t i3
'" 2 0 2 C 0 3 6 1 / 3 6 H 5 7 i E P S Y T C F Y 8 1 1 7 , 0 0 0 Y A S T E M A T E R T R E A T M E N T , # E T H D D O L D C Y , F Y 8 2 6 9 , 0 0 0 C O S T - B E N E F I T , SLUDGE C O N D I T 1ON:NCa
PROCESS C O N T R O L ,
< H = O T H E R S = H E T H O D D E V . ?, M O D E L I N G 7 = H A N A C E H E N T i = S E V E R A L S O U R C E S )
H 0 2 c E P S F Y 8 1 3 , 0 0 0 R A D I O A C T I V I T Y . S E D I W E U T S , L E A C H A T E S , F Y 8 2 3 , 0 0 0 M L S T E WAHAGERENT,
( H = O T H E R O=SOURCE AND L O A D I N C Z = F A T E AND T R A N S P O R T c - I N D U S T R I A L S O U R C E )
H 7 c E P S 8 E R R MTC, DEBRBORN F Y 8 1 8 0 , 3 0 0 A D V I S O R Y , F I E L D S U P P O R T , P N B L Y S I S . F Y 8 2 1 0 6 , 0 0 0 D A T B Q U L L I TY 1 L E A C H B T E S ,
POWER G E N E R A T I O N , D E S U L P H U R I SED ' R E 5 1 D U E L
( HIOTHER 7 - A L N R G E f l E H T c = I N D U S T R I A L S O U R C E )
(H=OTHER 7=Hf iHAGEHENT c = I N D U S T R I R L SOURCE)
2 0 6 C 8 1 - 2 / 4 2 0 7 c EP5 Y TC
( @ = T O X I C R E T A L S 7=PiANLGEl?ENT c = I N D U S T R I A L SOURCE)
F Y 8 1 3 0 , 0 0 0 ADY ISORY t F I E L D SUPPORT FY 8 2 7 , 0 0 0 CHERICAL CHARRCTERIZATIONI A N A L Y S I S ,
, P ~ Y E R G E N E R ~ T I O N . .
, . , , BED COHPUSTIOH RESI'DLiEG: . .
FY 8 1 2 0 , 0 0 0 ACCUklULATIONt UASTEWATEP T R E L T I E N T , FY 8 2 1 4 , 0 0 0 POOER GENERfiTION, f i 5H R E C I R C V L f i T I G N t
. , . . . . . 2 5 7 C 8 1 - 3 / 4 3 J 2 3 7 d EPS,DSS (IT C F Y 8 1 6 5 , 0 0 0 RICROORGLNISRS, BRCTER I A , HELVY RETALS,
FY 82 2 , 0 0 0 ORGANIC CONTRAINANTS, SEMgGE, SORPTION, , AGRIFULTORE.* S O I L , ,
. . , . . . .. . . .
( J = S E V E R A L 2 = F f i T E AND TRANSPORT J=ENVIROHHEHTf iL I R P A C T S i = t i f i N L G E R E N T ' d = R U N I C I P A L S O U R C E ) ' . .
P
2 5 8 C. . 8 1 - 4 / 4 4 ' .E 1 5 6 i s ' EPS , YTC F Y 8 1 3 8 , 0 0 0 MfiSTEMATER T'REATHENT t LEACHATES, F Y 8 2 3 3 , 0 0 0 T O X I C I R A O B I L I Z A T I O N , S O L I D I F I C A T I O N ,
. . F I X f i T I O N ,
. . .
(E=COHTARINAtJTS, CEN. l = C H A R A C T E R I S T I F S S = R E T H O D D E V . 8 HODELING 6 = C R I T E R I A i=SEYERAL S O U R C E S )
2 6 9 C 8 1 - 5 / 4 5 E 2 7 i EPS,EHR, DSS MTC, DEARBORH F Y 8 1 8 5 , 3 0 0 UASTE WANACEHENT. COST-BENEFIT , FY 82 4 0 , 0 0 0 T O X I C S CONTROL, SEUACE SLUDGE,
I H C I N E R A T I O H , . . .
, . . I . . . ,
1 E=CONTAHIHANTS, CEN. PIFATE AND TRANSPORT Z=#ANACEHENT ;=SEVERAL SOURCES)
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H 6 7 d EPS F Y 8 1 3 , 0 0 0 VBSTE HRNRGERENT, RGRI CULTURE, S O I L , FY 8 2 1 5 , 0 0 0 SLUDGE TREf iTRENT- SLUDGE U T I L I Z A T I O N <
. . ( 'H=OTHER' 6 = C R I T E R I A I=HANAGEHENT d = R U H I C I P A L SOURCE) . . . . . . . . . , . . .
A 2 3 6 i EPS,ACB, MWB 3 9 , 0 0 6 AGRICULTURE, S O I L . ACC iJWULLT IONA 1 2 , 0 0 0 P E R S I S T E N C E , SEMAGE SLUDGE,
ORGAHIC CONTAFI INLNTS, I N D U S T R I A L SOURCE, f i U i i l C I P A L SOURCE,
( A - T O X I C O R G A N I C S 2 e F A T E AND TRANSPORT 3 = E N V I R O N # E N T A L I H P h C T S 6 m C R I T E R I A i m S E V E R A L SOURCES)
E 2 7 I EPS 2 D S S A OHOE YTC, CGMYIRD FY 8 1 7 6 , 0 0 0 T O X I C SUBSTANCES, M O B I L I T Y , F Y 8 2 1 9 0 ~ 0 6 0 SEMbCE SLUDGE, SLUDGE C O N D I 7 I O N I H C ,
SLUDGE PROCESS1 NC ,
( E ~ C O N T ~ . H I M A N T S J CEN. Z z F R T E AND TRANSPORT 7 = # b N b C E M E N T i - S E V E R A L SOURCES)
2 1 3 C 1 6 H 7 i EPS
( H = O T H E R 7=#ANACEWEMT i = S E V E R A L *SOURCES j
F 3 C-. 2 1 4 C 969/69 E 3 7 c EPS
YTC 7 6 , 5 0 0 A C T I V A T E D SLUDGE, MASTEYATER TREATMEHT ENERGY, C O S T - B E N E F I T , PROCESS CONTROL
FY 81 1 , 4 4 4 R A D I O A C T I V I T Y , FY 82 7 , 0 0 4 P H Y S I C A L / C H E H I C k L TREATRENT,
R A D I U R - 2 2 6 RE f lOYAL ,
( E = C O H T R H I N R N T S , CEN. S=HETHOD DEY. b R O D E L I N G 7= f lANRGEBENT c = I N D U S T R I A L SOURCE)
2 1 5 C 7 9 - 4 / 7 1 E 3 6 7 c E P S s E H L bl T C F Y 8 1 3 6 , 0 0 6 R A D I U A C T I V I T Y 2 SUSPENDED S O L I D S , FY 8 2 1 ~ 0 0 0 YASTEMATER TREATRENT 2
P H Y S : C A L / C H E H I C A L TREATMENT, RAD I U W - 2 2 6 REWOYUL.
( E = C O N T A M I N A H T S . CEN. S=HETHOb DEV. b WODELIMG 6 = C R I T E R I A 7=HAHAGEHENT c = l M D U S T R l A L SOURCE)
2 1 6 C 0 4 - 7 / 7 3 H 5 7 c EPS Y T C FY 8 1 4 , 0 0 0 SUSPENDED S O L I D S , MASTEMATER TREATMENT, F Y 8 2 1 , 5 0 6 P H Y S I C A L / C H E # I C A L TREATMENT,
R A D I U M - 2 2 6 REWOYAL,
( H - O T H E R 5=#ETHOD D E V . h H O D E L I N C 7=MAHACE#ENT c = I N D U S T R I h L SOURCE)
( J - S E V E R A L 5 - R E T H O D D E V . b M O D E L I N G i = n f i H A C E R E N T d = R U N I C I P f i L S O U R C E )
I -
F 7 d E P S Y T C F Y B l F Y B Z
4 5 , 0 0 0 f i D V I S O R Y a F l E L D S U P P O R T 8
3 3 , 0 0 0 VASTEWGT.ER T R E F I T M E N T : B A C T E R I A , S U S P E N D E D , S O L I D S , P H O S P H O R U S R E H O V A L ,
I . . . , ,
2 , 0 0 0 I D V I S O R Y , D I S I N F E C T I O H J C H L O R I N A T I O N , 5 , 0 0 0 V A S T E M A T E R T R E A T ~ E N T , D E C H L O R I H F I T I O N ~
, . .
( F = P A T H O C E N S 7 = f l e H 6 C E f l E N T d = f l U N l C I P f i L SOURCE j
> . . . . . .. .' . ,
2 1 9 C 7 8 I 3 5 7 c E P S b lTC " F Y 8 2 ' 1 , 0 0 0 P R O C R B H D E V E L O P f l E N T , A D V I S O R Y , MASTEMf i .TER T R E A T I I , E N T , f i N A L Y S I S ,
, HETHODOLO'CY., C Q , ~ L ' H I N I N,C,
( I = U N S P E C I F I E D 3 = E N V I R O N f l E N T A L I M P A C T S S = M E T H O D D E V . a I 4 0 G E L I H C ~ = R A N C ~ G E M E N ~ c-INDUSTRI AL' S O U R C E )
E 6 c E P S , , Y T C
( E = ' C O N T 6 M I N A N T S r C E N . : 6 , = C R I T E R I C l . c = I N D L I S T R l A L S O U R C E j
221 C 8 4 E 7 c E P S M T C F Y 82 1 ~ 0 0 0 R B D I O L C T I V I T Y , M L S T E M A T E R T R E A T H E N T , P R E C I P I T A T I O N . R L D I U H - 2 2 6 R E d O V B L ,
( E = C O H T A W I N A W T S , C E N . 7 = # R N A C E W E N T c - I N D U S T R I k L S O U R C E )
. . . . ' 5
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2 2 2 .C O C O i 8 1 J S 7 c E P S , A C B , D S S Y T C , C A N V I R O , K P B F Y B l 9 7 , 0 0 0 H E A V Y M E T A L S , : C Y A N I D E , 6 R S E H I C , F Y 8 2 2 0 4 , 0 0 0 T O , X I S U P S T R H G E S , V A S T E M A T E R T ,REATMEHT t
c o i o ,HI N ING. " ~ ~ L K A L I N E - C H L O R I N A T I ON, . .
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( J = S E V E R F I L 5 = M E T H O D D E V . 8 M O D E L I N G 7 = M A N A C E f l E N T c = I N D G S T R I A L S O U R C E > ... ,
2 2 3 C 8 0 - 1 6 / 3 7 J 3 d EPS U T C
( J - S E Y E R I L 3 = E H V I R O H I E N T l L I M P A C T S d - M U N I C I P A L S O U R C E )
224 C 1 7 H 7 i E PS
< H = O T H E R 7 = f l R N A G E H E N T i r S E V E R R L S O U R C E S )
5 , 6 6 0 H E R V Y H E T I L S , P C B ' s , SEMAGE, S O I L , 2 , 0 0 6 A G R I C U L T U R E , T O X I C I T Y , V E G E T A T I D H ,
F Y 8 2 2 4 . . 0 0 0 A C T I V A T E D SLUDGE, P R O C E S S C O N T R O L , M f i S T E M f i T E R T R E R T R E N T > T E S T i N G P R O T O C O L ,
C R a T O X I C O R C R N I C S 2 a F R T E RND TRRNSPORT T = H f i H A C E H E N T c = I N D U S T R I B L S O U R C E >
I-' 3 w 2 2 6 C 7 8 - 1 6 / 7 6 J 67 . 1 . EPS U T C
C H L O R I N R T E D HYDROCARBONS, P H E N O L S >
f l O B I L I T Y . VGSTEMGTER T R E G T R E N T , T D X i C S CONTROL, I N C I N E R A T I O N , C O S i - B E U E F I T ,
T O X I C S U B S T A N C E S . ATMDSPHER I C SOURCE, I M D U S T R I A L SOURCE 2 A C I D R A I N , U l S T E M l T E R T R E A T H E N T , A D V I S O R Y , POMER C E N E R I T I O N ,
C J z S E V E R A L 6=CR I T E R I A 7eMAHACEMENT i = S E V E R l L S O U R C E S )
YTC. Z E N O N F Y 8 1 1 2 , 3 6 0 Y l S T E Y l T E R T R E A T H E N T , R C T I V A T E D CARBDM. FY8.2 9 6 . 5 6 6
( R - T O X I C O R G A N I C S S = f l E T H D D D E V . & H O D E L I N G 7 = R A N R G E R E H T c=INDUSTRIQL S O U R C E )
U T C F Y 3 1 1 , 0 0 0 MGSTEMRTER T R E R T l l E N T , T H I O S Q L T S RENOYQL: 0 1 O L O C I C A L T R E Q T R E N T ,
.. . .
( E = C O N T R f l I N Q N T S , C E N . S f H E T H O D D E V . 8 R O D E L I H C 7 = f l R U R C E f l E N T c=INDL 'STRI~~L S O U R C E )
2 2 9 C 0 3 4 C E B 2 6 7 d E P S Y T C F Y 8 1 7 , 3 0 0 M I S T € RQNRGEHENT.. S O I L , SEWAGE, C O P P E R , .: . : -. . .~ . . . '
. . . . . . . - . , . .> : . ..I. . . . . . T O X I C I T Y 1 RETHODOLOGY; . . . C H E R I C R L SLLlDtES.. LANO B I S F O S f i L ;
L Y s I R E T E R S T U D I E S , . .
. . . i . . . . , . .
( B = T O ) c I C H E T Q L S 2 = F R T E Q W D TRRNSPO'RT 6 = C G I T E R I Q ' ~ = ~ ~ Q N I G E H E N T d = I 3 U N I C I P G L SDCiRCE) . . . .. , . .,
E 5 7 c E P S . .. ,
4 S a 6 6 6 M A S T E M A T E R T R E A T M E N T , C O S T - B E H E F I T , D E E P S H A F T P R O C E S S ,
. . PERFORWANCE E Y A L U A T I O H ,
' I E = C O W T A W I ~ A # T S , C E N 5 = H E T H O D D E V . & W O D E L I N C 7=HAWACEWENT c = I N D U S T R I A L S O U R C E )
- 1 : . . . . . 2 3 1 C 8 1 - 2 1 / 0 3 E 2 5 7 i E P S W T C F Y 8 1 6 , 0 0 0 TOX I C SUBSTONCES.. ORCLNIC C O N T Q f l I N I N T S ,
F Y 8 2 1 3 9 5 0 0 B I O L O C I G Q L CONTROL 0
MA"STEWI'TER 'T .RE:GTMEHT, N E T H ~ D Q L O L ' ~ . > . . .
. (E=CORTt f ! f l INQHTS, t E N . 2 1 F 4 T E RNC T R Q N S P O R T S=I?ETH@C D E V . 8, R O D E L I N G 7 = f l Q N 6 G E A E N T 'I.'=SEVE,RQL SOURCES > . . . . . . .
. </ . . . .' .
C-l ( : . .. . . 0
. . . .
'232 C 8 1 - 2 3 / 1 5 I 5 7 i E P S , P O L Y Y T C F Y 8 1 2 2 , 0 0 0 M I S T E M R T E R T R E I T R E N T , E C O N D H I C S SEMAGE.. F Y 8 2 3 3 , 7 9 0 I N D U S T R I Q L SOURCE, f l U N I C l P O L SOURCE,
Q C T I V A T E D , S L U D G E . PROCESS C O N T R D L .
. . . . : . ( I = U N G F E C I F I E D S = R E T H O D - D E V . B H O D E L I N C 7 = B A N Q G E l f E N T i q S E V E R I L S ~ U R C E S ) ' . , .. . . . . . . .. . .
233 C 8 1 - 3 2 / 7 5 J 5 7 i E P S Y T C F Y 8 1 1 5 , 0 0 0 PHOSPHORUS, T O X I C S U P S T Q N C E S . . . . . , ; . .. F Y B 2 3 6 , 0 0 0 Y R S T E Y L T E R T R E G T f l E N T , R U N I C I F R L SOURCE, . . . .
I H D U S T R I G L SOURCE, F I L T R R T I O H a P R O C E S S C O N T R O L ,
. . ; . . . . . , . . ~ . .
. . . ( J z S E V E R R L 5 = F l E T H O D D E V . $ RODELING 7 = f l Q N I C E W E N T i = S E Q E R A L S O U R C E S > ' . .
Y T C F Y 8 1 1 1 , 0 0 0 S V S P E N D E D S O L I G S , Y Q S T E M Q T E R T R E G T R E H T , A D V I S O R Y , F I E L D S U P P O R T ,
( H = O T H E R S = R E T H O D D E V . B B O D E L I N G 6 = C R I T E R I R 7 = H Q N I C E f l E N T r = I N D U S ? R I Q L SOURCE,) - , . . .
. . . . . . . .
,
235 C 8 1 - 3 6 / 7 7 I 7 c EPS MTC
< I = U N S P E C I F I E D 7-WAHACEHENT c - I H D U S T R I A L SOURCE)
ORNR
(CaPHOSPHORUS 3=ENQIRONHENTAL I R P R C T S d = H U N I C I P A L SOURCE)
C 3 h ORHR ORNR
F Y 0 1 2 2 , 4 4 0 PHOSPHORUS CONTROL, ECOSYSTER RESPONSES? F Y 8 2 1 7 , 8 9 6 F I S H , L A K E O N T A R I O , BRY OF G U I N T E t F Y 8 3 1 0 . 3 3 0
F Y 0 l 6 . 6 1 4 ECOLOGY 8 F I S H , B I OTA, L A K E ONTRRIO, F Y 92 5, ,291 B 1 Y OF Q l i I N T E : F Y 8 3 9 , 2 8 5
(C=PHOSPHORUS 3 = E N Q I R @ N R E N T A L 1 RPACTS. h = U N S P E C l F I E D SOURCES )
H 3 o OHHR ORNR .> F Y 8 1 2 2 , 0 4 3 A C I D R A I N , ECOSYSTEH RESPONSES, FY 8 2 1 1 . 3 7 4 T O X l C l T Y T E S T I N G , F I S M . 8EHTHOS, F Y 8 3 1 3 . 2 6 0 L A K E SUPER:OR B A S I N , Ii4LAWD L R K E S .
(H=OTHER 3 = E H V l R O N H E H T A L I H P A C T S a = A T H O S P H E R I C SOURCE)
OHNR
< J = S E V E R A L 3=EWVIROHHEWTAL I H P A C T S o = A T H O S P H E R I C SOURCE)
2 4 0 C ( A ) - 2 H 3 a ORNR OHNR
( H a O T H E R 3 - E N Q I R O N R E N T B L I R P A C T S a = f i T R O S P H E R I C SOURCE)
2 6 . 7 6 7 ECOSY S T € # PRODUCT I V I TY , 2 3 , 8 1 4 STRESS RESPONSES, R C I D R A I N , 2 3 . 2 7 3 E X F L O I T A T I O H , 6 1 O T A , F I S H .
L A K E S U P E R I O R B A S I N , BOREAL FOREST L A K E S .
3 2 , 5 0 0 A C I D R L I N , F I S H CROYTH, PHYSIOLOGY, 3 2 , 5 2 9 L A K E O N T A R I O DRAINAGE, I N L I N D L L K E S , 2 8 , 6 0 0
2 4 1 C ( A ) - 3 . , . . ' . H 3 a 014HR . , . , . OR NR
(H=OTHER 3 = E N V I RONREHTBL IPPGCTS a=PTWOSPHERIC SOURCE)
. . . .
2 4 2 C 077 B 3 I? GLFRB GLFRP
( B = T O X I C RETALS 3=EHVIRONAENTRL I R P d C T S b=DREDGING!
2 4 3 C 9 7 3 H 8 h CLFRB CLFRB: OHNR
(H=OTHER B=OTHER h = U W S P E C I F I E D SOURCES)
F Y S l 1 9 , 5 0 0 F I S H GROMTH, C B L C l U R R E T B B O L I S H - FYP2 9 , 5 5 9 A C I D STRESS, BGE D E T E R R I N A T I O N ,
F Y 8 2 1 9 , 0 0 0 B I O T R , PLQNKTON, ZOOPLANKTON t F I S H , TRENDS< P B R T I C U L A T E S , TEAPER$lTURE, CEORCIBN BAY, L A K E HURON.. , , ., . . . : . . ..
. . . . * . . . . .
F 0 rn 2 4 4 C 0 8 2 , I 3 5 h GLFRB CLFRB F Y 8 2 5 , 9 0 9 F I S H : BAY OF P U I N T E , RETHODOLOGY,
S U R V E I L L A N C E . H B B I T Q T , LAKE ONTf iRIO,
2 4 5 C 9 2 B / ? 9 8 A 2 h GLFRB GLFRB F Y 8 2 1 1 t 9 9 9 P C B ' s , B I O T B , BEHTHOS, SEDIRENTS, D Y N A f l I C S r QLGAE, LGKE ONTARIO,
( A = T O X I C ORGANICS 2=FGTE AND TRANSPORT h = U N S P E C I F I ED SOURCES 1 . . . . . . . . . . . . .
. . , . , . . . . . '
A 3 h CLFRB GLFRB FY 8 2 6 , 0 0 9 D I O X I N S , PRODUCT1 V I T Y , F I S H , RdRSH, N I i iSGRR R I V E R , B I O C H E l + I S T R Y , PHYSIOLOGY, LAKE ONTARIO,
. , , . ( A = T O X I C ORGANICS J=ENVIRONHENTAL I R P A C T S h - O H S P E C l F I E D SOURCES). , ' . . .
. . . " . . . .: : . .
A 3 5 h C L F R B F Y 8 1 5 3 , 0 0 0 P A H ' s , F I S H , P H Y S I O L O G Y 0 B I O C H E M I S T R Y F Y 8 2 2 0 4 5 0 0 HBRBOUR 4 L A K E O N T A R I O ,
( A m T O X I C O R G f ? H I C S 3 = E N V I R D N H E W T A L I H P L C T S 5 n H E T H O D D E V . b M O D E L I N G h = U N S P E C I F I E D S O U R C E S )
E 3 h G L F R B F Y 8 1 2 1 , 0 0 0 F I S H . , P R O D U C T I V I T Y r P H Y S I O L O G Y F Y 82 2 3 , 0 0 0 L I R E O N T 9 R I O , B I O k S S f i Y :
( E = C O N T A f l I N A N T S , C E N . 3 = E N Y I R O H R E H T A L I M P A C T S h = U H S P E C I F I E D S O U R C E S )
2 4 9 C 0 4 2 I 5, b C L F R B L L F R B : HMR I
( I = U N S P E C I F I E D 5 = t l E T H O D D E V . b I I O D E L I N C b = D R E D C I N G )
6 y 2 5 0 C 0 0 6 E 3 h C L F R B G L F R B
F Y 82 2 6 , 0 0 0 I l E T H O D O L 0 6 Y . S E D I M E N T S , B I O A S S b Y , I Q U Q T I C S Y S T E f l S , H A R P D U R . L A K E O N T R R I O , L R K E E R I E , C H E f l l t k i C H Q R R C T E R I Z I i I O H . C E O C H E R I S T R Y ,
F Y 8 2 1 0 , 0 0 6 D A T A C O L L E C T I O N . B I O T A 8 BEHTHOS, ECOLOC'I'. MATER Q U A L I T Y . S E D I M E N T S . L A K E E R I E , D I S T R l 2 U T I O t 4 ,
E S a G L F R B C L F R B F Y 8 2 1 5 , 6 0 6 METHODOLOCY, F I S H . STREAMS, A C I D R A I N , L A K E S U P E R I O R *
( E = C O H T A M I H I N T S . GEM. S=HETHOD D E V . 8 H O O E L I H G & = A T M O S P H E R I C S O U R C E )
H 7 h G L F R B GLFRB, C L F C F Y 8 2 2 , 0 6 6 H D D E L S , E H V I R O H H E N T R L S I H U L A T I O H ; R E H A B I L I T L T I O N , F I S H , H A B I T A T ,
( HmOTHER 7 = M A N L C E # E H T l>=UHSPEC I F I E D S O U R C E S )
2 5 3 C 9 7 1 I 3 , h. C L F R B , , C L F R B F Y 8 1 1,500 P R O D U C T I V I T Y . B I O T k , P L k H K T O N , . , . . F Y 8 2 4,000 PHY T G P L k N K T D N , B E N T H O S , ECOLOGY, D Y N A R I C S , L R K E HURONr
: , . . . .
( I=UN~PECIF IED 'B=ENVIRONRENT~L I R P R C T S ~ = ~ N S P E C I F ~ E D ~ S ~ U R C E S > . .
254 t 4 9 S O I i E 0 a 0 N T . H . : . D N T . H.. FY 8 3 40,000 S U L F U R D I O X I D E - F U R V E I L L R N C E , . . F Y 84 40,000
( E = C O H T k R I N & N T S G E N O=SOURCE PND L O R D I N G a = k T I l D S C H E R I C SOURCE;
3
2 5 5 C 9 9 3 1 5 J 2 c . ONT'.H: ' 0 N T . H . .
( J = S E V E R k L 2 = F R T E AND TRRNSPORT c - I N D U S T R I k L SOURCE,;
FY 8 2 30,000 T H E R M A L P O L L U T I O N , C H L O R I N R T I O N , P L U M E S * k N k L Y S I 5 , L I R I T E P U S E ZONE:
0 N T . H . F Y 83 56,660 P R E C I P I T A T I O H , AEROSOL, A C I D R A I N , F Y 8 4 50,006 S U L P H A T E S , I N A L Y S I S . S U R V E I L L A N C E .
( E = C O , H T A B I N A H T S , C E N . b=SOURCE AND L O I D I N C a = A T M O S P H E R I C SOURCE! . . .. . . . . .:
257 - C : 9 9 3 5 3 ; C 3 :C . , O N T . H . , . O N T . H . , F Y 8 2 8 3 , 3 3 3 8 1 0 T A , HYDROLOGY, F I S H E N T R A P M E N T , . . F Y 8 3 8 3 , 3 3 3 F Y 8 4 8 3 , 3 3 3
. . . . . , . . . ( C = T H E R W A L D I S C H A R G E S ~ ' = E N V I R O N N E N T ~ I M P A C T S &INDUSTRIAL S O U R C E )
2 5 8 G 9 s 3 5 5 . : , . G 7 . c O N T . H : O N T . H . . F Y 8 2 15,000 I N T k K E , S C R E E N S * F I S H . . .. . . . . .
( G = T H E R l l k L D I S C H k R C E S 7 = H k N R G E R E N T c - I N D U S T R I k L SOURCE i , . . . .
C 3 c 0 N T . H . O N T . H . F Y 8 3 4 5 ~ e 6 0 B I O T A , ALGAE, P R O D U C T I V I T Y , D I S T R I B I J T I O H , H A B I T A T ,
( G = T H E R # A L b ISCHARGES 3 - E N Y I RONWENTAL I M P A C T S =-I N D U S T R I A L SOURCE)
FY 82 5 0 ~ 0 6 6 E N T R I P M E N T . B I O T A , F I S H , F Y 8 3 ' 5 0 . 0 3 6 FY 84 5 3 ~ 0 0 1 )
(C=THERPIAL D I S C H A R G E S S=ENYIRONWENTAL I M P A C T S c = I N D U S T R I A L SOURCE)
0 N T . H . F Y 8 3 3 6 , 6 6 0 LEACHATES, F L Y ASH, P I O E I L I T Y , FY84 3 0 . 0 3 6 A Q U A T I C E H V I R O H H E N T S , L A N D F I L L S .
L A N D D l S F O S A L ,
( E = C O N T A M I H A N T S . CEN. Z = F A T E AND TRANSPORT f = N O N - P O I N T SOURCE)
B 0 c 0 N T . H . O t4T .H . FY 83 7 5 , 0 0 0 ASH, C D d L P I L E S , RUNOFF. pH, FY 84 7 5 , 0 0 0 GROUHDMQTER, LE f iCHPTES t
( B = T O X I C I l E T Q L S O=SDURCE dND LOQDIHG c = I N D U S T R I A L 'SOURCE)
B 0 c 0 N T . H . 0 N T . H . F Y 8 3 4 5 . 6 6 0 LEACHATES, ASH, A I R . COAL, FY 84 4 3 . 0 6 0
( B = T O X I C A E T Q L S O=SDURCE QND L O d D I H G c = I N D U S T R I f i L SOURCE>
2 6 4 C 9 9 3 6 9 , J 67 c ONT. H. O N T . H . F Y 8 3 7 5 ~ 0 h 6 T O X I C ORCAHI CS. R A D I O A C T I V I T Y , P A H J 5 r FY 84 7 5 1 6 6 0 H I T R I C O X I D E , ORGAHIC C O M T I H I H l N T S ,
CARBDH.
( J = S E V E R A L O=SOURCE AND L O A D I N G 7~WANAGEPIENT c = I H D U S T R I A L SOURCE!
, (E=COHTAf l INhNTS. . GEH. 0-SOURCE AND L O A D I N G c = I N D L I S T R I G L SOURCE ) a .
2 6 6 c" 9 g 3 7 2 : . : ': E 3 . a 0 N T . H ; ONT.. H . FY 83 3 0 , 0 0 0 A C I D , B I OTA, L A K E S , S O C I O E t O N O f l I CS, FY 8 4 3 0 , 0 0 0
' . ., .( E = C O H T A f l I N R # T S : GEN. 3 = E N V I R O N f l E H T A L I A P A C T S a=AT,npf .PHERIC SOURCE) ' , . . ~
F Y P 3 6 0 , 0 0 0 SOCIOECONOf l I CS, C O S T - B E N E F I 1 , F Y 8 4 6 0 , 0 0 0 POYER CENERLT~O 'N , R I R : WATER,
(E=CONTI? f l INRNTS: G E N . . 3 = E N V I R O N B E N T A L I f l P f i C T S c = I N D U S T R I A L SOURCE)
C1
2 6 8 C 9 9 3 7 4 E 5 a ONT H 0 N T . H FY 8 3 7 0 , 0 0 0 RODELS> R C I D R A I N , F Y 8 4 1 5 , 0 0 0 A T H O S P H E R I C D E P O S I T I O N .
POYER CENERLT ION,
( E = C O N T A f l I N R N T S , CEN. S=RETHQD D E V . % RODEL ING ~=ATROSPHERI c S O U R C E i
. . . .
. . . . . , . . . . . .
2 6 9 9 9 a 7 s E 0 5 a ' O N T . H . GCRES; O N T . H : ' ' F Y 8 3 1 5 , 0 0 0 a C I D R A I N , ATRDSPHERIC D E P O S I T I O N , F v 8 4 1 3 , 0 0 0 MODELS,
(E=CONTPf l IHRPTS. . GEN O=SOURCE PND L O A D I N G S=F!ETHOC DEV % R O D E L I N C a = A T R O S P H E R I C SOURCE)
2 7 0 C 9 9 3 7 7 ' . J 0 . c . -. ONT. H . . : . . . . PN.1. H . , , . . F Y 8 3 4 5 , 0 0 0 L E Q ~ H B T E S , T O X I C ORGRNICS, D I O X I N S , ' F Y I 4 4 5 , 0 0 0 YASTE A R N G G E H E N T ~ SEWRGE.. FCRUBFER..
SULFUR D I O X I D E , . .
. . ! J s S E V E R k L ?=SOLIRCE AND L O h D I N C ' c = I N D U S T R I R L SO'URCE')
2 7 1 C 9 9 3 7 8 E 7 c 0 N T . H . O N T . H .
( E - C O N T ~ # I N A H T S , C E N . 7 = H A N R C E # E N T c = l N D U S T R I A L SOURCE )
F Y 8 3 8 3 , 0 0 0 S U L F U R D I O X I D E , A I R , E C O N O B I C S , F Y 0 4 8 5 , 6 0 0 POMER C E H E R h T I O N ,
C 3 7 c 0 N T . H . O N T . H . F Y 8 2 3 0 5 , 0 0 0 V B T E R Q U A L I T Y , B I O T G , F I S H , E N T R f i P R E N T , F Y 8 3 3 0 5 , 4 4 4 I N T g K E : F Y 8 4 3 0 5 , 9 P 0
( C m T H E R f l A L D I S C H A R C E S 3 = E N V I R O N ! 4 E N T A L I R P A C T S 7 = A A N 6 C E t l E N T c = I N D U S T R I O L S O U R C E )
( G = T H E R f l A L D I S C H A R G E S 2 = F A T E BND TRANSPORT c = I N D U S T R I 6 L S O U R C E )
k- k- c-. 274 c 3
F Y 8 1 4 2 , 0 0 0 . P L U R E S , L A K E HURON, D I S T R I B U T I O N , F Y 8 2 1 3 0 , 0 9 0 T E R P E R B T U R E , F Y 8 3 3 4 , 0 0 0
F Y 8 2 2 8 . 5 0 0 THERWAL P O L L U T I O N . HYDROGEN S U L P H I D E . FY 63 2 8 , 5 0 0 P L U M E S , L I M I T E D U S E ZONE, N O D E L S ,
( J = S E V E R l L 2 = F R T E AND T R l N S P O R T S z M E T H O D D E V . L M O D E L I N G c = I N D U S T R I A L S O U R C E )
Appendix VI Historical Research Activities
in the Great Lakes
A P P E N D I X '41: H/FTC:FiICGL S E S E G R C H Q C T I V I T I E S :'N THE GRERT LSIKES
- - - - - - - - + = C - - - - - - - - - - - - ' - - - - I - - - - - - - - - - - - - - - - - - . - - - - - - - - - - - - - - - - ' - - - - ' - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - s = ~ - ~ - - - - - - - - - - - - - - - - - - - - - - - - - - - - - ------------------------------------------.-------------------.--------------------------------- - . . . . . . . . . . . . . . . . . . . . . I . J . - C . P d G E N O . PROJECT F U N D i N t P E R F O k R l or. &flC;U#T S E R I d L I t 4 1 9 7 6 CODE O R G I N 1 Z R T I O N ORCRNI Z 9 T I @ N FUNDED K E Y Y Q W P S
No.. D I R E C T O R Y ssL=====1=1==+=5O5;i==-",-=5.==51L=Ls----------------------- . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - = = - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - = - - - - - - - - - - - - - - - - - - - - - - - - - - - - -
(I5 E F Y 7 5 6 9 , 3 3 3 P n Y S i C G L L IRNOLOCV. CURRENTS, YAVES, FY 7 6 69: 353
" F Y 7 7 69 ,333
(H=OTHER 2 = F A T E AND TRANSPORT h = U H S P E C I F I E D SOURCES) .. .
0 0 2 R 52 H S g ACE I C E , NOQd F Y 7 5 4 P H Y S I C R L L I I N O L O G Y e HYDROLOGY,
< H = O T H E R S=RETHOD D E V . & R O b E L I N G g=OTHER SOURCES) . .
* . :, >,.: . . , . . , . . . , . . 403 R 5 4 . - H 5 f I C E ' RCE, N D I I . ,* - . . . : ~ ~ 7 6 . ' . .'.4i';.666 EROBIOH, . HEIR SHORE^. TERPORRL V~R-ICIT ION,
FY 7-7 41 ,666
> (H=OTHER S=RETNOD D L V . & N O D E L I N G f = R O N - P O I N T S O U R C E ) . ,
, .- , . .
E 2 3 5 i RCE ACE , FY76 260 ,400 S U R V E I L L Q N C E , P O L L U T I O H , PEPIOTE SENSING.* F Y 7 7 2 6 0 , 4 0 0 D I S P E R S I O N , E R O S I OH: S E D I f l E N T S P
TERPERATURE, D Y N R H I C S ? ECOLOGY. E U T R O P H I C I T I O N *
CE=CONTFIR INdHTS, GEM. 2 s F Q T E AND TRCINSPORT 3 = E N V I R O N H E # T R L I l t P A C T S S = R E T H O D G E V . P PIOGELINC i=SEQERFIL SOURCES) . .
E 3 f ACE F Y 7 6 5 , ? ? 4 , 0 0 0 D R T A C D L L E C T I O N , G I O T L , F I S H : RRCRVPHYTES, L d K E S U P E R I O R , R I V E R S , S T . L O U 1 6 R I V E R , HQRBOUR:
(._E=COH?FIRI HkMTS.. GEM. 3 p E H V I ROWRENTRL IRPFICTS f=NON-PO I N ? SOURCE )
0 0 6 A 1 3 8 fi 2 6 b ACE U . T E X F Y 7 6
( A-TOX I C ORGPN I C S 2 u F A T E AND TRfiNSPORT 6 - C R I T E R I B b=DREDCI NG >
E 0 5 7 h I C E
0 P C B ' S , SEDIMENTS, B I O T d , BENTHOSA ACCUHULATIOH> B I O A S S f i Y ,
ACE, U S E P I F Y 7 4 6 2 5 , 0 0 0 PROGRIM D E V E L O P I ~ E H T J R E H B P I L I T 6 1 ION, F Y T S 6 2 3 , 3 0 6 L I K E E R I E < UASTEUATER TREATRERT: F Y i 6 6 2 5 , 0 0 0 F Y 7 7 6 2 5 , 0 0 0
. .
(E=COWTARIHAHT6. . 'GEM. O=SOURCE PlND L O A D I N G S=RETHOD D E V . 8, MODELING 7=MIWICEHENT h=UNSPEC' IF IED SOURCES)
H 1 g ~ C E I C E FY 7 5 3 S E D I R E H T S t BOTTOM S U B S T R I T E S , L I K E S , FY 7 6 0
(H=OTHER l = C H A R I C T E R I S T l C S g=OTHER SOURCES)
J 3 b ACE U . M I .
010 A 3 1 4 E 2 3 b ACE
FY 7 4 9 8 8 8 6 4 T O X I C SUGSTLNCES, S E D I I E N T S . FY 7 5 9 8 , 8 6 4 B I O A V A I L A B I L I T Y . CURRENTS, TEMPERATURE, F Y 7 6 9 8 , 8 6 4 OPEN LAKE, HARBOUR, L A K E SUPERIOR.
. .
ACE, SUCB F Y 7 6 607,000 SEDIWEHTS. HARBOUR. OPEN LAKE, A Q U A T I C SYSTEHS, HYDRAULICS.
(E=CONTAMINANTS. CEN. 2=FATE AND TRANSPDRT 3=ENVIRON#ENTAL 1 IPACT.S b = D R E b C I M C )
6 1 1 A 3 1 4 J 3 b ACE SUCBaACEaUSEPd F Y 7 6 2 4 5 , 5 6 2 NUTRIENTS, T O X I C METALS, pH, O I L , . . Y L T E R e u A L I T Y . O P E N LLKE , H A R B O U R ,
SEDI#ENTS,, L A K E E R I E ,
. . 0 1 2 A 3 1 5 1 ' 3 b' ' ACE SUCB
( I = U N S P E C I F I E D J=ENY 1,RONHENTAL IWPACTS b=DREDGINC )
0 1 3 A 3 1 5 E 7 b ACE ACE
( E = C O N T I R I Y A N T S CEN 7=RANRCEf lENT b = D P E D G I N G )
$ 1 4 A 3 1 6 E 7 b ACE a ACE
( E = C O N T f i H I N A N T S , GEN. 7=HANAGERENT b = D R E D G I N G )
F Y 7 6 1 8 0 , 9 4 1 HARBOUR, B I O T A , BEHTNDS, PLANKTOH. F I S H , L A K E ERIE. .
FY 7 6 0 P O L L U T I O N , YASTE R A N I G E H E N T r > F Y 7 7 0 S U R V E I L L f i N C E ,
0 S U R V E I L L A N C E , P O L L U T I O N , 0 URSTE RANAGERENT,
P rn 0 1 5 A 3 1 8 H 1 2 b ACE I N D . B I O T L A B F Y 7 6 1 8 1 , 9 5 7 SEDIflENTS, HARBOUR, L A K E E R I E ,
H Y D R A U L I C S ,
(H=OTHER I = C H A R A C T E R I S T I C S 2 = F A T E AND TRANSPORT b = D R E D G I N G )
. , - . . , . . . , . , . . . . , . , . .
0 1 6 A 3 1 9 H 7 b ACE ACRES A M . L T D . FY 7 6 9 0 , 6 0 0 SED IWENTS, U A S T E MANAGEHENTJ , .
0 1 7 A 3 2 4 H $ 7 f ACE H T U FY 7 6 2 0 , 0 0 0 SHORE, EROSION, P L A N , HARBDUR, TRENDS,
(H=OTHER O=SOURCE AND L O A D I N G ?=RANRGEflENT f = N O N - P O I N T SOURCE) , . . .
. .,
6 1 0 A 325 H 0 7 t ACE HTU F Y 7 5 , , 1 8 , 7 2 8 SHORE, EROSIOW, PLAH, HARBOUR, TRENDS, . . . ,
i H - O T H E R 0-SOURCE AND LOADING 7-MANAGEMENT CmNOH-POINT SOURCE) . ,
. . . .
H 0 f BCE FY 7 4 2 2 , 5 0 0 SHORE, EROSION, TRENDS. HARBOUR, VBVES, FY 75 2 2 , 3 0 0 FY 7 6 22 , SO0
(HaOTHER O=SOURCE AND LORDING C=NON-POINT SOURCE)
6 2 0 A 397 H 3 b A C E SUCBaUSEPA F Y 7 6 1 6 6 , 9 4 1 HARBOUR. B I O T A , PLANKTON, BENTHOS, F I S H , D I S T R I B U T I O H j TEnPORAL V A R I A T I OW. ECOLOGY,
F 2 a NOBB CLERL
(F=PATHOCENS 2 - F n T E BND TRQNSPORT a=BTROSPHERIC SOURCE)
0 P H Y S I C B L L I F i H O L F 6 f , C I R C U L I T I O N , 0 D Y N n H I C S . TEHFORRL V f i R I f i T I O N ? Y G V E S *
6 P H Y S I C A L L IMHOLOCY, NEARSHORE, 0 C I R C U L A T I O N , 0 0
(F=PATHOCENS 2 = F A T E AND TRAHSPORT h = U N S P E C I F I E D SOURCES)
023 A 3 8 , ' H 25 h NOLA GLERL FY 7 5 0 EHVIRONMENTAL S I W U L A T I O N , C IRCULATIOMx FY 7 6 6 D I S T R I B U T I O W ; TE i iPQRdL VARIAT!OR; FY 7.7 6 TEMPERATURE, NEARSHORE; L A K E OHTkF:IG.
., . L A K E WICHICAN 8
< . . . . . I
. .. 1H=OTWER ? = F A T E AND TRANSPORT S=HETHO@ DEV. 8 MODELING h = U N S P E C I F I E D SOURCES)
. . . - . . . .
. . . 3 2 4 G 3 8 H 2 h NOAFi C L E R L n C C I U F Y 7 4 0 L I K E O H T f l R I O , P H Y S I C A L L I R N O L O G Y :
F Y 7 5 0 . F Y 7 6 0 , . . . . .. .
H 2 h NOFiG,USEPFI C L E R L
. , . . ( H = O T H E R Z = F B T E R H D T R A N S P O R T ~ = U H S P € C ~ F I E D S O U R C E S )
0 2 6 FI; 4 1 ,, , . . . . H 8 . , h N O F i F I . . . . , C L E R L
C H = O T H E R B = C T H E R h = U N S P E t I F I E D S O U R C E S )
H Z h N O l G ' C L E R L
< H = O T H E R 2 = F G T E R N D T R F i H S P O R T h = I ? N S P E C I F I E D S O V R C E S )
. . O Z S A 5 3 H 5 J " H O A A . C L E R L ' ; C L E R L
! H = O T H E R 5 = H E T H O D D E V . b M O D E L I N C ¶ = O T H E R S D U R C E S )
0 C U R R E N T S , N E G R S H O R E : L G K E R I C H I C G N , 0 C l R t U L I T I O N , T E H P O R G L V G P I I T I O N ,
D l S T R I P U T I O H ,
0 L G K E HURON, P H Y S I C R L L I f l H O L O G Y ~ 0 T E R P O R I L V A R I A T I O N ,
0 T E f l P O R l L V d R I F i T I O N , S U R Y E I L L G N C E t H Y D R O L O G Y ,
0 H Y D R O L D G Y . H Y D R A U L I C S s T E M P E R A T U R E J R I V E R S , S T . C L A I R R I V E R , D E T R O I T R I V E R .
( I = U N S P E C I F I E D Z = F A T E FiND T R A H S P O R T g = O T H E R S O U R C E S )
C L E R L : U S E P I F Y 7 4 4 , 3 7 5 , 0 0 0 L A K E O H T G R I O , D f l T G C O L L E C T I O N ,
. > . . . F Y 7 5 4 , 3 7 5 , 0 0 0 U l T E R Q U A L I T Y , P H Y S I C G L L I M N O L O C Y , ' . F Y 7 6 4 , 3 7 5 , 0 0 0
F Y 7 7 4 , 3 7 5 : 0 0 0 . . ' :,. . ,
( J m S E V E R A L 2 = F A T E , A H D TRANSPORT h = U N S P E C I F I E D SOURCES)
J 32 h NORAJGLERL CLERL
( J = S E Y E R A L O=SOURCE AND LOADIHC 2 = F A T E AND TRkNSPORT h = U N S P E C I F I E D SOURCES)
0 3 2 n 139 H 2 h N O R A ~ G L E R L GLERL
tH=OTHER Z=FATE AND TRINSPORT h = U N S P E C I F I E D FOURCESi
0 L A K E H I C H I C I N , NEARSHORE, D I S T R I B U T I O N , 0 TEMPORAL V A R I A T I O N , OPEN LAKE;
0 R I V E R S . OSUEGO R I V E R , L k K E ONTARIO, 0 HIRBOUR: #I?TER Q U i i L I TY: D I S T R I B L ~ T I O N , P TEHPORRL V k R i k T I O N .
0 OXYGEN, DYNRNICS? L I K E O N T I R I O , S T A T I S T I C R L A N R L Y S I S , ,
FY 7 6 1 7 . 7 3 4 INSTRUHENTATION, NEARSHORE, HARBOUR, HATER Q U A L I T Y ,
(H=OTHER 2 = F A T E AHD TRANSPORT 3=EHVIRONMEHTAL IMPACTS 5=METHOD D E V . MODELING h = U N S P E C I F I E D SOURCES)
0 3 4 A 4 8 H 2 5 h N O A A . U . Y I . U . M I . FY 7 5 1 0 0 . 4 6 9 HARBOUR, LAKES, D I S P E R S I O N , POLLUT lOH,
(H=OTHER 2 = F A T E AND TRANSPORT S=METHOD D E V . b HODELING h = U N S P E C I F I E D SOURCES);
C 2 5 6 c NOB6,MIDNR U . M I . r M I E P C FY 7 4 5 0 , 6 2 5 REllQTE S E N S I N t t NEARSHORE, PLUt lES , FY 7 5 3 0 , 6 2 5 LRKE l l I C H l G R N , C IRCULRTION. * FY 7 6 3 0 , 6 2 5
t G = T H E R # A L P ISCHARCES 2=FATE I U D TRANSPORT 5=HETHOD DEV. b HOPELINC C = C R I T E R I I c = I N D U S T R l R L SOURCE)
. . . . . . 0 3 6 R 1 7 0 G 7 c NORR U . Y I ' . '
. . .( G=THERNRL DISCH&RGES 7=RANRGEREHT, . r = I H G i j S T R l R L SOljRCE;
( J = S E V E R A L P = F A T E AND TRANSPORT ~=UQSPE'CIFIEP SOURCES)
' ~ i 7 5 '' 5 8 . 2 ) 4 E ~ U C A T I ON, ENVIRONRENTRL S I PIULRTION. FY 7 6 5 8 . 2 4 4 NERRSHORE,
FY 7 4 1 4 c Q 7 7 PIETALS, ORGANIC CONTARINANTS 8
F Y 7 5 , 1 4 , 0 7 7 PHOSPHORUS* D I S T R I B U T I O N . ACCUHULATIDN, F Y 7 6 , ' 1 4 , 0 7 7 SURFACE F I L M S . L A K E P I ICHIPAH.
0 3 8 . R - 1RB : .R 2 h NORA U . M I . , F,Y 7 5 3 0 , 1 3 2 D l S T R I B U T I O H , YRTER, B I O T R , S E D I REHTS, . , .... F Y 7 6 ' . ' 3 0 , 1 3 2 LRKES, CIRCULR.TION-, LRKE R I C H I G R N ,
. . : ( R = T O X I C O R G R N l t S Z f F R T E RHD TRRNSPORT h=UNSPECIFX..ED SOURCES)
. . L ' . , . . . .
R ' 0 2 3 h NORR FY 7 5 2 3 , 9 0 7 CHLORINRTED HYDROCARBDNS, P E S T I C I D E S , FY 7 6 2 3 , 9 0 7 RCCURULATI ON, PER$ ISTENCE, P C B ' s ,
B I O T R , PLRNKTON, NERRSHORE: LRKE R I CHIGRN;.
. . . , . .
CR=TOXlC ORGI?NICS O=SOURCE RND LORDIHG 2=FRTE AND TRRNSPORT 3=ENYIRONRENTAL IRPACTS h = U N S P E C I F I E D SOURCES!
.: . . . . . . : . . . . .. . . , . . .
0 4 0 R 1 9 4 A 2 h NOLR,FYS U . M I . FY 7 4 4 , 5 4 5 TRENDS, BOTTOR SUBSTRRTES, B I O T R , FY 7 5 4 , 5 4 4 BENTHOS, F I S H * VRTERFDWL, P C B ' s ,
. . 'FY 7 6 4 , 5 4 6 GREEH B A Y , ' . ECOSYSTER, LZlKE R I C H 1 CRH, . I.: , ,
Cr?=TPXIC ORGr?NICS 2 = F A T E RFD TRAHSPORT h = U N S P E C I F I E D SOUPCES) - ,
FY 76 1 8 , 4 5 0 CHLORINRTED HYDROCARBONS, P C B ' s , HORPHOLOGY, PHYSIOLOGY, B IOTG: F 1 6 H t PRODUCTIVLTY,
,. . . . . , . , '. ,, . . . . . . , - . .. .
. . . . .. ( & = T O X I C ORGf iNICS 3=ENVIRONHENTRL I R P R C T S ~=UNSPE~IFIED SOURCES)
FY 7 4 1 3 , 0 1 4 P C B ' S , PHYSIOLOGY, FY 7 5 1 3 , 0 1 4 FY 7 6 1 3 , 8 1 4 . < .
( A - T O X I C ORGANICS 4=HUHAN HEALTH EFFECTS h = U N S P E C I F I E D ' S O U R C E S )
FY 76 1 0 , 3 9 2 D I O X I N S , S T R U C T U R E - R C i I Y I T Y T O X I C I T Y : PERSISTENCE.. D I S T R I B U T I O H ~ B Q U B T I C ENVIRONRE14TSf
( R r T O X I C ORCCINICS OnSOURCE RND LORDING l = C H R R R C T E R I S T I C S 2=FRTE QND TRRNSPORT c = I N D U S T R I f i L SOURCE)
0 4 4 R 1 9 9 &I 4 h N O A B t U . Y I . U . M I . FY 76 1 8 , 0 5 0 D I O X I N S , T O X I C I T Y ,
( R = T O X I C ORGRNICS 4=HUPIRN HEALTH EFFECT6 h = U N S P E C I F I E b SOURCES)
. . . . . . .
B 0 2 h NOAA FY 75 1 1 , 8 2 9 D I S T R I ~ U T I O M J R I V E R S , FOX RIVER, FY 7 6 1 1 , 8 2 9 NEARSHORE, L A K E M I C H I G A N , HARBOUR.
P A R T I C U L A T E S , S E D I l l E N 7 S . B I O T A , TEWPORAL V A R I A T I O N .
( 8 = T O X I C H E T f i L S 0-SOURCE AND LOADING 2:FATE !AND TRANSPORT h = U N S P E C I F I E D SOURCES)
H 2 f NOAA
(H=OTHER :=FATE AND TRANSPORT f = N O N - P O I N T SOURCE)
0 4 7 A 4 7 5 I 7 i NOAAJCOR. U . SUNY
i I = U N S P E C I F I E D 7=HANUCEWENT imSEVERAL SOURCES) .
0 SHORE, WORPHOLOGY, LARE E R I E . 0 L A K E ONTARIO. 0 0
F Y 7 4 1 9 0 , 0 0 0 SHORE, AD' / ISI IRY, INFORMAT!rJ!4, F Y 7 5 ' 1 9 0 , 0 0 0 F,Y76 1 9 0 , 3 0 6 FY-77 1 8 6 a 0 0 3
- . .
. . , , . . .
H 0 1 2 C N O I Q F Y 7 5 1 7 , 2 2 0 SHORE, E R O S I O N , T R E M D S . L B K E f l I C H I C 6 N , F Y 7 6 1 7 , 2 2 0
( H = O T H E R t = S O U P C E AND L O I D I N G l = C H Q R I C T E P I S T I C S 2 = F P T E I N D TRANSPORT f = N O N - P O I W T SOURCE!
. ,. . ( D = N U T R I E N T S 2 = F A T E AND T R Q N S P O R T h - U N S P E C I F I E D SOURCES)
F Y 7 4 2 3 , 7 7 9 D l S T R I B U T I O N , P R D D U C T I V I T Y : B I O T A I
F Y 7 S 2 3 , 7 7 9 P L I N K T D N , P N Y T O P L A N K T O N , L i G t i T , FY 7 6 2 3 , 7 7 9 L I K E R I C H I C A N t
. . . .
v . . . .. , . . . .
0 5 0 I 4 0 2 I 5 h N O I I t L ' . U I . U . M I . FY 7 6 2 1 , 3 2 4 B I O T R , P L Q N K T O N , Z O O P L P N K T D N , D'RTFI COL'LECT I ON.- R E T H O D O L O G Y . DIS-T'RI~UTION'~ T E f l P O R B L V A R I I T ! O N ,
. . LIKE 'HI CHI GIN, , . .
. , . . .
( I = U N S P E C I F I E D 5 = f l E T H O D D E V . b M O D E L I N G h = U W S P E C I F I E D S O U R C E S )
F Y 7 5 1 5 , 0 0 0 S U S P E N D E D S O L I D S , B I O T Q , F I S H t B I 0 6 S S A Y t D I S T R I B U T I O N n L P K E S U P E R I O R ,
( H = O T H E I ? 3 = E N V I R O N R E N T I L I R P R C T S h = U N S P E C I F I E D S O U R C E S )
. . . . . , . , . .
0 5 2 I 2 3 2 C 7 i N O I k U . M I . F Y 7 4 2 0 , 2 4 5 ' L ~ K E 'HIGHICAU', M B S T E RFINICEMENT, . .
FY 7 1 2 0 , 2 4 5 FY 7 6 2 0 , 2 4 5 ' . . . . .
. . . . . . . . . , . . . .. . ~
. . ( C = P H O S P H O R U S ?=HINBCERENT SEVERAL SOURCES i
0 5 3 A 2 4 0 J 7 c N O I I U . M I . c V I D N R F Y 7 6 1 8 , 9 0 2 S U R V E I L L A N C E z D I S I N F E C T I O N , N U T R I E N T S , N I T R O C E N , S U S P E N D E D S O L I D S ,
( J = S E V E R A L 7 = f l A N B G E f l E N T C J I H D U S T R I I L SOURCE)
0 5 4 b 299 . . H 5 (1 ' N O A A ~ U . . h l I . U . M I .
(HIOTHER 5 = R E T H O D D E Y . h R O D E L I H G g = O T H E R S O U R C E S )
F Y 7 5 3 0 , 8 0 7 BOTTOM S U B S T R A T E S , D I S T R I B U T I O H J F Y 7 6 3 0 , 8 0 7 L A K E M I C H I G A N ,
H 0 5 C HOAA U . M I . , U I D H R F Y 7 3 1 8 ~ 5 0 0 SHORE, E R O S I OH. C O N P U T E R , L A K E W I C H I C A H J F Y 7 6 1 8 , 5 4 0 L d K E S U P E R I O R .
( H = O T H E R O=SOURCE AND L O A D I N G S=WETHOD D E V . 8 W O D E L I H C C = H O N - P O I N T S O U R C E )
H 0 2 < NORA F Y 7 5 2 7 , 7 6 3 SHORE, E R O S I O N , L A K E Ill C H I G A N , F Y 7 6 2 7 . 7 6 3 HERRSHORE: D Y N A R I F S ! P I S T R I B U T I O N :
S E D I H E N T S . .
( H = O T H E R O=SOURCE AND L O A D I N G 2 n F A T E AND T R A N S P O R T < = N O H - P O I N T S O U R C E )
F
0 5 7 A 4 3 4 H 3 h NORA U M I . , M I D H R F Y 7 5 1 1 , Q S l B I O T A , F I S H , H A B I T A T , D I S T R I B U T I O N , F Y 7 6 1 1 , 0 5 1 TEMPERATURE. 6 0 T T O f l S U a S T k d T E S ,
GREEN B A Y . L A K E M I C H I C A H ,
( H = O T H E R 3 = E H V I L O H # E H T A L I W P A C T S h = U H S P E C I F I E D S O U R C E S )
0 5 8 A 4 3 9 H 3 S h HOAA U . M I . F Y 7 5 1 5 4 4 1 1 B I O T A , F I S H , ECOLOGY 2 T E W F E R A T U R E , F Y 7 6 1 5 8 4 1 1 E U ~ Y I R O N # E U , T A L S I H U L A T I O N ,
( H = O T H E R 3 = E U V X R O U # E # T A L IWPISCTS S = # E T H O D D E Y . b WODELIPIG h = U # S P E C I F I E D S O U R C E S )
H 3 5 g HOAA U . M I . , M I D H R F Y 7 5 2 9 4 1 9 6 B I O T A , F I S H , T E R P E R A T U R E , L I G H T , F Y 7 6 2 9 . 1 9 6 B O T T O R S U B S T R A T E S ,
( H = O T H E R J = E N V I R O N R E N T A L I U P A C T S S = U E T H O D D E V . & U O D E L I N G g = O T H E R S O U R C E S )
.. H. 3 7 g . NORA. U . Y I . , V I D N R
! H = O T H E R 3 = E H V I R @ H R E N T R L I R P A C T S 7 = R R N R G E R E H T g = O T H E R S O U R C E S )
F Y 7 4 2 1 , 1 9 1 B I O T R , F I S H , T E R P E R ~ T U R E J L I G H T , FY 7 5 2 1 , 1 9 1 P R O D U C T I Y I T Y F I E L D SUPPORT, FY 7 6 2 1 , 1 9 1 F Y 7 7 2 1 . 1 9 1
C . J = S E Q E R F I L 3 = E N V I R O N R E N T R L I R P G C T S 7 = f l A N R G E H E N T ' i = S E V E R R L S O U R C E S ) . '
'( 1 - U N S P E C I F I E D 6 = C R I T E R I R 7 = R R N R C E H E N T i = S E V E R R L SOURC,ES )
. . i I = U N S P E C I F I E D ? = R A N A G E R E N T h = U H S P E C I F I E D S O U R C E S )
I 3 7 i ' NORA
8 , 6 4 1 SHORE, V E G E T A T I O N , B I O T A , f l R C R O P H Y T E S , 8 , 6 4 1 D I S T R I B U T I O N , ECOLOGY, P O L L U T I O N ,
E R O S I O B , R E H A P I L I T R T I O N , L R K E R I C H I G G N ,
3 2 , 6 8 9 H I T I C A T I O N , R E G U L A T I O N S , P O L L U T I O N , F O X R I V E R ,
1 7 , 9 6 3 SHORE, I N F O R R A T I O N , P L A N ,
F Y 7 4 3 3 . 3 3 3 TRENDS, ECOHOPI ICS. F Y 7 5 33.333 F Y 7 6 33 ,333
F Y 7 5 2 4 , 4 1 7 L R K E S , SHORE, P L R H , F Y 7 6 2 4 , 4 1 7
c l = U N S P E C I F I E D 3 = E N V I R O N H E N T R L I M P G C T S 7 = R A N R G E R E N T i = S E Y E R R L S O U R C E S )
. .
6 6 6 A 4 1 H 2 5 h H U B A U . M I . , N M R I * F Y 7 4 3 2 . 2 8 5 L R K E O i I T A R I O , P W Y S ! C A i i l M i l O ~ O i Y , F Y 7 5 3 2 , 2 8 5 T E h P O R b L J A R I A T I O N , D ! S T R I B U T I O R , F Y 7 6 3 2 , 2 8 5 M A V E S , ,
H 2 3 g H U A A 9 , 4 7 0 L b K E O H T A R I O . T E M P E R A T U R E , M A Y E S , 9. 4 7 G D I S T R I B U T I O N , 9 , 4 7 6
( H = O T H E R 2=FA:E A N D T R A N S P O R T 3 : E H Y I R O H W E H T A L I M P A C T S g = O T H E R S O U R C E S )
E 2 5 h N O A A S U N Y , E V . H A N . I N C F Y 7 6 1 9 . a 9 5 D l S P E R S I O H , S T A T I S T I C A L M O P E L L i H C D I S T R I b U T I O N , T E N P O R A i V A R I B T I O N ,
( E = C O N T A W I H 6 E i T S J C E N . 2 = F A T E ANI! T R A N S P O R T 5 = W E T H O C D E V . C MODELING . h = U N S P E C I F I . E D L O U R C E S ) . .
O W , S U N ' i FY76 1 5 - 0 0 0 D R T n C O L L E C T I O N . . P R D t R R R D E Y E L O P H E H T ,
! I = U N S P E C I F i E D 7 = R A N R C E f i E N T h - U N S P E C I F I E D S O U R C E S )
A 2 h H O A A N E D . C O L . M I . F Y 7 4 1 4 , 1 8 5 A C C U M U L A T I O N J F I S H , P H Y S I O L O G Y , P C B ' S . F Y 7 5 1 4 , 1 8 5 . L A K E R I C ' r l : C B N , F Y 7 6 1 4 , i 8 5
. . $ . . . . . ( A = T O X I C O R G A N I C S 2 = F A T E A N D T R A H S C U R T h = U N S P E C I i I E P S O U R C E S )
. .
* F O R M E R L Y KNOWN AS CANADA CENTRE FOR INLAND WATERS (CCIW) BRANCH
F Y 7 6 24991 5 B I O T L , P L R N K T O N , P H Y T O P L R N K T O N , E C O L O G Y , D I S T R I B O T I J H , T E R P J R G L V R R I G T I O N : L B K E O H T f i R I O :
t I = U N S P E C I F I E D Z = F F I T E R N D T P b N S P O R T ' 5 = R E T H O D DEV.: .S; R O D E L I H C h = U t i S P E C i F I E D S O U R C E S )
, . . . , . . . . j I , . . . , .
5 7 3 g 73 E 2 3 h N O f i f i , O S U @ s l j ' . ' . F Y 7 6 50,000 E C O L O G Y ,. E S T U A R Y , E G O S V S T E R .. L G K E E R I E F Y 7 7 JQ,QOO R I V E R S , O L D UON6iN C R E E K :
! E = C O I 4 T A I ? I H f i K T S C E N . Z = F R T E RND T R G N S P O R T Z = E M Q I R O N P l E N T G L I I j P l i C T S h = U H S P E C I F I E C : SOURCES.! . .
D 25 h N O R R . G L E R L G L E R L < .
(. G = ~ l U T P I E H i T . Z = F f i T E RE!C TPQ,#SPORT S=!lETHOD D E V . L I4OGE.LING h = U N S P E C I F I E P S O i l R C E S i . . . .
. .
+ h)
i j ? C . . f i : 1 4 0 :, C s i NOir13 G L E R L F Y 7 5 O A T M O S P H E R I C ,SOURCE. . t i O N - P O I N T SOURCE.. . . . F Y 7 6 . . B : U R B A N RUk!CIFF, A C R I C i l L T l . i R E ,
M U N I C I P A L SOURCE. ! N D l l S T R I R L S O U R C E * . . ENV!R.OHf4EHTRL S . i R 1 ; i R . T i D H . . . .;
. . . .. . . i C = f ' H O S P H O R U S 5 = K E i H S D D E Y . & MODEi . I f< f i = S E V E R f i i S c c E C E S )
. .! ..? 7 .' ... 4 ~n ., ' r g . U S E P A , I J C ' . . ' , CFERL, t d w ~ : ~ , . F Y 7 5 . 1 5 4 , 8 6 C L A K E HURO?4, CURREI;YS, C I R C U L A T I D H ,
F't'76 ' 1 5 4 , 0 0 6 S A C I N A Y B A Y , D I S T R I B U T I U H ~ U A T E R ,
< H Z " ,,.;; ' - r . . : T c - . .. . . D N C l T R A t d S F ' q k i !=CTHEF: S D U R C E S ) . . ,, , . . . . , ,
F ~ 7 6 ' ' 1'0, GOO S U S P E N D E P S O L I D S : B I O T A , P L g N K T D H , R E M G T E S E N S I N C . P I S T R I P U T I O N ,
' . L R K E HURON, L A K E E R I E . . . . , .. , . . , . . . . . . .. . . . .
. . 385 R $ 1 ,J li h (I::EP~~ a L i P C
( J = S E V E R G L O - S O U R C E fiND L O G G I N G h = V N S P E C I F I E D S D U P C E S !
C--l . . 6 3 1 A a 6 '1 0 3 ti U S E P A , !?dSii , I J C . O S ? t , H d S A ; C U R 2 . F Y 7 5
V 5 3 , 0 4 4 R i Y E R S , R U N O F F , L A K E E I I E ,
R E f i O T E """ a c A a I : : C ,
! I = V i . I . S P E C I F ! E D O=SOURCE AND L O b D l t i C 3 = E N : ' l R O N W E N T A L I M F A C T S l i = U N S P E C I F I E D SrJURCES )
! I = ! . ! t l S P E C I F I E D 7=I!GtifiCE14ENT i - 5 E V E R f i L S O U R C E S >
G 3 . h . U S E P C I
FY 75 15,0P6 E U T R O P H I C A T I ON, T E H P O R A L V A R I A T I O N , F Y 7 6 . 15. G00 B E N T H O S , 6 L C A E . L A K E HUSON,
L A K E 9 U F E R I D R , L A K E M I C H I G A N .
FY 75 9 3 , 2 5 0 E U T R O P H I C Q T I O N , B I O T A : P E N T H O S , FY 76 9 3 , 2 5 8 P L Q ? I % T O N , D l S T R I B U T I O H , S A C I H Q Y B Q Y ,
L A K E HUROtk,
! D - N U T R I E N T S J = E C V I R O N ~ E N T A L I H P f i C T S ' h = U N S P E C I F I E D S O U R C E S )
I--I N 00 0 8 7 Q 1 4 4 C 2 h USEPCI
, .
. . ( D = H U T R I E N i S Z = F h T E AND TRANSPORT h = U H S P E C I F I E D S O U R C E S )
F Y 7 4 8 6 - 6 6 5 G I S T R I B U T I O H , T E f l P O R k L V G R I A T I O H , F'i7.5 86,666 P L k t I E T O N , PHYTOPLQtIKTflV: S R G I N A W B a y , FY 76 P 6 t 6 6 6 L R K E 3 U R C N ,
~ ~ 7 4 ' 29 ,333 P I O Q S S G Y ~ P L A N K T O N . P H Y T G P L G N K T D N FY 75 2 9 , 3 3 3 L I G H T . . T E I I P E R A T V R E . OPEN LRKE.. FY 7 6 2 9 : 333 L R K E HURON,
. . 3 8 9 k 1 4 6 D 3 i h U S E P A s 1 1 c ~ . QC'Z.. a s v F Y 7 b I 1 3 , 0 0 0 L f i K E . ERIE. . U i rTER, S E D J i l E N i S . . P l O T Q :
B E N T H O S , ? L R M # T O H , P H Y T O P t R H K T O H :
< D=!<i?TP!E!4TS S = E M V I R O N I ! E N T Q L I t l P A C T S 7=!?Rt!AGEi4.EtIT, h = t ! H S ? E t I F I E D SO1IRCES) '
i @ = i i U T R I E N T S O = S O U R C E AND L P A D I N C 3 = E N V I R @ H ! l E N T d L I # P L C T S 7 = H O H - P D I H T S O U R C E ! , ,. . . . . . . . '
F Y T 6 4 5 , . 5 0 0 E C O S Y S T E M : LAKES. . R E ~ i i i P I L I T A T S O N :
i a = . , 8 : ~ r . ~ r ; a ~ . : : ...--r Z j L n - r . o ~ . p r 8tiD L G h P I H G 2 = F A T E AND T R G H S P D R T ~ . I = L ' ~ ; S F ' E C I F I E D S G L ! R t E S ?
L ! . # I t 4 N F Y 76 1 7 , 7 0 0 M A T E R , T E K P E R A T U R E ; D8tt4A#!C:.Si D;.;TR!g,,"r I J d N . A I R . S D I L ,
( G = : H E R M A L D I S C % A R C E S P I F A T E R::C T E A N S P G R T 5-14ETHOC D E 7 . 2? M O D E L I N G h = U N S 7 E C I F I E @ S O U R C E S ?
( t=TIiER?lRL C; I S C H A R G E S 3 = E h l Y I R O N H E H T A L I B P A C T S c = I H G U S T R I A L 5 O U R C E ' ) '
3 D I S T R ! B l . l T I O H , 8 : O T A : F I S H , ? i U H E S : :i
P S U I O S U , D E T . E D . F Y i 5 5 1 , 5 0 9 MGTER C H E M I S T R Y . P I O T G I F I S H , F L G N K T D M , FY 7 6 5 1 , 5 5 0 D J S T R I P U T I O H , L t i K E E R I E ,
! t = T H E R ? < A L D I S C H B R G E S J = E N V I ROMREHTt iL I A P A F T S c = I NDUSTR I t i L SOURCE !
(E=C"H?Gf l ! ! iA t ;TS- G E N . ? = F A T E & H D T P A H S P O R T c = I N D l ! S T R I R L 50L;RCE )
, ' 9 4 8 A 1 9 5 E 2 h U S E P A c 1 . i ~ . ?I . . F Y i 6 118.. 2 0 2 T O X I C SLIBSTGHCES, D I C ; P E R S I D N , L G K E S ,
( E = C O H ? t i M I N A ~ T : Z : t E H . 2 = F G T E GHD TRt i t !SP@RT h = U N S P E C I F I E D SOLIRCES!
w W 0 O g 9 A 1 5 9 A 2 h LISEPU i i . C i H N . FY 7 6 73- 4 2 9 CHLOR I N f i T E D HVDRDCt iRPDNS,
. .
( ! 2 = T ? S I C O i ? G ? t i i C 5 , ? = F A T E R N D TRGNSPORT h = L l N S P E C I F I E D SOURCES!
F U R . FY 7 6 57. . 7 3 6 P E S T I C I D E S . . T O X I C I T Y , I H T E R f l C T I V E E F F E C T S ,
! t i = T . O S I C O F G C N I C S ? = F A T E GMD TRGNSFORT 3 = E N V I R D N H E N T t i L I H P R C T S ~ = U ~ S P E C I F I E D S O U R C E S ) , .. , . .
1 5 1 G 2 5 9 ,.. , A .2 h U S E P f l , U . Y I . FY 75 2 3 , 9 8 7 PESTICIDES; D E C R L D B T I D H , . . , ' F Y i 6 ' 2 3 , 9 8 7
. . i A = T O l i I C O E G A N I C S 2 - F B T E GHG TRGNSPORT n = U N S P E C I F I EG SOURCES!
. . , , , .
U . D A Y
( A = T O X I C O P C P N I C O S = M E T H O D D E Y 8 N O D E L I N G 7 = # I H A C E # E M T h = U N S P E C I F I E D S O U R C E S )
F Y 7 6 5 6 , 0 6 0 S U R Y E I L L A H C E . W A T E R ,
i A = T O X I C O R C A N i C S 0 - S O U R C E A N D L O A D I H C h = U N S P E C I F I E D S O U R C E S )
134 A 2 1 1 B 1 3 h U S E P A 0 5 U FY76 5 4 : 2 4 7 S E L E H i U H , S T R U C T U R E - A C T I V I T Y ., S I O T R ,
! B = T O X I C M E T A L S l = C H A R R C T E R I S T I C S 3 = E H V I R O N H E N T A L I P l P R t T S h - U M S P E C I F I E Q S O U R C E S i , .
i B = T O X I C M E T A L L ; 4 = H U M A N H E A L T H E F F E C T S . d = # U N I C I P A L S O U R C E S
6 3 6 h U P E P A U . M I N N . FY 7 5 4 9 2 3 2 9 T O X I C I T Y T E S T I N G . B I O T A 3 F I S H , C Y A N I D E , F Y 76 4 9 , 3 2 3
i B = T O X I C M E T b L S Z = E U Y I R O H M E N : B L I M P A C T S 6 - C R I T E R I A k , = U N S P E C I F I E D S O U R C E S :
F Y 7 6 4 0 , 3 0 0 B I O A S S A Y : B I O T A . - A L G A E , L E R C H I T E S , . E C O L O G Y , P H Y S i O L D G Y , C H i O R O P H Y L L l
E H Y I S O H I I E H T I L S I A U L A T i D M . .
( J = S E Y E R A L 3 - E N V I R O H H E H T I L I H P A C T S h = U H S P E C I F I E D S O V R C E S )
F Y f 4 1 2 3 , 7 2 3 S E P T I C TANKS, U a S T E RGt l jGERENT, F Y 7 5 1 7 0 , 7 2 9 F Y 7 6 1 2 3 , 7 2 3 . . F Y i 7 1 2 0 , 7 2 3 ,. . .
, . , . ,
I I=LlHSPEC I F I ED O=SOURCE R&D LOADING i=HRN&GEHENT C=NON-POI NT SOURCE)
139 A 2 3 7 I 7 i USEFFI
! I=UHSPEC I F I E D i= f lANACENENT i =SEVERAL SOURCES)
1 1 3 .1 2 4 2 . G 7 h USEPR . . , urn
!D=NUTRIENTS ~ = ~ I ? N F I G E I I E N T h = U t l S P E C l F I E D SOURCES)
FY 7 5 3 2 , 5 1 0 N ITROGEN, FY 7 6 3 2 , 5 1 0 FY 7 7 3 2 , 5 1 0
FY 7 6 4 4 , 6 5 4 N I TROGEN, UATER, WASTE RRNRGEIIEHT,
, .
B 3 5 : h U ~ E P Q f l I F i f l I U . FY 7 4 5 , 3 8 7 B I O Q S S A Y , T . D X I C I T Y T E S T I N G , COPPER, I . . . F Y 7 5 ' ' 5 , 3 8 7 L I HC, B lOTZl , P L a N K T D N . ZDOPLZlHKTDN,
5, 3 8 7 F y 7 6 > , ,
C B = T O X I C NETQLS %=E 'NVIRDt l f lE t iTAL I I lPFiCTS 5=HETHOIS DEV . h H O D E L I NG ~ h = V H S P E C l F I E D SOURCES ) . . .:
. . 1 1 4 fi 4 3 1 H 3 h U S E P A U . W I ; E R i - D FY 7 4 2 3 , 6 6 5 SUSPENDED S O L I D S , B I O T A , F I S H ,
F ? 7 5 2 3 , 6 6 5 D I S T R I S U T I O H , T E 4 P E R A f U R E j P H Y S I O L O G Y , FY 7 6 2 3 , 6 6 5 L A K E S U P E R I O R ,
( H = O T H E R 3 = E N V I R O N M E N T A L I M P A C T S h = U H S P E C I F I E D S O U R C E S !
FY 7 5 1 5 ; 6 0 6 B I O T A , B E N T H O S , A L G A E , E C O L O G Y : i l A B I T A T , F't'76 1 5 , 0 0 0 63:" , . JW .;ugg~;fi;;g~ L A K E f i : c ; d v - I a A N
LAY'; S U P E R I O R ,
t 4 s F E C I F I E D 3=EHVIRO;4MENTAL I M P A C T S h = U N S F E C I F I E D SOURCES ) i l = U ' -
FY 7 6 8 5 , 5 0 9 L E A C H A T E S , B I O T A , B E N T H O S , N A C R D P H Y T E S . H L R B O U R , L A K E S U P E R I O R .
( E = T O X I C M E T A L S 3 = E t 4 V I R O N M E N T A L I M P A C T S c = I H D U S T R I A L SOURCE )
H 0 2 5 F U S E P B 11. F I I N N . , N O 1 1 FY 75 2 9 , 5 0 0 S U S P E N D E D S O L I P S , C U R R E N T S , RUNOFF, . . F Y 7 6 28.. 500 S T R E A H S , L G K E S , S H O R E . E I O S i O t 4 . .
R E S I j 3 0 E H 5 i O t 1 , S q T E L C i T E Z , L R K E S U P E R I O R ,
( H = n T H E R O=SOURCE B N D L O B D I N G 2 = F B T E F)ND T R B N S P O R T 5 - M E T H O D D E V . & H O P E L I N G F = N ~ N - ~ O Z N ' T 5 n U P t E )
1 1 8 A 3 3 3 J 0 f U S E P A C L B C , ACE, U S S C S F Y 7 6 1 4 , 0 6 0 SHORE, E R O S I O N , Y U T E % C H E M I S T R Y . . .
, . .
C d = S E V E R A L 6 - S O U R C E AND L P A D I H G f = N O t i - P O I N T SOURCE:
FY 7 5 0 S O I L ; E R O S I O N , YEGETAT!ON, FY 7 6 O K E M A b J I F:T3?EE:; FY 7 7 r?
(!-!=OTHER ? = F A T E AND TRANSPORT P - N O N - P O I N T S U U R C E )
! H=OTHEC Z=FGTE AND TRflNSPORT ;=NOH-POI NT SOURCE?
. . ! H=BTHER 2 = F A T E AND TRANSPORT f=NON-PO! NT SOURCE)
F Y 7 6 37 : 0 0 0 SOIL . . EROSION, URTER, VEGETATION, N E H f i G J I R I V E R . RIVERS..
FY 7 6 25..?00 EROSION, V E C E T A T I ON, G N A L Y S I S - R I V E R S . N E r l A D J I R I V E R ,
. . . . 1 2 2 G 3 0 2 : H 3 7 f USEPFl U . Y I . , U S E P R FY 7 6 4 3 , 3 3 3 EROSiON. ttEkiRDJ I R I V E R , P I O i P . F I S H ,
FY 7 7 4 3 , 3 3 3 D i S T R I e l ~ . T I O N . ECOLOGY:
( J = S E V E R R L T=NGNACEHENT f =NOH-POINT SOURCE >
.J 9 1 2 f .. USEPFl
U . U I , USSCS, USGS F Y 7 4 2 3 9 , 7 7 9 PROCRFlB PEVELOPMEHT: SEDINEHTS J EROSI OM? FY7S 2 3 9 , 7 7 9 R E t U L b T I O t l S . E C O N O ~ I C S I VRPRY RUNOFF.. F Y i 6 2 3 9 : 7 7 9 f iGRICULTURE.. t H E A I t 9 L CYGR9CTERIZATION, F Y 7 7 2 3 9 , 7 7 9
FY 7 4 9 5 , 6 0 3 LRND USE, SEDIMENTS, RGRICULTURE, FY 7 5 9 5 , 6 0 3 RIVERS., S O I L , E R O S I O N SORPTION, FY 7 6 9 5 . . 6 0 3 P R E C I P I T A T I O N , I N T E R g C T I V E EFFECTS, FY 7 7 9 5 , 6 0 3
( J = S E V E R R L Q=SOURCE FlND LOPDING l = C H f l R 6 C T E R I S T I C S 2=FFlTE AND TRPNSPDRT f = N O H - P O I N T SOURCE)
125 A 3 5 3 ' ' " J 0 2 5 i USEPA - '. U . U I : - U I D t 4 R F Y T 4 202. . 36 1 NOH-POINT SOURCE, ATMOSPHERIC SOURCE< F Y 7 5 2 0 2 , 4 6 1 URBRN RUNOFF, A I R , P R E C I P I T a T I O H , F Y 7 6 2 0 2 - 4 6 1 STRERf lSt WATER Q U G L I T Y , YATEE QUANTITY, F Y 7 7 2 0 2 , 4 6 1 LRKE R I C H I C R N ,
( J = S E Y E R A L C=SOURCE AND L O f l D I N C 2xFFlTE RND TRfiNSPORT 5=METHOD D E V . h RODELING i = S E V E R A L SOURCES)
H '!, 3, L' E C FY'" 126 A * ,353: : . : , . . , 2 .'.,!,;., : ? 5 02.5 , f . , :!fE.PY .,.; \ . , I , . I , , : , . . , ! , . ,
,., 3 0 4 , 3 0 4 L A N D U S E , R I V E R S , V A T E R QUCILITY, . . . . . . . . . . , .
, _ . - , . . F Y 7 5 3 0 4 ~ 6 0 0 F Y 7 6 3 0 4 , 0 6 0
. . . . . ... . . . i ' . . ' . . _. ; ? : i, . .
FY 77.:; 3 0 0 , 0 0 0 8;
. . . i . : . ,; : . , , ,.,. . , . . i :
. , . . . ., ~ ; ., '. . . . . . : , . . ' < ,:, . . . . : > ...:.. . < , ' , ., . I ' . . t i ;
I E = C O N T A # I H A N T S , G E N . 0=SOURCE AND L O A D I i l G P=FFlTE AND T R A N S P O R T ~ = M E T H D D D E V . 6 ODELI LING C=HON-POINT S O U R C E !
1 , 4 , . . : . : , , J . f ...... . USEPf i HSU, I J C . F Y 7 4 2 5 0 : 4 3 0 P O L L U T I O N : R G R I C L I L T U R E ; H Y D R O L O G Y : . . . . . . . . . - ..;..!;;:. .! ?:;.!,.it ; $ ? < , ! = . . . ; ; F E : c :.. ....., *......- .-. ,- , , . . : I : .,,- t:..:. . F Y 7 5 2 9 0 , 4 3 0 C H E f l i C R L G H G R A C T E R I Z A ~ ~ O N I
F Y 7 6 2 5 4 : 4 3 0 S U R V E ! L L A H C E ,
1 . ?! .. ; . . . . F Y 7 7 2 9 0 ~ 4 3 0 TF:~;:: > : , . ; , ; i : ;. . . - . . i 1 $<:,? I: > ............. ! ! ! : , , . a ~ j < ~ ~ : , ~ ~ ,t. .- ,- . . . . . . , :;.;.,? ,:.:. . ...... . ,. . ., . ,.
( J = S E Y E R R L Q = S @ l l R C E RND L O A D I N G I = C H R R R C T E R I S T I C S 7= l !AHGtEI4EHT f = N C N - P C I N T S O U R C E )
1 2 8 il 3 5 8 J 9 f U S E P A f l 5 U ; .. .,:..: . . - . . . . ;,- . . * ( . ... ,:';:.,' !.'. <... ..*? ?, . . . . . . '';..,.k . I . : : : , . , ' . 1. / . : , . . #. 2. !, : . 2 c : . ;.,; i;
, . ( J = S E V E R R L O r S D U R C E R N F L O A D I N G ; = N O H - P O l N T SOURCE i ..... .- ,. -. ' i : T: !> :i , ' :;: G .
FY 7 5 11: 4 4 8 H I T R O G E N , P H O S P H O R U S > R U N O F F , F Y 7 E. 1 1 , 4 1 8
1 2 9 A 3 6 5 A 4 2 h USEPA M S U, FY 7 5 3 8 , 7 7 0 P E S T I C I D E S , R U N O F F R I V E R S , FY 76 3 a , 7 7 0
! :,: ,. - ': . :::,:'.,::."? , 3 . , ., , .t $ ' k . : , , ; , :.;.* ; ';;;;:.:-.!,,:; , :2i..;:;\;;.;:;r-l;;: ;!;;t&,,:r,:,., . & . ,_I... . .
( p = T ? X , l C O P G A N I C S 0 - S O U R C E CiND L O A F I N G ;=FATE RND TRFIHSPORT h - U N S P E C I F I E D SOURCES > . . . . . . . .. . . . s. r!, .. ii . r !,( . ., . . . .,.., .. : . L C . . t .+ ,:,,;\,:, : < . , , , , . .... a . . . , , . . . . ' < ! : 2: :: : .
( F = P R T H O G E N S O=SOURCE AND L O F l D l N C 4 = H U f l A N H E A L T H E F F E C T S ) i = U I 4 S P E C I F I E D S O U R C E S )
131 A 3 8 2 F 1 h U S E P A U . D E T . . . .
( F = P Q T ' H O G E H ~ ~'=CH~R&CTERISTICS h = U t d S P E C I F I E D S O U R C E S ) :
. . .
F Y 7 6 2 8 , 0 0 0 B R C T E R I 6 P
132 b 3 8 2 F 5 h U S E P a PUR 11. FY 7 6 2 2 , 8 3 3 S U R Y E I L L f i N C E . HETHODOLOGY,
( F = P 6 T H O C E H S %=HETHOD DEQ h H O D E L I NG h = U H S P E t I F I ED S O U R t E S i
(F=P f iTHOCEMS S=#ETHOD DEV L MODELING h = U N S P E C I F I E D SOURCES!
1 3 4 1 383 F 5 h USEPf i S Y R . U .
(F=PATHOGENS J = f l E T H O D D E Q . h MODELING h = U N S P E C I F I E D SOURCES)
F Y 7 6 1 9 , 0 0 0 HETHODOLOCY, SORPTION,
(F=PATHOCENS 4=HURAN H E A L T H E F F E C T S d = R U N I C I P Q L SOURCE)
I 5 g USEPA 11 14 FY 7 6 3 4 , 0 0 0 B I O T b t A L C f i E , REMOTE S E N S I N G , ~ N ~ L Y S I S , L b K E O N T A R I O ,
f I = l I N S P E C I F I E D S=RETHOD D E Y . b N O D E L I N G g=OTHER SOURCES)
' j
1 3 7 9 3 8 7 D 3 h LlSEPfi U . I J I . FY 7 5 3 7 , 4 6 4 B I O T I , RLCf iE7 I V R I L b E I L I T Y : pH: L I G H T , FY 7 6 3 7 , 4 6 4 TEI4PERbTURE, IRON,
( D = N U T R I E N T S J = E N V I R O N U E N T h L I H P Q C T S h = U N S P E C I F I E D SOURCES) , .
I! 3 h U S E P A U f l , L L R S FY 76 6 5 , 0 0 0 B I O T A , P L A N K T O H , ECOLOGY, F Y 77 6 5 , 0 0 0 E U T R O P H I C A T I O N , S A C I N A U B A Y ,
. , L A K E HURON,
( D = N U T R I E N T S 3 = E N Y I R O N W E H T A L I M P A C T S h = U N S P E C I F I E D S O U R C E S )
139 FI ' 4 4 0 I 4 3 h l I S E P i r U . N Y . ' FY 7 4 . 2 3 , 3 3 3 B I O T F I , PLFIHKTON: Z O @ P L R N t i T @ N r
FY 7 5 2 3 , 3 3 3 D I S T R I P U T I O H , P R D D U C T I V I T Y , FY 7 6 23, 3 3 3 YRTER Q " f i L I T Y ,
. . . . . ( I = U N S P E C I F I E D O=SOURCE RND LDFIDING 3 = E H V I R D N R E N T F I L I H P f i C T S h = U N S P E C I F I E D S O U R C E S )
O B I O T R , P L Q N K ' T O N , Z O O P L f i N K T O N , ECOLOGY: YRTER Q U i i L I T Y , S T k T I S T i C R L R N R L Y S I S , SFIGIHf iY 8 G Y r L Q K E HUROH:
( I = U N S P E C I F I E D ~=ENVIRQNHENTBL IN'PCtCTS 5 = V E T H O D D E V . & N D G E L I H C h = . U H S P E C I F I E P S O U R C E S )
O 2 h U S E P A L L R S , I J C F Y 75 1 0 , 0 0 0 L A K E HURON, MATER B U A L I TY FY 7 6 10,r)00 ;:AT; ' j T I C A i bH.'.; T r . n ~ ~ a ~ a , C P E H L A K E ,
( @ = N U T R I E N T S 2 - F A T E AND TRANSPORT h = U N S F E C I F I E D S O U R C E S )
D 5 7 h U S E P A f l A N . C O L . N M R I F Y 7 5 63,500 E U T R O P H I C A T I O N , P L A N , L A K E O N T A R I O , F Y 7 6 1 3 , 5 0 6 NEARSHDCE, S T A T ! S T I C A i B H A L Y S I S ,
P i A N K T O t i ,
( O = N U T R I E N T S 5 = H E T H O D D E V . b WODELINC 7=MANACEWEHT h = U N S P E C I F I E @ S O U R C E S )
143 A 1 4 0 D 025 h U S E P A J L L R S ~ ~ A N . c o L . , N ~ ~ ' R I ' ~ ~ 7 5 568 8 6 2 EUTROPHICFITION, L A K E HURON, S A G I H A M B A Y , FY 76 - 56; 8 6 2 OPEN L A K E j L b C E E R I E ; P L A H K T O H , CXYGEN,
!P=NL!TF:!ENTS O=?QL:RCE AND L O A D I N G > = F A T E At4D TRANSPORT 5=WETHOD D E V . & N O D E L I H G h=L!t4CCEC!F.?ED SOUF:CE:?
D 1 5 7 h USEPB OSU F Y 7 4 1 5 0 , 0 0 0 EUTROPHICBTION, LRKE E R I E , B I O T R , F Y 7 5 1 5 0 , ~ > 0 0 . BENTHOS: PLRNKTON, COHPUTER I
F Y 7 6 1 5 0 , 0 0 0 F Y 7 7 1 5 9 , 9 0 9
( @ = N U T R I E N T S 1 -CHBRPCTERI S T I C S 5=flETHOD DEV. 8 MODELING 7=i lBNi tGENENT h = V N S P E C I F I E D SOURCES )
1 4 5 il 1 6 9 G 5 C ' USEPA OSU, HF?I , f l IDNR F Y 7 6 4 5 , 0 0 0 B I O T B , FISH.. NEARSHORE, L Q K E E R I E ,
(C=THER?lBL DISCHBRCES 5=flETHOD DEV. % HODELING c = I N D U S T R I B L SOURCE)
.J 356 g USEPb ERL-D F Y 7 4 3 , 0 0 0 , Q 0 0 T O X I C I T Y TESTING: B I O T f i , F I S H , F Y 7 5 3 , 0 0 0 , 0 0 0 MITERFOUL, B I O R S S I Y , D E G R R D ~ T I O N P F Y 7 6 3 ,000 ,COQ ECOSYSTEA, F Y 7 7 3 , 0 0 3 , 0 0 9
! J=SEVERRL 3=ENVIRONPlENTBL I H P B C T S 5=FiETHOD D E V . % NODELING C = C R I T E R I f i g=OTHER SOURCES)
R 1 2 5 . h USEPB E R L - D FY 7 4 0 D l S T R I B U T I O N , PERSISTENCE, FY 7 5 D B I O b C C U H V L R T I O N ~ P I O T B , F I S H , FY 7 6 0 FY 7 7 0
! P = T O X I C ORCBNICS l = C H A R R C T E R I S T I C S 2=FBTE RND TRRNSPORT S=HETHOD D E V . % HODELING h = U N S P E C I F I E D SOURCES)
1 4 8 CI 2 4 8 E 3 7 d USEPB ERL-D F Y 7 4 ' 2 4 0 , 0 0 0 D I S I H F E C T I O H , CHLORINRTION, SEWQCE, F Y 7 5 2 4 0 , 0 0 0 C O S T - B E N E F I T - T O X I C I T Y , ECOLOGY, F Y 7 6 2 4 0 , 0 0 0 D l S T R I B U T I O H , . B IORCCURULRTI ON,
(E=CONTBHIHBNTS, GEN. 3=ENVIRONNENTRL IHPACTS 7=RRNf iCEf lENT d = M U N I C I P b L SOURCE)
1 4 9 R 2 4 8 E 2 3 7 d USEPB E R L - D , U . H I N N . FY 7 6 0 CHLORIHRTIOH. pH, DECRBDRTION,
(E=CONTPRINGNTS, CEH. 2=FBTE RHD TRBWSPORT 3 -ENVIRONHENTLL I H P L C T S 7=fl f iNRCERENT d = H U N I C I P B L SOURCE)
1 5 0 A 1 5 6 J 3 S c F M S J C L F L G L F L , C L F C F Y 7 6 1 2 7 , 0 0 4 THERMAL P O L L U T I OH, T O 8 I C S U B ~ T A H C E S J B I O T A , F I S H , P L A N K T O N , Z O O P L A N K T O N , ECOLOGY,
( J P S E V E R A L S = E N V I R O N W E N T A L I W P A C T S 5 = W E T H O D D E V . b W O D E L I N C c r I N D U S T R I A L S O U R C E )
1 5 1 A 1 8 6 . , E 2 5 7 h , F V S t t L F L C L F L t C L F C , 1 J C F Y 7 6 1 3 6 ~ 9 0 0 R H d L Y S I S t B I O T A , F I S H : D l S T R I B U T I O H : TRENDS, D Y N I R I C S ,
( E = C O N T A H I N G F T S , G E N . 2 - F A T E AND TRRHSPORT 5=F?ETHOD D E V . % P l O D E L I N C 7=RAHAGEI4ENT ~=VNSPECIFIED S O U R C E S )
1 5 2 d 1 8 7 J 35 h F Y S B C L F L C L F L F Y 7 6 5 7 , 9 0 0 B I O C H E R I S T R Y , T O X I C I T Y >
T O X I C S U B S T I N C E S , B I O T G , F I S H ,
( J - S E Y E R d L 3 = E N Y I R O N f l E N T B L I H P d C T S S = f l E T H O D D E Y . Z H O V E L I N G h = U N S P E C I F I E D S D U R C E S )
A 2 7 h FMS H F R L F Y 7 6 1 1 . 0 6 0 P E S T I C I D E S . L A M P R I C I D E S . FY 77 1 l , 0 0 0
( a = T O X I C O R G A N I C S 2 s F A T E AND TRANSPORT 7 = # A N A C E W E N T h = U N S P E C I F I E D S O U R C E S )
A 2 3 4 g FMS N F R L , C L F C F Y 7 6 l S O a O O O L A f l P R I C I D E S , T O X I C I T Y . B I O T A . F I S H , M A T E R F O Y L , D Y N A M I C S . D I S T R I G U T I O N .
. . B IOTRIHSFORf iA : :OH, : O I L . U A T E R ,
( A = T O X I C O R G A N I C S 2 = F A T E AND TRANSPORT 3 = E N V I R O N f i E N T A L I f I P I C T S 4 = H U # A H H E A L T H E F F E C T S g = O T H E R S O U R C E S )
1 5 5 A 4 4 4 A 7 g C L F C J F M S F M S
( A = T O X I C O R G A N I C S 7=WANAEEWENT g=OTHER SOURCES!
0 L A W P R I C I D E S , B I O T A : F I S H , R E H A ~ L I T A T I O N , H A B I T A T ,
D 27 h C L F L C L F L F Y 7 6 1 3 2 , 0 0 0 T E H P O R L L Y 6 R I R T I O H ~ N E R R S H O R E , E C O S Y S T E R , B I O T A , E C O L O G Y , P L R N K T O N , Z O O P L A N K T O N , A L C R E , F I S H , P R O D U C T I V I T Y t R D V I S O R Y ,
! D = N U T R I E H T S 2 z F R T E R N D T R f i N S P O R T 7 = R f i N A E E R E N T h = U N S P E C I F I E D S O U R C E S )
1 5 7 CI 4 5 1 G 3 h C L F L CLFL, ~ C E F Y 7 6 6 5 , 3 0 0 B i O T A , B E N T H O S , I C E ,
i G = T H E R f l R L D I S C H R R C E S 3 = E N V I R O N f l E H T R L I n P 6 C T S h = L l N S P E C I F I E D S O U R C E S )
E 37 i C L F L C L F L , C L F C F Y 7 6 1 8 6 j 0 0 0 B I O T L , F I S H ? P R O D U C T I V I T Y I E C O L O G Y , N E A R S H O R E , H A B I T L T , L R K E E R I E ,
i E = C O N T R M l N R N T S , G E N . 3 = E N V I R O N f l E N T 6 L I H P A C T S 7 = H R N R C E t l E N T i = S E V E R R L S O U R C E S ;
I 37 i C L F L C L F L : G L F C F Y 7 6 80.. 0 0 0 B i OTG, F I S H : S U R Q E I L L R N C E : H E A R S H O R E , H L B I T R T , R E H R B I L I T A T I O N , L A K E O H T A R I O ,
H 35 h C L F L C L F L , C L F C , H I D N R F Y 7 6 1 5 2 , 0 0 0 B I O T A , F I S H , P H Y S I O L O G Y I W E T H D D D L O C Y . P R O D U C T I Y I T Y , . T E H P E R A T U R E , O X Y G E N .
t W = O T H E R 3 = E N Y I R O N W E N T B L I M P A C T S 5 = H E T H O D D E Y . & H O D E L I N C h - U N S P E C I F I E D S O U R C E S )
1 3 i C L F L F Y 7 6 5 2 , 7 0 0 B I O T R , B E N T H O S , H E 4 R S H O R E , D I S T R I B U T I O N , P R O D U C T I V I T Y , S T . R B R Y S R I Y E R , D R E D G I N G , S H I P P I H C , H U N I C I P R L SOURCE, I H D U S T R I R L . S O U R C E ,
C I = V N S P E C I F I E D 3 = E N Y I R O N f l E N T R L I H P L C T S i = S E Q E R R L S O U R C E S )
1 6 2 A 1 1 7 I 7 g GLERL
i I = U N S P E C I F I ED 7=WAHACEMENT g=OTHE'R SOURCES)
D 2 3 5 h CLERL
CLERLn LLRS, HMRI F Y 7 4 FY 75
CLERL
6 DATA P U A L I T Y . A N A L Y S I S . 0 0 . . .
FY 75 2 5 . 9 0 0 B I O T A . PLBNKTON, PHYTOPLRNKTON: ECOLOGY, FY 7 6 2 5 , 0 0 0 TEHPORBL V R R I A T I O N , L I G H T , TEMPERGTURE, FY 7 7 2 5 , 0 0 0
( D = N U T R I E N T S Z = F B T E RND TPRNSPORT 3=ENv IRONHENTRL I H P L C T S 5=HETHOD DEV & NODELING h = V N S P E C I F I E D SWOPCES)
1 6 4 A 400 D S h CLERL CLERL
< D=HUTRIENTS S=#ETHOD DEV . & HODELI HC h = U N S P E C I F I E D SOURCES 3
I 2 3 h CLERL CLERL
0 ECOSYSTEM. LAKE ONTARIO, B I O T f i , 0 PLANKTON. CARBOH, H: TROCEN, PHOSPH0RL;S.
FY 75 29:QOQ B i O T f i : PLANKTON, ZOOPLGt4ETON: ECOLOGY, F Y 7 6 2 0 , 0 0 0 TENPORBL V A R I A T I O N . ALCGE, FY 7 7 2 Q r 0 0 0 LAKE b l I C H I C B N .
( I = U N S P E C I F I E D 2 = F Q T E QND TRANSPORT 3=ENVIRONf lENT i tL I H P L C T S h = U N S P E C I F I E D SOURCES >
I 5 h ' GLERL CLEPL
( I = U H S P E C I F I € D S=METHOD BEY. b #ODELING h = U W S P E C I F I E D SOURCES)
H 3 h GLERL GLERL FY 7 6 FY 7 7
6 ECOLOGY, B IOTA, B E N T H O S , L A K E on : f i f i I a , 0 ECOSYSTEM, 9 0
,O T E ~ ~ P E P A T U R E J B I O T A PLANKTON, 0 ZOOPLbHKT5N,
( HEOTHER 3=EHVIROHNENTAL I F P f i C T S h = U H S F E C I F I E D SOURCES !
1 7 h C L B C . , / .
C L B C J U S E P A F Y 7 6 1 5 , 0 0 0 PROGRAR D E V E L O P M E H T : P L A N , F Y 7 7 1 5 , 0 0 0 V B T E R Q U A L I T Y , D B T A C O L L E C T I O N !
! I = V H S P E C ! F I E D 7 = H f i N R G E N E H T h = U N S P E C I F l ED S O U R C E S ) .. . . ; .
. .
1 8 9 A 2 5 2 F 7 h U S E P A U . C I N N . F Y 7 4 2 3 , 0 0 0 P I S ! N F E C T I O H I UASTEW'9TER TRERTPlENT, F Y T S . 2 3 , 0 0 0 F Y 7 6 , 2 3 , 0 0 0
. .
( F = P + T H O t E N S 7 = l l R N A L E t l E N F h = U N S P E C I F I E G S O U R C E S ) . '
. . .
1 7 9 d 2 5 4 'I 4 1? ' ' .USEPA ' , U . C I NN . . ' ;.FY75. , ' 9 1 , 3 . 7 1 , H R Z A R D A S S E S S N E N T : S E N A G E , FY 7 6 9 1 , 3 7 1
., . . .
! I = U N S P E C I F I E P 4 = H U l i A N H E A L T H E F F E C T S h = U H S P E C I F I E F S O U R C E S ) . .
C--l I t 1 A 2 5 5 I 5 7 d V S E P A l i O . C O . PUA F Y 7 5 3 9 0 , 0 9 0 U R P R N R U N O F F , SEWAGE, D i S ! H F E t T I O N , . . F Y 7 6 3 9 0 , 0 0 0 MRSTEURTER T R E R T H E N T , M O D E L S ,
1 7 2 I 303 E 2 h U S E P 6 , D D E I L CS, H M R I FY 76 3 3 , 9 6 0 S E D I M E N T S , GEOCHEMISTRY, D ! S T R 1 6 U T I O N J CREEH 6 A Y a L A K E M I C H I G A N ,
( E = C O , N T B M I M H ~ ' T B , C E H . P = F A T E I N D T l ? I I ? S P O R T h = U N S P E C I F I E P SOURCES! . . . .
,
1 7 3 B 3 0 4 ' ' ' ' J ' 2 ' h U S E P A . ' U fl F Y 7 4 3 4 , 5 0 0 N U T R I E H T S , R E T A L S , R A G 1 O G C T I V I T Y , F Y 7 5 3 4 3 5 0 0 A C C U M U L A T I O N , S E D I M E N T S , F Y 7 6 3 4 , 5 0 0 B O T T O f l S U P S T R A T E S : S A G I N B Y B A Y ,
L I K E HURON, , . . .
r J-SEVERAL 2 = F A T E AND T R L N S P O R T h = U N S P E C I F I E D S O U R C E S )
F Y 76 2 9 , 4 0 0 O R G A N I C H A T T E R , O R G A N I C C O W T A M I N A N T S , D I S T R I B U T I O H J S E D I M E M T S , T E M P O R A L V A R I A T I O N , L A K E HURON,
(E='COHTA#IWWHTS, G E N . P = F A T E AND TRANSPORT ~=UNSP'ECIFIED S O U R C E S )
1 7 5 A 3 1 3 E 3 7 b USEPA, COE N W . U . F Y 7 4 6 2 , 4 0 9 MRSTE URNQGEHEHT, NGTER QURL I T Y , F Y 7 9 6 2 * 4 0 0 S U S P E N D E P S O L I D S , F Y 7 6 6 2 : 4 0 0
I E = C O N T 6 f l l N A t i T S : GEN 3 = E N Y I R O N f l E N T A L I R P A C T S 7 = f l R C 6 C E # E N T b = D S E D G I N C )
1 7 6 A 3 1 7 J 2 b U S E P A u n
< J = S E V E R R L 2 = F R T E AND TRANSPORT b = D R E D C I N C )
F Y 7 5 4 3 , 9 9 0 PHOSPHORUS, CARBON: M E T A L S > S E D I RENTS FY 7 6 4 3 , 0 9 0 M I T E R , R I V E R S . O P E N LAKE,.
FY 76 7 . 3 7 3 AEROSOL, P L R T I C U L A T E S , M O D E L S . F Y 77 7 . 5 7 3 A T H O S P H E R I C D E P O S I T I O N ,
O R C A N I C C O N T A H I N A N T S , L A K E R I C H 1 CAN,
( E = C O N T A H I H A K T S . C E N . b = S O U R C E AND L O A D 1 N C a = A T H O S P H E R I C S O U R C E )
178 A 4 J 8 1 N O A l
( J = S E V E R A L 8 z O T H E R i = S E V E R A L S O U R C E S )
179 A 7 H 0 2 5 a U S E P A
SUNY F Y 7 5 S 0 . 0 0 0 L A K E O N T A R I O . L A N D U S E , MAYES, F Y 76 5 6 . 0 0 0 T E M P E R A T U R E . C H E H I C A L C H A R A C T E R 1 Z A T I O N .
B I O T A , P H Y S I C A L L I I N O L O C Y 8
G S l l , U S G S F Y 7 5 8 3 , 0 0 0 A T f l O S P H E R l C D E P O S I T I O N .. REROSOL, FIODELS: F Y 7 6 8 3 , 0 0 0 L R K E H I C H I G R H , F Y 7 7 8 3 , 0 9 0
( H = O T H E R O=SOURCE AND L O R D I N G 2 = F R T E RND T R A N S P O R T 5 = # E T H O D DEV,. L I l O C E L I H G a = A T R O S P H E R I t S O U R C E )
C 0 o USEPA U . Y I . , U . f l I N N . ' F Y 7 5 4 0 , 0 0 0 P R E C I P I T A T I O N , L I K E f l I C H I G L N , FY 7 6 40 , 0 0 0 FY 7 7 4 0 , 0 0 0
( C=PHOSPHORUS O=SOURCE AND LOADING Q=ATHOSPHERI C SOURCE )
1 8 1 A 8 C 0 a USEPd UH.OHOE,HI DNR F Y 7 5 3 0 , 0 0 0 ATHOSPHERIC D E P O S I T 1 ON, L d K E HURON, FY 7 6 3 6 , 0 0 0
(C=PUCSPHORUS 6=SOURCE AND LOADING &=ATMOSPHERIC SOURCE!
1 8 2 A 9 A 0 2 a USEPA DEPAUL Ci . FY 7 6 10 : 1 2 5 P C B ' s . A I R . P R E C I P I T A T I O N , P A R T I C U L A T E S ~ L L K E H I C H I G L N ,
( A = T O X I C OPCANICS O=SOURCE ACD LOADI tJG 2=FATE AND T"PAHSP0PT a=RTROSPHERIC SOURCE)
P 0 . , a , USEPA USEPA, M I . DNR FY 7 5 0 P R E C I P I T Q T I O N , A I R ,
. . .
1 6 4 R 2 3 ' H 2 5 CLERL G E " F Y 7 5 26,. 0 0 0 I C E , NEARSHORE, FY 7 6 2 6 , 0 0 0 EHVIROHf lENTAL S I N V L R T I O N . ~ OODELS,
!t!=OTHEP 2=FI)TE OND TRANSPORT S=NETHOD DEV. Q HODEL,INC g=OTHER SOURCES)
H 2 a CLERL GLERL FY 7 4 0 YOVESt A N A L Y S I S , I N T E R A C T I V E EFFECTS, FY 7 5 0 A I R , F Y 7 6 0 F Y 7 7 0
(H-OTHER 2=FATE AND TRANSPORT a=RTf lOSPHERIC SOURCE)
H 25 a CiOElI C L E R L F Y 7 6 0 HETHODOLOCY, S T A T I S T I C A L M O D E L L I HC, E Y A P O R I T I O H , HYDROLOGY, MATER Q U A N T I T Y ,
' L A K E E R I E , L A K E S U P E R I O R ,
( H E O T H E R P = F A T E AND TRANSPORT 5 = M E T H O D D E Y . & M O D E L I N C a = A T M Q S P H E R I C S O U R C E )
1 5 7 A 18 H 3 a C L E R L C L E R L F Y 7 6 0 P R E C I P I T f l T I O N , t l E T H O D D L O G Y ~ S T f i T I S T I C A L f i N A L Y 5 1 5 : H Y D R O L O G Y
C HIOTHER S = F E T H O D D E V . a n @ D E L I N G a = A T f l O S P H E R I C SOURCE )
1 8 8 A 2 1 H 5 g N Q R R G L E R L
( H - O T H E R S = # E T H @ t D E V . & H O G E L I N G g = O T H E R S O U R C E S )
0 I C E : H D D E L S , TEI!PERBTLlRE,
F e vl 189 I 22 H 2 g C L E R L C L E R L
( H - O T H E R 2 - F B T E AND T R A N S P O R T g=OTHER S G U R C E S )
( H = O T H E R ?=MANAGEMENT g = O T H E P SOURCES >
C L E R L
0 I C E , D I S T R I B V T I O N . I N F O R f i f i T I O H , ADY I S O R Y ,
O I C E , L A K E S . C H E M I C A L C H A R B C T E R I Z B T I O H , P R O C R I M D E Y E L O P H E H T ,
1 9 1 A 25 C 3 k I C E A C E F Y 7 6 5 0 , 0 0 0 TEMPERATURE, I C E ,
( G = T H E R M A L E I f C H A R G E S 3 = E N ? I R D H # E H T I L I M P A C T S h = U N S P E C I F I E D S O U R C E S )
1 9 2 R 3 1 H 2 f QCE R C E
C V=OTHEP 2 - F Q T E RNG TFQNSPOPT CONON-POI NT SOURCE)
193 4 3 3 H 7 a RCE
I H=OTHER ?=BRNRGEMENT Q = B T F I O S P H E R I F SOURCE ) \
R t E
001 C 3 9 H 2 h DOE ' WYRI*
( H = O T H E R 2 = F a T E RND TRRNSPORT h = U N S P E C I F I E D SOURCES)
H 2 h DOE
9 M I V E S , I N F O R R B T I O N : TRENDS, 0 0
. . F Y 7 6 1 0 0 . Os0 PROGRBA DEYELOPHENT: 1 I I V E S z RETHODOLtlGi ' , FY 77 1 9 0 , 9 0 0 TEf lPERRTURE, FII R:
F Y 7 5 2 7 , 3 0 0 CURRENTS 8 NEBRSHORE.. L R K E O N T R R I O ,
FY 7 5 3 4 , 6 0 0 L L K E HURON: L G K E S U ? E R i O R , FY 7 6 0 P H Y S l C R L L I I N O L O G Y t I R t U L R T 1 O N . -
TEHPERATURE, T E H P O R I L Y R R I R T I O N , C E O R G I R N BAY,
! H=OTHER 9 = F R T E BND T R I N S P O R T h = U N S P E C I F I E D SOURCES)
N U R I F Y 7 5 0 D l S P E R S I O N ,
! H = @ T H E R 2 = F f i T E BND TRANSPORT S=NETHOG D E V . 8 M O D E L I N G ~ = U N ~ P E C ~ F I E D SOURCES;
G 2 7 ' h DOE FY 7 6 0 N E Q R S H O R E , OFFSHORE.. CURRENTS, TE f lPERATURE, D l S P E R S I D N ,
( G = T H E R M Q L D I S C H G R C E S 2 = F G T E I N D TRQNSPDRT 7 = R I N R C E # E N T h = U N S P E C I F I E D SOURCES)
0 4 5 C 5 0 W 2 h D O E , U . M I . M M R I
( H - O T H E R ? = F A T E AND TRANSPORT h = U H S F E C I F I E D S O U R C E S )
J 2 5 h DOE
0 D I S P E R S I O N , T E N P E R A T U R E , S U S P E N D E D M A T E R I A L S , L A K E S ,
( J = S E V E R A L P = F A T E AND T R A H S F O R T 5 - M E T H O D D E V . h M O D E L I N G h = U H S P E C I F I E D S O U R C E S )
H 5 h DOE H U R I . F Y 7 4 0 I H S T R U U E N T . I T I O N , C U R R E N T S , T E R P E R A T U R E , F Y 7 5 O OXYGEN, NERRSHORE, D Y N R F l I t S n
YRTER Q U R L I , T Y , S U R Y E I L L R H C E p
( H = O T H E R 5 = H E T H O D D E Y . 8 R O D E L I N G h = U N S P E C I F I E D 6 0 U R C E S i
J 2 h DOE M M R I F Y 7 5 1 6 8 2 0 0 TRENDS, D I S T R I B U T I O N , T E M P O R A L V I R I A T I O H , MATER Q U A L I T Y , E U T R O P H I C A T 1 OH. OXYGEH C H L O R O P H Y L L , P A R T I C U L G T E S . PHOSPHORUS,
( J = S E V E R A L 2 = F A T E AND TRANSPORT h = U N S F E C I F I E D S O U R C E S )
4 0 9 C 6 2 , J 2 3 h DOE M M R I F Y 7 4 0 L A K E S U F E R I O R J Y A T E R Q U A L I T Y , O P E N L A K E , F Y 79 7 5 , 3 0 0
( J - S E V E R A L P = F A T E AND TRANSPORT : = E N V I R O N R E H T A L I M P A C T S h - U N S P E C I F I E D S O U R C E S )
0 1 0 C 66 E 2 7 h ' DOE F Y 7 5 1 0 7 , 8 0 0 P R O C R I H D E V E L O P R E N T , S U R V E I L L A M C E , MATER Q U A L I T Y , O P E N L A K E , L d K E HURON, G E O R G I A N B A Y ,
( E - C O H T A M I M A W T S J GEM. L = F A T E AND T R A N S P O R T 7=WANAGEMEHT h - U N S F E C I F I E D S O U R C E S )
E O h DOE 0 L l K E E R I E , S U R V E I L L R N C E , MATER Q U A L I T Y , 0 0
(E=CONTBFI INANTS. . G E N . O=SOURCE AND L O A D I N G h = U N S P E C I F I E D S O V R C E S )
0 1 2 C 7 1 J 0 h DOE I M l i F Y 7 5 Q L l R E Q N T A R I O , S U R V E I L L A N C E < F Y 7 6 0
! J = S E V E R l L 9 - S O U R C E BHD L O A D I N G h = U N S P E C I F I E D S O U R C E S )
. .
F ? 6 h DOE N M R I F Y 75 0 S U R V E I L L A N C E , B A C T E R I A , T R E N D S , L I K E , E R I E , L A K E O t ? T A R I O ,
( F = P l T H O G E N S O = S Q U R C E AND L O G D I f i t C = C R I T E R I l h = U N S P E C I F I E D S O U R C E S )
J ,235 i . DOE H M R I F Y 75 4 5 , 5 0 0 B I O T A , B A C T E R I l , S U R V E I L L A N C E , H I X I H G ZOHE, N U T R I E H T S , I N D U S T R I l L SOURCE, R U N I C I P R L SOURC.Er
! J = S E V E R l L 2 = F A T E AHD T R l N S P O R T 3 = E N V I R O N f l E H T A L I F I P A C T S ~ ~ M E T H O D D E V . L R O D E L I N G ~ P S E V E R ~ L S O U R C E S )
€ 0 3 h DOE U l d R I . . .
FY75 0 TRENDS, E U T R O P H I C A T I O N , M A T E R Q U A L I T Y , S U R V E I L L A N C E , L A K E E R I E . L A K E O N T A R I O ,
i € = C O N T A I 4 I U A N T S , C E N . b = S O U R C E b N D L O A D I N G 3 = E U C I R O H # E N T A L I M P A C T S h = U N S P E C I F I E D , S O U R C E S )
E O h DOE FY 75 o ORGANIC C O N T ~ H I N A N T S , H T A , SURVEILLAHCE, L l K E O H T Q R I O ? HARPOUR,
( E = C O N T P H I N A t J T S , G E N . O=SOVRCE BND L Q l D I N C h = U N S P E C I F I E D S O U R C E S )
6 1 7 C 7 6 J 3 7 b DOE H M R I F Y 7 4 6 H A R S H , L A K E S T . , C L A I R , MATER Q U A L I T Y , FY 7 5 5 2 , 2 0 0 SED,IPI.EHT,S, L lASTE 'PiAi lACEHENT 2
F Y 7 6 Q : F Y 7 7 0 : . ,
( J m S E V E R A L 3 - E N V I R O H H E H T A L I B P A C T S 7=HANAGEMENT b = D R E D C I N G )
0 1 8 C 7 7 E S h DOE H U R l F Y 7 5 0 D ' t N A M I C S , U A T E R Q U A L I T Y ,
6 1 9 C 7 7 H S 6 h DOE N U R l F Y 7 S 0 D Y N A M I C S . MATER Q U A L I T Y 8 ; . .
( H = O T H E R 5 = # E T H O D DEV . 8 M O D E L I N G C = C R I T E R I A h = U N S P E C I F I E D S O U R C E S )
, , . . . .
, . , . . . C-r
. . . r 0 2 0 C 8 4 E 02 h DOE I blD. F Y 7 5 1 0 0 , 0 0 0 L R K E HURON, R I V E R S , S T . 9 R R Y F R I V E R , 0 , S U R V E I L L R N C E , WRTER Q U R L I T Y ,
D I V R I B U T I O H , . . .
! E = C O N T A t l I R k M T S , G E N . Q=SOURCE RND L O R D I N G 2 = F R T E R N D T R A N S P O R T h = U N S P E C I F I E D S O U R C E S ) '
6 2 1 C 8 8 . : . E 6 2 h - .DOE. . . . ' I U D F Y 7 5 9 4 , 0 0 0 L A K E O H T A R I O . R I V E R S . t 4 I A G A R P R I V E R , D I S T R I B U T ; O N , T E A P O R A L Y A R I A T I O H , U A T E R C H E H I S T R Y ,
. .. . . . . . .
( E = C O H T A # I H A t < T S , C E H . O=SOVRCE RHD';oADINc ~ = F ~ T E AND T R A N S P O R T h = U N S P E C I F I E D S O U R C E S ) . >
i, .-. .- - C 5 9 J 0 2 h DOE H M R I F Y 75 6 4 , 4 0 0 R I V E R S , S T . L A M R E H C E R I V E R , MBTER Q U A L I T Y , D I S T R I S U T I O H ,
( J = S E V E R B L C = S O U R C E AND L C R D I H G . 2 = F A T E AND T R A N S P O R T h = U N S P E C I F I E D . S O U R C E S )
* FORMERLY KNOWN A S CANADA CENTRE FOR INLAND WATERS BRANCH (CCIW)
323 c 9 2 H a h DOE HURI
( H = O T H E R Z = F A T E AND TRQNSPORT UNSPECIFIED S O U R C E S )
. . #
H 2 h DOE H M R I
! H = O T H E R Z = F Q T E AND TRQNSPORT h = U H S P E C I FIED S O U R C E S )
H 5 h DOE . .
N M R I
O D I S P E R S I O N , S T R E R f l S , H Y D R Q U L I C S ,
F Y 7 4 O D l S P E R S I O N . S T R E A f l S . R I V E R S , BORPHOLDGY, F Y 75 O C U R R E N T S ,
0 S T R E I H S , R I V E R S , HYDROLOGY, H Y D R R U L I C S , 0 . E N V I R O H f l E H T Q L S l f l U L A T I O N , H O D E L S T O
( H = O T H E R 5 = R E T H O D D E V . S N O D E L I N G h = U N S P E C I F I E D S O U R C E S )
A 92 h DOE U . M Q T . F Y 75 7 , 9 8 6 B E T H I H E , D I S T R I P U T I O N - GROUNDUQTER,
! Q = T O X l C O R t G H l t S D a S O U R C E AND L O A D I N G B = F Q T E QND T R R H S ~ O R T h = U N S p E C I F I E D S O U R C E S )
027 C 1 1 0 D 2 h DOE H C C I L L U .. .
( @ = N U T R I E N T S 2:FfiTE AND TRRNSPORT h = U N S P E C I F I E D S O U R C E S )
FY75 2 4 . 9 8 3 D Y N A W I C S , L A K E S ,
. .
J 0 2 i DOE 2 , 6 2 0 N I T R O G E N , PHOSPHORUS, E H V I R O H H E N T A L S I f l U L R T I O N , E P I L I R N I O N > H Y P O L I f l N I O N , S E D I R E N T S , I H T E R l C T I V E E F F E C T S , D R E D G I N G , P E S T I C I D E S ,
( J s S E V E R Q L C = S D U R C E QND L O A D I N G 2 = F Q T E RND T R l N S P O R T i = S E V E R Q L S O U R C E S )
0 2 9 C 1 1 2 J 1 2 h DOE F Y 7 4 O D I S T k I B U T I O N . D I S P E R S I O f i , W I T R O C E H J , .
N l d R I . . . . , ' I ' . . . ' . . . . ! : . . , . E Y 7 5 O S U L F U R , Y A T E R , S E D I H E H T S . F Y 7 6 0 F Y 7 7 ' 0 .# . .
( J m S E V E R A L l = C H A R f i C T E R I S T I C S ?.=FATE AND TRANSP.6RT h = U N S P E C I F I E D SOURCES )
0 2 h DOE
. . . . . . . N Y R I
! B = T @ K I C M E T A L S 2 = F I T E AND T R I N S P O R T h = V N S P E C I F I E D S O U R C E S )
, . J 7 . ' h - . D O E . 0 3 1 C 1 1 5 ' " N V R I
F Y 7 5 5,.000 C E O t H E l l I S i R Y , P R E C I P I T A T I O N , P I R T I C i ! L A T E S t R E T G L S t ORGnN I C COMTGA,IHRNTS,. S O R P T I GN, : :
. . , L n K E E R I E . L A K E , ,ONTARI 'O: . .
0 A D V I S O R Y , S U R V E I L L R N C E : O P E N L A K E , 0 0 , . $
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r u l r 0 3 2 C 1 1 6 I 5 7 h D O E . U . M R T . . I U D FY 7 9 8 .896 Y A T E R Q U A L I T Y , S U R V E I L L A N C E ,
F Y 7 6 8 . 8 3 6 D I S T R I B U T I O N , T E H P O R A L V A R I A T I O N ,
( I = U H S P E C I F I EL? !3rPIETHOD D E V b PIDDEL*IHC 7=PIANACEWENT h = U H S P E C I F I E D SOURCES
0 3 3 C 1 1 8 ' D 5 h DOE. W U R I , . F Y 7 5 . .
F Y 7 6 . .
( D = N I J T R I E N T S J = A E T H O D D E V . h RODEL- INC h = l J N S P E C I F I E D SOURCES )
, . . , . . 0 3 4 C ' 1 2 0 E 5 - ' -g ' DOE ; . .. . N V R I
( E = C O N T A R I N R t l T S , C E N . S=HETHOD DEV.. % H O D E L I N G g e 0 T H E R S O U R C E S )
0 D A T A Q U A L I T Y , PHOSPHORUS, H I T R O C E N * 0 A l 4 l 4 6 N I A , A N A L Y S I S ,
0 V B T E R Q U A L I T Y J 9 N A L Y S I S t 0 I N S T R U R E N T A T I O N ,
> , . . . . . %
* FORMERLY KNOWN AS GREAT LAKES BIOLIMNOLOGY LABORATORY (GLBL)
E 5 g DOE NWRI
(E=COHTFIPI INGHTS, CEN. 5=HETHOD D E V . 8 I I O D E L I N G g-OTHER S(1L;RCES)
E S ' g DOE
iE=COt4TA! l INAWTS, CEN. 5=RETHOD D E V . b WODELINC g-OTHER SOURCES)
037 C 121 B S g DOE N M R I .
( B = T O X I C P IETaLS S=RETHOD D E V . & H O D E L I N G . g=OTHER 'SOURCES)
w m ro 0 3 8 C 122 E 5 h DOE N U R I
0 A N A L Y S I S , UATER B U L L I T Y , O I N S T R U H E N T A T I O H ,
0 HATER Q U A L I T Y . A N A L Y S I S , 0 I N S T R U W E N T A T I O N .
O I N S T R U H E N T A T I O H , R H A L Y S I S , U I T E R , O S E D I R E N T S ,
( E = C O N T A f l I N A N T S , C E N . 3-METHOD D E V . & WODELING h = U N S P E t I F I E D SOURCES)
039 c 122 . B S h D O E IUD
( B=TOX I C M E T A L S S= f lETHOD DEV . & H O D E L I N C h-UNSPEC I F 1 ED SOURCES >
F Y 76 17,000 A N A L Y S I S , METALS, S E D I R E N T S , C O H P L E X A T I O N , P R E C I P I T G T I O N J SORPTION, S I L I C A ,
. .
9 4 0 C 123 E 5 h DOE ORF FY 75 69,954 1 6 B E 6 T O S F I B E R S , A N B L Y S I S , M I T E R ,
( E = C O N T I f l I N F I N T S , G E N . 5=RETHOD DEV. & H O D E L I R C h = U N S P E C I F I E D SOURCES)
0 4 1 C 125 A 5 h DOE H M R I F Y 7 5 2 2 , 6 0 0 P E S T I C I D E S , P C B ' s , A N A L Y S I S , M A T E R ,
( A = T O K I C O R G A N I C S 5 = W E T H O D D E V . h. H O D E L I U C . h = U H S P E C I F I E D S O U R C E S )
' 0 4 2 C 1 2 5 A S h DOE N W R I F Y 73
( A = T O K I C O R G A N I C S 5 - U E T H O D D E V . & M O D E L I N C h = U N S P E C I F I E D S O U R C E S )
0 4 3 C 1 2 6 Q 5 h DOE N V R I F Y 7 5
! R = T O X I C O R G F I N I C S 5 = M E T H D D D E V . & F l O D E L I N C h = U H S P E C I F I E D S O U R C E S )
w 6 4 4 C 126 A 5 h DOE H M R I F Y 7 5
( d = T O X I C O R G A N I C S 5 - M E T H O D D E V . 8 # O D E L I U C h - U H S P E C I F I E D S O U R C E S )
6 4 5 C 1 2 7 A S h DOE H M R I F Y 7 5 F Y 7 6
( & = T O X I C O C C R H I C S S = W E T H O D D E V . b M O D E L I N C h = U N S P E C I F I E D S O U R C E S )
0 P E S T I C I D E S : Q N R L Y S I S : CHROf lQTOCRQPHY. ,
. .
0 P E S T I C I D E S , QNRLYSIS, C H R O f l Q T O C R Q P H Y .
0 N I T R O G E N , P H O S P H O R U S , P E S T I C I D E S , 0 A N A L Y S I S , M A T E R ,
0 4 6 C 1 2 7 A 0 2 5 c DOE H W R I F Y 7 5 7 2 , 6 0 0 D I S T R I B U T I O H , Q Q U Q T I C E N V I R O N H E N T S , I* ( Y R T E R , S E D I F I E M T S , P E R S I S T E H C E ,
n I x I H C ZONE, OPEN L Q K E Y E R R S H O R E , P E S T I C I D E S J B I O A C C U ~ ~ U L I ? T I O H ~
( # = T O X I C O R G P N I C S O = S O U R C E AND L O A D I N G 2 = F A T E AND T R A H S P O R T S = M E T H O D D E V . & U D D E L I H G c = I H O U S T R I A L S O U R C E )
0 4 7 C 1 2 8 CI 5 h DOE NMRI ~ $ 7 5
~ @ = i J X I t O R G Q H I t S 5=HETHOB DEV. G RODELING h = U N S P E C I F I E D SOURCES)
9 4 8 C 128 C I 5 h DOE NMRI FY 7 5
! @ = T O X I C ORG2HICS ?=RETHO@ DEV . & RODELINC ~=UHSPECIFIE~ % ' O U R C E S ~
0 A N A L Y S I S , tHROfl6TOGRfiPHY, RETHODOLOCY, ORGdNIC C O N T B f l I N l N T S , ,,
7 : 5 0 0 A N f i L Y 5 1 8 : WATER, L 9 R P R I C I D E 5 ,
1 2 1 5 h DOE NMRI FY7S 0 A N a L Y S I S , P E S T I C I D E S , B I O D E C R B D A T I O N ~ FY 7 6 0 T O X I C I T Y ,
( f i = T O X I C ORGRNlCS I = C H A R B C T E R I S T l C S 5 = H E T H O D D E V . b f lODELING h.UNSPECIFIED SOURCES)
w . vl
0 5 0 C 1 2 9 A 5 c DOE NMRI FY 7 5
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0 9 1 C 1 3 0 H 5 p DOE HMRI
! H=OTHEI! . .S'=RETHOD D E V . 8 MODEL IN^^ g=OTHER SOURCES )
0 5 2 C 1 3 0 H 5 h DOE 0 R F
0 B N A L Y S I S . WATER,
F Y 7 5 1 5 9 , 9 8 8 ORGANIC C O N T f i n I N I N T S , a N B L Y S I S , WaTER,
(H=OTHER 5=f iETHOG DEV. & f lODELINC h - U N S P E C I F I E D SOURCES) ,
I 2 5 h DOE 6 'MLTER R U ~ L I T Y . ~ " R V E ' I L L ~ N C E , REMOTE SEWS:ING,, D I S T R I B U T I O N J
T E M P O R A L Y A R I A T I O N ' Z . ,
( I ~ U N S P E C I F I E I ! 2 n F A T E AND TRANSPORT S=METHOD D E Y . L : . I O ' D E L I N C h a U N S P E C I F I E D S O U R C E S ) ' ' . . : . . .
0 5 4 C 131 1 5 h - DOE N M R I 8 NOAA F Y 7 5 0 MATER E U A L I T Y . I H S T R U I E N T A T I O N , S A T E L L I T E S ,
, . , .. * . ( I =,UNSPECIF I E D 5=METHOD D E V . b N O D E L I N C h = U N S P E C I F I E D SOURCES) , . .
: . .
. . . . . .
. . . . ,
I 7 i DOE
, . NWRI F Y 7 4 0 6 D V I S O R Y , REMOTE SENSING, F I E L D SUPPORT,
F Y 7 5 0 F Y 7.6 0 FY 7 7 0
l = U N S P E C I F XED T= f l b t I bCEf lENT i =SEVERGL SOURCES)
+ 0 5 6 C 1 3 2 H 5 h DOE N Y R I
( H = O T H E R S=METHOD DEY 8 MODELINC h - U N S P E C I F I E D SOURCES)
0 REMOTE S E N S I NC, P H Y S I C A L L I WNOLOCY, I N S T R U M E N T A T I O N , SUSPENDED S O L I D S , P R O D U C T I V I T Y ,
0 5 7 C 1 3 3 H S ' a DOE # c N . A S : , Y O R K U . F Y 7 S 1 3 , 3 2 4 I N S T R U I E N T A T I O N . E Q U I P M E N T , , .
R E I O T E S E H S I NC,
( H = O T H E R S=WETHOD D E V . 8 F O D E L I N C a = k T f l O S P H E R l C SOURCE)
358 C 133' ,- ' . . . , H 5 h ' DOE.; . . . C H 6 T H Q f l 6 S S O C . F Y 7 5 8,400 D O T 6 C O L L E C T I O N , . E Q U I P H E H T :
( H = O T H E R 5 = n E T H O D D E V . & PlODELlNG h = U N S P E C I F I E D SOURCES)
J 5 h DOE
, . .
! J=SEYERAL 5=HETHOD D E V . & RODELING h = U N S P E C I F I E D SOURCESi
0 6 3 C 1 3 5 . . I 5 g DOE N Y R I
! I = U N S P E C I F I E D 5=RETHOD DEV. h HOGELING q=OTHER SOURCES i
0 6 1 C , 1 3 5 I 5 h DOE N Y R I . .FY 7 5
c I=UNSPECIFIED S = R E T H O D D E V . h RODELING PUN SPECIFIED S O V R C E S )
I 5 h DOE N Y R I
c I = U N S P E C I F I E D 5=RETHOD D E V , h f lODELING h = U N S P E C I F I E D SOURCES)
C 2 5 h . DOE NWRI
0 HELVY R E T b L S , OXYGEN, L I G H T , pH, 0 TERPERRTURE, I N S T R U R E N T b T I O N ,
S U R V E I L L I N C E ,
0 IHSTRUMENTLTION, S U R V E I L L I N C E , 0 0 0
0 EUTROPHICATION, PHOSPHORUS, NITROGEN, P R O D U C T I Y I TY 8 B I O T A , BLChE, A V f i I L A B I L I TY, SEDIMENTS, ZOO PLANKTON^
(C=PHOSPHORUS 2=Ff iTE AND TRANSPORT S=HETHOD D E V . & HODELINC h = U , N S P E C I F I E E S O U R C E S ~ '
. . , . . 3 6 4 C 1 4 1 D 2 3 5 h ' DOE NMRI . . . F Y 7 5 . : 125 . ) 7 0 0 EUTROPHI CCITI ON, RQUCITI C SYSTERS,
DYNARICS. P R O D U C T I V I T Y : B I O T f i , PLLNKTON, BRCTERIF I , SEDIMENTS, P R R T I C U L f i T E S , OXYGEN, H Y P O L I R N l O N t
( D = N U T R I E N T S 2=FFITE CIND TRRNSPORT 3=ENYIRONRENTLL I R P R C T S 5=RETHOD DEV. L RODELING ~ = U H S P E C ~ F I E D SOURCES)
D 2 3 h DOE , F Y 7 4 0 i l ~ E E R I E . F Y 7 5 3 0 , 6 0 0 F Y 7 6 0 F Y 7 7 0
! D = N U T R I E N T S 2 - F A T E A N @ T R A H S P O R T 3 = E N V I R O N # E N T A L I M P A C T S h = U N S P E C I F I E @ S O U R C E S )
D 2 3 h DOE N W R l F Y 74 0 B R Y O F Q U I N T E , L R K E O N T B R I O . . S E D I R E N T S , F Y 75 3 4 , 8 0 0 R E S U S P E N S I O N , D Y N A f l I C S t E C O S Y S T E H ,
P R O D U C T I ?I T,Y, ;
( D - N U T R I E N T S 2 = F A T E R N D T R G N S P O R T S = E N Y I R O N H E N T A L I f l P A C T S h = U N S P E C l F I E D S O U R C E S )
0 6 7 C 1 4 9 C 5 g DOE H W R I
( C = P H O S P H O R U S S = M E T H O D D E V . & PlODEL I H C 9 = ~ ~ ~ ~ ~ . S D U R C E S )
E 2 3 5 c DOE N W R l
0 B I O l S S l Y , 8 1 0 T A . A L G A E , B A C T E R I A , 6
F Y 74 0 R A D I O B C T I V I T Y . B T 4 0 6 P H E P I C D E P O S I T I O N , F Y 75 6 2 , 0 0 0 D I S P E R S I O N , L B K E O t l T i i R I 0, F Y 76 0 F Y 77 0
! E = C O H T G H I N B W T S . . C E N . 2 = F R T E R N D T R R N S P O R T 3 = E N Y I R O N f l E N T R L I A P B C T S S = n E T H O D D E V . 8 HODELING' C = I N ~ U S T R T G L S O U R C E ?
3 c DOE M . T . C E I L I N G F Y 7 S 1 0 , 5 0 0 N U T R I E N T S , T H E R W l L P O L L U T I D N . E C G S Y S T E P l , . , B I O T A . P L I N K T O H . Z O O P L A N K T D N ,
3 7 0 C 161 J 2 h DOE H V R I 0 D Y N b R I C S , N E R R S H D R E , P H Y S I C f i L L I PINOLDGY, D l S P E R S I O H , T H E R f l A L ? 3 L L B T 1 3 H , S U S P E N D E D R I ~ T E R I A L S ~ L B K E S : RIVER:, H Y D R R U L I C S , R I R , U B T E R J
( J = S E Y E R R L 2 = F A T E RND T R R N S P O R T h = U N S P E C I F I E D S O U R C E S )
,
G 3 7 c D O E W L t . L T D . F Y 7 4 168 420 L R K E S ,
( t = T H E R P l f i L D I S C H A R G E S 3 = E N V I R O N R E N f k L I l q P b C T S 7 = W R N R G E R E H T c = I H t Y S T R 1 R L S O U R C E ;
A 2 h D O E N V R I 8 O R O E F Y 7 5 1 1 3 , 8 0 0 O I L , A Q U A T I C E H V I R O H R E H T S , P E R S I S T E N C E , E Y R P O R R T I D N ,
( A = T O X I C O P G R H I C S l = t Y A R R C T E R I S T I C S 2 = F A T E R N D T R R N S P O R T h = U N S P E C I F I E D S O U R C E S )
L 2 5 h D O E U . T O R . 8 D O E FY 7 5 9 , 8 0 0 O I L , B I O D E G R R D R T I O N , B I O T R , B R C T E R I R , R L G R E ,
( & ? = T O X I C O P G d N I C S 2 = F f i T E R H D T R R H S P O R T S = P I E T H O D D E V . b R U D E L I N G h = U H S P E C l F l E D S O U R C E S )
w ul 00 074 C I 7 4 R 3 5 h D O E N b l R l F Y 7 5 0 O I L , E C O L O G Y , f l I C R O O R E A N I S H S ~ B I O T R ,
( R = T O X I C O R G R H I C S 3 = E N Y I R O N R E N T b L I f l P R C T S J = H E T H O D D E Y . 8 t l O D E L l N G h = U H S P E C I F I E D S O U R C E S )
R 2 , h D O E W V R I , F Y 7 4
( R = T O X I t O R G A N I C S 2 c F A T E R N D T R R H S P O R T h = U H S P E C I F I E D S O U R C E S )
0 01 L , T E f l P O R R L VRR I R T I O N t T R E N D S , E C O L O G Y , B I O T R , B R C T E R I L , P L R N K T O N ,
- V G T E R C H E R I S T R Y * N I T R O G E H , S I L I C R , P H O S P H O R U S , .. .
0 7 6 C 176 R 67 h D O E H b l R I F Y 7 4 0 O I L , E Q U I P M E N T , R I V E R S , F Y 7 5 0
( A = T O X I C ORGPIN I C S . C = C R I , T E R I R 7 - W A N A G E R E N T h = U N S P E t l F I E G S O U R C E S ) , .
077 C 176 A 5 h DOE B U R 1 F Y 7 5
( A = T O X I C O B G A N I C S S = h E T H O D D E V b H O D E L I H G h = U H S P E C I F I E D S O U R C E S )
3 7 8 C 1 7 7 0 2 h DOE N M R I F Y 7 6 0 O I L , V A T E R , R I V E R S ,
( A = T O X I C O P G A H I C S 2 - F F I T E RtJD TRFINSPOST h - U H S P E C I F I E D S O U R C E S )
0 7 9 C 1 8 4 J 0 2 6 h DOE H M R I F Y 7 6 0 A D Y I S O R Y , D Y N f i H l t S , B ! @ D E t R A D A T I ON, A Q U A T I C E N Y I R O N R E N T S ,
2
! J = S E V E R A L O=SO'URCE FIND L O F I D I N G 2 = F F I T E A N D T R A H S P O R T $ = C R I T E R I L h = U N S P E C I F I E D S O U R C E S > 8 . .
C1 vl 080 C 184 1 0
E 3 h DOE U . T O R . F Y 7 5 0 T D X I C S U B S T A N C E S , A D V I S O R Y ,
( E = C O N T A M I H A H T S , C E N . 3 = E N Y I R O H P l E N T A L I W F A C T S A = U N S P E C I F I E D S O U R C E S )
0 8 1 C 189 A 2 h DOE H U R I F Y 7 S 0 T O X I C S U B S T A N C E S , P E R S I S T E H C E , B I O A C C U f l U L A T l O N ~
( A = T O X I C O R G A N I C S 2 = F A T E FIND T R A N S P O R T h - U N S P E C I F I E D S O U R C E S )
082 C 192 A 2 3 h DOE .. ,
C Y S , H Y R I F Y 7 5 7 0 , 9 0 0 V A T E R F D V L - A C C U N U L A T I D H : L L K E S U P E R I O R , L L K E HURON, L A K E E R I E , L A K E O N T R R I O ,
( A m T O X I C O R G A H I C S 2 = F f i T E AND T R A N S P O R T 3 = E N V I R O N H E N T f i L I H P R C T S h - U N S P E C I F I E D S O U R C E S )
. . .. . . .
0 8 3 C 1 9 3 A 3 h DOE CYS, N V R I FY 7 5 0 ACCUUULATION, YLTERFOWL, T O X I C I T Y , FY 7 6 1 3 , 7 0 0 P C B ' s ,
( B = T O X l t ORGBNICS S=EHVlRONUENTBL I N P A C T S h = U N S P E C I F I E D SOURCES)
A 37 , d DOE WMRI
( A = T O X I C ORGANICS 3=ENVlRONMEWThL IWPhCTS ?=#ANACE#ENT d = k i U N I C I P A L SOURCE) . .
A 3 h DOE
! A = T O X I C ORGBNICS 3=ENVIRONf lENTAL IMPACTS h = U N S P E C I F I E D SOURCES)
w 07 0 0 8 6 C ,203 A 2 , g DOE N V R I
( B = T O K l t O R t e N I C S Z = F @ T E BHD TReNSPORT g=OTHER SOURCES)
2s i DOE N Y R I
0 P E S T I C I D E S , A N I L Y S I S , 0
F Y 7 5 3 , 0 0 0 SURFACTANTS, B l ODEGRADATI ON 3 LAKES, . -
FY 7 5 0 .SURFACTFINTS, A N A L Y S I S , MI)TER, SEYRCE, BIODEGRRDI)TION, D l S T R I B U T I O N . ACCUUULATI OH,
! A = T O X I C ORGaNICS P = F B T E BND TRANSPORT 5=UETHOD D E V . b NODELING i = S E V E R A L SOURCES)
B 35 h DOE U . CUE FY 7 5 5 , 3 5 4 CBDI'iIUU, L E I D , L I G H T , P L I N K T O N , ZOOPLIHKTON,
! B = T O X I C F!ET@L6 Z=ENQIRONRENTAL I N P A C T S 5=RETHOD D E V . & HODELINC h = U N S P E C I F I E D SOURCES)
B 3 h DOE 5rd0'0 L E A D , T O X I C I T Y T E S T I N G , P H Y S I O L O G Y . B I O T A , F I S H ,
( 0 - T O N I C M E T A L S 3 m E W V I R O N H E M l 6 L I H P A C T S h = U N S P E C I F I E D S O U R C E S ) . .
0 8 0 C 210 J 35 h DOE H W R I 9 TOXI'C H . E T ~ ~ L S , T O X I C 0 R G f i H l t . S . o BIOCHERISTRY: B I O A S S ~ ~ Y ~ P n Y s l o L o t ~ ,
! J = S E V E R R L 3 = E N V I R O N H E N T I L I H P I C T S S = H E T H O D D E V . 8 H O D E L I N L h = U N S P E C I F I E D S O V R C E S )
0 9 1 C 2 1 1 ' B 13 h D O E , C C I U , U . V R T . F Y 7 4 1 2 , 5 0 0 C O H P L E X I T I O N , MERCURY.. C A D R I U M , F Y 7 5 1 2 , 5 9 9
( B = T O X I C H E T f i L S l = C H f i R A C T E R I S T I C S 3 = E N V I R O N l l E N T f i L I M P f i C T S h = V H S P E C I F I E D SOURCES.)
. . C1
0 9 2 C 2 1 2 B 2 3 h DOE U . T D R . ,NYRI C1
F Y 7 4 9 , 8 0 0 COPPER, N I C K E L , T O X I C I T Y . B I O T A . A L C L E . CA.RBON,, C t 3 W P L E X A T I O N . s E Y A C E .
( B = T O X I C M E T A L S P = F I T E AND T R d N S P O R T 3 = E N V I R O N # E N T A L I M P A C T S h - U N S P E C I F I E D S O U R C E S )
8 1 2 h DOE N U R I . C L F R 6 F Y 7 6 0 C O M P L E X A T I O N , L A K E S . O R G A N I C C O N T A M I N A N T S J T O X I C I T Y , P E O D U C T I Y I TY.
( B = T O X I C M E T A L S I = C H A R A C T E R I S T I C S , 2 = F A T E AND TRANSPORT . h = U N S P E C I F I E D S O U R C E S ) . .
094 C 2 ! 6 B 2 b DOE H U R I . . . . . .
FY 7 5 4 HERCURY. A Q U C l T I C E N Y ' I B O N H E I I T S . . . S E D I , H E N T S ,
E 0 2 h DOE . . .
N W R I F Y 74 0 A S B E S T O S F I B E R S , D I S T R I P V T I O N P B I O T A , F Y 7 5 1 5 , 0 0 0 F I S H , L A K E HURON,
( E = F O N T ~ ~ ~ I N ~ N T S I G E H . Q=SOUPCE d # D L O A D 1 NG 2 = F R T E AND T R G H S P O R T h = U N S P E C I F I E D S O U R C E S )
0 9 6 C 219 E 0 7 .' c DOE ; WMRI > OPIOE FY.74 0 B S B E S T O S F I B E R S , WATER, F Y 7 5 0 V R S T E FIANACEFIEWT,
! E = C O N T B R I N R N T S , G E N . O=FOURCE RHD L O A D I N G 7=fiRNAGERENT = = I N D U S T R I A L S O U R C E ) , .
0 9 7 C 2 .22 E 0 2 3 i DOE N I J R I F Y 75 2 5 , 1 0 0 R R D I O B C T I V I T Y , A T P I O S P H E R I C S O U R C E , . . . . F Y 7 6 O I N D U S T R I GL SOURCE,
B T F I O S P H E R I C D E P O S I T I O W t D I S T R I B U T I O N P S E D I H E N T S , L R K E HURON, R I V E R S ,
. ,
! E = C O N T B f l I t i 6 N T S , C E H . O=SOURFE R N D L O A D I N G 2 = F A T E RND T R R H S P O R T 3 = E H V I R O N M E N T I L I M P A C T S i = S E V E R A L S O U R C E S )
E 0 2 c DOE H W R I F Y 74 0 R R D I O B C T I V I T Y , D I S T R I B U T I O N , U A T E R , F Y 7 5 3 9 , 7 0 0 S E D I R E N T S , B I O T A , PLRWKTON, F I S H ,
L R K E HURON, L A K E S U P E R I O R ,
!E=CONTbf41Nht !TSr C E N . O=SOVRCE AND LOADING 2 = F & T E RND T R R N S P O R T ~ = I H D u S T R ~ A L S O U R C E )
1 ClD F Y 74 0 I N F O R f l A T I O N , E C O L O G Y , F Y 7 5 0 F Y 7 6 0 F Y 77 0 . .
C J = S E V E R A L C = S O U R C E b N D L O A D I N G 3 - E N V I R O N R E H T A L I R P I C T S ? = f l A N B G E f l E N T ~=SEVERIL S O U R C E S )
E 5 7 i DOE 0 C D S T - B E N E F I T , 0 0 0
( E = C O N T R R I N A N T S t G E N . 5 = M E T H O D D E V . O R O D E L I N C 7 = f l f 3 N ~ C E M E N T i = S E V E R B L S O U R C E S )
1 4 1 C 232 E 7 i DOE I N F . L T D .
( E-CONTA#I~!ANTS, GEH. 7=#AMRGE!4EHT imSEVERAL SOURCES)
192 C 239 E 7 i DOE
C E=COHTAWIHAFTS: CEN. 7 = n f i N I C E B E H T i = S E V E R a L SOURCES)
103 C 239 E 7 i DOE J . Y . P I K E
I E=CONTRHINRNTS- S E N . 7-RBNRCEBENT i=SEVERAL SOURCES )
w O l w 1 0 4 C 2 4 6 E l c DOE DRF
( E=COHTA#IWCINTS, CEN. I =CHARACTERIS.TICS c = I H D U S T R I A L SOURCE )
1 0 5 C 2 4 6 E l P DOE J . DACC . .
(E=COHTAk! IHANTS, CEN. 1 =CHARACTERISTICS e - S H I P P l H C )
1 0 6 C 2 4 6 E 7 e DOE S . JEMELL
10,200 YLSTEWLTER TREATRENT: I N D U S T R I R L SOURCE, HUHIC I P A L SOURCE,
9,000 YLSTEVATER TREBTWENT, I N D U S T R I R L SOURCE, n u n r c r P e L SOURCE,
F Y 7 5 5 0 L H A L Y S I S , DATA COLLECTION,
1 0 7 C 2 4 6 E 7 e OOE
( E = t O N T A R I N R H T S 9 GEN. 7-HRNRGERENT e = S H I P P l U G )
7 , 5 0 0 D I S I N F E C T I O N ,
1 0 8 C 2 5 0 G 2 7 d DOE U . ORT. n N Y R I FY 74 1 0 8 3 1 1 ORGRNIC C O N T R f l I H A N T S ~ C H L O R I N R T I O N > FY 7 5 1 0 , 3 1 1
(G=THERRRL OISCHRRCES 2=FRTE AND TRRNSPORT 7=RANAGERENT d = f l U H I C I P R L SOURCE)
1 0 9 C 2 5 2 I 2 7 d DOE N U R I FY 75
( I a U N S P E C I F I E D Z = F P T E A N D TRANSPORT 7=RQNRGERENT d = R U N l C I P R L SOURCE)
I- m c 1 1 0 C 2 5 3 E 2 7 I DOE NMRI FY 7 5
1 0 , 0 0 0 CHLORIMRTIOH, L I G H T ,
0 ORGRNIC CONTRf l INANTS, P E R S I S T E N C E * DECOHPOSIT ION, L I G H T , U L T R A V I O L E T ,
(E=COHTARINRNTSI CEN. 2 z F R T E AND TRRNSPORT 7=RANACEIENT i = S E V E R R L SOURCES) '
111 C 2 5 3 E 2 7 h DOE ,
0 ORGANIC CONTAf41 NANTS 4 L I C H T 8
U L T R A V I O L E T , HETALS,
(E=COWTfiWIWRNTS, CEN. 2=FRTE AND TRbNSPORT 7=#AMbCE#EMT h = U N S P E C I F l E D SOURCES)
1 1 2 C 2 5 7 H 5 d DOE NMRI 0 URBRN RUNOFF t ENY IRONRENTRL S I f l U L A T I O N 0 0
1 1 3 C 2 6 6 H 5 h DOE F P E N I C K A FY 7 5 ., :
92 7 0 0 RUNOFF, TENPORAL Y W R I B T I O N ,
(HEOTHER 5=P!ETHOD D E V . 8 MODELING h - U N S F E C I F I E D SOURCES)
I 1 4 C 265 H 6 7 d DOE N U R I F Y 7 4 0 SEURCE, URBdN RUNOFF: FY 75 1 7 , 0 8 0 FY 7 6 0
C H=OTHER 6 = C R I T E R I f i I=F lbNRGERENT d=MUN I C I P R L SOURCE ) .
1 1 5 C 266 E l c DOE ORF F Y 7 5 3 ,629 A N A L Y S I S . . ,
( E - C O N T A M I H A N T S , CEN. l = C H A P L C T E R I S T I C S c = I N D U S T R I A L SOURCE)
P
1 1 6 C 2 6 7 E l c DOE U N I R O Y R L L T D FY 7 5
< E=COMTRf t INRNTS, GEN l = C H b R A C T E R I S T I G S c = I N D U S T R I f i L SOURCE )
E l h DOE NMRI , MRC F Y 7 4 F Y 7 S FY 7 6
, F Y 7 7
( E = C O N T A M I H A N T S , CEN. l = C H A R L C T E R I S T I C S h = U N S P E C I F I E D SOURCES)
4 , 8 4 6 P E S T I C I D E S ,
0 B I O D E C R A D Q T I O N J O R C Q N I C C0HTAM:HANTS. 0 F I B R I L S * H I C R O B I O L O G Y , 0 S T R U C T U R E - A C T I V I T Y , 6
1.18 C 2 7 6 E 2 c DOE U . M A T . , OMOE F Y 7 4 2 6 , 6 6 6 SORPTIONa S O I L ,
! E'=COH'TAWIHANTS, CEN. 2mFATE A N D TRAHSPORT., . c = I . N D U S T R - I d L SOURCE ): , , .
1 1 9 C 2 8 6 B 1 7 h DOE U . T O R . FY 7 5 7 , 4 8 8 YRSTE f lANQCEflENT, QGRICULTURE,
( E = T O X I C H E T P L S I = C H R R R C T E R I S T I C S f=RANf iGERENT h = U H S P E C l F I E D SOURCES)
1 2 0 C 2 9 1 H 5 h DOE
(H=OTHER 5=#ETHOD D E Y . & f lODELING h = U N S P E C I F I E D SOURCES?
1 2 1 C 2 9 2 I 7 h DOE 8 . PREBTED FY 7 5
( I - U N S P E C I ' F I ED 7=fl t?NQCEFIENT ~=UN~PECIFIED SDURCES )
8..
F cn
1 2 2 C 2 9 3 H 1 7 h DOE U V R I FY 7 5
!H=OTHER I = t H A R A C T E R I S T I C S 7=tIt?NACERENT h = U N S P E C I F I E D SOURCES)
H 7 h DOE
(HIOTHER T=RRNRCEflEUT h=Ut !SPEClF IED SOURCES)
1 2 , 3 2 8 SEYQGE, DRTR C O L L E C T I O N , RETHODDLOGY,
16,675 IRON, UASTE f lhNQGEIIENT, IIETHODOLOCY,
.COR.PUB.SER.LTD F Y 7 5 3 4 , 5 0 0 YRSTE flQNRCEMENT, INFORf lRT ION,
1 2 4 C 2 9 7 E 2 5 h DOE UWRI FY 7 4 0 SEDIREHTS, LAKES, D I S T P I B U T I O N ~ FY 7 5 0 D I S P E R S I O H t TRENDS, F Y 7 6 0 FY 7 7 0
(E=COWTPRII IACTS, CEN 2=FQTE RND TRQNSPORT 5-RETHOD DEY 6 H Q D E L I N G h = U N S P E C I F l E D SOURCES)
1 2 5 C 2 9 8 H 2 g DOE
( H = O T H E R 2 = F B T E AND TRAHSPORT BOOTHER SOURCES)
CiSU, U. MAT. FY 7 4 0 S E D I M E H T S , P A L E O L I H H O L O C Y ~ L A K E S . F Y 7 5 94 5 0 0 FY 7 6 6 FY 7 7 0 . .
. . . ..
. .
H Y R I . .. ' 1 2 6 C 3 0 0 H 0 1 2 g DOE FY 7 4 0 S E D I R E H T S , HERRSHORE, D I S T R I P U T I O N , FY 73 6 0 , 0 0 0 L R K E S t FY 76 0 FY 77 0
(H=OTHER O=SOURCE AND L O A D I N G l = C H A R A C T E R I S T I C S 2mFATE AND TRRNSPOPT g=OTHER SOURCES)
J : 0 1 2 i DOE
,.. .
H M R I FY 7 5 0 S E D I R E N T S , G E O C H E R I S T R Y , D I S T R I B U T I O H , F Y 7 6 1 4 , 9 0 0 FY 77 0
( J = S E V E R f i L O=SOURCE AND L O A D I N G I = C H A R R C T E R I S T I C S 2 = F A T E AND TRf iNSPORT i = S E Y E R A L SOURCES)
I-' 1 2 B C 3 0 2 H 6 ' i DOE ' HMRI J U . M A T . 8GSC F Y 7 4 0 SEDIHEHTSJ ACCUMULATION, L A K E E R I E ,
FY 7 5 3 5 , 0 0 0 L A K E HURON, L A K E S U P E R I O R , FY 7 6 0 GEOCHEHISTRY, . FY 7 7 6 . , . .
, . . .
( H = O T N E R O=SOURCE AND L O A D I N G I z S E V E R A L SOURCES)
1 2 9 C 3 0 3 J 1 5 5 h DOE NMRI F Y 7 5 0 N U T R I EHTS, T O X I C METALS PHOSPHORUS, F Y 7 6 2 3 . 3 0 0 IRON, S E D I R E N T S , MATER, A N A L Y S I S ,
I H T E R A C T I Y E EFFECTS, L A K E S ,
( J - S E V E R A L l = C H A R A C T E R I S T I C S P=FATE AND TRANSPORT S=HETHOD D E V . b H O D E L I H C h - U N S P E C I F I E D SOURCES)
€ 2 5 h DOE
. .
N M R I 0 ORGANIC MATTER, A N A L Y S I S , S E D I B E N T S , L A K E S , E U T R O P H I C A T I O N , D I S T R I B U T I O N ,
( E = C O N T 6 R I N f i K T S t GEN. 2 = F R T E AND TRANSPORT S=HETHOC D E V . 8 R O D E L I N G h = U H S P E C I F I E D SOURCES)
1 3 1 C 3 0 7 , E l 2 h DOE N Y R I F Y 7 3 0 SDRPTIDN. SEDIRENTS, SUSPENDED S O L I D S , . . . .
! E=CONTLPlIt4AtiTS, GEN. l=C t i kR f iCTER I S T I C S 2 a F R T E kND TRfiNSPORT ~=UNSPECIFIED' S O U R C E S )
132 C 308 H 7 h DOE WUPI
(H=OTNER :=NANACEBENT h - U N S P E C I F I E D SOURCES)
H Z h DOE N U R I
!H=OTHER 2=FRTE eND TR lNSPORT h = U N S P E C I F I E D SOURCES)
C--l cn w 1 3 4 ' ~ 3 0 9 H 5 h DOE N U R I
(HIOTHER S=RETHOC D E Y . & I IODELIHG h = U N S P E C I F I E D SOURCES)
H 5 h DOE NWRI
(H=OTHER S=RETHOD D E V . 8 I IODELIHG h - U N S P E C I F I E D SOURCES)
1 3 6 C 3 1 0 H 7 b DOE
!H=OTHER 7=F6NbGEMENT b-DREDGING )
NGRI r GSC, NRC
9 . SEDIWEWTS, I I IFORHATIOW. HETHODOLOCY. AWALYSI S s EPUIPRENT,
5 , 8 0 0 SEDIMENTS, BOTTOR SUBSTRRTES, D I S T R I B U T I O N , TERPORLL V I R I A T I O N , S T f i T I S T I C l L I N f i L Y S I S ,
; 0 BDTTOM SUBSTRATES, SEDIFIENTS, EQUIPHENT, . .
0 SEDIMENTS, E Q U I P R E N T , 0 0
FY 7 6 0 D A T L CDLLECTION, F I E L D SUPPORT, SEDIREHTS, LAKES, R I V E R S *
1 3 7 C 99 A 2 h DOE DOE, E P S F Y 75 6 R I V E R S , S T . C L I I R R I V E R , C U R R E N T S , O I L , . . . . .
( A m T O K l C O R G A N I C S 2 = F A T E AND T R A N S P O R T h = U N S P E C l F I E D S O U R C E S )
138 C 167 6 567 c DOE E P S
< C r T H E R P I R L D I S C H R R C E S S = H E T H O D D E Y . 8 I I D D E L I N C B=CRI T E R 1 A ' ~ = R R N ~ C E R E N T c = I N D U S T R I R L SOURCE ) . .
I. ' . . .
E P S , ORF FY75 6 3 , 2 1 1 V R S T E M A T E R T R E R T R E N T ,
P 1 4 6 C 1 1 3
C O J 7 h DOE CLFRE
( J = S E V E R A L 7 - M A N A C E H E W T h = U N S P E C I F I E D S O U R C E S )
1 4 1 C 1 4 7 D 6 3 h DOE
FY7S 1 0 1 . 3 4 6 PROCRAM D E Y E L O P H E N T , B U R V E I L L A N C E
C L F R B FY 75 3 3 , 2 6 0 S U R V E I L L A N C E , N E A R S H O R E , O F F S H O R E , E U T R O P H 1 , C A T I ON, B I O T I , TOXIC SUBSTANCES, TRENDS,,
( D = N U T R I E N T S O = S O U R C E AND L O A D I N G 3 = E N Y I R O N t l E N T A L I M P A C T S h = U N S P E C I F I E D S O U R C E S ) " . ... ..
G 3 c DOE C L F R B F Y 75 1 2 4 4 5 6 T O X I C I T Y T E S T I N G , B I O T A , B E N T H O S , P H Y S I O L O G Y 8
( G m T H E R M A L D I S C B A R G E S 3 - E N V I R O N l i E N T A L I H P A C T S c - I N D U S T R I A L S O U R C E )
1 4 3 C 1 6 4 C 3 c DOE GLFRB . F Y 7 5 2 3 0 , 0 4 0 ECOSYSTEM,
! G - T H E R R A L D ISCHARGES ~ = E N V I RDNNENTAL ' I R P ~ C T S ~ = X ' N D U S T R ' I ' R L S O V R C E )
I .
1 4 4 F 1 8 9 J: 2 i . . DOE , . . F Y 7 5 .1?9,95:0 T O X I C SUBSTRNCES: BIOACCUMULATIDH,. PERSISTENCE, ENVIRONRENTRL S I R U L I T I O N , VRTER, SEDIHENTI , , N0.N-POINT SOURCE, AGRICULTUR,E, DREDGING::
. . . i JzSEYERGL 2=FGTE AND TRLHSPORT i = S E Y E R A L SOURCES' )
J 23 h DOE GLFRB, U . MAT. F Y 7 5 1 5 2 , 2 1 0 T O X I C HETALS, T O X I C ORGANICS, T O X I C I T Y TESTING, B I O T A , ALGAE, BENTHOS, F I S H , PHYSIOLOGY, B IOCHERISTRY, M E T H Y L I T I O N , SEDIMENTS,
( J = S E V E R R L 2 = F A T E AND TRANSPORT 3=ENVIRONMEHTAL IRPA'CTS h = U N S P E C I F I E D SOURCES' ) ' ' . '
B 3 9 h DOE GLFRB FY 7 5 5 , 2 5 0 Z I N C , B I O T A , F I S H , PHYSIOLOGY,
( B = T O X I C I l E T A L S 3=ENVIRONHENTCL IMPACTS 5=METHOD D E V . & RODELING h = U N S P E C I F I E D SOURCES)
. . . .
1 4 7 C 2 1 0 E 2 h DOE GLFRB FY 7 5 3 0 , 7 6 0 ATMOSPHERIC D E P O S I T I O N n B I O T A , L I G H T , . . . . . . .?
(E=CONTbMINf iNTS, L E N . 2=FATE RND T R A N S P O R T ' UNSPECIFIED SOURCES) . . . . .
FY 7 5 1 , 5 0 0 T O X I C I T Y n VRSTE MIMACERENT, T O X I C SUBSTANCES, STREAMS,
I . '( ! . . . . . :
( E ~ C O N T A H I N I N T S , GEN. 7=MAt!AGEMENT ~=INDIJSTRIAL S O U R C E )
1 4 9 C 2 3 4 E 7 d E P S U T C
( E = C O N T A H I H A 1 ? T S ~ GEN: . 7 m n A N A G E H E N T d=PIUN. ICIP,AL S O U R C E )
1 5 0 C 2 3 8 J 7 d E P S a O H O E U TC
i J = S E V E R A L 7 = M A N Q G E # E N T d = M U H I C I P A L S O U R C E )
151 C 239 E 7 i EPS, OBOE V T C
( E = C O N T R f l I N I N T S , C E N . 7 r f l A N A C E B E N T i = S E V E R A L S O U R C E S )
D 7 I E P S U T C
( D = N U T R I E N T S 7 = N A N h G E H E N T ; = S E V E R A L S O U R C E S )
153 C 2 4 2 D 7 1 E P S M T C
( D P H U T R I E N T S 7 e M A N A C E H E N T l = S E V E R A L S O U R C E S )
154 C 2 4 3 D 7 c E P S MTC
( DmNUTR I E N T S 7=PlAHACEt lENT c = I N D U S T R I A L SOURCE )
F Y 7 5 2 4 , 0 0 0 B I O L O G I C A L C O N T R O L ,
FY 7 5 25 ,000 T E R P E R L T U R E , CaRBON, U R S T E R I N A G E R E N T , I N D U S T R I A L SOURCE, W U N l t l P A L SOURCE, E C O H O R I CS,
F Y 7 5 S a 0 0 0 N I T R O G E N . D E N I T R I F I C A T I O N . T E H P E R A T U R E , OXYGEN. 0 1 O L O G I C & L CONTROL. U A S T E N h N A G E H E H T ,
F Y 7 5 442 0 0 0 PHOSPHORUS, N I T R O G E N , CARBON D E N I T R I F I C A T I O N , T E H P E R A T U R E , B I O L D C I C A L C O N T R O L , M d S T E n A H A C E H E N T ,
1 5 5 C 2 4 4 D 7 c E P S U T C
C D = N U T R I E N T S 7 = R f i N Q G E f l E N T c = I N D U S T R I R L S O U R C E )
1 5 6 c 2 4 r E 7 e E P S U T C
( E = C O N T f i R I N f i N T S , C E N . 7 = n f i N d C E f l E N T e = S H I P P I N C )
1 5 7 C 2 4 5 . J 1 a E P S
( J = S E V E R f i L l = C H f i R f i C T E R I S T I C S e = S H I P P I N G )
F
2 1 5 8 C 2 4 9 E 7 d EPS,OMOE U T C
( E = C O N T A f l I N f i N T S , G E M . 7 0 n f i N f i G E R E N T d = H U N I C I P f i L S O U R C E )
1 5 9 C 231 E 7 d E P S M T C
( E = C O W T A # I N I N T S , C E N . 7 = l l A N A C E # E W T d = H U W I C I P I L S O U R C E )
1 6 0 C 2 6 8 1 7 c E P S U T C
( I = U N S P E C I F I E D 7 = U f i N R C E f l E N T c r I N D U S T R I f i L S O U R C E )
F Y 7 5 1 1 , 0 7 5 N I T R O G E N . Y R S T E M f i N d G E R E N T ,
F Y 7 5 4 4 , 0 0 0 V R S T E I l R T E R T R E R T M E N T ,
F Y 7 5 3 6 , 0 0 0 P O L L U T I O N ,
F Y 7 5 1 8 , 0 0 0 O Z O N E , b I S I H F E C T I O M ~ E C O N O M I C S ,
3,666 E C O N O M I C S , OZOWE. B I O D E G R I D I T I O W .
4 , 5 0 0 S E V R G E , Y R S T E Y R T E R T R E R T M E N T ,
161 C 2 6 9 A 7 c EPS hl T C
( AMTOXIC O R C k N I C S ~ ' = N A N A C E M E N T c = I N D U S T R I A L .SOURCE,
1 6 2 C 2 7 0 H 7 c EPS
( HeOTHER ?=RBNRCEI IENT - c = I N D U S T R I AL SOURCE) ' :
J 7 c EPS
YTC
UTC
( J = S E V E R A L 7=MANACEWENT c - I N D U S T R I A L SOURCE)
FY 7 5 l o r 2 5 0 T O X I C I T Y , SEYACE, VASTE H ~ N I C E H E N T I
P 1 6 4 C 2 7 3 E 6 7 c EPS Y T C F Y 7 5
! E=CDNTFIRINBNTS.. & E N . 6 = C R I T E R I R 7=RRNBCEI IENT c ~ I W D U S T R I A L SOURCE)
FY 7 9 4 8 , 5 6 0 R A D I O A C T I V I T Y , C Y A N I D E , ARSENIC , YASTE IAHUCEHEt4T.
169 C 2 7 4 J 7 c EPS .
( J = S E Q E R B L 7=RBNRGEHENT c - I H D U S T R I G L SOURCE)
UTC
166 C 2 7 6 E 7 c EPS MTC
( E=CONT~MIHAHTS, GEM. 7-MANAGEMENT : c = I H D U S T R I A C . . SOURCE )
7 , 0 0 0 R A D I O A C T I Q I T Y ~ LEACHATEST UASTE IIGNBCEHEHT,
FY 7 9 1 2 ~ 0 0 0 HETALS, SUSPENDED S O L I D S , C Y A H I D E , pH, SEMACEa RUNOFF,
1 6 7 C 2 7 8 E 3 7 d DOE, OROE U T C F Y 7 5 1 7 , 0 0 0 SEVfiCE, URSTE RfiHACEflENT,
IE=C.0NTf iR I l i 6F . 'TSn CEN. S=ENVIRONPlENTlL IRPRC.TS ?=RRHLCEOIENT d = f l U N I C I P R L SOURCE)
168 C 2 8 1 J 2 6 7 h EPSIOROE, U T C FY 7 5 4 0 , 0 0 0 SEYGGE, 6 G R l CULTURE, S O I L , B i O C H E f l I S T R Y . COf lPLEXRTl OH.
(.J=SEVERRL 2:FRTE RND TRRNFPIJRT , 6 = C R I T E R I R 7=RfiNFICEOIENT h = U N S P E C I F I E D SOURCES)
1 6 9 C 2 8 3 D 2 7 h EPS UTC FY 7 5 2 8 , 0 0 0 SEYRGE.. R C R l CULTURE, S O I L :
( 0 - N U T R I E N T S 2 = F R T E RND TRRNSPORT 7=RANAGEflENT h = U N S P E C I F I E D SOURCES)
I 7 h EPS UTC
1 7 1 C 289 C 7 h EPS MTC
(C=PHDSPHORUS 7-flANACECIEWT h = U N S P E C I F I E D SOURCES)
1 7 2 C 289 N 7 h EPS UTC
( H = O T H E R 7-MRNGGEMENT ~ = U N S P E C I F ~ E D SOURCES)
F Y 7 5 1 2 , 0 0 0 CHERICRL PIIXTURES, P R E C I P I T A T I O N , SEU6GE.. E Q U I PNENT,
F Y 7 5 3 , 0 0 0 SEVRCE, YRSTE RGHRCERENT,
1 7 3 C 290 H 7 h ' E P S ' ' . . . , '
M TC
(HEOTHER. : = M A N A C E M E H T ~=UNSPEC'IFIED,SOURCES~
1 7 4 C 299 H 7 c E P S U T C
( H = O T H E R 7 = H R N R C E f l E N T c = I N D U S T R I A L S O U R C E )
H 3 f DOE DOE F Y 7 6 . 4 3 , 0 0 0 L R N D U S E , V E C E T A T I O H , E C O S Y S T E R , V R T E R R U R L I T Y P V R T E R R O R N T I T Y , HYDROLOGY: R U N O F F , P R E C I P I T A T I O N ,
! H = O T H E R 3 = E N V I R O N f l E N T A L I R P A C T S f = N O N - P O I N T S O U R C E )
P 1 7 6 C ' 3 7 4 E 2 f DOE H Y D . C O N S . L T D . F Y 7 5 8 6 . 7 6 3 D Y N A R I C S .
( E = C O H T A M I H A N T S , C E N 2 = F A T E R N D T R A N S P O R T f = N O N - P O I N T S O U R C E )
. ..
1 7 7 C 3 7 6 H 5 f DOE C R E C . C E O S C . L T D . F Y 7 5 2 0 . 9 6 6 REMOTE S E N S I HC, S A T E L L 1 TES, L A N D USE.
( H = O T H E R S = H E T H O D DEY . b H O D E L I N C f = N O H - P O I N T S O U R C E ) . . . . ..
H 5 h DOE N W R I F Y 7 4 0 B R C T E R I R , E U T R O P H I C A T I O N , S U R V E I L L A N C E , F Y 7 5 1 6 , 8 9 0 ECOLOGY, F Y 7 6 . O F Y 7 7 0
( t i - O T H E R 5 = M E T H O D D E V . B M O D E L I N G h = U H S P E C I F I E D S O U R C E S )
1 7 9 t 3 7 9 D 2 9 h DOE H U R I FY 7 5 0 B R C T E R I R . LRKES, UATER, B I O T A , RLGRE,
( D = N U T R I E H T S 2 = F A T E AND TRANSPORT S=RETHOD D E V . & RODELINC h = U N S P E C l F I E G SOURCES)
E 0 2 h D O E N U R I F Y 7 4 6 REHDTE SENSING, SUSPENDED S O L I D S , FY 75 6 PLUMESA RIVERS, OPEN LAKE, FY 76 0 S T A T I S T I C A L h N h L Y S I S , YATER CHEMISTRY, FY 77 b
(E=CONTA#INANTS, CEN. b=SOURCE LND LOADIHC 2 = F I T E AND TRANSPORT h = U N S P E C I F I E D SOURCES)
H 2 5 6 h DOE N U R I FY 7 4 0 R I V E R S , HYDRRULICS, I I S T R U R E N T R T I O I , FY 7 5 0 SURVEILLANCE, D I S T R I B U T I O N ,
TERPORRL V A R I A T I O N ,
(H=OTHER P=FATE RND TRRNSPORT ' ~ = R E T H O D DEV. 8' RODELINC 6 = C R I T E R I A h = U N S P E C I F I ED 60 ,URCES)
C1 V
1 8 2 t ' 3 4 2 H 2 f ' DOE' RCRES
(H=OTHER 2 = F R T E RND TRANSPORT f - N O N - P O I N T SOURCE)
FY 7 5 4 5 2 0 0 0 SHORE, EROSION, VEGETATION,
E 0 2 f CCIU,DOE RUE. U . , OMOE FY 7 5 4 6 , 0 0 0 URTER R U A N T I TY, YATER O U R L I TY, R IVERS, LAND USE, RORPHOLOCY,
(E=COHTbMlNANTS: CEH. O=SOURCE AND LOADING F FATE RND TRRNSPORT f = N O N - P O I N T SOURCE)
1 8 4 t 3 3 4 J 0 3 f 'DOE N U R I FY 7 4 0 SEDIMENTS, SHORE, EROSION, METRLS, FY 7 5 Q A t t U I l U L A T I O N : LAKES: b!BTER Q U A L I T Y , F Y 7 6 0
! J=SEYERRL C=SOURCE AND LOFiDINC 3 rENVIRONRENTAL I R P C I C T S f = N O N - P O I N T SOURCE) . .. . '
1 8 5 C 3 3 5 . . D 6 f DOE M V R l
( D = W U T R I E N T S ~ E S O U R C E A N D L O A D 1 N C ' ~ P M O W - P O I N T S O U R C E )
1 8 6 C 335 C 0 2 f D O E N U R I . .
( c -PHO'SPHORUS 0 = 8 0 U R C E A H D L O A D I N G Z = F A T E A N D T R R N S P O R T f = N O N - P O I N T S O U R C E )
1 8 7 C 3 3 6 ' 3 0 2 f D O E . . M U R I , D H O E
O M I T R O G E N r C I R B O N , SWORE 8 E R O S I 0 2 , 0 6
0 Q V R I L Q B I L I T Y , B I O T R , S H O R E * E R O S I O N , P L A K E S : S O R P T I O N , 0
0 R I V E R S . . S E D I R E N T S , S U S P E N D E D I f B T E R I R L S , '3 L B K E S , W A T E R R L l k L I T Y S C R P T I G N , 9
( J - S E Y E R f i L 9 - S O U R C E AND L O k D I N G ~ = F R T E A N D T R k H S P O R T f = H O N - P O I N T S O U R C E i . . I . .
M I J R I , 'DROE F Y 7 5 7 2 , 0 6 0 S H O R E 2 E R O S I O N , C R O U H D M A T E R a S O 1 L 8
L A K E E R l E .
( H = O T M E R O = S O U R C E AMD L O l D l W G l = C H A R A C T E R I S T I C S P z F A T E A N D T R h M S P O R T f = H O N - P O I N T S O U R C E )
1 2 9 C 3 3 2 M 15 f DOE R . H . Q U I C L E Y F Y 7 5
i H = O T H E R I = C H A R A C T E R I S T I C S ME METHOD D E V . ' h M O D E L I N G f = b ! U N - P O I N T S O U R C E >
7 , 0 0 0 S H O R E . E R O S I O N ,
1 9 6 C 3 3 3 H 2 3 7 ' h D O E . N V R I ' ' ' F Y 7 6 . . 0 P R O G R L U D E V E L O P F I E N T . . E R O S ! Q M , S E D I R E H T S : S H O R E , N E A R S H O R E J R I V E R S , L A K E S , D Y H R R I C S . - M I Y E S , V R T E R Q U B L I T Y :
. . ( HIOTHER 2 = F A T E R N D T R ~ ~ S P O R T I=EHV IRONHENTLL I f i P Q C T S 7 = f l R H A G E t ! E N T h = U N S P E C l F I E D S O U R C E S ) . ,. :
N M R I
( J r S E V E R R L Q = S O U R C E QND L O Q D I N G 2 = F A T E QND T R R N S P O R T f = N O N - P O I N T S O U R C E >
192 C 31P I 1 b DOE
C I = U H S P E C I F 1 E D 1 = C H R R f i C T E R I S T I C S b - D R E D G I N G >
H 0 2 f DOE
N M R I , A C E , U S E P G F Y 7 5
N V R I
O R I VERS.. S T R E R N S , MRTER Q U A L I T Y , 0 S T R T I S T I C R L R N f i L Y S I S , L Q K E S . S E D I R E M T S , 0 TEFIPORRL V Q R I Q T I O H ,
O S E D I H E N T S > C H E H I C R L C H Q R R C T E R I Z R T I O N ,
0 SHORE, E R O S I O N , T R E N D S , D I S T R I B U T I O N , 0 T E f l P O R R L V R R I Q T I O H , t
( H = O T H E R O = S O U R C E A N D L O R D I N G 2 = F R T E A N D T R R N S P O R T f = N O N - P O I N T S O U R C E )
H 0 2 f DOE N V R I 0 U A V E S , S E D I H E N T S , I H T E R Q C T I V E E F F E C T S , 0 N E A R S H O R E , E R O S I O M , L R K E O N T B R I O ,
( H = O T H E R O = S O U R C E A N D L O R D I N G 2 = F R T E AND T R R N S P O R T f = N O N - P O I N T S O U R C E )
H 0 1 2 f DOE N M R I 195 C 331 F Y 74 O S H O R E , E R O S I O N , C E O C H E R I S T R Y , F Y 75 0 D I S P E R S I O N , S E D I H E N T S , L R K E S , F Y 76 0
( H = O T H E R O = S O U R C E B N D L O Q D I N G l = C H R R R C T E R I S T I C S 2 z F R T E RND T R R N S P O R T f = N O N - P O I N T S O U R C E )
: :
196 C 134 D 5 g D O E N U R ' I
- ( D = N U T R I E N T S 5 = H E T H O D D E V . b R O D E L I N G g = O T H E R S O U R C E S )
0 S U R V E I L L Q N C E : H f i T E R C H E R I S T R Y , I H S T R U H E N T B T I O H ,
D 3 h DOE
: . . . C L F R B , OMNR F Y 75 31870.0 B I O T A , H R C R O P H Y T E S , A L G A E , P L A N K T O R ,
Z O O P L A ~ ~ K T O N , ECOLOGY, BEHTWOS, B A Y OF B U I N T E , L A K E O N T n R I O ,
( D - N U T R I E N T S 3 = E N V I R O N M E N T A L I H P A C T S . h . U N S P E C I F I E D S O U R C E S )
198 C 3 9 9 D 3 5 h DOE L L F R B F Y 7 5 2 6 , 4 6 0 B I O T A , ECOLOGY, P H Y S I C A L L I M N O L O C Y ,
( D = N U T R I E N T S 3 = E W V I R O N P i E N T A L I M P A C T S 5 - M E T H O D D E ~ . h M O D E L I N G h = U N S P E C I F I E D S O U R C E S )
I 23 h DOE C L F R B F Y 75 1 0 , 2 0 0 B I O T R , P L R N K T O N , Z O O P L R N K T D R , T E I I P O R R L V Q R I Q T I O N , D I S T R I B U T I F H ,
( I = U N S P E C I F I E D 2 = F L T E RHD TRRHSPORT J = E H V I R O H R E N T R L I f l P Q C T S h = U H S P E C I F I E D S O U R C E S )
W 5 h DOE
. .
C L F R B F Y 7 5 7 , 8 6 0 B I O T A , P L A N K T O N , Z O O P L A N K T O N , T E M P E R A T U R E . B A Y O F QU I N T E . L A K E O N T A R I O , .,
( H = O T N E R 5=F!ETHOD DEV . h H O D E L l N C h = U N S P E C I F I E D SOURCES )
: . . .
2 0 1 C 455 H 2 h DOE C L F R B F Y 75 16a400 P A R T I C U L A T E S , B I O T A , B E N T H O S , OPEN L A K E , B O T T O M ' S U B S T R A T E S , L I f W T . TEMPERATURE,
. ( .H=OTHER ;=FATE AND T R A N S P O R T h = U W S P E C I F I E D S O U R C E S )
202 C 4 5 1 n 3 h D O E B I O S Y S T E R S CONS F Y 7 5 3 . 0 0 0 B I O T A , B E N T H O S , L R K E O N T A R I O ,
(H=OTH.ER 3 = E N V I R O R R E H T R L I f l P R C T S h = U N S P E C I F I E D S O U R C E S ) . . . .
B 2 3 h D O E G L F R B F Y 7 6 15 ,600 H E T H Y L A T I O N , L E A D , S E L E N I U H , M I C R O O R G A N I S M S , A L G A E , B A C T E R I A , E H V I R O H H E H T A L S I H U L A T I O N , T O X I C I T Y I B I O A C C U H U L A T I O N ,
! B = T O K I C W E T O L S 2 m F A T E A H @ T R A N S P O R T 3 = E N V I R O N H E H T A L I H P A C T S h = U N S P E C I F I E D S O U R C E S )
2 0 4 C 2 1 3 E 23 h D O E G L F R B , U . M A T . F Y 7 5 7 . 7 0 0 O R G A N I C C O N T A R I N R N T S . S U S P E N D E D R R T E R I R L S , A Q U A T I C E N Y I R O N R E N T S ~ T O X I C I T Y , R I C P O O R G G N I S R S ,
t E = C O N T A f l I N A N T S I C E N 2 = F k T E A N D T R R N F P O R T 3 = E N V I R O N R E N T A L I R P A C T S h = U N S P E C I F I E D S O U R C E S )
2 0 5 C 2 9 1 H S h E P S L lTC F Y 7 5 2 2 : 0 0 0 SEMRGE, D R T A C O L L E C T I O N , R E T H O D O L O C Y ,
< H = O T H E R S = f l E T H O D D E V . & f l O D E L I N C h = U N S P E C I F I E D S O U R C E S )
P
2 0 6 C 2 9 2 H 7 h OROE,DOE O R O E t Y T C F Y 7 5 5 0 , 0 0 0 I R O N , P R E C I P I T R T I O N , S E M R G E ,
< H = O T H E R 7 = f l R N R C E R E N T h = U N S P E C I F I E D S O U R C E S )
207 C 384 F 0 d DOE Y . K O T T
( F = P ~ ~ T H O G E N S 3 = S O U R C E A N D LOLDINC' ~=HUNICIPIL S O U R C E )
2 0 8 C 3 8 4 F 2 3 h D O E U . C U E . F Y 7 5 2 6 , 2 7 5 B I O T R , F I S H ,
< F = P A T H O C E N S 2 = F A T E AND T R A N S P O R T 3 = E N V I R O N R E N T b L I R P A C T S h = U N S P E C I F I E D S O U R C E S )
2 6 9 C 3 8 6 E 2 3 5 h DOE H M R I F Y 7 5 6 H I C R O B I O L D C Y E C D L O G Y ~ A Q U B T I C SYGTEHS 2
B I O T A , B A C T E R I A . A L G n S , I W T E R A C T I V E E F F E C T S ; P O L L U T I O N , B I O L O G I C A L C O N T R U L , . .
( E = C O H T A H I N A N T S , C E N . 2 = F A T E AND TRRWSPORT 3 = E N Y I R O N W E i 4 T A L I H P A C T S S = # E T H O D D E Y . 8 H O D E L l N C h = U N S P E C I F I E D S O U R C E S )
2 1 0 C 3 9 0 H 9 h DOE B E A K
( H = O T H E R R = U N S P E C I F I E D h = U H S P E C I F I E D S O U R C E S )
1 3 , h DOE
< I = U N B F E C I F I E D 3 = E N U ' " - . A ~ . U N H E N ~ A L . I H F B C l S R = U N S F E C I F I E D S 0 U R C E . S )
7 , 5 4 6 B I O T A , P L A N K T O N . P H Y T O P L A N K T O N ,
0 B I O T A , B E H T H O S , H A B I T A T , MATER C H E W I S T R Y , P A L E O L I W N O L O G Y , E . U T R O C H I C I l I O N , S l R E A I S . LCtKFS.
2 1 3 C 396 F : h DOE I l l d R J F Y 7 5
L F = P A ~ ~ O G E N S SxWETHOD D E Y . & M O C F L I N G h = U N S P F C I F I F D SOURCES!
. . F 5 h DOE
( F = P A T H O G E i l S f = H E T H l i D D E Y . A O D E i i i 4 G ) i = U N S P E ~ C I F I E L I SOURCES )
F 5 5 7 i DOE 0 B D Q I S O R Y * R E T H O D O L O C Y , S U R V E I L L I t 4 C E 2
B U N I C I P t 3 I . S O U R C E , L R K E S . R I VEKS.. SEMt3GE;
( F = P B I H O G E N S 9 = M E T H O P D E V . ! b R O D E L I N C S = C R I T E R I B 7 = B B k i R C E R E N T i = S E V E R B L S G U R C E S i
216 c 3 8 4 F t d GSIE O B O H
( F = p B 1 H O G E H S 0 - S O U R C E B N D L O Q D l N G d = R U H I C I P B L SOURCE )
1 3 h DOE
( I = U N S P E C I F I E D 3 - E N V I R O N R E N T A L l R P I C T S h = U N S P E C I F I E D S O U R C E S >
CI
2 1 P C 2 7 4 P 2 7 c E P S Y 1 C
C P = l O X I C B E l f i L S 2 - F f i T E ' A N D . T R I H S P O R T 7 = R A H k G E B E N ? c = I N D U F T R l B L S O U R C E )
219 C 1 7 5 B i h C C I U N W R I , E P S , V S C S F Y 7 4
( B = T O X I C. O R G P H l C S ? = R A H B G F R E N T h = U N S P E C l F l E D S O V R C F S )
4 , 2 5 0 P D L L L I l I O N , B A Y OF Q L I l N l E : L A K E O H T k 9 1 0 , 4 , 2 5 3 0 1 O T B , N A C R O P H Y T E S - B L G A E P E H T H O S ,
D I S l R i B U l l O N , E C O L O G Y , L I G H T . T E l q P E R B 1 URE:
7 ,500 H E B V Y H E l B L S , M B S l E R R H B G E R E N T , 7 , 5 0 0
0 R I V E R S . , 5 1 . C L B l R R I V E R , D E 1 K O I l R I V E R :
0 S E D I f l E H l S , P A L E O L I R H a L O C Y , 0 L A K E S U P E R I O R , L B K E R I C H J G R N : 3
( H = O T H E R 2 = F A T E R H D T R B H S P O R T g = S I T H E R S O U R C E S )
2 2 : c 1 1 0 D 2 h H R C u . T O E . . . . . I I . . . .
( D = N U T R . I E N T S 2 = F A T E AND . T R 6 H S P O R T h = U H S P E C l F 1 ED S O U R C E S )
E l 2 h NRC . . . . .
F Y 7 5 9 S D R P T 1 O H t P I R l ' l C U L A T E S , U R l E R . . S E D I M E H T S : L A K E P l ! P i R i n 8 :
( E - C O H T A R ~ N A N ~ S . . F E N . I = C H A R Q C l E R I S l I C S 2:FPTE Q N D T R P N S P O R l h = U N S P E C I F I E D S O U R C E S ) . -
2 2 3 C 1 4 1 C 5 h NRC U . T O R . F Y 7 5 0 M I T E R , L Q K E S : . . . , . ;
( C = P H O S P H O R U ~ ~ = ~ E ~ H O D D E V . & R O D E L I N t ~=UHSPEC'IF'I E D S O U R C E S )
D 3 f HRC U . O I N . F Y 7 5 0 E U T R O P H I C A T I O N , I C K I C U L T U R E , R U H O F F . L U K E S T . C L A i P ,
( D = H U T R I E N T S 3 : E N V I R O W W E H T A L l WPACTS f - N O H - P O I H T S O U R C E > . . .
D 2 3 h H R C U T O R . F Y 7 5 0 E U T R O P H I C A l I O N , L A K E S , P L A H K T O N , P H Y T O P L A N K T O N . O A T E R C H E W I S T R Y .
( D = N U T R I E N T S 2 = F P l E OND T R Q N S P U R T 3 = E N Y I R O N f l E N T Q L I H P P C l S h = U N S P E C I F I E D S O U R C E S )
H 2 f NRC U . G U E . 0 S H O R E ? L A K E S , 0 0 0
( H = O T H E R 2 = F R l E RNC T R R N S P O R T f = H D H - P O I N T S O U R C E )
. .
2 2 7 C 4 3 2 1 3 h NRC U . C U E . F Y 7 5
( I = U N S P E C I F I E G 3 = E N V I R O N R E N T R L I R P B C T S h - U N S P E C I F I ED S D U R C E S >
2 2 8 C 4 3 6 : .. 1 3 h . . HRC . . . U . 1 6 F c . , F Y 7 5 , . .
9 01 OTA 4 F I S H A E C O L O C Y , P H Y S I OLOCY
: I - U N S P E C I F I E D 3 = E N V I R O N R E H T A L I M P A C T S 5:METHOD D E V . b HODEL I H C h = U W S P E C I F I E D 5 0 U R C E 8 )
2 2 9 C 4 3 6 1 3 h NRC . U . T O R .
! I = U N S P E C I F I E D 3 = E N V I RONRENTCIL I R P A C T S h = U N S P E C I F I E D GO!IRCES )
P 03 C 2 3 0 C 4 3 7 H 3 h NRC Y O R K b .
8 . :
( H = O T H E R ~ = E N V I RO'NRENTIL I ~ ~ P ~ C T S h = U N S P E C I F I E D S O U R C E S )
0 B I O T I , F I S H , CIQUIT 1C E H V I R O N R E N T S ,
0 B 1 0 7 R t F I S H , I E R P E R R T U R E , L I G H 1 ,
2 3 1 'C 4 3 7 . , I 3 h N R C . U . C U E . F Y 7 5 . . 0 8 1 O T b - F I S H . , P H Y S I O L O G Y ,
! I = U N S P E C J F I E D 3 = E H V I R O K R E H T 6 L I R P A C T S h = U N S P E C I F l E D S O U R C E S >
2 3 2 C 438' H 3 h N R C . ,, . . U . C U E .
( H = O l H E R ~ = E N V I R O N R E N T Q L I A P C I C T S h = U N S P E F I F I E D S O U R C E S )
0 B l O T 1 , F I S H , E C O L O C Y ,
2 3 3 C 4 3 8 1 3 h U R L U . TWEUT F Y 7 5
( I = U N S P E C I F I E D S = E N Y I R O N H E N T A L I R P A C T S h = U N S P E C l F l E D S O U R C E S )
O l E R P E R A l U R E , E C O L O G Y , B I O T A , F I S H ,
. . . .. .
2 3 4 C 398 1 3 h HRC M c N U . F Y 7 5 0 B l O T d r P L f i N K T O N , P H Y T O P L d N K T O H ? E C O L D Z Y , P R O D V C T I V I TY ..
. . . .
( 1 - U N S P E C I F I E D J = E N V I R O N ~ E N T 8 L I H P B C T S h - U N S P E C I F I E D S O U R C E S ) .. , ,
H 3 g HRC
. .
U . W l N . . F Y 7 5 0 L I G H T < 0 1 O T d : P L R H K T O H , R L G A E , P H Y S I O L O F Y
< H = O T H E R 3 = E H V I R O H R E H T G L 1 R P k C T 5 g = O l H E R S O U R C E S )
C 2 3 h URC 0 U E . U . F Y 7 5
C C = P H O f P H O R U S P = F A l E AHD T R A N S P O R T 3 = E U V I B O U R E U T A L IRPACTS h = U U S P E , C I F I E b B O U R C E B )
237 C 4 0 4 1 3 h HRC U . 7 0 R .
( I = U N S P E C ; F I E D 3 = E N P I R O N R E W l A L I H P Y C T S h = U H S P E C l F l E D S O U R C E S )
238 C 4 2 4 1 3 i WRC U . C U E .
. . . . . .
( 1 - U N S P E C I F I E D 3 = E N V I R O N H E W T A L I W P H C ~ S i = S E Y € R I L SOURCEG!
O L A K E S , B I O T A , P L P U K T O W , Z O O P L A H K T U N J EC0LDC;Y.
F Y 7 4 5 , 3 3 3 B I O T d , F I S H , E C O L O G Y , W A B ! ? t i ? , F Y 7 5 5 , 3 3 3 N E A R S H O R E ; E C O S Y S T E M , P R O D U C T I Y I T Y , F Y 76 5 , 3 3 3 L A K E E R I E ,
2 5 9 C 3 0 1 ' H 2 , h NRC . - P U E . l I . , .
( H = O T H E R ? = F A T E R H D T R b N S P O R T h = U N S P E C I F I E D S O U R C E S )
H 2 f NRC 11. C U E . t ONOE F Y 7 4 @,04Q SHORE, S O I L , O R C b H l C f 1 6 T T E R t F Y 7 5 8,900
( H = O T H E R 2 = F B T E B N D T R B N S P O R T f = N O N - P O I NT S O U R C E )
2 4 1 C 383 F 2 h NRC U . C U E .
( F - P 6 T H O C E H S Z J F A T E AND T R A N S P O R T h = U N S P E C . I F . l E D S O I J R C E S ) -
1 9 h NRC U . C U E
( I = U N S P E C I F I E D 9 = U N S P E C I F I E D h = U N S P E C l F l E D S O U R C E S )
2 4 3 C 3 9 9 H 2 h NRC YORK U . F Y 7 5
( H = O T H E R Z = F b T E B N D T R I N S P O R T h = U N S P E C I F I E D S O U R C E S )
2 4 4 C 3 9 9 1 9 h NRC U . T O R . F Y 7 5
( I = U N S P E C I F I E D 9 = U H S P E C I F I E D h = U N S P E C I F I E D S O U R C E S )
0 R I C R O P I O L O C Y t S E D I M E N T S ,
0 B I O T B , I L C A E 8 P H Y S I O L O G Y , L I C H T ?
0 P H Y S I O L O G Y , B I O T R , I L L R E , B R C T E R I f i ,
2 4 5 C 3 9 7 1 3 h NKC U . T O R . F Y 7 5
2 4 6 C 397 1 3 h : , N R t . . .
11. VAT. . .
2 4 7 C 4 3 8 F 3 h H R C U .GUE
I F = P I T H O G E N S 3=ENVIPOk4HEHTQL ItlP+ltTS h = U N S P E C I F I E D SWURCESI
0 B I O T A . ALCAE, PHYSIOLOGY,
O . B I O T A , I L G d E : ECOLOGY; P R O C U C T I V I T Y ,
. / : I . .
O B I W T b , F I S H ,
% . , .
e 2 4 8 C 4 5 1 1 3 h NRC U TRENT F'175 0 OXYGEN. B I O T A , BEHTHOS. L I K E S ,
( I = U N S P E C I F I E D 3 = E N V I RONWENTIL IMPACTS h=UNSPECIF I ED SOURCES )
2 4 9 C 4 5 3 1 3 h HRC U . Y A T . F Y 7 4 4 , 6 0 0 B I O T b , BEHTHOS. D I S T P 1 6 U T I O t 4 J ECOLOGY;
. . . . . , . F Y 7 5 4 , 0 0 0 CEDRClAH Bb' t , L b K E HURDN, . . . . . . .
( I = U N S P E C I F I E D 3=ENVlRONl!ENTAL IMPACTS h = U N S P E C I F I E D SOURCES! , . . . . . .
2 5 0 C 4 5 6 1 3 h HRC U . MAT 0 B I O T A . D I S T R I B U T I O N J P R O D U C T I V I T Y . ECOLirGY,
.. .
( I = U N S P E C I F I E D 3=ENVIRONMENTRL IMPACTS h - U N S P E C I F I E D SOURCES) . .
2 5 1 C 4 5 9 . .
1 '9 h NRC U . TOR
I I = l l H S P E C I F I E D 9 = 1 l N S P E C I F I E D h = U N S P E C I F I E D S O U R C E S 1
2 5 2 C 4 6 1 , 1 9 h NRC B U E . 11.
( I = U N S P E C I F I E D 9 = V N S P E C I F I E D ~ = O N S P E C ~ F IED S O U R C E S ?
253 C 2 5 5 E 9 5 7 d E P S RPW9 F Y 7 4 2 8 , 2 5 0 U R B A N R U N O F F , E C O N O H I C S , F Y 7 5 2 8 , 2 5 0
( E = C O N T R R I N B H T S . . G E N . O s S O U R C E RND L O B D I N G $ = R E T H @ D ' D E V . & R O D E L I N G 7 = f l l N l G E R E N T d = f l U N 1 C I P l L S O U R C E )
P
2 5 4 C 2 5 6 1 7 d E P S E P S
( I = U N S P E C I F I E D 7 = R R N B G E M E N T d = R U N I C I P d L S O U R C E )
5 , 0 0 0 U R B l H R U N O F F S E Y B G E , R E C U L B T I O H S , S O I L ,
1 5 d E P S W A C , L T D . 4 N Y R I F Y 7 4 1 0 1 4 5 0 0 E H V I R O H I 4 E H T h L S I M U L A T I O N , U R B A N R U N O F F . F Y 7 5 1 0 1 , 5 0 0 M I T E R Q U I H T I T Y , M I T E R PUALJ TY.
( I = U N S P E C . I F I E @ 5 = # E T H O D D E Y . b R O D E L I H C d = I 4 U H I C I P A L S O U R C E )
2 5 6 C 2 5 8 t! 5 7 d E P S P & R L T D . F Y 7 5 1 4 , 0 0 0 I H F O R f l R l l @ N , U R B B N R U H O F F , C O R P U T E R ,
( H - O T H E R 5 = f l E T H O D D E V . 'B M O D E L I N G 7 = f l B H B G E M E N T d = R U N I C I P A L S O U R C E )
1 5 d E P S , E # S ' ' G O . b S T O . L T D . , F Y 7 4 . 1 5 , 5 3 3 D P T A C O L L E C T I O N ; D A T A Q U A L I T Y , F Y 7 5 1 5 , 5 3 3 E H V I R O H H E H T A L S I W U L A T I O H , U R B A N R U N O F F , F Y 7 6 1 5 , 5 3 3 P R E C ! PI T A T I OH 8
i I = U H S P E C I F I E D 5 - M E T H O D D E V . h W D D E L I H C ~ = # U N I C I P I + L 'SOUF!CE)
1 5 d EPS..EUS I g C . L T D
( I = U N S P E C I F I E D S = f l E T H O D D E V . b P I O D E L I N G d = f l U N I C I P f i L S O U R C E )
2 5 9 C 2 6 0 ' 1 5 d' E P S I. PI. D I L L D N
i l = U t 4 S P E C I F : E D 5 = W E T H O D D E V . b WODEL I H C d = # U H I C I P A L S O U R C E )
H 5 d ' E P S , E H S . . H M R I
( H = O T H E R S = P I E l H O D D E Y . b P i O D E L l N C d = R U N l C l P A L S O U R C E )
2 6 1 C 2 6 8 7 c E P S M T C
( H = O T W E R ? = N x N A C E # E H T c = I N D U S T R l d L S O U R C E S
F Y ? 4 3 . 9 5 1 D B T Q C O L L E C T I O N : M i i T E R QVG:! T Y : F Y 7 5 . 5 , 9 5 0 . V G T E R R U F \ H T l T Y , U R B B N R U N O F F ,
V G S T E RGNGGEHENT,
F Y 7 4 2 4 , 3 0 0 D P T A C O L L E C T I O N , ULBdH F:3:4D;F, F Y 7 5 2 4 , 5 0 0
F Y 7 4 1 5 , 1 5 0 D G T R C O L L E C T I O N , URBdt4 R U N D F F , F Y i 5 1 5 , 1 5 9 Y R T E P E U P L I T Y . U P T E R 3UPtJT l T Y .
P R E C I P I T C I T I D N ,
F Y 7 5 1 , 5 0 0 SEMACE, M P S T E M b T E R T R E h T X E H ? .
2 6 2 C 2 7 1 J 1 7 c E p S E P S , OWOE F Y 7 5 944 000 M P S T E H A H $ C E # E H T > .
i J = S E Y E F : A L l = C W b R 6 C T E R I S T I C S ? = W ~ H W C E W E N T ' C=IWDUSTRI~L S O U R C E j
E 2 7 c E P S F Y 7 4 1 3 , 0 0 3 T O X I C S U B S T R N C E S , S O R P T I O N , S O I L .* F Y i s 13 , ? o n
! E = C O H T f i R I H R K T S , C E N . Z = F R T E A N D T R R F S P O R T ~ = R ~ N ~ G E R E H T c = I N D U S T R I f i L S O U R C E )
E 2 7 c E P S E P S F Y 7 5 9 , 2 5 0 S O R P T I D N , H O B I L I T Y , S O I L 3 S E M R G E , I N T E R R C T I V E E F F E C T S , P O L L V T I D N . CROUNDWBTER:
( E = C O N T A f l I N A H T S , CEN: 2 = F F I T E R N D J R A F S P O R T 7 = f l B N R G E f l E N T c - I N D U S T R I R L S O U R C E )
E 2 f E P S F Y 7 4 5 3 , 5 0 0 L G N D F I L L S , L E R F H R T E S : CROUtiDWRiTER F Y 7 5 5 3 , 5 0 0 S U R V E I L L R N C E , I l U H I C I P R L S O U R C E ,
N O N - P O I N T SOUPCE..
( E = C O N T R R I H R F T S , CEN. . 2 = F f i T E R N D T R R F S P O R T f = N O H - P O I N T S O U R C E )
Q U E . U . 2 N k l R I F Y 7 5 2 0 , 0 0 0 N E R R S H D R E : U R T E R P U R L 1 T Y , D I S T R I B U T I D N ; T E R P O R R L V d R I A T I O N , T R E N D S , S T R T I S T I C R L R N B L Y S I S :
( I = U N S P E t I F I E D Z = F R T E R N D T R R N S P O R T h = U H S P E C l F l ED S O U R C E S )
O H J E F Y 7 5 4 T R E N D S , WATER Q U R L I T Y , N E B R S H D R E : F Y 7 6 0 L R K E E R I E ,
( 4 - S E Y E R R L O = S O U R C E R N D L O R D I N G 2:FATE RND T R R N S P O R T 3 - E N Y I R O N f l E N T R L I R P A C T S h = U N S P E C I F I E D S O U R C E S )
J 03 i OHOE O H D E F Y 7 5 9 T R E N D S , WRTER O U R L I T Y . * L R K E O N T R R I O , H U N I C I P A L SDURCE, R I V E R S . . T V E L V E R I L E C R E E K .
( 4 - S E Y E R R L C = S D U R C E R N D L O R D l H C 3 = E N V I R O N R E H T R L I R P R C T F i = S E V E R R L S O U R C E S ) . .
26% t 7 4 E 2 5 7 h O M ? . , Ot40E; OWHR F Y 7 4 6 H B R B O U R a M I T E R Q U A L I T Y , L ' Y H 6 ! l I C S ; F Y 7 5 6 C U R R E N T S , TREWDP, F Y 7 6 6 F Y 7 7 6
( E = C O N T C H I N A H T S , C E N . 2 l F R T E AND T R A N S P O R T S = # E T N O C D E V : $ M O D E L I N G 7=HQNRGEt4ENT h = U N S P E C I F I E D S D U R C E S !
O R O E ~ O H H R ~ H U R I F Y i 5 4 0 , 0 0 0 H A R B O U R , OXYGEN, H Y P O L I f l H I O N , A I R , F Y 7 6 4 0 < 000 f i C C U R U L f i T I O H ? E P I L I A N ! O N , H A P 1 T A T r
F Y 7 7 4 0 , 9 0 0 E I O T f i , F I S H : PLRHCTON. .
~ ~ E = C O H T I ? H I W Q # T S , G E N . 3 = E N V I ~ R O N P I E N T A L I H P A C T S 7 = H f i H A G E H E N T h = U H S P E C I F I E D S O U R C E S )
I 5 h OHOE OHOE F Y 7 4 0 . NEARSHORE. . Y d T E R Q U A L I T Y . . F Y 7 5 0 F Y 7 6 cj
F Y 7 7 9
( I = U N S P E C I F I E D S = H E T H O D D E V . U O D E L I N G h - U N S P E C I F I E D S O U R C E S )
I- 2 7 2 2 8 1 E 6 h OWOE,DOE OHOE OMNR F Y 7 5 1 3 . 0 0 6 TRENDS, R I V E R S ,
F Y 7 6 1 3 a O O O
( E = C O H T A H I H A t 4 T S a C E N . O=SOURCE A M D L O A D 1 H C h = U N S P E C I F I E D S O U R C E S )
( I = U N S F E C I F I E D O=SOURCE AND L O A D I H C 7 = R A N A C E H E H T h = U N S Y E C I F I E D S O U R C E S )
O f l S E , R l . PNR F V 7 5 F Y 7 6
O L A K E S T . C L A I R ; R I Y E R S . S T . C L A I R R I V E R ; M A T E R Q U A L I T Y , S U R V E I L L A N C E ,
0 L b K E E R I E , R I V E R S , D E T R O I T R I V E R , t SUCVE:LLANC:E!
( I = U N S F ' E C I F : E D O=SOURCE AND L O A D I N G h = U t t S P E C I F I E D S O U R C E S )
( F = P A ? H @ G E H S O = S @ l l R C E RND L O k D l HG h = U N S P E C I F I E D S@l)RCES j
276 C 88 : 1 6 h OWOE O#OE, I MD, U S E P a FY76
( I = U H S P E C I F I E D 6 - S O U R C E A N D L O I D I H C h = U N S P E E I F I E b S O U R C E S )
0 B A C T E R I G , L A K E E R I E , R I V E R S , D E T R 6 1 T R i Y E l i ,
6 R I V E R S a W l A C A R I R I V E R , S U R V E I L L I H C E , L I K E O N T A R I O ,
2 7 7 C 90 J 0 2 h OROE. OROE F Y 7 5 0 R I V E R S , S T . L A U R E N C E R I V E R . D I S P E R S I O N , F Y 7 6 0 S E D I I I E N T S : B I O T G , B E N T H G S : F Y 7 7 o
( J o S E V E R A L Q = S O U R C E AND L O A D I N G 2 - F A T E AND T R A N S P O R T h = U H S P E C I F I E D S O U R C E S )
OROE F Y 7 5 0 R I V E R S , G R f i H D R I V E R ? T H R R E S R I V E R , N O H - P O I N T SOURCE.. I N D U S T R I R L S O U R C E : R U N I C I P R L S O U R C E , iVPTEP B U k i l T Y .
( ' H = O T H E R O = S O U R C E A N D - LOIDIHG ~ = E H V I R O H R E H T A L . I R P A C T S 5 = R E T H O D . D E V . P R O D E L I N G . i = S E V E R A L S O U R C E S . )
F Y 7 5 0 D I S P E R S I O N , R I V E R S , R I X I N G ZONE, F Y 7 6 0 M U N l C l P R L SOURCE.. I N D U S T R I R L S O U R C E :
( H = O T H E R 2 = F R T E BND. T R A N S P O R T .5=14ETHOG D E V . 8: N O D E L I N G 6 = C R l i E R I f i i = S E V E R G L S O U R C E S !
CI 23 h DHOE OROE F Y 7 5 2 0 , 0 0 0 P C B ' S , R C C U R U L A T I O H , B l G T 6 , R L G A E , F Y 7 6 2 0 , 0 0 0 P L A N K T O N t Z O O P L A N K T O N . . F l S H ,
( A = T O X I C O R C P N I C S Z = F . O T E RND T R G N S P O R T 3 = E N V l ~ @ N l l E N T A L I H P R C T S h = U N S P E C I F I E D S O U R C E S >
F Y 7 5 0 A C C U R U L A T I O W , P C B ' s , H E A R S H O R E , M A T E R , S E D I N E H T S , B I O T d , B E N T H O S , I U N I C I P A L SOURCE, 1 H D U S T R I A i SOURCE, A T W O S P H E R I L S O U R C E ,
( A m T O K I C O R G A N I C S 0.SOURC'E b N D L O A D I N G 2 o F A T E A N D T R A N S P O R T i = S E V E R b L S O U R C E S )
F Y 7 5 Q T R E N D S , R I V E R S , T H f i R E S R I V E R , F Y 7 6 0 L R K E S T . C L 6 ! R ; NERCU? ' ! ' . S E D I i i E K T 5 . .
H E A V Y R E T A L S , N U T R i E F T S : P E S T I C I , ; J E S . .
B 9 5 7 i OROE OROE F Y 7 5 0 , 0 0 0 A R S E H I C , C R D U W D V R T E R , I H P U S T A I t i L S O U R C E . N O N - P S i N T S D V R O E , P R E C I P ; T & T I O H /
( f i = T O X I C O R G k N l C S O = S O U P C E AND L O f i D I N G 5 = f l E T H O G D E V B R Q D E L I H G i = R h N k C E R E N T i = S E V E R A L S O U R C E S ;
F 7 i OHOE
( F = , P A T H O C E H S 7 = H f i H A C E # E H T i = S E Y E R I I L S O U R C E S )
E 7 i OMDE
DHOE D O E
DMOE
( E = C O U T A # I N A N T S , C E N . 7 = f i A N A C E M E N T i : S E V E R A L S O U R C E S !
I 3 7 i OMDE, DOE M T C
0 0 1 O L O C l C A L C O H T R O L 8 B A C T E R I A 8 SEMACE, 0 H U H I C l P A L SOURCE, l H S U S T R I f i L S O U R C E ;
5 , 0 0 0 SEMACE, O R C b N I C R A T T E R . Y f i S T E R A N A C E H E H T , R U H l C I P d L SOURCE, I N D U S T R l A L S O U R C E ,
F Y 7 5 2 6 , 0 0 0 D I S I N F E C T I O H , C H L O R I H A T I D H , T O X I C I T Y , B I O T A , F I S H , S E M L G E ,
( I = U N S P E C I F I E D 3 = E N V I R O N # E N T d L I H P b C T S 7 = W I N A C E H E H T i = S E V E R A L S O U R C E S )
2 8 7 C 3 5 1 : . E 0 , . i OROE,OflAF Q C . CRN . , OHOE F Y 7 5 2 0 , 2 0 0 ATI lGSPHERlC SOURCE, NDH-POIHT SOURCE AGRICULTURE, STREARS, WATER Q U A L I T Y , UATER QUGNTITY: P R E C I P I T G T T O N , SURVEILLANCE, . ,
! E - C n N T C R I NkRiS. . CEH. O=SOURCE RND LOAD1 NC i =SEVERAL SOURCES i
E 0 f OROE OHOE F Y 7 4 2 2 5 , 2 5 0 P O L L U T I ON, LBND USE, FURVEI LLBNCE, F Y 7 5 2 2 5 , 2 5 0 F Y 7 6 t 2 5 , 2 5 Q F Y 7 7 2 2 9 , 2 5 9
. . ,
( E=CONTRRI NGNTB., CEN. O=SOURCE RND LOADING f =NOH-POINT, SOORCE)
J 0 7 f OflOE OROE ,014HR F Y 7 4 3 3 6 , 7 0 0 POLLUTlON, LAHD USE, B I V E P S , F Y 7 5 3 3 6 , 7 3 0 CRRND R I V E R F Y 7 6 f 3 6 . 7 3 0 F Y 7 7 3 3 5 , 7 0 s
! J -SEVERAL O=SOURCE AND LORDING 7=flRNAGEflENT f=HON-POINT SOURCE)
F Y 7 6 12,000 LAND USE, RCRICULTURE,
( J = S E V E R G L C=SOUFCE GND LOBDlNC f=NON-POINT SOURCE 1
. . 2 9 1 C 3 6 5 B 0 f OHOE,OflAF OflOE z O I ~ B F F Y 7 6 15,QQO P E S T I C I D E S , PcB 'S , STREBflS, BGRICULTURE,
( B = T O X I C ORCBNICS OaSOURCE AND LOADING f =NON-POINT SOURCE j
2 8 2 C 2 6 5 H 7 h ORGE
,' . (H=OTHER 7=PlANQGERENT h = U N S P E C I F I E D SOURCES)
FY ZS 1 4 , 0 0 0 WATER QUANTITY, SURVEILLANCE, I N F O R R ~ ~ T IO!~.. E~:IIPMENT,
F Y 7 4 1 1 7 . 2 5 6 SEMAGE, I C R I C U L T U R E . S O I i , F Y 7 5 1 1 7 , 2 5 6 M A S T E M U t 4 A G E H E t i T :
( E = C O N T ~ ? W I H A N T S J C E N . 6 c C R l T E R l A . ? = H A N A C E W E H T h e U N S P E C I F I E D SOURCES. ) . .
Q 2 h O R @ € , O f l f i F .I J C O f l Q F , H l t l R I F Y 7 6 9 ,400 P E S T I C I D E S , P C P ' s , R H f i L ' f 5 ! S j S E P I H E H T 5 . L R K E O H T f i R I O :
F Y i 6 t 5 ~ 0 0 0 S U S P E N D E D S O L I D S , R H Q L Y S I S , R I V E R S , S T R E G R S : C H R O I l G T O t R d P V Y . P E S T l C i D E S , P C B ' s :
( A = T O X l C O R G Q N I C S 4 = S O U R t E RHD L O Q D I N C h = U N S P E C I F I E G S O U R C E S ;
H 5 f DHDE OWOE 6 M A T E R Q U A N T I T Y : H Y D R O L D C Y , CROUWDMATER, L A N D U S E , E H V l R O N t 4 E H T d L S I M U L A T I O N , S T A T I S T I C A L . A t 4 A L Y S ! S J
( H = O T H E R S = N E T H O D D E V . 8 M O D E L I N G f = H O N - P O I N T S O U R C E )
A 2 f OWDE U . U A T . , OWOE F Y 7 4
( A S T O X I C O R C d N I C S ? = F A T E AND T R A N S P O R T f = N O N - P O I M T S O U R C E !
0 P E S T I C I D E S , R N A L Y S I S , S O i L . M A T E R . C R O U M D Y f l T E R , pH.
OWOE F Y 74 1 5 ~ 6 0 6 S U R V E I L L A N C E , P L A N K T O H A P H Y T O P L A N K T O H , F Y 7 5 1 5 , 0 0 0 N E A R S H O R E , E C O L O C Y 8 PRODUCT I V I T V , F Y 7 6 1 5 , 0 0 6 T R E H G S , EL ! :ROFHICATI OH; F Y 77 1 5 , 6 0 6 '
( D - N U T R I E N T S 0 = S O U R C E AND L D I E I N G 2 a F A T E AND T R I W S P O R T h = U N S P E C I F I E D S O U R C E S )
. .
2 9 9 C 3 9 2 C 3 d OROE OROE F Y 7 4 9 , 2 0 0 B I O T R , P L R N K T O N , P H Y T O P L R N C T O N , E t O L @ G ' < * F Y 7 5 9 , 2 0 0 N E R R S H O R E . C E O R G i fin BR';. L R K E HUPON, FY 7 6 9 , 2 0 5 F Y 7 7 9 , 2 0 0
( C = P H O S P H O R U S 3 = E H V I R O N R E t i T A L 1 P l P k C T S d = H U N I C I P f i L S O U R C E !
OROE.O!!NR. C N T . H F Y 7 4 4 , 6 0 0 B I O T R , P L R N K T O N , P H Y T O P L R N K T O N , E t O L O G 7 . . FY 7 5 4 . . 6 0 0 P R O D U C T I V I T Y , N E A R S H O R E : S U R Y E I L L f i N t E : F Y 7 6 4 , 6 0 0 L R K E E R I E . . I , N D U F T R I A L S0URC.E F Y 7 7 4 , 6 0 0 R U N I C I P A ' L S O U R C E (
( H z O T H E R 3 = E N V I R O N N E N T R L I R P f i C T S i = S E V E R f i L S O U R C E S >
( C = P H O S P H O R U S 3 = E H V I R O N U E N T A L I R P A C T S d = A U N I C I P A L S O U R C E !
D 3 5 h OROE OROE
F Y 7 4 9 , 2 0 0 D I S T R I B U T I O N , B I O T f i , P L f i N C T 0 N . s F Y 7 5 9 , 2 0 0 P H Y T O P L A N K T O N * E C O L O G Y : P R O D U C T I V I T Y , F Y 7 6 9 , 2 0 0 B R Y O F Q U I N T E L R K E O N T f i R I O , F Y 7 7 9.. 2 0 6
0 B I O T A , E C O L O G Y , P R O D U C T I V I T Y , O X Y G E N , 0 R I V E R S . . 0
( D = N U T R I E N T S 3 = E H V I R O N R E N T A L I n P A t T S S = i l E T H D D D E V . C H O D E L I N t h = U N S P E C I F I E D S O U R C E S )
B 6 1 2 C , A C . C A N . h C . C A N . F Y 75 . 4 5 , 3 0 6 COPPER, 2 1 NC, L E A D , C A D M I U M . AGRICULTURE, B D T T O M S U B S T R b T E S , S E D I H E N T S , S O I L , A N A L Y S I S , C H E H I C k L C H A R R C ; E R ; Z A ; I D N , O A R E O N ,
( B = T O X I C M E T A L S 6 = S O U R C E A H D L O A D I N G l = C H A R A C T E R I S T I C S 2 = F h T E A N D T R A N S P O R T PINON-POINT S O U R C E )
J 0 5 7 f A G . C A N , AG . C f i N ., , ORDE - F Y 7 5 , , 9 , 9 0 0 P H O S P H O R U S , N I T R O G E N , O R C i l N I C R A T T E R , B R C T E R I R ; P C R ! C V L T U R E . . F U H O F F , U A T E R Q U A L I T Y I V R T E R B U d H T ! T ' f , G R O U H D U R T E R , M i T ~ G ~ T , F ! i ,
( J = S E Y E R A L C = S O U R C E f i t i D L O f i D I N G 5 = H E T H O D D E V . C H O D E L I N G 7 = f l A N b G E N E N T f = N O N - P O I N T S O U R C E )
3 0 5 C 3 6 6 E 2 C A C CAN F Y 75 1 8 , 7 5 0 A G R I C U L T U R E , S O I L , P O L L U T I O N , R I V E R S , AG C A N GROUWDMATER,
( E = C O N T A M I N A t J T S , G E H . 2 m F A T E A N D TRAt4SPORT F = N O N - P O I H T S O U R C E )
E 62 C A C . CAN . ,OWAF A C . C A N . 8 0 W A F F Y 7 4 0 A C R I C U L T U R E A R U N O F F , P O L L U T I OH, S O I L , FY 7 5 0 F Y 7 6 0 F Y 7 7 0
. , ( E = C O N T A M I H A N T S , C E N . b = S O U R C E AND L O A D 1 HC 2 = F A T E AND T R A N S P O R T f = N O N - P O 1 N T SOURCE >
3 0 7 C 3 5 5 I 1 , f A C . C A N . A G . C A N . . O W D E F Y 7 5 1 6 , 6 0 0 C H E W I C A L C H A R A C T E R I Z A T I O N , S E D I M E N T S . A C R I C U L T U k E . S O I L ,
( I = U N S P E C I F I E D l = C H A R A C T E R I S T I C S f = N O t d - P O I N T S O U R C E )
G C . CAN
( D = N U T R I E N T S Z = F A T E R N V T R A N S P O R T 5 = R E T H O D D E V . h . RODELING f = N D N - P O I N T S O U R C E ) ,
3 0 9 C 3 5 7 J 0 f AG C A N AC C A N J NRSa O#OE F Y 7 S 3 0 , 0 0 0 N U T R I E N T S , H E A V Y M E T A L S , S E D I M E H T S , A G R I C U L T U R E .
I J = S E V E R R L 0 = S O U R C E AND L O Q D I H C C = H O N - P O I N T S O U R C E )
3 1 0 C 2 1 4 B 2 f A G . C A N . A C . C A N .
( B - T O X I C M E T A L S 2 = F A T E AND T R L H S P O R T f = H O H - P O I N T S O U R C E !
F Y 7 5 - 2 0 , 0 0 0 D I S T R I B U T I O H , A G R I C U L T U R E , A N A L Y S I S , S O I L , S E D I H E N T S ; S U S P E N D E D S O L I D S >
3 1 1 C 2 1 4 8 2 5 f R C . C A N . A G . C A H . F Y 7 5 1 5 , 0 0 0 O R G A N I C R A T T E R , S O I L , S E D I t I E H T S , S U S P E N D E D S O L I D S , I N T E R A C T I V E E F F E C T S . . A G R I C U L T U R E :
( P = T O S I C R E T A L S 2 - F R T E AND TRRNSPORT 5 = R E T H D D D E Y . & H O D E L I N G f = N O N - P O I N T S O U R C E )
3 1 2 C 5 4 9 . . E 7 . f A G . C A N . D . R . C O O T E
( E = C O H T A A I N A H T S . G E N . . 7 = f l A N A G E N E N T f = N D N - P O I N T SDURCE )
3 1 3 C 3 4 9 I 7 f A T ; . C A N .
! I = U N S P E t I F I E D 7 = f l A N A G E P l E N T f = N O H - P O I N T SOURCE )
3 0 , 0 0 0 PROGRQf l D E V E L O P R E N T , R D V I S O R Y , f l C R I C U L T U R E , P O L L U T I OH,
5 4 , 0 0 0 A D V I S O R Y , I H F O R R B T I O N , D A T R Q U A L I T Y . A G R I C U L T U R E , P O L L U T I O N ,
H 0 2 5 f R G . C A N . R G . C A H . , O f l O E F Y 7 5 2 0 , 0 0 0 S E P 1 H E N T S . - E R O S I O N , A G R I C U L T U R E , . . T E M P D R R L V Q R I a T I O N , H Y D R O L O G Y J
( H = O T H E R O=SOURCE AND L O R D I N G 2 - F A T E AND T R A N S P O R T 5 - R E T H O D D E Y . h f l O D E L l N C f = N O N - P O I N T S O U R C E )
H 0 P A C . C A H . U . M I N . 9 , 0 0 6 P R E C I P I T A T I D H , RUHOFF, M L T E R C H E # I S T R Y 3
9 , 0 0 0
( H = O T H E R O=SOURCE AND L O A D I H G a = A T # O S P H E R l C SOURCE !
3 1 6 C 369 1 2 5 a AT; C A N . U . V I N . F Y 7 5 2 1 0 0 0 P R E C I P I T A T I O N , RUNOFF.. T E R P O R R L V A R I A T I O N , OGTER Q U A N T I T Y ,
( I = U N S P E C I F I E D 2 = F A T E AND TRAHSPDRT 5 = f l E T H O D D E V . 8 H O D E L I N T ; a = A T H O S P H E R I C S O U R C E )
3 1 7 c 375 n a f ac.carc . L C . C A N , .
( H m O T H E R ; = F A T E AHD T R A H S P O R T f ' e t 4 0 ~ - P O I N T 'SOUR'CE'?
FY 75 2 2 , 5 0 0 S O I L , A G R I C U L T U R E , GROUNDUATER,
318 C 2 3 1 I 5 7 i I U D Ui; F Y 75 4 , 0 0 0 E C O N O I I I C S < C O S T - B E H E F I
( I = U N S P E C I F I E D 5 s f l E T H O D D E V . b H O D E L I N C 7 = R R N R C E R E N T i = S E V E R R L S O U R C E S i
0 E C O N O R I C S , DEMOGRAPHY.. I N T E R a C T I V E E F F E C T S , P O i i U T ! OH, T E H P O R A L V b R I A T I O N .
. . ( E = C O H T b R I N b M T S , G E N . O = S O ' U R C E RND LOGDI N C 2 = F R T E GND T B R N S P O R T f = N O N - P O I N T S O U R C E ) . .
H 7 f I M D
( H = O T H E R ? = # A N A C E # E W T f = N O H - P O I H T SOURCE )
( H a O T H E R 7 = H R N R t E M E N T i n S E V E R R L S O U R C E S )
0 R E C U L I T I O N S . A D P I I N I S T R A T I O U L A R D U S E .
0 I N F O R I A T I O N , A Q U A T I C E N V I R O N H E N T S , 0
1 7 , 6 6 6 ' B I O T R , NERRSHORE, SHORE, D I S T R I B U T I O N , 17 ,666 T E l l P O R R L V 6 R I A T I O N . L R K E O N T A R I O , 1 7 , 6 6 6 L R K E E R I E , L k K E HURON, L R K E S U P E R I O R ,
3 2 3 C 1 2 4 E 5 h H H U HHW, N Y R I F Y 76 0 O R G A H I C C O H T A R I N I N T S , A N A L Y S I S , V A T E R ,
3 1 4 C 1 1 4 E 5 h HHU HHM. N U R I . G # G E FY74 4 O R C h N I C C O N T L I I N L N T S , h N A L Y S I S , M h T E R . F Y 7 5 4 S U R Y E I L L A H C E a S O R P T I OW. F Y 7 6 4 F Y 7 7 4
( E = C O H T A M I H A N T S , C E N . S = # E T H O D D E V k MODEL ZHC h = U N S P E C I F I E D S O U R C E S )
3 2 5 C 2 0 1 A 5 d H H U /HHM F Y 7 4 0 A H I L Y S I S , V R T E R , P E S T I C I D E S , F Y 7 5 0 F Y 7 6 0 F Y 7 7 0
. .
( d = T O X I C O R G A N I C S S=PIETHOD D E V . k H O D E L I H C d = P I U N I C l P f i L S O V R F E )
IU 0 0 3 2 6 C 2 0 2 d Q d H H Y HHW, OHOE
( A = T O X I C O R C A H I C S Q = S O U R C E AND L O A D I N G d = H U H I C I P A L S O U R C E )
0 A H I L Y S I S t Y I T E R , S U R V E I L L A N C E ,
3 2 7 C 2 1 9 E 2 4 h H H U H H V , N U R I F Y 7 C 0 A S B E S T O S F I B E R S , E V A P O R A T I O N ,
( E = C O H T A R I N A N T S , C E N . 2 = F A T E BND T R ~ H S P O R T ' 4 = H U R L N H 'ERLTH E F F E C T S h = U N S P E C I F I E D S O U R C E S )
3 2 8 C 2 5 1 E i d H H U HHW, H O R I F Y 76 0 O R G A H I C R I T T E R : OZONE.. U b T E R ,
( E = C O H T A H I N ~ ~ N T S , C E N . 7 = H A N A C E # E N T ~ = ~ U H I C I P A L S O U R C E )
H O f OWHR
. .
OHNR 4 U . C U E .
( H = O T H E R O = S O U R C E AWD L O A O I W C C = N O N - P O I N T S O U R C E >
H 5 a DOE . . a
( H = O T H E R S=P!ETHOD D E V . & R O O E L I N C a = R T H O S P H E R I C S O U R C E )
331 C 6 J O a DOE I Y D
( J = S E V E P P L 0 - S O U R C E AND L O Q D I H C Q = ~ ~ T R O E P H E R I C S O U R C E )
F Y 7 4 3 3 , 0 0 0 S T R E A M S , E R O S I O N , S E D I N E H T S 2 L A K E S , F Y 7 5 3 0 , 0 0 0 S O I L , A N A L Y S I S ; F Y 76 3 0 . 0 0 0 F Y 7 7 3 0 ~ 0 0 C .
F Y 7 5 1 5 , 0 9 0 R O D E L S , W l T E R Q U A N T I T Y , L A K E E R I E , L R K E O H T A R I D > L i t K E HURON: L R K E S T . C L G I R ,
F Y 7 5 5 0 : 0 9 0 N U T R I E H T S , R E T A L S - p H . P F I E C I F I T f i T I O N . . C H E f l I OGL C H G R 9 C T E R ! Z $ T I n t i ,
N 3 3 2 C 9 I O S I DOE N U R I . OWOE F Y 7 5 9 2 , 1 0 8 R T W O S P H E R I C D E P O S I T I O N , P R E C I P I T A T I O H ;
( I = U N S P E C I F I E ~ 3 - S O U R C E AND L O f i D I NC S = W E T H O D DEV.. 8 H O D E L I N C a = A T # O S P H E R I C SOURCE )
D O I DOE H M R l
( D = N U T R I E N T S 0:SOURCE I N 4 L O A D I H C a = A T # O S P H E R I C S O U R C E ?
3 3 4 C 1 9 H 2 5 a DOE N V R I F Y 7 5
F Y 7 4 0 H I T R O C E N , S U L F U R . P R E C I P I T A T I O N , F Y 7 5 1 9 , O b O F Y 7 6 0 F Y 7 7 0
Q E Y Q P O R A T I O N , A I R , WATER, H Y D R O L D G Y , L R K E S , R I V E R S ,
( H = O T H E R 2 = F h T E AND T R G N S P O R T 5 = M E T H O D DEV. & M O D E L I N G a = R T f l O S P H E R I C S O U R C E )
3 3 9 C 2 2 H 9 a DOE 1 N T . S Q T . I M F . F Y 7 6 8 , 9 9 0 I C E , S B T E L L I T E S t R E R O T E S E N S I N G ,
( H = O T H E R S = F E T H O D D E V . 8 P I O D E L I E C a = Q T t l O S P H E R I C S O U R C E )
336 C 2 4 H 56 g DOE N W R I FY 7 5 0 I C E , R I V E R S , B O D E L S ,
( H - O T H E R 5 = P E T H O D D E V . 8 N O D E L I N C 6 = C R I T E R I B g = D T H E R S O U R C E S )
3 3 7 C 2 7 H 5 g DOE N V R I
( H = O T H E R S = f l E T H O D D E V . 8 N O D E L I N C g = O T H E R SOVRCES
N 3 3 8 C 2 7 H 5 g DOE NWRI
( H = O T H E P S = R E T H O D D E V 8 N O D E L I N C g = O T H E R SOURCES
339 C 3 3 H 7 f DOE N W R I
( H = O T H E R 7 - F ~ B N R G E R E N T f = N O N - P O I N T S O U R C E ?
3 4 3 C 1 1 D 2 a DOE NWRI
0 I C E , M h V E S t L Q K E S , N E T H O D O L O C Y .
0 R E T H D D D L O G Y , I N S T R U R E N T f i T I D N , C U R R E N T S , I C E , R I V E R S *
0 U Q V E S , SHORE, N I T I C Q T I O N ,
0 S U L F U R , L h K E S , PRECIPI TQTIDN t S E D I H E H T S ,
( D = N U T R I E N T S 2 = F d T E QND TRQNSPORT a = Q T H O S P H E R I C S O U R C E )
3 4 1 C 1 9 H 5 a DOE H M R I
( H = O T H E R S = H E T H O D D E Y . 8 H O D E L I H C _ a = A T H O S P H E R I C S O U R C E )
3 4 2 C 28 H 7 f DOE
( H = O T H E R 7 = H R t 4 A G E W E H T C - N O H - P O I W T S O U R C E )
3 4 3 C 3 2 H 2 a DOE N M P l
( H = O T H E R 2 = F b T E R N D T R R N S P O R T a = R T P i O S P H E R I C S O U R C E )
10 0 . .
w 3 4 4 C 3 2 H S f . DOE . ' ' H M R I
( H E O T H E R S = W E T H O D D E V . h W O D E L l N C f = H O H - P O I N T S O U R C E ) . .
3 4 9 C 12 I 9 a DOE U . MO
( I = U H S P E C I F I E D 9 = U H S P E C I F I E D ~ = A T H O S P H E R I C S O U R C E )
0 E Y A P O R A T I O H , R I V E R S , W E T H D C O L O G Y , T E I P E R L T U R E , S T R E W N S ,
0 I C E , S H O R E , E R O S I O N , W I T I G B T I O N ,
0 V R V E S , R I R , W R T E R , I N T E R Q C T I V E E F F E C T S : T E M P E R G T U R E , C I R C U L R T I D H , R E S U S P E N S I D N , S E D I M E N T S , E P I L I M H I O N , .
0 M A V E S . N E L R S H O R E , I O D E L S , D I S T R I B U T I O H , C U R R E N T S . O F F S H O R E .
, '
F Y 7 5 1 9 , 4 6 6 P A R T I C U L A T E S , A I R '
346 C 1 2 I 3 a DOE R E . S C I CONS F Y 75
( I = U N S P E C I F I E D 3 = E N V I R O H H E N T ~ L I H P R C T S a = R T H O S P H E R I C S O U R C E )
3 , 0 0 0 R T M O S P H E R I C D E P O S I T 1 ON, E C O L O G Y ,
H 5 i DOE I C E , DOE F Y 7 4 0 M I T E R B U R N T 1 TY, HYDROLOGY, R E T H D D O L O C Y , F Y 7 5 0 E Q A P O R f l T I O N , P R E C l P I T R T I O N , RUNOFF, F Y 7 6 0 GROUNDWBTER, F Y 7 7 0
( H = O T H E R 5 = R E T H O D D E V . b R O D E L I H G i = S E Q E R R L S O U R C E S )
348 C 2 8 H 5 f DOE C R N . R E S . I N S T . F Y 7 5 2 5 , 0 0 0 I M S T R U B E N T f i T I O N e I C E ,
( H = O T H E R S=R€.THOD D E V . C M O D E L I N G 'C=NOW-POIH'T S O U R C E >
3 4 9 C 6 J 0 a OPlOE U . W I N . F Y 7 5 9 , 0 0 0 N U T R I E N T S > C H L O R I D E S , S U S P E N D E D S O L I D S , F Y 7 6 9 . 3 0 0 P E S T I C I D E S , P C B ' s , H E k V Y R E T A L S ,
P R E C I P I T A T I D N , A N A L Y S I S *
( J = S E Q E R R L O=SOURCE RND L O R D I N G o = R T B O S P H E R I C G O U R C E )
Appendix VII Titles of Projects
A. CURRENT RESEARCH PROJECTS
I JC S ER IAL NUMBER --
ORGANIZATION PROJECT - NUMBER
A. CURRFNT RESEARCH PROJECTS
PERFORM ING ORGAN IZATION* TITLE OF PROJECT -
ERt-D Acute and E a r l y L i f e Stage T o x i c i t y Tes t i ng o f P r i o r i t y P o l l u t a n t Chemicals
ERC -D Develop Labo ra to r y T o x i c i t y Data f o r F i e l d Eva lua t i on o f C r i t e r i a
ERI, -0 I n t e r n a t i o n a l J o i n t Commision
ERt-D . . Co r re l a t i o n o f Chemical T o x i c i t y w i t * E f f e c t T issue Concentrat ions of Freshwater F i shes
ERI, -0 B i o l o g i c a l S tud ies on Fac to rs A f f e c t i n g Toxi c i ty
ERL -0 Environmental Fac to rs A f f e c t i n g T o x i c i t y
ERL-D Generic Toxi c i t y Method01 ogy Development
ERL-D . P i l o t Study t o Determine I n t e r a c t i v e , E f f e c t s o f Ac id P r e c i p i t a t i o n and Depos i t ion and Release o f Meta ls i n Aquat i c Systems
009 A 0400 ERC -D Develop Improved Qsar Models f o r Predi c t i n g Bioaccumul a t i o n and T o x i c i t y o f Chemicals
010 4 0402 ERI -D Development o f GC/MS Methods f o r Ana lys is o f Ch lo r i na ted D iox ins and Furans i n F i s h
. . .
011 A 0403 ERI, -D Develop Qsar f o r Two Classes o f Chemicals f o r P r e d i c t i n g E f f e c t s on : Aquat ic Organisms
012 A 0405 ERL -D F e a s i b i l i t y o f Free Wilson Approach, Benchmark and P a t t e r n Recogn i t ion Methods
013 A 0406 ERI, -0 The J o i n t Ac t i on of M u l t i p l e Tox ican ts on t h e Fathead Minnow . . ; . .
014 A 0409 MONT.SU. Aquat i c T o x i c i t y Tes t i ng
015 A 0410 U.WI. Chemical Residue Biomoni t o r i n g
* see Abbrev ia t ions ** A= Unitgd States P r ~ j c c t ~ C= Canadian P r o j e c t s
ORGANIZATION . , . . . . . . ,.
I JC *;. ,. -,;, . . ,;, . , -
, . . - . . . . : . . r . ;
. . . . . . . . . . . S ER IAL PROJECT PERFORMING . . s . I -.- . . . . '. . .
NUMBER ---.-.-
016 A
ORGAN IZATION* --
U.WI.
... .. : . . . . I . . . .: . : '1. '.:TIT',E OF . PRQ JECT - . . . . .
----- .: . . . : ; . . . . . . . . . . . .... . . . . . . . . . < . . . . . I . . ( . . . , ;., ~..-. . . . . '<.< .: . : : . ., .,* . . <. A q u a t i c pdl , lAUtant ,qaia&d A j S e s s m e " t% . A ,
and Development o f Hazard P red i c t i on - : : .
Technology by Q u a n t i t a t i v e . ,
S t r u c t u r e - A c t i v i t y Re la t i onsh ips . . . . . . . - . . . - . . . . ' I 3 : . . . . 7 . . . . .
Changes i n Measurable B i o e l e c t r i c A c t i v i t y o f F i sh as a T ~ c h n i q u e f o r I n v e s t i g a t i n g Modes o f Ac t i on a n d . .: .::-. Assessing T o x i c i t y o f Organic Compounds According. t o S t r u c t u r e - A c t i v i t y . . c
Re1 3 t i onsh ips
E f f ec t s P r e d i c a t i o n f rom S t r u c t u r e - A c t i v i t y Re la t i onsh ips -
019 A'. . . . . . 0430 :.
E.NAZ.COC. Development o f Mo lecu la r C o n n e c t i v i t y . . . . . f o r Es t ima t j on o f Toxi c i t y and :- :-. : . '
. . ,
I . , . . _ ' : . . . . . . Environmental Behavior of Organic , ,
. . . . , . . . . . . Mol ecu l es . . :. : , . . . j
020' A,', . . . . . . . . . 0431 ; -' ERI, -D
. . . . . . . . . .
. . . . , .
, ..
021 A ,, . . 0209 . . . . ER', -D
. . . . . s . ,,l. : . . ,:. . . . .
022 A 0213 ER', -D
. . .. , . . B i o l o g i c a l x . A v a i l a b i l i t y - o f . . . ) . - - .
-. . . P o l y c h l o r i n a t e d Di benzo-p-Dioxins and Dibenzofur ans t o F i sh
- ,
Accumulation o f Asbestos F ibe rs and Analogous,:Mineral F i b e r s i n F i s h T issue
. . . S u r v e i l l a n c e o f Tacon i t e P a r t i c l e s Transpor ted i n Western Lake Super io r
023 :A :02.15; :. - : - . ERI, -D . ' . - - Develop S t r u c t u r e - A c t i v i t y . .
. . ' . . Re la t i onsh ips f o r P r e d i c t i n g Minera l . . and Syn the t i c F i b e r C a r c i n o g e n i c i t y
. . . . . . . . . . . . , , ;
024 A . : ' . :0216 ' ERI, -D Develop and Ver i fy ~i sh R e s p i r a t o r y . . . Endpoints f o r P r e d i c t i n g Chronic
. T o x i c i t y and R e l a t i v e Hazard o f . . . . Leachates, - Complex Mi:xtures . . . .
025 A 0103 ERI, -D P e s t i c i d e s T o x i c i t y i n Outdoor Experimental Streams : Dursban
. . . . . . . ! ." . . . . - . . ' . . ! . . , . . . ,
026 A . ' 0104. ' . -ERL.-D - . - . ~ i a z i n o i T o x i c i t y i n outdoor Experimental Streams
- . . : . . . . < . ; I , ' , ; . : : . . I n t e r a c t i o n s on Bioaccumulat ion : . ::
* see Abb rev ia t i ons . . . . . . . . . . . . . : . . . . ..:. . . . . . . . . ... < , . I _ . : 7" , . . . , . . . . - . :
:. ' . & . . . . ,
' . ! . ' ,
-+:2(J8 . . . . .
I JC ORGAN IZATION S ER IAL PROJECT NUMBER NLIMBER
PERFORMING ORGANIZATION*
ERL-D T o x i c i t y Mod i f i ca t i on by Natura l Environmental Factors
Development o f the S u s c e p t i b i l i t y Cri ter ia/Measures f o r Assessing Aquatic Resources a t Risk from the Deposi t ion o f Ai rborne P o l l u t a n t s
Development o f an EPA Great takes Research Program P 1 an
Large Lake Research Program Development and Implementation
Atmospheric I n p u t of PCBs and Other Halogenated Hydrocarbons t o take Huron
V a l i d a t i o n o f Phosphorus Phytoplankton Model
Great Lakes Data Management and Model Maintenance
U. CAI, IF. Transport O f Contaminants i n the Great L ak es
ERI- -D/LLRS
M I . PUB.H.
Hazardous Ma te r ia l s Fate Models
Evaluat ion o f Humans Exposed t o Waterborne Chemicals i n the Great lakes
Changes i n Zoopl ank t o n Communi t i e s Related t o Reduction of N u t r i e n t Loading i n Sagniaw Bay
E f f e c t s o f N u t r i e n t Loading Reduct ion on Phytoplankton i n Sagi riaw Bay and Lake Huron
CLARK. COL. Bioassay Determi na t i on o f A1 ga l Ava i l ab le Phosphorus i n Suspended Sediments o f Great Lakes T r i b u t a r i e s
DEPAUL U.
MAN. COI-.
Po l ych lo r i na ted B i phenyls i n the Atmosphere and i n l a k e Michigan
042 A 0612
* see Abbreviat ion?
Mathematical Models o f the Fate o f Toxic Substances i n the Great lakes
I JC S ER IAL NUMBER-
. . . . . . . . . . . . . . . . , ,. , . ' :. . . . . . . . . . . ORGAN IZATION . . - . . . . - - ._, . . , , .
. . .
PERFORMING PROJECT . . . . . . . . -
. . . .
TITLE OF PROJECT.-: . .
NUMBER ORGAN IZATION* --- . . . . . ,
. . . 0613 . . CR. 1NST.SC. F l u x o f o r g a n i c Tox ins 'end Ma jo r
N u t r i e n t s i n t h e Grea t Lakes i n V a r i o u s Ecosystem . Compartments: . : :.: - . .
: .: . . . :
06 14 COMP.SC. Computer Suppor t Program
062 1 ERL-D F l i n t R i v e r Waste Load A1 l o c a t i o n . . . . Research Survey . . . .
046 A 0622 TEXAS A&M I d e n t i f i c a t i o n o f PCBs i n Commercial M i x t u r e s and Env i ronmenta l Samples .
047 A 0624 ERL -D Assessment o f R e l a t i v e A s s i m i l a t i v e C a p a c i t i e s o f Lake M ich igan and E r i e f o r P e r s i s t e n t T o x i c a n t s
1
048 A 0625 U.MINN. E f f e c t s o f Toxaphene on t h e P l a n k t o n i c Food Chain i n Lake S u p e r i o r
049 A 0626 M TU An Assessment o f t h e P o l l u t i o n o f Green.. Bay (Lake M i c h i g a n ) w i t h Development o f Load ing Es t ima tes f o r i t s Improvement
050 A 0627 LLRS Sodium ~ h l o r i de ~ c o l o ~ i c a l E f f e c t s i n ' " Grea t Lakes
051 A 0628 LLRS Ref inement o f Phosphor us Management O p t i o n s and Assessment o f C o s t - E f f e c t i v e n e s s o f Phosphorus C o n t r o l Programs
052 A 0629 RES.TR IA. TNST. D e t e r m i n a t i o n o f P o l y c h l o r i n a t e d B i p h e n y l s and Other Ha logenated Hydrocarbons i n Human B i o l o g i c a l F l u i d s
053 A 0630 1-LRS T r a n s i t i o n a l ' T r a n s p o r t and Impact o f T o x i c Substances i n t h e Grea t Lakes - St . L o u i s Harbor, Lake S u p e r i o r
: , , ..
054 A 0631 . . ERt-D ~ c o s ~ s tern R i s ! ~ and ~ a i a r d ~ s s e s s m e n t t o ' . . Ach ieve Maximum E n v i r o r ~ m e n t a l B e n e f i t
055 A 0632 ARG. NAT.1-AB Determine R e l a t i v e Impor tance o f D i r e c t Uptake Versus Food Chain Uptake i n S e l e c t e d Great Lake F i s h
056 A 0633 U.WI. P o l y c h l o r i n a t e d B i p h e n y l s i n Lake M i c h i g a n T r i b u t a r i e s , Water, and Sediment
* see A b b r e v i a t i o n s
I JC O R G M IZATION S ER IAL PROJECT PERFORMING NUMBER NUMBER O R G M IZATION* TITLE OF PROJECT -
LIM Atmospheric Transport o f Toxaphene t o Lake Michigan
058 A 0635 CR. INS7,SC. T rans fe r ra l o f Toxins from Sediments t o Great Lakes B io ta
Lake E r i e Sediment Resuspens i on and Transport Mechanisms : Nearshore V e r t i c a l P r o f i l e s and Flux Rates
060 A 8 U.YI . Movements o f Lake T r o u t , i r y : Environmental and Genetic Factors
061 A 9 PRIVATE CONSUL. Nonconsun~ptive Extra-Market Values f o r Great Lakes Ecosystem Rehab il i t a t i o n
062 A 10 GLF C Great Lakes Ecosys tern Rehab i 1 i t a t i o n Studies
063 A 1 300- 834 1 0- GLFL Ecology and Limnology: E f f e c t s o f Water 974- 10 Use Prac t ices on Great Lakes Fishes
Ecology and Limnology: N u t r i e n t Cyc l i ng and Plankton-Benthos P r o d u c t i v i t y
065 A 1 933- 722-3 1 GLF- Ecology and Limnology: E f f e c t s o f Beach Nourishment on Nearshore Waters o f Lake Huron Adjacent t o t he Lexington (Michigan) Harbor o f Refuge
056 A 1 933- 722-38 GLFL Ecology and Limnology: Eco log ica l E f fec ts o f Breakwater Construct i o n and Channel Dredging a t West Harbor, Ohio (Western Lake E r i e )
067 pI 1 300- 834 10- GLF- Phys i 01 ogy and Behavior 974-69
068 A 11 10-83410- GLFL Contaminant Dynamics 759-50
069 A 11 10-83410- 0-FL Contaminant Toxicology 750- 70
070 A R/E-16 SUNY,COR. U. . Secondary Metabo l i t2s o f Marine Organ isms
* ses A b b r e v i a t i ~ n s
I JC S ER IAL NUMBER --
ORGAN IZATION PROJECT NUMBER
083 A R/',-3
084 A E / I - 2
. 085 A E / I - 3
086 A P/M-1
087 A P/M-3
* see Abbrev ia t ions
. . . . . ,,; . . . . . .> * . . . . . . . . . . . . . . -.
; :> - r . .: ? .... .:. . . I , .
. * . a , . .<.. . . , . .
. . . ... . . . . . . -PERFORMING . .s.... . : . . . . . . . ,. .:.. .? . . . . . , . . . . .... . . . . ... ORGANIZATION* : ..:Tli;l.~ - OF P~0;3~.~-. ':.
. . --
. . . . . . .*
SUNY,COR. U. A s t u d y o f ~ i i t o r s ~ n f l b e i i i n ~ t h e Growth and S u r v i v a l o f J u v e n i l e Hard Clams, Mercenar ia mercenar ia, i n Great:: South Bay
SUNY,COR. U. Containment of Dredged Sediment Under . t h e F l o o r o f t h e Cower Bay o f New York Harbor
SUNY,COR. U. P lan f o r t h e Containment of Dredged , Sediments i n Submarine Borrow P i t s
SUNY,COR. . U. . As.s,es,sme.nt of:., Sui t ab i 1 i t y g f Coal Was.te * . .. _ _ . . Bloc'l<s f o r A r t i f i c i a l Reefs i n Lake
On ta r i o . . . . . . .
SLINY,COR. U. Development o f a Coasta l S t r u c t u r e s ' . Cons t ruc t i on Manual
?
SUNY,COR. U. Wave R e f r a c t i o n and D i f f r a c t i o n
SUNY,.COR. U. , An -Evaluat ion o f , the R e l a t i v e . . .
Impor t an ce o f Mass.' W as't i n g :Processes a<' a Mechanism o f Lake On ta r i o B l u f f
. . . . . . . . . . . Recession . . . . . .
SUNY,COR. U.
SUNY,COR. U.
NOAA ,
SLINY,COR. U.
SLINY,COR. U.
Dynamics o f Nearshore I c e
Technica l Con t ro l o f Loca l Beach Stud ies .. - . . . . - . . , .
Adv iso ry s e r v i c e s ' .
Communications: New York Sea Gran t I n s t i t u t e
Development o f a ~omr;'kehensive K - 5 Coastal Educat ion Program f o r New York S t a t e
Problems i n Coastal l a w . I :
, , ' . . . .
Coastal l aw s c h o i a r s . , . . ;.. Sea Grant Scholars
Program Man agemen t
New I n i t i a t i v e s . . . . . . . . . .. .: . . . . .
I JC ORGANIZATION S ER IAL PROJECT NUMBER -- NUMBER - 088 A A/F P- 1
102 A R/?R-23
* see Abbrev ia t ions
PERFORMING ORGCW IZATION* TITLE OF PROJECT -
MSU
UM
UM
UM
MSU
MSU
Marine Advisory Serv ice -
Communications
Great l akes Seminar
Examination o f Spawning and Incuba t i on Requirements, and Reproduct ive B io logy g f l a k e T rou t i n Re la t i on t o Reestabl i shment o f S e l f -Sus ta in ing Stocks i n t h e Great l a k e s
T h e - ~ n v e s t i ~ a t i o n o f Ocular and Neural l e s i o n s Observed i n Rainbow Trou t (Salrno Ga i rdne r i ) F o l l owing Exposure t o Selected Organophosphate Esters
Lysosomal Enzyme Release as a Measure of St ress i n F i sh
The Role o f Mysis r e l e c t a i n t he Transpor t o f m m h h e ~ a k e Michigan Ecosys tem
Trans fer Mechanisms o f PAHs i n Great Lakes Zooplankton
N u t r i e n t Cycl i n g and Hydro logic Processes i n Great Lakes Coastal Marshes
In f luence o f Lake Michigan and Fox R ive r Waters on the ,Water Qua1 i t y ' o f Green Bay
Study o f t h e E f f e c t o f . a Rural Clean Water P r o j e c t i n t he Sa l i ne Val l e y
UM ' ?rogram Admin i s t ra t i on and Management
U.WI. A1 t e r n a t i ve Management S t ra teg ies f o r Min imiz ing Po l ych lo r i na ted Biphenyls i n Lake Michigan Fishes
U.WI. S i g n i f i c a n c e of -- i n s i t u N u t r i e n t Regeneration i n Lake Michigan's N u t r i e n t Budget
U.WI. Composit ion and P r o d u c t i v i t y o f Aquat ic Macrophyte Comniunities i n Three l a k e Michigan Bays
. . . . :. . _ / . ( . . . . . . . . I JC ORGAN IZATICIN . . . . . . . . . . . . . . .... . . . . PROJECT , PERFORMING ., . I ! . . . , ' ? . ,
SERIAL .. . -:. , '. . . . . NUMBER .. : I
! , :
---.- NLlMB ER --- ORGAN IZATION* - - . . . . ' ' T'TTI-E OF P.R'QiJEC7 --- . .
103 A R/AQ- 11 U.WI. E f f e c t s o f N u t r i t i o n a l and Environmental St resses on Resistance t o Disease i n 'Coo lwa te r F ishes
104 A R/GB-5 U.WI. Green Bay Subprogram Coo rd ina t i on
105 A R/GB-12 U.WI. Phys ica l -Chemical Charac te r i s t i cs and - Dynamics o f Green Bay
106 A R/MW-20 U.WI. An Assessment o f Se lec ted Organic P o l l u t a n t s i n t h e Lower Fox R i ve r and Green Bay
107 A R/MW-21 U.'dI. Methodology f o r Assessing Pathways of Chemicals i n t h e Lower FOX River/Green Bay Aquat ic System
108 A R/GB-15 U.WI. Pe rs i s t ence o f P o l l u t a n t s i n t h e Sediments o f Lake Mich igan 's Green Bay
109 A R/MW-23 U.WI. Sources o f P o l y c h l o r i n a t e d B ipheny ls t o l a k e Michigan
110 A R /MW- 26 U.WI. M o d i f i c a t i o n o f Xenob io t i c Metabol i z i n g A c t i v i t y i n Lake Mich igan F i s h b y I
Environmental Po l l u t a n t s
111 A !?/MW-24 U.WI. ' Role o f P a r t i c u l a t e Ma t t e r i n Con t ro l 1 i n g Tox i c Element Behav ior i n Lake Michigan
112 A !7/MW-25 U.WI. T ranspo r t o f Tox ic Substances i n t o Lake Super io r b y Suspended S o l i d s
P o l y c h l o r i n a t e d Dibenzodiox ins ( PCDDs) and D i benzofurans (PCDFs ) Pers is tence and T o x i c i t y i n Freshwater F i s h
T rans fe rab le Discharge Per in i t s : Implementat ion S tud ies
Responses of Laice Super io r Net Bas in Suppl i e s and Great Lakes Water Leve l s t o C l ima te V a r i a t i o n s
Geophysical Assessment o f t he Hydrai l l i c Connect ion Between l a k 2 Mich igan and t h e Gro.undwater A q u i f e r s on i t s Western Boundary
* see Abb rev i3 t i ons
I JC ORGAN IZATION S ER IAL PROJECT PERFORMING NUMBER NUMBER - ORGAN IZATION* TITLE OF PROJECT
117 A AS/9- 3 U.WI. Earthwatch Pub1 i c Serv ice Radio Program
R/MR-1 BGSU
R/OE-1 OSU
R/QE-3 BGSU
Development o f Remote Sensing Course With Emphasis on t h e Coasta l Resource o f Green Bay
N u t r i e n t s , P r o d u c t i v i t y and Water Q u a l i t y i n Lake Super io r : A Mechan is t i c Approach t o an O l i g o t r o p h i c Food Web
Microcontaminant - A i r , Water, Sediment, B i o t a I n t e r a c t i o n s i n Lake Super i o r
Sediment Mass .Movement on t h e T a l l i ngs Fan i n Lake Super io r a t S i l v e r Bay, Minnesota
R e d i s t r i b g t i o n of T a i l i n g s Depos i ts i n Lake Super io r b y T u r b i d i t y Cu r ren t s
Program Management
Program Development
Snip Time
Processes C o n t r o l 1 i n g t h e Charac te r and D i s t r i b u t i o n o f Organic and Terr igenous Sediment i n t h e Western Bas in o f Lake E r i e
E v a l u a t i o n o f Sand Resources i n Western Lake E r i e
Coherent Tu rbu len t S t r u c t u r e s i n t h e Ben th i c Boundary l a y e r ; Phase 1 : . Development o f an U l t r a s o n i c Transducer f o r D i r e c t P r o f i 1 i n g o f Sediment Concen t ra t ion and Gra in S i ze D i s t r i b ~ t i o n
Modul a r B lock Ana l ys i s
Beaches: Changes i n Area l D i s t r i b u t i o n and S ize Since the Mid-1870's A long t h e Ohio Shore of Lake E r i e
* see Abb rev ia t i ons
I JC S ER IAL NUMBER
131 A
132 A
133 A
ORGANIZATION PROJECT NUMBER
PERFORMING ORGAN IZATION*
BGSU
, .
OSU , :
139 A 1 NFRL
'140 A 2 . NFRL
141 A , P- 1 GI, ERL
142 A P- 2 G', ERI,
1.$5 .A P-5 GL ER!.
..l$k6.# . , .P-6 . . . . GLERL . . . . . . . ,
4,47 .A l - 7 : : . .GLERL . :
. . .
148 A P-9 GL ERI
'* see Abbr.ev i - a t i on s
. .
TITLE OF PROJECT -- --
F i sh Community s t ructure ' , ~ovements , and Reproduct ion i n C o n t r o l l e d and Uncon t ro l l ed Lake E r i e Marshes
E f f e c t s o f Asbestos on S u r v i v a l of I n v e r t e b r a t e s and Small: F.ish T y p i c a l :of l a k e E r i e Waters
Ohio Sea Grant ducat ion O f f i c e
Mar ine a n d Great La!ces -.Education: ..An. I n f us i on 'P rog ram f o r Ohio Schools
Great Lakes I n f o r m a t i o n Through Museum Progr ammi . n.g . . . . . . . . . . . . .
Oh i o Sea Grant. Adv iso ry Se rv i ce
. . . . Development o f Audio-Visua l P resen ta t i ons f o r t h e Ohio Sea rant '
Adv iso ry Serv i ce Program . . . . . . .
Admin i s trit i o n and ~ e v e l o ~ m e n t o f the '; Ohio Sea Grant Program . .. . .
B i o l o g i c a l A c t i v i t y o f Sediment f r o m - F i v e S i t e s i n t h e Waukegan Boat Harbor, Waukegan, I 1 1 i n o i s
Formu la t ion and R e g i s t r a t i o n o f lampr i c i des
Water Movements and Temperature
P r e d i c t i o n o f Sur face Waves, Water Leve l F l u c t u a t i o n s , rand Over lake Winds
P a r t i c l e Dynamics
The Cycl i n g o f Tox i c Organics
Eco log i ca l Success i o n and Trends o f . . . . .Great ',akes..Biota ~ ..
. . . . . . . Eu t ropn ica . t ion and N u t r i e n t C y c l i n g ;
. . .
Hydro1 og i c P r o p e r t i e s
Environmental I n f o r m a t i o n .Servi.ces
I JC ORGAN ZZATIPN S ER IA? PROJECT NUMBER NLlMB ER --
PERFORMING O R G N IZATICIN* - T I T l E OF PROJECT
G', E R!. Environmental Systems Stud ies and App l ied Model ing
Program Development
Ambient Leve ls o f Se lec ted Meta ls i n New York S t a t e Waterbodi es
US FDA
u.41. -
UM
D iox i ns as Food Contaminants
Support f o r Grea t Lakes Research
An Assessment o f t h e Qua1 i t y of Water Trace Metal Data f o r t h e Great l a k e s and t h e Es tab l i shment o f New Base l i ne Data
E f f e c t o f I n c r e a s i n g Sodium C h l o r i d e and Other I o n s on t h e Phy top lank ton i n Of fshore Waters o f Lake Mich igan
USEPA,MI. DNR
ERL-D, U-MINN,
G0V.SU
Chemical Comp~s i t i o n o f Cake E f f e c t P r e c i p i t a t i o n
Atmospheric Depos i t i on o f Mercury i n Nor thern Minnesota
C a l i b r a t i o n o f Bu lk C o l l e c t o r ' s Dry Depos i t i on C o l l e c t i o n E f f i c i e n c y
I C . 1NST.TEC. E v a l u a t i o n o f Hi gh-Performance Phosphorus C o n t r o l POTWs i n t h e Great Cakes Bas in
USEPA, USCG Eco log i ca l and P u b l i c H e a l t h Impacts o f Vessel B a l l a s t Water Discharges i n t h e Great takes
AQ.TEC, ENV. COW. An E v a l u a t i o n and Ref inement o f a 96-Hour Sediment B ioassay Procedure
B ioaccumulat ion o f Tox ic Substances Du r i ng Dredging
GI ER!.
IJM
Cake I c e
Eva lua t i on o f Three U n i t s o f t he Sea Grant C u r r i c u l um P r o j e c t
* see Abb rev ia t i ons
I JC SERIAL NUMBER
ORGAN IZATION PRO JE CT NUMBER
PERFORMING ORGAN IZATION* ----
Great l a k e s ~ ~ i m n o 1 o g y ' ~ o u r s e . ,
An Assessment o f Great Lakes S tud ies P o t e n t i a l Based on Use? I n t e r e s t and P r i o r i t i e s
I d e n t i f i c 3 t i o n o f Cur ren t Spawning Grounds and Pred i c t i o n o f Poten ti a1 Spawn ing '~ reas f o r Yel low Perci i i n Southeastern Lake Michigan, w i t h Est imates o f Assoc ia ted ~ a r l y Growth; S u r v i v a l and R e c r u i t n e n t
168 A R/GI,F-7 MS U Renewed Use o f U n d e r u t i l i z e d Species o f Great .Lakes F i s h f o r Animal Feed
169 A . . .
R/GLF-2 MS U PCBs, DDT Compounds and Die1 d r i n Leve l s i n Carp - .
: \
170 A R/FPA-1 . MSU Inc idence and Types o f S t r ess Induced
. . Diseases i n Se lec ted F ishes i n t h e , ,
. . Great" L.akes
171 A . R/TS-13 UM Review o f PCB Research i n t he G rea t , . . .... Lakes .Area- . .
11 M C o n t r i b 3 t i o n o f Sur face M i c r o l a y e r t o A i r /Water Exchange o f Organic Pol 1 u tan t s
UM Uptake, Accumulat ion and Removal g f P o l y c h l o r i n a t e d Hydrocarbons (PCBs) b y Great Lakes Phy top l ant t o n and Zoop 1 ant t o n
MS U . .
Im~ l ' emen ta t i on o f t h e ~ o x i c Substances'- Con t ro l Act
UM sed imenta t ion . . Rates i n Mich igan Coasta l 1.1 Wbt.l'& d i ' . . .
. . . . . .
UM Wet1 and Development Opt ions and S t r a t e g i e s and t h e i r Re1 a t i ve Environmental Impact
MS U A t l a s o f l a k e Mich igan
U.MINN,i . - ::.:- ... . , . .. ..,
Sedimen t a t i ' o n i n ~ u l u t h - supe r i o r Harbor
* see Abb rev ia t i ons . ,
I JC ORGY IZATTON S ER IAL PROJECT PERFORPING NUMBER -- NUMBER --- ORGAN IZATIOIV*
180 A R/EM-1 OSU
001 C 019 U ,WAT.
* see Abbreviat ions
TITLE OF PROJECT -----.-
A Mu1 t i d i s c i p l i n a r y Approach t o the Study of a Regional Marine Environnent d t h Imp l i ca t i ons f o r Community and Family t i v i n g
l a k e E r i e Storm Surge Forecast ing: Model Intercompar ison o f Western Basin E f f e c t s
The Development and Implementation of a Cur r i cu l um. f o r t he Study o f Marine Technology
Coastal Engineering Curr icu lum Development
Cake E r i e P u b l i c I n fo rma t ion through Radio Broadcast ing
The C o n t r i b ~ t i o n o f Marshlands t o the Green Bay Pe lag ic Food Chain
Hydrodynamic and Water . . Q u a l i t y M o d y i n g f o r Lower Green Bay
Atmospheric Concentrat ions and Transport o f Organic Contaminants Across the Air-Water I n t e r f a c e i n t h e Upper Great Cakes
Status Reports on P r i o r i t y P o l l u t a n t s i n t h e Great Lakes
Detec t ion o f Mutagenic and Carcinogenic E f fec ts of Environmental Pol 1 u tan ts i n Aquatic Ecosys tems
Management o f Great LaLes Water
!-imnol ogi c a l I nves ti gat ions o f Water Q u a l i t y and F i sh Larvae i n Lake E r i e
Transport P rope r t i es o f the Great Cakes Seiche-Affected R i ver Mouths
E f f e c t s of a M ix tu re of Metals on Natura l Phytoplankton Communities i n Lake Column
I JC ORGAN IZATION SERIAL PROJECT PERFORMING NUMBER NUMBER ORGANIZATION*
. ' , 021 002. c GLFRB**,U.GUE. . .
003 C ' 022 ' . GLFRB, - ;, :
004 C 023 GLFRB, NWR I,
005 C 024 GLFRB . .
. . .. . . . . . .
006 C 200 GLFRB . '
. ~. . . i . .
. . . . . .' : ; 1 ,~ 3 .
, _ . .%. . . : . .
. . . . . . . TITLE OF PROJECT . .
.. . . .. .
~ f f e c t s on' F i sh o f ~ o x i c ate rials
C l i n i c a l Methodology f o r the Assessment o f F i sh Hea l t h
P r e l i m i n a r y I n v e s t i g a t i o n of Q u a n t i t a t i v e S t r u c t u r e - A c t i v i t y C o r r e l a t i o n s (QSAR) of Contaminants as Methods t o P r e d i c t Contaminant T o x i c i t y t o Aquat i c B i o t a
E f f ec t s o f Organic Contaminants on Aquat i c Organisms . ,
Overhead and Support t o Tox ico logy Progam . .
U. TOR. Great Lakes Phy top l ant ton: P h y s i o l o g i c a l - Eco log i ca l Stud ies
GL F RB Community Ana l ys i s o f Lake E r i e Benthos . . . . . .. . . ;. . .
GLFRB . '.. Great La ies Contaminants Surve i 1 1 ance
GLFRB, NWRI Phyco log ica l S tud ies i n the S t . Lawrence Great Lakes
GLFRB, NWRF*. Nannopl ankton Dynamics i n Canadian Lakes
GLFRB B i o l o g i c a l T i ssue .Arch ive
013 C 077 GL F RB Toxic E f f e c t s o f Dredge S p o i l s Upon Na tu ra l Phy top l an t t on and Zoopl ankton Assembl ages
014 C 099 GCFRB Long-Term B i o l o g i c a l Index M o n i t o r i n g . . . .
015 C ' 020 GLFRB E f f e c t s of ' N u t r i e n t Removal on . .
. . . . B i o l o g i c a l -Product ion i,n t he Bay o f ., -
. . , . . . .
Q u i n t e ( P r o j e c t ~ u i n t e )
016 C 05 1. . .
: GLFRB, DOE, OMNR Long Range T r a n s p o r t .o f Atmospheric .
, . . . Po l 1 u tan t s
017 C . . 072' . . .GLFRB . ;; . , . . . LRTAP Impact of Atmospheric Pol lut ,ants, , - . . . . . . . . . . . ,
on Georgi a n Bay
018 C AR-9 YORK U. - Sate1 1 i t e Images of Aerosol D i s t r i b u t i o n s over t h e Great Lakes
* see Abbrev ia t ions ** Former ly Lnown as Great Lakes B i o l imnology Lab (GLBL)
220
I JC SERIAL NUMBER
ORGANIZATION PROJECT NUMBER
PERFORM I NG ORGANIZATION* TITLE OF PROJECT
Trace Organic Contaminants OMOE
RESEARCH CONS. I n t r a - D e r i t o n e a l I n j e c t i o n o f Chemicals i n F i sh
U. V. D i s i n f e c t i o n Study - M i c r o b i o l o g i c a l Aspects
LS- 12 E v a l u a t i o n o f C a p i l l a r y GC f o r Rou t ine F i sh Con t am ina t i on Mon i t 3 r i n g
Development o f A n a l y t i c a l Methodology f o r A n a l y s i s o f Chlorod ibenzofurans and D iox i ns i n Environmental Samples
024 C LS- 14 Development of High R e s o l u t i o n Capi 1 1 a r y G. C. Method01 ogy f o r t h e Ana l ys i s o f C h l o r i n a t e d I n d u s t r i a l Organics
OMOE High-Performance L i q u i d Chromatographic Ana l ys i s o f Po la r P e s t i c i d e s and Metabol i tes
026 C LS- 16
027 C LS- 18
OM0 E
OMOE
Use o f Automated Clean-Up System f o r PCB Ana lys is i n F i sh
Automated E x t r a c t i o n o f Water f o r Ana l ys i s o f Organocf i lo r ine P e s t i c i d e s and P o l y c h l o r i n a t e d B i phenyls
Development o f a S e n s i t i v e Screening Technique f o r TCDD Isomers i n Complex Ma t r i ces Us ing a T r i p l e Quadrupole Mass Spectrometer
I n v e s t i g a t i o n o f HC1 D i g e s t i o n / E x t r a c t i o n of F i sh T issues f o r t h e Ana l ys i s o f PCB/OC
030 C LS-31
031 C PAC- 17
An In-Depth Review o f . . t h e E n t i r e Chl o rophy l 1 Procedure
OMOE
BEAK
T o x i c i t y o f He rb i c i des t o Rainbow T r o u t
032 C PC- 9
* see Abb rev ia t i ons
The E f f e c t o f Hydraul i c C h a r a c t e r i s t i c s and E f f l u e n t C h l o r i n a t i o n on t h e I nc i dence o f Microorganisms o f Pub1 i c H e a l t h S i g n i f i c a n c e i n Rece iv ing Waters
I JC ORGANIZATION SERIAL PROJECT PERFORM1 NG NUMBER NUMBER ORGANIZATION* TITLE OF PROJECT
. . . . . . . .
033 C PC-1 1 OMOE . .
Trace org$ i c s i n p o t a b l e Water supp i i e s . . .. . . . . . . . .. .
1034 C ' . . .
OMO E Asbestos i n P o t a b l e Water Suppl i e s . .
PC-16
035 C PC- 21 OMOE. Format ion . o f C h l o r i n a t e d Organ ics .. ..
.! . D u r i n g D i s i n f e c t i o n o f ' Secondary '
E f f 1 u e n t
036 C PC-23 . OMOE s c r e e n i n g f o r P r i o r i t y ' Organ ic Contaminants and Heavy Meta ls i n
. . L Di ges t e d Muni c i p a l Sludges 8 . . . ' . . . , ' .
037 C PC-24 OMOE . UV D i s i n f e c t i o n o f Secondary E f f l u e n t
038 C PC- 25 CANVIRO Fate o f Trace Organ ics . i n a Wastewater Treatment P 1 a n t
039 C PC-28 AINL. ASSOC. H igh L e v e l Phosphorus Removal f rom Secon d a r y Ef f 1 uen t s
040 C PC- 29 CANVIRO An I n v e s t i g a t i o n o f t h e B i o - A v a i l a b i l i ty Phosphorus (BAP) i n Mllni c i p a l Wastewaters
041 C PC-30 REG.MUN.OTT. CAR. Kennedy-Burnet t Urban 'S tormwa t e r R ~ ~ n o f f Treatment Study. ( P a r t o f t h e Rideau R i v e r Study)
042 C PC-37 OMOE Phosphorus Removal f rom Secondary E f f l u e n t s
043 C PL-1 OMOE,GO.STO.LTD. Development o f an Exper imen ta l Marsh Treatment F a c i l i t y a t C i s t o w e l , O n t a r i o
044 C PL-7 ORF C h a r a c t e r i z a t i o n and I d e n t i f i c a t i o n o f Organ ic Substances i n D r i n k i n g Water
045 C PI,-12 . McM. U. The Measurement o f T o t a l Organ ic C h l o r i n e i n I n d l ~ s t r i a l Wastes.
046 C PL-14 U.GUE. Development o f Non-Chemi c a l Approaches To P e s t C o n t r o l ( S t e r i l e Male Onion Maggot Technique)
047 C : PI--20. LAKEHEAD U. Review o f L i t e r a t u r e .and B i o l o g i c a l
. . T e s t i n g Pr 'o toco l Req l l i r ed f o r Mu1 t i p l e T o x i c i t y E v a l u a t i o n P e r t a i n i n g t o
. , , . : . . Hazardous Organ ic Compounds
. , L " * see A b b r e v i a t i o n s . .
I JC ORGANIZATION S ER I A C PROJECT NUMBER NUMBER
049 C WR-10
050 C WR-11
051 C WR- 13
052 C WR-22
053 C WR- 23
054 C WR-24
055 C WR- 26
056 C WR-28
057 C WR- 29
058 C WR-30
060 C WR- 34
PERFORMING ORGANIZATION* TITLE OF PROJECT
CAKEHEAD U. Aqua t i c T o x i c i t y Stud ies o f Mu1 ti p l e Organic Compounds
OM0 E Tor on t o ' Harbour Study
OtrlOE Nant i coke: Cur ren ts and Water Qua1 i t y
OM0 E Great Lakes Program
OMOE F i 1 amen tous A1 gae Programme
OM0 E Marsh1 and P r o j e c t
OM0 E A1 ga l Assay Methods f o r Eva1 u a t i n g T o x i c i t y of Meta ls and Other Contaminants i n Cakes
OMOE Phosphorus Removal S tud ies
OMOE Organic Compounds i n Sel ec ted Sewage Treatment P l a n t E f f l u e n t s and Organic Residues i n Exposed F i s h Popu la t i ons
OM0 E Cornwal l F i e l d Study
OM0 E St. C l a i r R i v e r I n d u s t r i a l Organic Contaminants Survey
The T o x i c i t y o f s e l e c t e d Organics t o F i sh b y I n t r a - P e r i t o n e a l I n j e c t i o n s
Nearshore F i s h Contaminants Survei.11 ance - Great Lakes
CAKEHEAD U. Aqua t i c Tox i c i t y S tud ies o f Mu1 ti p l e Organ i c Compounds
OM0 E The B i o l o g i c a l and Chemical Eva1 u a t i o n s o f I n d u s t r i a l E f f l u e n t s and T h e i r . -.Receiving Waters
CAKEHEAD U. .Aquatic T o x i c i t y S tud ies of M u l t i p l e Organ i c .Compounds
One-Step Fecal C o l i f o r m I s o l a t i o n and Enumeration
Development of High Reso lu t i on Capi 11 a r y Col umns t o Improve C u r r e n t A n a l y t i c a l Techniques
* see Abb rev ia t i ons
I JC ORGANIZATION SERIAL PROJECT PERFORMING NUMBER NUMBER ORGANIZATION* TITLE OF PROJECT
066 C LS-32 , . .OMOE : , . : 1nv.est igat ion o f F1-ow I n j e c t i o n .-
Ana lys is (F IA ) Sys terns and Methods
067 C PAC- 18 U.WO. I n f l u e n c e o f Environmental Factor-s on t h e Rate o f M i c r o b i a l Degradat ion o f P e s t i c i d e s i n S o i l and Water
068 C PC-5 OM0 E A Survey o f Water Qua1 i t y i n D i s t r i b u t i o n Systems
069 C PC-6 ZENON ENV. ENT. New Potable Water Treatment Method f o r T r i h a l omethane Precursor and Syn the t i c Organic Removal
070 C PC- 10 BRANTFORD P.U.C. Organic Contaminant Removal f r om City o f B r a n t f o r d D r i n k i n g Water
071 C PC- 15 OM0 E I r o n Seques t ra t ion
072 C . PC- 22 OMOE Arsenic Waste T r e a t a b i l i t y Study - . . . Deloro . .
073 C PC- 27 OM0 E The A p p l i c a b i l i t y o f U V D i s i n f e c t i o n Techno1 ogy i n On ta r i o Wastewater Treatment P l a n t s
074 C PI, - 6 INT. ENV. CONS. B iomon i t o r i ng o f P u b l i c Water Suppl ies
075 .C PL-11 REG.MUN.OTT.CAR. Rideau R i ve r Storm Water Management Study, Ottawa, On ta r i o
076 C PI,- 22 McM. U. Increased Disease S u s c e p t i b i l i t y a f t e r PCB Exposure
077 C WR-9 OM0 E Hydrogeologic Mapping
073 C WR-12 OMOE Harni 1 t on Harbour Study
079 C WR- 14 OMOE Eva1 u a t i o n o f Inst ream Management P rac t i ces (St ra t ford-Avon R i v e r Environmental Management Program)
080 C WR-21 OM0 E Ontar io Experimental N e u t r a l i z a t i o n Study
081 C WR-25 OM0 E (1 ) Urban Lakes, ( 2 ) Lake ~ e s t o r a t i o n
082 C WR - 27 OM0 E Taxonomy and Ecology o f Phytop l ank ton i n Lake A c i d i f i c a t i o n , N e u t r a l i z a t i o n and E u t r o p h i c a t i o n S tud ies
* see Abbrev ia t ions
224
I JC ORGANIZATION SERIAL PROJECT PERFORM I NG NLIMBER Nll MB ER ORGANIZATION* TITLE- OF PROJECT
083 C WR-32 OM0 E The E f fec ts o f E leva ted Leve ls o f A1 uminum and Manganese i n Combination w i t h Low pH on S u r v i v a 1 , o f E a r l y L i f e Development Phases o f F i s h
084 C W4-33 , OMOE Fac to rs A f f e c t i n g Aluminum T o x i c i t y t o F i sh a t Low pH
085 C 01 1 GLFRB E f f e c t s o f Tox ic M a t e r i a l s on Zoopl ank t on Produc t ion
086 C 012 GLFRB Meta l Corr~plexat ion and T o x i c i t y
087 C 01 3 GLFRB, NWRI Methyl a t i o n o f T i n Cornpounds i n t h e Aquat i c Environment
1NST.ARM.-FRAP. Recherche de v i r u s en t4 r i ques humains dans l e s eaux d16gout
U.OTT. V i r o l o g i c a l Examinat ion o f Raw and F i n i s h e d Waters i n Ottawa-Hul l and t h e V i c i n i t y
1NST.ARM.-FRAP. E v a l u a t i o n v i r o l o g i q u e des eaux po tab les
OMOH V i r o l o g i c a l Survey o f Selected ~ r i n k ' i n g Waters i n Southern On ta r i o
U.WIN. Environmental Surve i 11 ance o f Pathogenic Amoebae i n On ta r i o Waters
1NST.ARM. -FRAP. Recherche de v i r u s en tg r iques non p o l i o m y 6 l i t i q u e s dans l e s eaux d14gouts
CRR I, HRS P l a n t N u t r i e n t Losses and Water Flow th rough T i l e Dra ins i n Brookston C lay Soi 1
095 C 2 U.GUE.,LRRI Sqowmelt S tud ies : Con t ro l o f S o i l E ros ion i n Hyd ro log i ca l l y A c t i v e A g r i c u l t u r e Areas Dur ing Snowmelt and Spr ing Runof f
096 C 3 UTRCA Fac to rs A f f e c t i n g t h e S u i t a b i l i t y o f ' On-Farm Remedi a1 Measures f o r Non-Point P o l l u t i o n Con t ro l i n t h e Canadian Great Lakes Bas in
* see Abbrev ia t ions
I JC ORGAN IZATIDN SERIAL PROJECT NUMBER NUMBER
. . . . . . . . . . . . . . . . . . . . . . . , . . . .
PERFORMING 5 . . . : . . .... . .:
" . . . . . . . . . .
ORGANIZATION* .- . . . . . . . -: - - ; . : TITLE OF PROJECT . . .
. . . . . . .
LRR I Land Use; P-yact ices and .Water Qua1 i:ty
CRRI,'INST.P'ED. Resource P r o t e c t i o n - A Study o f S o i l E ros ion w i t + P a r t i c u l a r A t t e n t i o n t o O n t a r i o
. . . . . . . . . . . -. .- . . . . . . . .
LRRI .. - S o i l and water ana age men-t
LRC
ARC
1. S tud ies i n t o Chemical and M i c r o b i a l Degradat ion o f P e s t i c i d e s i n Aqueous Systems, and i n S o i l s 2. Movement o f P e s t i c i d e s w i t h i n S o i l t o Ground Water 3. I n t e g r a t e d Pest Management
1. N u t r i e n t Losses t o Water Supp l i es and.Accumulat ion i n S o i l s ; ,
2. P o l l u t a n t T ransp lan t t o Surface and Subsurface Waters i n an I n t e g r a t e d Farm Opera t ion
Tox i c Elements i n Ac id Ra in
-1ntegr:ated. E f f e c t s ,of .2,4-D on Ben th i c Organisms i n a Pond Ecosystem
104 C 6 LAKEHEAD U. Study o f t h e B iodegrada t ion o f Man-Made Environmental Tox i can t s b y Aqua t i c Fungi , B a c t e r i a and Freshwater Algae
105 C 7 LAVAC U. O r i g i n o f 16dine-131 i n t h e St. Lawrence R i v e r and i t s T r i b u t a r i e s
, . - . . . . . . . . . , ,
1'06 . . . Ci . . 8 MCGI~L. U. .. ' ~ e n i t'rif i c a t i o n and ~ e l ' h t e d ~ r o c e s s e s i n Aquat ic Systems
107 C 9 McM. U. De te rmina t ion o f Sediment and Po l l u t a n t F l u x f o r t h e C i t y o f Hami l ton, and St ra teg. ies f o r M i n i m i z i n g Impacts on t h e Rece i v i ng Waters
108 C 12 . U.QLIE. Pa leo l imno log i ca l I n d i c e s o f Lake Water A c i d i f i c a t i o n
109. C. 113,: Q.UE.U.. - . - . sediment-~e:l:a.ted Contami nant .Transpor t : . . . . . . i n R i v e r Systems
, . . . .
11.0, c 15- U .TOR.: Behaviour. P r e d i c t i o n . o f Aqua t i c P o l l u t a n t s
.,, :. .. ,: . - . . . . . . . . . . . . .. < . . .
* see Abbre.v:i a t i ons
I JC ORGANIZATION SERIAL PROJECT NUMBER NUMBER
PERFORMING ORGANIZATION* TITLE OF PROJECT
T ranspo r t 'of Hazardous Organic So lu tes and Meta ls i n Ground Waters a t a Spec ia l Waste D isposa l S i t e
Geochemical Processes, Emphasizing Protons, R e l a t i v e t o Time Trends o f Water Q u a l i t y i n So f twa te r Systems
McM. U.
S tud ies elated t o Env i ronmenta l T e t r a a l k y l l ead Syn thes is
Assessment o f t h e A n i s o t r o p i c C h a r a c t e r i s t i c s o f a F rac tu red Porous A q u i f e r t o Determine P o t e n t i a l Contaminant M i g r a t i o n Pathways
YORK U. The Use o f Hypo l imne t i c A e r a t i o n t o Res to re K e t t l e Lakes ' t h a t have been Degraded b y A g r i c u l t u r a l Runoff
GLFRB
GLFRB
GLFRB
P e r s i s t e n t Cont ami nants
E f f e c t s o f pH on Lead M e t h y l a t i o n
Contaminant and N u t r i e n t Dynamics i n Exper imenta l Ecosystems
E f f e c t s o f Z inc on Freshwater A lgae GLFRB,NWRI
NHW
NWRI
NWR I
NWRI
NWR I
D i o x i n s as Food Contaminants
SpawninglNursery Ground Surveys
Sediment/Water I n t e r a c t i o n
P r e d i c t i o n o f Contami nant Hazard b y QSAR
C h a r a c t e r i z a t i o n o f I n d i v i d u a l Tox i c PCB Compounds i n Sediments from t h e Upper and Lower N iagara R i v e r and Ad jacen t Lake O n t a r i o , . .
NWRI C a l c u l a t i o n s o f Mo lecu la r P r o p e r t i e s f o r SAR
* see Abb rev ia t i ons
I JC SERIAL NUMBER
126 C
127 C
128 C
129 C
ORGAN I ZRTION PROJECT PERFORMING NUMBER ORGANIZATION*
212 NWRI
213 NWRI
216 NWRI
2 1.8 NWRI . .
143 C 353
* see Abbrev ia t ions
NWRI
NWRI . '
NWRI
NWRI
NWRI
NWRI
NWRI ,GLFRB
TITLE OF PROJECT - .
0rgani:c' Contaminant Sources and Sinks i n Niagara R. and L. On ta r i o
Ch lo r i na ted Hydrocarbons i n Sediments . : . : :'. and B i o t a . o f t h e Great-.I-akes
Chemistry o f Ch lo r i na ted Hydrocarbons a t t h e Ai r /Water I n t e r f a c e B i o a v a i l a b i l i t y o f Organic Contaminants i n Sediments
Organoehlor i ne Contami nants i n Sur face M ic ro l aye rs o f t h e Niagara R.
Role o f Suspended S o l i d s i n Benthos Uptake of Organics, Niagara R. Mouth
. .
Sediment-Water P a r t i t i o n i n g o f Tox ic Organic Substances
Chernic.a-1 .Spec ia t i on and. B ioava i labi .1 i t y of Tox ic Elements
. .
Heavy Meta l Methy l a t i on Processes i n t h e Aq1~at'i.c Environment
Fa te o f Organot ins i n Aquat i c Systems . .
Heavy Metal Chemodynamics i n t h e Niagara R i v e r and Plume
Trends i 'n Rad ioac t i ve5 Contami nants i n t h e Great Cakes
NWRI Radium-226 Pathways - P o r t Gr.anby W'aste Management S i t e t o Lake O n t a r i o ' ' ; :
NWRI Rad ionuc l ide Pathways. i n t h e Niagara R. and I-. O n t a r i o
NWRI P e r s i s t e n t Tox ic Substances i n Urban Runof f (GLWQA 1978)
NWRI E f f e c t s o f Urban Land Use on Runoff
NWRI Shore1 i n e Dredge D isposa l S i t e s
NWRI P e r s i s t e n t Tox ic Substances i n Urban Runof f
I JC ORGANIZATION SERIAL PROJECT NUMBER NUMBER
PERFORM1 NG ORGANIZATION* TITLE OF PROJECT
NWRI Biogeochemical Processes i n Great Lakes Sediments - Paleoenvironment
NWRI Cake E r i e H i s t o r i c a l Oxygen and Phosphorus Trend Ana lys is
Sedimentat ion Rates and N u t r i e n t Processes i n bake Ontar io , 1981 Cake E r i e ; Past, Present and Fu tu re
NWRI
NWRI
NWRI Benth ic I n v e r t e b r a t e s as I n d i c a t o r s o f Env i ronmental Change
NWRI Product ion, Decomposit ion and Sedimentat ion i n Cake O n t a r i o
Organic M a t e r i a1 Product i o n and Decomposit ion (1-ake E r i e )
NWRI
NWRI
NWRI
The Nephelo id Layer i n Cake On ta r i o
B i o a v a i l a b i l i t y o f Phosphorus
B ioava i l a b i 1 i t y o f Phosphorus i n Lake Water
NWRI N u t r i e n t Exchange Processes i n Macrophyte Cakes
NWRI
NWRI
Cladophora i n t h e Great Cakes
Cake O n t a r i o N u t r i e n t Assessment Study (LONAS)
NWRI
NWRI
NWRI
Sediment Bank - Great Cakes
l a k e E r i e S u r v e i l l a n c e C o n t i n u i t y
Opera t iona l Water Q u a l i t y and Contaminant T ranspor t Models
NWRI
NWRI
Coasta l Exchange Dynamics
S imu la t i on o f Tox ic Contarninants Fa te i n Cake Ontar. io
S t a t i s t i c a l Ana l ys i s o f S u r v e i l l ance Data
NWRI
* see Abbrev ia t ions
I JC ORGANIZATION SERIAL PROJECT PERFORMING NLIMBER NUMBER ORGANIZATION*
163 C 506 NWR I
164 C 5 08 NWRI
165 C 5 09 NWRI
168 C :540 ' NWRI
169 C 541 'NWRI
171 C ,573-574 . IUWRI
172 C 576- NWRI
. .
. . 173 C 5 9 9 - . NWRI
174 C 614 NWRI
7.79 .C . . -653
* see 'Abbr.ev'i a t i ons
NWRI
'NWRI . . . . . . .
'NWR I , .
'NWRI
TITLE OF PROJECT .
Coastal Exchaiige/Transport"Model . 1
V e r t i c a l l y P r o f i 1 i n g Cur ren t Meter and Temperature Sensor (GVAPS)
Water Movements i n t h e Cent ra l Bas in of Lake E r i e , Phase I 1 1
Lake On ta r i o Phys ica l 1-imnology S tud ies
Assessment o f ' t he p resen t *Survei 11 a n c e ' " ' Program and Fu tu re S t r a t e g y
Spectro-Opt i c a l Model ing -and A p p l i c a t i o n s t o Water Research
P o l l u t a n t T ranspor t Through Porous Media
Water Q u a l i t y Data Base A d m i n i s t r a t i o n
1. N W R I Branch Research Support - Data Management 2. Non-NWRI Branch Research Programming Support
General Purpose Three Dimensional Graphics Sof tware Development
APSD - C a p i t a l . . Procurement
To Prov ide Conf i rmat ion and I d e n t i f i c a t i o n o f P r i o r i t y P o l l u t a n t s i n t h e Great Lakes Basin by HRGC/MS
Methods Development and I d e n t i f i c a t i o n o f P e r s i s t e n t Contaminants i n t h e Great Lakes Bas in
D iox ins and Benzof urans Methodology
M ic rob i a1 T e s t i n g f o r Mutagens
B ,ac te r io la ,g ica l Water ~ u a 1 ity Survei 11 ance cower Lakes
I JC Qua1 i't y Assurance 'Study
I JC ORGAN I ZATION :.,.. ^ . , . . , , !.;.iL:.. . . . : . . .
SERIAL PROJECT PERFORMING .. ..< * . .. . . . . ... ..::. . . : ... - . . . . . , . , I I : . . . . . . . . . .
NllMBER NLIMBER: : ORGAN I ZATI ON* . : :- . :‘: i ': .. .. , " . . .:::- - . . . . . TITI-E OF.:PROJECT . ~
NWR I
EHC :
EHC
EHC
EHC
Computer Serv ices f o r Water Management Research
D r i n k i n g Water . - :
Environmental C r i t e r i a . - . .
. .
P r e d i c t i v e Tox ico logy
Occupat ional Tox ico logy . .
Environmental ~ e a l t h ' Surveys
P e s t i c i d e s
187 C 28 EHC Long Range Transpor t o f A i r P o l l u t a n t s . . .
188- C 029/0 1 WTC,ACB - B i o l o g i c a l N-Removal - I n d u s t r i a l Wastes
WTC Treatment o f Aqueous Wastes f rom Coal G a s i f i c a t i o n and Coal L i q u e f a c t i o n Processes
'1-90 C ' ' 81-2.4/04 - U.BC C h a r a c t e r i z a t i o n and Treatment o f Landf i 11 l e a c h a t e
. . . . . . . . :
191 C 81 -.20/05 .WTC ,CANVIRO ~ i o a v a i 1 ab le ~ h o s ~ h o r u s i n ~ u n i c i ~ a i Wastewaters
192 C 79-27/06/07 WTC ,CANVIRO Anaerobic Treatment o f High S t reng th Wastes
193 C 09 WTC,GO.STO.!,TD. Dynamic .Operat ion o f Anaerobic Packed Bed Reactors (APBR)
194 C 08 WTC Assessment o f Anaerobic Downflow B i o f i l m Reactors f o r Food Process ing Wastes
195 C 80- 1.1 / l o . :RPF.,'CANVI:RO Thermoph i l i c Anaerobjc Fermentat. ion o f Feed L o t Wastes
. . . . . . . .
41.96 E ,7s-'gj]1 I-EC ' ~ . i x4ng Requi rements f o r Anaerobic D iges te rs
.1-97C ; i08.211.3 . ' W T ~ .. . . Process ~ o n $ r o l o f t h e A c t i v a t e d $l!hlge System
11.98 C: .. 11.8 . . u...B~ - . :: Cont ro l ':.o'f B, io logjc.al P,hosphorus Removal ;Processes
* see <Abbrevi ati'fons . . : . . . . . . . , . . . . .,.. . ,
I JC ORGANIZATION SERIAL PROJECT PERFORMING NUMBER NLIMBER ORGANIZATION* . . TITLE OF. PROJECT
199 C 80-1 2/12 WTC Design Var iab les and Operat ing S t ra teg ies f o r Secondary C l a r i f i c a t i o n
200 C 80- 14/34 WTC Toxics I n d e n t i f i c a t i o n and M o b i l i t y i n Sludges (TIMIS)
201 C 80-1 5/35 WTC Process Eva lua t i on o f Computer Aided Designs (PECAD)
202 C 036A/36 WTC Mechanisms A f f e c t i n g Chemical Cond i t ion ing o f Sewage Sludges
203 C 038/38 WTC . Leachabi 1 i t y o f Rad ioac t ive Const i tuen ts from Uranium Mine T a i l i n g s
204 C 39 WTC,DEARBORN Power Generat ion - Charac te r i za t i on and Disposal Opt ions f o r FGD Residues
WTC
206 C 81 -2/42 WTC
207 C 81 -3/43 WTC
208 C 81 -4/44 WTC
Power Generation: Cha rac te r i za t i on and Disposal Opt ions f o r FBC Residues
Power Generation: Contami nant Uptake i n R e c i r c u l a t i n g Ash Transpor t Systems
Environmental Impact o f Raw Sewage Sludge Inco rpo ra t i on i n t o A g r i c u l t u r a l Soi 1
Toxics Immob i l i za t i on i n Sludges by Sol i d i f i c a t i o n (TISS)
209 C 81 -5/45 WTC, DEARBORN Cost E f f e c t i v e Toxics Cont ro l v i a I n c i n e r a t i o n
210 C 81 -6/46 WTC
211 C 81 -7/47 WTC
A p p l i c a t i o n o f Sludge Treatment and U t i l i z a t i o n Technology
Fate o f Trace Organics i n Sludge App l ied t o Land . .
212 C 81 -8/48 WTC , CANU I RO E f f e c t o f Sludge Cond i t ion ing / Processing on Toxic M o b i l i t y
213 ' C 16 WTC Assessment o f Energy Saving by Man ipu la t ion o f Ae ra t i on Cont ro l Var iab les
214 C 069/69 WTC P/C Removal o f Radium-226
* see Abbrev ia t ions
I JC ORGAN I ZATION SERIAL PROJECT PERFORMI NG NUMBER NUMBER ORGAN I ZATI ON* TITLE OF PROJECT
WTC Uranium Mine E f f , l uen t Treatment . , :. Technologies
WTC Removal o f C o l l o d i a l So l i ds f rom I r o n Mine E f f l u e n t s
WTC ,MUC Physica l /Chemical Process Development Studies-Montreal Urban Community (MUC)
WTC D i s i n f e c t i o n o f . Mun ic ipa l E f f 1 uents
WTC Coal Mine/Prep P l a n t - Wastewater Studies
WTC Uranium Mine E f f l u e n t Treatment Technologies - Regu la t ion Development
221 C . 80 . . WTC Uranium- Mine E f f l u e n t . Treatment - ,
Technologies-Scale-Up o f a Radium-226 Removal Process
222 C 060/81 WTC,CANVIRO,KPA Gold Min ing I n d u s t r y
223 C 80- 10/37 WTC Sludge i c a t i o n Case H i s t o r i e s
224C . , 17 : WTC Development o f Pro toco ls t o Evaluate t h e I n t e g r i t y o f On1 i n e Ins t rumenta t ion i n Wastewater Treatment P lan ts
225 C 81 -9/49 WTC,DEARBORN PCP Cont ro l Technology
Water P o l l u t i o n Cont ro l Technology. for Power Generat ion Fac i 1 i t i e s
227 C 79-5/72 WTC , ZENON S p e c i f i c Contami nants Removal Technologies f o r I n d u s t r i a l E f f l u e n t s
- WTC ~ i o l o ~ i c a l Ox ida t i on o f T h i o s a l t s .- Brunswick M in ing & Smel t ing
229 C 034CE WTC , Disposal o f Chemical Sludges on Land: 1-ysimeter Studies
230 C 78 -.7 WTC , MOL SON ' S Deep Shaf t Process Performance Eva1 u a t i o n
. . .
23 i c 81 -21 /03 WTC . . . , '
F a t e . o f ~ o x i c chemicals i n ~ i o l o ~ i c a l Treatment Systems
* see Abbrev ia t ions
. . . I JC ORGANIZATION . . . . . , .
SERIAL PROJECT PERFORMING , ' : . . . .
. . c ( . . . . . : .
. . . . . . . - .
NUMBER NUMBER ORGAN I ZATI ON* ':.- . - -. - . . . - . . . , . I.' . . . . TITLE 0F:PROJECT
232 C 81 -23/15 WTC Appl i cat'i"on o f Automated Process Contro l t o Wastewater Treatment Systems
2 3 3 C " 81 -32/-75 WTC, . . . . . . . Process 'Cont ro l arid': Upgrading o f - -..
E f f l u e n t F i l t r a t i o n Operations
WTC ~ r e a t m e n t o f Bl 'ast Furnaces Scrubbe:r: Water
235 C 81 -36/77 WTC Treatment o f "Wet Barker" E f f l u e n t s
OMNR
OMNR
OMNR
OMNR
OMNR . . .
. . . . .
OMN R
GCFRB . . . .
Bay o f ~ Q u i n t e Program
Bay o f Qu in te - Special Mon i to r i ng
Acid Rain Study
P r o d u c t i v i t y o f Boreal Fores t Cakes
Age and Growth i n Acid Stressed Environments
I n V i t r o Studies of Ac id impacts on ' ~ ~ e and Growth o f ~ i s h - .
E f fec ts - o f Dredge Spoi' ls on Natural . Phytoplankton
Zooplankton - Georgian Bay and Cake . , Huron .:
. . GCFRB . .
Larva l Wal leye -Survey, Bay o f Q u i n t e
GCFRB Metabolism and Contaminant Dynamics i n Cake Ontar io Pontoporeia
GI-FRB Reproduct ive Success o f F i s h f rom Areas of the Niagara and Saginaw Rivers Receiv ing Chemical Contami na t i on
. . GI-FRB F i s h Heai t h Assessment, E f f e c t s
Mon i to r iqg . . .
GLFRB '. . ~ e p r o d u c t i o n i n Great Lakes Lake Trout . ..
249 C - . 042 .. ,
. . GLF RB , NWR I
. . . Assessment o f Dredge.Spoi1 Eva lua t ion
Technique . .+ . .
, . . . . .. . . . .
250 C 006 GLF RB Community Ana lys is o f Great Cakes Benthic Fauna
* see Abbreviat ions
I JC ORGANIZATION SERIAL PROJECT . NUMBER NUMBER
PERFORMING ORGAN I ZATI ON*
GLFRB , . .
GLFRB,GLFC
GLFRB
ONT.H.
0NT.H.
ONT. H.
0NT.H.
0NT.H.
0NT.H.
ONT. H.
TITLE OF PROJECT - -
J o i n t Research - SSM and Others ,. . . , .
Adapt ive Environmental Assessment :. :. .. Workshops
Product ion o f Phytoplankton and Inve r teb ra tes i n South Bay, Lake Huron ( f o r m e r l y Benth ic Macro inver tebrate Product ion. Dynamics)
Lakeview TGS Mobi le Mon i to r i ng
Ch lor ine Plume Anal y s i s
Aerosol and p r e c i p i t a t i o n Mon i to r i ng
Nanticoke TGS Tempering E l i m i n a t i o n
Submerged I n t a k e Screening
Discharge Attached Algae
Condenser Passage Ich thyop lank ton Mor ta l i t y
Ash Test C e l l a t A.E. Crookes Park
Ash and Coal P i l e Runoff
Heavy Metal Emmissions
Trace Organic and Rad ia t ion E m i s s i o n s
Leachates f rom t h e J-C. K e i t h TGS Ash I, agoon
Acid Rain E f f e c t s
Socia l and Economic E f f e c t s o f Emmissions
Long Range Transpor t Model ing
Acid Rain Depos i t ion Model ing
D i o x i n Studies
I n t e r m i t t e n t Emission Cont,rols
* see Abbrev iat ions
I JC ORGANIZATION SERIAL PROJECT PERFORM1 NG NUMBER NUMBER ORGANIZATION* TITLE OF PROJECT
Once-through Cool i ng Studies
Thermal Plume Studies i n t h e V i c i n i t y of Bruce Nuclear Power Development f o r C e r t i f i c a t e o f Approval t o Discharge Waste Cool ing Water f rom Bruce NGS 'B' i n t o Lake Huron
V e r i f i c a t i o n o f t h e BHWP L i m i t e d Use Zone (IUZ) f o r Hydrogen Sul phide (H2S)
* see Abbrev iat ions . .
I JC SERIAL NUMBER
B. HISTORICAL RESEARCH PROJECTS PAGE NO. I N 1976 PERFORMING DIRECTORY ORGANIZATION* TITLE OF PROJECT
49 ACE Great Lakes I n l e t S tud ies -
5 2 - ACE,NOAA Lake Leve l Fo recas t i ng & Regu la t i on .
54 ACE, NOAA Eva lua t i on and T e s t i n g o f P r o f i l e Response Model
59 ACE Near Real Time A c q u i s i t i o n o f Water Q u a l i t y Data i n t h e Great Lakes Region
82 U.WI. Environmental I n v e n t o r y o f t h e tower S t . L o u i s R i v e r Cover ing Proposed Improvements t o t h e Du lu th -Super io r Harbor, Minnesota and Wisconsin
006 A 198 U.TEX. Refinement o f Cur ren t Disposal C r i t e r i a and Bioassay Procedures f o r C r i t e r i a Use
007 A 231 ACE ,USEPA Lake E r i e Wastewater Management Study
008 A 297 ACE I n n e r Con t i nen ta l S h e l f Sediment S tud ies Program
009 A 31 3 U.WI. Env i ronment a1 Assessment Repor t On In-Lake Disposal o f Dredged M a t e r i a l i n Lake Super io r
010 A 31 4 ACE ,SUCB Impact o f Dredged M a t e r i a l D isposa l on Aquat ic Ecosystems, Lake E r i e , Ashtabula, Ohio
ACE I n v e s t i g a t i o n o f Water Q u a l i t y and Physical-Chemical Sediment Parameters a t t h e Ashtabula Harbor D isposa l S i t e
012 A 31 5 SUCB Ashtabula (Ohio) F i e l d Study, I n v e s t i g a t i o n o f P lank ton i c Communities Benth ic Assembl ages, and t h e F i shery Assoc ia ted w i t h t h e Ashtabula Harbor Disposal S i t e
013 A 31 5 ACE M o n i t o r i n g of Diked Disposal Area
014 A 31 6 ACE M o n i t o r i n g o f Diked Disposal Area
015 A 31 8 IND.BIO.T.LAB I n v e s t i g a t i o n o f t h e Hyd rau l i c .Regime and t h e Phys i ca l Nature o f Bottom Sedimentat ion Assoc ia ted w i t h t h e Ashtabul a Harbor. ,Disposal S i t e .
* see Abbrev ia t ions
PAGE NO. i~ 1976 D1,RECTORY
PERFORMING ORGANIZATION*
.. ,
. .
. . . . . . . TITLE OF:.PROJECT
. . : . . , . . . .
~ ' ~ e v e l o ~ m e n t o f Pr5ocedures f o r s e l e c t i n g and Des ign ing Reusable Dredged M a t e r i a l D isposa l S i t e s . .
D e t a i l e d P r o j e c t Repor t f o r Sho re l i ne E ros i on M i t i g a t i o n
MTU ,
. .
De ta i l e d P r o j e c t Repor t o f Sho re l i ne - Presque I s l e Harbor, Mich igan E ros i on M i t i g a t i o n
MTU De ta i l e d I n f o r m a t i o n Repor ts dn E ros i on Problems
I n v e s t i g a t i o n o f P l a n k t o n i c Communities, Ben th i c Assemblages and F i s h e r i e s Assoc ia ted w i t h t h e Ashtabula Ha rbo r -D i sposa l S i t e .
021 A 37 GLERL C i r c u l a t i o n s i n a Lake
022 A 37 W.H.OCEAN.INST. Coasta l C i r c u l a t i o n i n t h e Great Lakes
GL E RL A. Lake Sca le General C i r c u l a t i o n Model 0. L i m i t e d Area Meso-Scale Model i n t h e Lake
GLERL,CCIW l a k e O n t a r i o Water Movements S c i e n t i f i c Repor t
GLERL . Cur ren ts and O s c i l l a t o r y Flows i n Southern Lake Mich igan
GL E R!. O s c i l l a t i o n s o f Lake Huron
GL E RL Great Lake Beg inn i ng-Of-Month Leve l s
028 A 53 GI, ERL Water L-evels and F low S i m u l a t i o n . .
029 A 59 GLERL ,USEPA I n t e r n a t i o n a l F i e l d Year f o r t h e Great Lakes
030 A 6 5 GLERI, , NOAA Chemical-Physical V a r i a b i l i t y i n Southern Lake Mich igan
031 A 89 GL E R!. C h a r a c t e r i s t i c s o f Oswego R i v e r Plume
032 A 1 09 GL E RL Ana l ys i s o f IFYGL Oxygen P r o f i l e s
* see Abb rev ia t i ons
I JC PAGE NO. . .;. . . . . . . . . . .
SERIAL I N 1976 PERFORM1 NG . . . .... ..: ._ . '!
NUMBER DIRECTORY' ORGANIZATION* . - . . . TITLE d F !PR~JECT - .
.. . ,
033 A 48 U.WI. Electromagnetic Measurements o f Haybor . .
F lush ing
034 A 48 U.WI. Mechanisms and Scales o f Exchanges Between Urban-Indust r i a1 Harbor Systems and Coastal and Of fshore Waters
035 A 162 U.WI. ,WIEPC Remote Sensing i n t he Coastal Zone of Lake Michigan
036 A 170 U.WI. Power P lan t S i t i n g i n t he Coastal Zone: I n t e r a c t i v e Gaming as an A id To
. . C i t i z e n . P a r t i c i p a t i o n i n S i t i n g , Decisions
037 A 185 U.WI. Surface Mic ro layer - Microcontaminant I n t e r a c t i o n s i n Lake Michigan
038 A 1 88 U.WI. I d e n t i f i c a t i o n , D i s t r i b u t i o n and Transport o f Halogenated Organic Microcontaminants i n Southern Lake Michigan
039 A 1 90 U.WI. Accumul a t ion, Transport and Fate of P e r s i s t e n t Pes t ic ides i n Lake Michigan Food Chains
040 A 1 94 U. W I . DDE and PCBs i n a Green Bay Ecosystenl
041 A 195 U.WI. The,Ef fects o f PCBs and Other Ch lor ina ted Hydrocarbons on t h e E a r l y Development o f Great Lakes Fishes
042 A 196 U.WI. Responses of Primates t o Po lych lo r i na ted Biphenyls
046 A 3 29
* see Abbreviat ions
U.WI. D i o x i n Involvement i n Chemical T o x i c i t y o f Pulp and Paper M i l l Bleachery E f f l u e n t
U.WI. .. Re'sponse o f pr imates To 2,3,7,8 - Tetrachlorodibenzo-p-Dioxin
U.WI. Trace Metal Transport and ~ i s t r - i be t i o n i n t h e R ive r Mouth and Associated Nearshore Lake Mic.higan Areas f o r the Milwaukee and Fox R ivers
SUCB ,ACE Erosion-Deposi t i o n Balance, Great Lakes Shore1 ine , New York S ta te
I JC PAGE NO. . ;.~' : . . . . , ,
SERIAL I N 1976 PERFORMING .. z . , . . .: :: . ; ;.:. : .: t .: , *>. ., , . . ' I -. ,
:-- ' . . ORGANIZATION* ':,::I" : ':' ' :' ' . 7 . , NUMBER - DIRECTORY . . ... .. . : TITI-E.~ PROJECT . .
. . . . ~ . . . . . .. . . . . . . , , . .
New York Sea Grant Advisory Serv ice .
Mechanics o f Coastal Slumps i n t h e Great Lakes
An I n v e s t i g a t i o n o f t h e Deep-Liviug Phytoplankton o f Lake Michigan
The Ecology o f Mysis R e l i c t a (Loven') I n Lake Michigan w i t h Emphasis on Popu la t ion Dynamics and Abundance
Inf luence o f T u r b i d i t y on Abundance of Lake Herr ing, Coregonus A r t e d i i (Cesueur) i n Western Cake Super io r
Phosphorus Removal i n t h e Wisconsin Lake Michigan Watershed: P o l i c y I m p l i c a t i o n s
Mon i to r i ng and T r e a t i n g Wastewater f rom Food F i s h Produc t ion
054 A 2 99 U.WI. Western Lake Michigan Sand and Gravel Assessment
055 A 324 U.WI.,WIDNR Computerized Shore l ine Mapping f rom A e r i a l Photography
056 A 3 27 U.WI. Shore l ine Eros ion i n Lake Michigan - Rock I s l a n d t o t he W i s c o n s i n - I l l i n o i s S ta te ',ine
057 A 434 U.WI. ,WIDNR Some Environmental Requirements o f Juven i l e Wh i te f i sh o f Nor thern Lake Michigan
058 A 435 U.WI. A p p l i c a t i o n o f F i s h Growth Model
059 A 443 U.WI .,WIDNR Propogat ion of Perch and Walleye P i ke Throughout t h e Year
060 A 443 U.WI. ,WIDNR Ra is ing Yel low Perch and Walleye Pike f o r Human Food Use
061 A 462 , U.WI. Species Conipos i t ion, Abundance and S t a b i l i t y o f t he Coastal P l a n t Communities a long Western Lake Michigan - r
i '
* see Abbrev iat ions
I JC PAGE NO. SERIAL I N 1976 PERFORMING NUMBER P
DIRECTOqY ORGANIZATION* TITt-E OF PROJECT
062 A 474 U.WI.,U.ALB. Water Management I n s t i t u t i o n s : Conceptual Problems and P r a c t i c a l Appl i c a t i o n s
063 A 475 U. W I . An I n v e s t i g a t i o n o f a Cadastre (!-and I n t e r e s t In fo rmat ion System) f o r t he Coastal Zone
064 A 480 U.WI. Socio-Economic Problems o f t h e Great Lakes Transpor ta t ion System
065 A 48 1 U.WI. A l t e r n a t e Transpor ta t ion Planning P o l i c i e s f o r t h e Apost le I s l ands Nat iona l Cakeshore Region
066 A 4 1 U.WI. ,NWRI** Whole-Basin I n t e r n a l Osci 1 l a t i o n s of Lake Ontar io
067 A 4 5 U.WI. Cake Ontar io Temperature Transects Continuously Repeated
068 A 46 SUNY,EV.HAM.INC. Reanalysis o f t h e Great Lakes Drogue Studies Data
069 A 6 1 USU ,SUNY Coordinat ion o f Data Co l l ec t i on , Data Storage, and Data R e t r i e v a l Programs f o r t h e Great Cakes (U.S.)
070 A 1 95 MED.COL.WI. E l i m i n a t i o n and Metabolism of PCBs by Lake Michigan Salmonids
071 A 205 MED.COI-.MI. B io t rans format ion and D i s p o s i t i o n o f Great Lakes Microcontaminants i n Salmonids
072 A 388 UM,USEPA Phytoplankton lAssociat ions i n Lake Ontar io
073 A 70 OSU Eco log ica l Processes and Components o f a Freshwater Es tuary
074 A 109 GCERL Inorgan ic Carbon Dynamics
075 A 140 GI, E R!. Great Lakes To ta l Phosphorus Model
076 A 40 GIERL ,NWRI Cake Huron Winter Current Study
077 A 4 6 11 M Trans-Boundary Movement o f Pol 1 u t a n t s
* see Abbreviat ions ** Formerly known as Canada Centre f o r I n l a n d Waters Branch (CCIW)
I JC PAGE NO. PERFORMING SERIAL I N 1976
TITI-E OF' PROJECT NLIMBER DIRECTORY ORGANIZATION*
CR,. I NST. SC. !Jpper I, akes Reference Study . .
Mathematical Model ing o f Sagi naw Bay
I d e n t i f i c a t i o n and Eva lua t ion of E x i s t i n g - R i v e r Mouth Loading Data' .
. GL BC. . .
. . .
OSU, NASA,CWR.U. Impact o f T r i b u t a r y I npu ts on the Qual i t y o f Great Lakes Boundary Waters
Optimal Sampling S t ra teg ies f o r Water Qual i t y i n t arge I-akes
NASA/EPA Great Lakes Basin Program
UM'
NASA
U.WI. Ion Exchange Membranes Appl ied t o New ~ e t h o d s o f Sampling, Enrichment, .and S p e c i f i c a t i o n i n Water Ana lys is
Charac te ' r i s t i cs o f Benth ic A lga l Communities i n t h e Upper Great Lakes
. . 'B iol,og.ical Responses t o ~ u t r o p h i c a t i-on i n Saginaw Bay and Lake Huron
Plankton and N u t r i e n t Re la t i onsh ips i n Southern Lake Huron
Use o f N u t r i e n t ~ i o a s s a ~ Procedures i n t he Great Lakes . .
089 A 146 SUCB,ACE,OSU Lake .E r i e N u t r i e n t con tko l . . . ;Program-Eastern Basin
090 A 149 U.WI. Non-Point P o l l u t i o n i n R e l a t i o n t o Eu t roph i ca t i on and Oxygen Deplet i.on, . .
091 A 150 U.WI. E f f e c t s o f Lake Res to ra t i on Methods on N i t rogen A v a i l a b i l i t y . .
092 A 150 U.MINN. B ioman ipu la t ion - An Ecosystem t o Lake Restorat i o n
093 A 150 PHIl,.AC.NAT.SC. N i t r i l o t r i a c e t i c Ac id and Mic ronut r ien ts /Aquat ic Stream Cornmun i t i es
094 A 158 U.MINN. Water Temperature S tud ies a t t he ' -1
M o n t i c e l l o F i e l d S t a t i o n
* see Abbrev iat ions
I JC PAGE NO. SERIAL I N 1976 NUMBER DIRECTORY
PERFORM1 NG ORGAN I ZATI ON* TITLE OF PROJECT
Win te r D i s t r i b u t i o n of F i s h i n t h e Thermal Plumes o f a Power P l a n t
Mass Transpor t o f B i o l o g i c a l M a t e r i a l s Through a Once-Through Coo l ing System
F i e l d V e r i f i c a t i o n I n d u s t r i a l Hazardous M a t e r i a l M i g r a t i o n
D i spe rs i on and Fa te o f Hazardous M a t e r i a l s i n Large Lakes
I n v e s t i g a t i o n o f t h e Metabol ism of Ch lo r i na ted Hydrocarbons
T o x i c i t y , I n t e r a c t i o n s , and Metabol ism of Impor tan t P e s t i c i d e s
Mechanisms o f P e s t i c i d e Degradat ion
l a b o r a t o r y ..Eva1 u a t i o n of Thermal Decomposit ion o f P e s t i c i d e s
M o n i t o r i n g o f Po lynuc lear Aromat ic Hydrocarbons i n Selected U.S. Waters
SYR.U.
OSU E f f e c t s o f D i f f e r e n t Forms o f Selenium i n D r i n k i n g Water on Se lec ted Organisms
Hea l t h E f f e c t s o f Human.Exposure t o Barium i n D r i n k i n g Water
E f f e c t o f Cyanide on Freshwater F i s h and I n v e r t e b r a t e s
Continuous F low Bioassays Using Na tu ra l Per iphy ton Communities w i t h Emphasis on t h e E f f e c t s o f Coal l e a c h a t e
Small Scale Waste Management
Exper imenta l Use o f Emergent Vegeta t ion f o r t h e B i o l o g i c a l Treatment
N i t r i f i c a t i o n S tud ies
Study o f t he I o n Exchange Process f o r N i t r a t e Removal from Water
* see Abb rev ia t i ons
I JC PAGE NO. SERIAL IN 1976 PERFORMING
I... : .:: .,:; ,.,... . .
IVUMBER DIRECTORY ORGANIZATION* .,. . . - TIT!,E OF rP:ROJECT . :., . .: .:. . 2. .. ..
. .. , ... , .~ .
. . . .. . . . -
404 M I A M I U.
4'3 1 U.. W I. ,ERL-D
. . V i r us ~ e n s i t i v i t y t o c h l o r i n e D i s i n f ' k c t i o n o f Water S .~ ipp l i e s
Eva lua t i on of S e n s i t i v i t y o f Cladoce'rans t o Copper, -C-hromium, and Z inc
I n f l u e n c e o f T u r b i d i t y on F i s h Abundance i n Western Lake Super io r
C h a r a c t e r i s t i c s o f Ben th ic A l g a l .
Communities i n t h e Upper Great Lakes
S t a t i c . Coal Storage, B i o l o g i c and .
Chemical E f f e c t s on t h e Aquat i c Environment
Red Clay T u r b i d i t y i n Western Cake Super io r
118 A 333 GLBC,ACE,USSCS Overview Dete rmina t ion o f P o l l u t a n t Loadings f rom Sho re l i ne E ros ion
119 A 340 U.WI. Role o f P l a n t Roots i n Re ta rd ing Red Clay Eros ion
120 A 341 U.WI. E f f e c t o f Vegeta t ion Cover on S o i l Water Content of Red Clay S o i l s and Eros ion Cont ro l
121 A 341 U.WI. Vegeta t iona l Cover Ana- lys is
122 A 34.2 U.WI. ,USEPA I n f l u e n c e o f E ros ion Cont ro l Demonstrat ion on Aquat i c l i f e i n t h e Nemadji R i v e r Bas in
123 A 345 U . M I . ,USSCS,USGSf Development and Implementat i o n o f a Sediment Cont ro l Ordinance o r Other Regu la to ry Mechanism: I n s t i t u t i o n a l Arrangements Necessary f o r Implementat ion o f Cont ro l Methodology on Urban and Ru ra l Lands
124 A 352 OSU. Maumee R i v e r Watershed Study - Ohio
125 A 353 U.WI .-WIDNR Menomonee R i v e r P i l o t Watershed Study
126 A 353 NY SDEC Genesee R i v e r Watershed Study
* see Abbrev ia t ions
I JC SERIAL NUMBER
PAGE NO. IIV 1975 DIRECTORY .
,. , ,. -. . .
PERFORMING . . _ , . . . : , , . . : -
. .
: .TITLE OF PROJECT . . . 5 . ORGANIZATION* -:. .. . - 1 . : . . . . . . . . .
MSU, I JC .Felton-Herron Creek, M i l l Creek P i l o t Watershed Studies
MS U N i t r a t e and Phosphorus Runoff Losses from a Watershed i n the Great l akes
MSU Pes t i c i de Runoff Losses from a .Watershed .in t he Great Lakes B a s i n .
USEPA Review o f --Waterborne . D i sease Outbreaks . .
U.DET. Study of I n d i c a t o r Group o f Bac te r i a f o r Detec t ion o f Human Fecal Col i forms
PUR.U. Freshwater Qua1 i t y - Mon i to r i ng and Methodologies U t i l i z i n g Salmonella
C H I .MED .SCH. Methodology f o r Detec t ion o f Oncogenic and Nononcogenic Viruses
134 A 383 % SYR.U. Development o f Methods f o r ' Quant i t a t i o n . .
. . .. o f , Adsorbed Viruses , . . .
I n f e c t i v i t y and Pathogen ic i ty of Enterov i ruses Ingested w i t h D r i n k i n g Water
Cladophora Measurements us iqg Remote .Sensi ng
N u t r i t i o n . o f Great Lakes C l adophora
B i o l o g i c a l Response t o Eut roph ica t ion i n Saginaw Bay and Cake Huron
Zooplankton and Water Q u a l i t y i n Southern Lake Huron
zooplankton Studies i n Saginaw Bay, Lake Huron
LLRS , I JC Chemical Limnology o f Lake Huron
App l i ca t i on and Development o f Eu t roph ica t i on Planning Models f o r Lakes Ontar io and Michigan
-
142 A 139
* see Abbrevi a t i ons
MAN .COL . , NWR I
I JC PAGE NO, SERIAL I N 1976 PERFORMING NUMBER DIRECTORY ORGAN I ZATI ON* . ,TITI-E OF PROJECT
143 A 140 MAN .COL. ,NWRI Mathematical Models o f Water Qua1 i t y i n Large Lakes
144 A. ' 145 OSU Lake E r i e N u t r i e n t Contro l Program; An Assessment o f i t s Ef fect iveness i n '
Contro l 1 i n g Lake Eu t roph ica t i on
145 A 165 OSU,MSU,MJ.DNR F i s h Larvae Survey o f Western Lake E r i e
146 A 183 ERL - D Development o f Water Q u a l i t y C r i t e r i a f o r Freshwater F ish, Other Freshwater l i f e , and W i l d l i f e
147 A 1 88 ERL-D Eco log ica l D i s t r i b u t i o n o f P e r s i s t e n t Xenobiot ic Contaminants
148 A 248 ERC-D The Environmental Impact of D i s i n f e c t i n g Mun ic ipa l E f f l u e n t s and Eco log ica l D i s t r i b u t i o n o f Contaminants And B ioconcent ra t ion
149 A . 248 ERL-D,U.MINN. c h l o r i n a t i o n and 0 z i n i t i o n ~ r o d u c t s of . . ., . Munic ipal Sewage and T h e i r
. . . .
Envi ronmen t a1 Impact .
150 A 156 GLFL ,G!,FC Sect ion - Ecology and bimnology . , P r o j e c t - E f f e c t s o f Water-Use P ro jec ts
151 A 186 GLFL,GLFC,IJC Contaminant Dynamics
152 A- 187 - GLFL Contaminant Toxicology
153 A 204 NF RL Development o f P i sc i c ides and C o l l e c t i n g Tools f o r F i she ry Use
1 $ 4 A ' - 205 - NFRI,,GLFC Development o f L ampr i c i des
155 444 FWS Sea Lamprey Contro l , Great Lakes
156 A 39 1 GI- FL N u t r i e n t Cyc l ing and Plankton P r o d u c t i v i t y
157 A 451 GLFI- ,ACE Sect ion - Ecology and Limnology P r o j e c t - E f f e c t s of.Waste Heat f o r I c e Suppression
158 A A23 G l Fi, , GLFC l a k e E r i e F i s h Stocks
* see Abbreviat ions . .
I JC PAGE NO. SERIAL I N 1976 PERFORMING NUMBER DIRECTORY ORGANIZATION* TITLE OF PROJECT
159 A 425 GL FL ,.GL F c Lake Ontar io F i s h Stocks
160 A 432 GLFL ,GLFC,MI. DNR Physio logy and Behaviour
161 A 450 GLFL ,ACE Sect ion - Ecology and Limnology P r o j e c t - Benthos as I n d i c a t o r s of Hab i ta t Q u a l i t y
162 A , 117 GLERL ,LLRS, IFYGL Chemical In tercompar i son NWR I
163 A 39 1 G l E RI, Phytoplankton N u t r i e n t Competi t ion i n t h e Great Lakes
175 A 313
* see Abbreviat ions
GL ERI,
GLERL
GI, E RL
GLERl
GL BC, USEPA
. ,
U.CINN.
ILL .GS. ,NWRI
Level 1 Eco log ica l Model
C u l t u r i n g o f Great 1;akes Zooplanktonic Crustaceans
Assessment o f Lake Ontar io Inve r teb ra te Community
Feeding Rates o f Great l a k e s Cyclopoids
Coordi n a t i o n o f Data Col 1 e c t ion, Data Storage, and Data R e t r i e v a l Programs f o r t h e Great Lakes (U.S.)
Comparative Study o f t h e I n a c t i v a t i o n o f Viruses i n Wastewater
Hea l th Risks o f Human Exposure t o Wastewater
Combined Sewer Overflow Abatement Program
Geochemistry o f t h e Surface Sediments o f Lake Michigan
Southern Lake Huron: Deposi t ion of N u t r i e n t s and Metals i n t he Sediments o f Southern l a k e Huron
southern l a k e Huron: Res is tan t Organic Mat te r i n Sediments
Engineering and Environme?tal Aspects o f Confined Disposal o f Dredge Spo i l
I JC PAGE NO. SERIAL I N 1976 PERFORM1 NG NLIMBER DIRECTORY ORGAN I ZATI ON*
179 A 7 GSlI , USGS
~.
184 A 23 'GE
188 A 21 GI, E RL
189 A 22 GL ERL
190 A 23 GL E RL
191 A 2 5 ACE
192 A . . 3.1 .... ACE
1 9 3 A . - 33 . . . ACE . . . .
* see Abbrev ia t ions
TITLE, O F PROJECT . .
Water Qua1 i t y Impacts o f Sediments Dredging i n Large Lakes Systems
A i r P o l l u t i o n I n p u t s o f Organic and I no rgan i c Substances t o Lake Michigan Water
Lake On ta r i o Environmental A t1 as
An Exper imenta l Study o f A i r P o l l u t i o n Transpor t and Depos i t i on i n t h e Lake Mich igan Bas in
Dete rmina t ion o f Atmospheric Phosphorus Addi , t jon t o Lake Mich igan
Southern Lake Huron: I n p u t o f Atmospheric Phosphorus
Po lych lo rob ipheny ls i n t h e Atmosphere and i n P r e c i p i t a t i o n i n t h e Lake Mich igan Basin
Atmospheric I n p u t o f Meta l ~ 0 1 ' 1 u t a n t s t o Upper Great Lakes
Near Shore I c e Format ion, Growth and Decay
Sur face Wave Observat ions, Ana lys is , and P r e d i c t i o n
Lake Evapora t ion
Lake P r e c i p i t a t i o n
I c e Fo recas t i ng
Lake I c e D i s t r i b u t i o n
Lake I c e C h a r a c t e r i s t i c s
Thermal Regimes D i s tu rbed by Man
Wave I n fo rma t i on P r o j e c t f o r t h e Great Lakes
Grea t . Lakes Wave H indcas t i ng Techniques
I JC PAGE NO. SERIAL I N 1976 PERFORMING NUMBER DIRECTORY ORGANIZATION* TITLE OF PROJECT
001 C 39 NWRI** Lake Current Cl imato logy - Great Lakes
002 C 4 5 NWRI Upper Lakes Compendia
003 C 49 NWRI D i s t o r t e d Physical Models
004 C 50 NWRI C o a s t a l Cl imatology Study
005 C. 50 NWRI Dispers ion o f Heat, iss solved and Suspended Mat te r i n Lakes
006 C 5 1 NWRI Nearshore Advection/Di spersion Models
007 C 5 1 NWRI V e r t i c a l Automatic P r o f i 1 i n g System (VAPS)
008 C 60 NWRI Trends and Var ia t i ons Associated w i t h Great Lakes L imnological Processes
009 C 62 NWRI Lake Superior, Open - Lake Studies
010 C 66 NWRI Lake Huron - Georgian Bay Studies
011 C 68 IWD Lake E r i e Survei 11 ance
012 C 7 1 IWD Lake Ontar io Surve i l lance
013 C 73 NWRI Cont inuing Water Q u a l i t y Surve i l lance f o r Lower Great Lakes
014 C 73 NWRI M ic rob io log i ca l Po in t Source E f f l u e n t Study on Lower Lakes
015 C 74 NWRI Su rve i l l ance
016C 7 5 IWD WQ - 003 l a k e and Harbour Mon i to r ing
017 C 76 NWRI Wetlands Studies
018 C 7 7 NWRI Water Qua1 i t y Model
019 C 77 NWRI Computational Techniques and V e r i f i c a t i o n C r i t e r i a
020 C 84 IWD St. Marys R ive r Water Q u a l i t y Surveys
IWD Niagara R i v e r Loading Surveys and Short Term Var i a t i o n Study
* see Abbreviat ions ** Formerly known as Canada Centre f o r I n land Waters Branch (CCIW)
I JC PAGE NO. SERIAL. I N 1976 PERFORM1 NG . .
NUMBER DIRECTORY ORGANIZATION* TITLE OF PROJECT
St. ? awr-ence R ive r Water Qual i t y 'Survey
D ispers ion Process i n Open Channels
Dispers ion i n Open Channel Beds
NWRI
NWRI
NWR I
NWRI
U .MAT.
Mathematical R i ve r Response Model
Carbon 14 A c t i v i t i e s i n Aqueous Carbonate and t h e O r i g i n and Occurrence o f Methane i n Groundwaters
Stud ies 'on t h e N u t r i e n t Dynamics of a Transboundary Lake
M ic rob ia l N i t rogen and Phosphorous Cycles i n Lake Column Simulators
D i s t r i b u t i o n o f t h e Stab le Isotopes of S u l f u r and N i t rogen i n Waters and Sediments o f t h e Great Lakes
NWRI
NWRI
NWRI
Inorgan'ic Carbonate Geochemistry
Su rve i l l ance Program' - Design-and Appl ied Research
032 :C - . , 116 U.WAT.,IWD . . . . . Spa t i a l and Temporal Water Q u a l i t y
Sampling
NWRI
NWRI
Sampling and Sample Preservat ion
The Development o f Elect rochemical Sensors Des i rab le f o r Environmental Studies
The Development o f Mult iparameter, Automated Analys is and Moni to r ing Systems U t i l i z i n g Elect rochemical Sensors
NWRI The Development o f t he Methodology Employing Electrochemi.ca1 Sensors i n t he Measurement o f Water Qual i t y Par m e t e r s
. .
NWRI Improved Methods o f Ana lys is f o r Trace Metals i n Water .
* see Abbreviat ions ** Formerly known as G r e a t Cakes B i o l imnol ogy 1- aboratory (GC.Bb) . .
I JC SERIAL NUMBER
038 C
,039 C
040 C
041 C
042 C
PAGE NO. , I N 1976. DIRECTORY
PERFORMING ORGANIZATION*
NWRI
IWD.
NWRI
NWRI
Atomic Spectroscopy. f o r A n a l y s i s o f Inorgan ic and Organic Contaminants
E a s i l y Ex t rac tab le Meta ls i n Sediments
Development o f Improved Methodology f o r t h e Determinant ion o.f Asbestos as a Water Pol 1 u t a n t
E x t r a c t i o n o f Organochlor ine Pes t ic ides and PCB's from Natura l Waters a t Sub-PPB Leve ls Using XAD-2 Mac ro re t i cu l a r Resin
Determinat ion o f Organochlor inated Pes t ic ides i n Water by High Speed L i q u i d Chromatography
NWRI Determinat ion o f Organophosphorus Pes t ic ides by High S eed L i q u i d Chromatography (HSLC !
NWRI I d e n t i f i c a t i o n and Determi n a t i o n of Carbamate Pes t i c i des by High Speed L i q u i d Chromatography
NWRI Determinat ion o f N i t rogen and. Phosphorus Conta in ing Pes t i c i des i n Natura l Waters by Twin-Cel l Voltammetry
NWRI I d e n t i f i c a t i o n o f P e r s i s t e n t Organics
NWRI Ana lys is of Ph tha la te Es ters by High Speed L i q u i d Chromatography
048 C 1 28 NWRI Ana lys is o f 3 -Tr i f luoromethy l -4 - N i t ropheno l (TFM) i n Natura l Water
049 C 129 . . NWRI' Synthesis and Charac te r i za t i on of Some 1,4-Oxathiins
050 C 129 NWRI I d e n t i f i c a t i o n o f Carbonyl Compounds and Determinat ion o f Metal Carbonyls
051 ' C 130 NWRI Ana lys is o f Natura l 1, i g n i n Sul fonates i n Water
052 C 130 ORF Study o f Losses o f Organic Compounds i n Solvent E x t r a c t i o n Processes
* see Abbrev iat ions
I JC PAFE NO. SERIAL I N 1976 PERFORMING NUMBER DIRECTORY ORGANIZATION* TITLE OF PROJECT
053 C 131 NWR I Remote Sensing as Related t o Water Qual i t y Survei 11 ance
054 C 131 NWR I, NOAA Eva lua t ion o f Water Q u a l i t y Ins t rumenta t ion Using Sate1 1 i t e Data C o l l e c t i o n P la t f o rm
055 C 132 NWRI
132 NWRI
Remote Sensing Support of Process-Or i en ted Studies
Improvements o f O p t i c a l Studies i n Both Process and Appl i ed Research
133 057 C McN.AS.,YORK U. Ai rborne Spectroscopic Volume . . Ref !ectance Study
CHATHAM ASSOC.
NWRI
NWRI
NWRI
NWRI
NWRI
NWRI
NWRI
.Design o f a Data A c q u i s i t i o n System f o r Ground T r u t h Measurements and Radiometr ic P r o f i l i n g
I n S i t u 'Water Qual i t y Measurement Package
In teg ra ted A c t i v e Towed Body System Engineer ing
T.R.O.V. Tethered Remotely Operated Veh ic le
Engineer ing Development o f a Mu1 t i channe l Environmental Data-Acqu is i t ion System f o r C C I W Envi ronmenta l -Moni tor ing App l i ca t i ons
Program: C C I W - Eu t roph i ca t i on (Lake Processes)
React ion - Response o f Eut roph ic Aquat ic Communities t o I npu t of , N u t r i e n t s
Lake E r i e Process Studies . .
066 C 147 NWRI Bay o f Q u i n t e N u t r i e n t Study
067 C 1 49 NWRI Methods f o r Es t imat ion o f Biomass i n Water
. .
* see Abbrev ia t ions , ' ' ,, :
I JC SERIAL NUMBER
PAGE NO. I N 1976 PERFORMING DIRECTORY ORGANIZATION* TITLE OF PROJECT - ' .
'1 53 . NWRI Rad ioac t ive Emi ssons from Nuclear Power S ta t i ons
1 60 W.T. GEILING Ana lys is o f Government Suppl ied Water Samples f o r B i o l o g i c a l Cond i t ion o f Great Lakes Zooplankton Comrnuni t i e s
NWRI Program CCIW: D ispers ion o f Waste Heat, Dissolved and Suspended Ma t te r i n l a k e s and R ivers
168 MAC .LTD. Heated Discharge Contro l and Management A1 t e r n a t i ves f o r Once-Through Systems i n Large Water Bodies
072 C 173 NWRI ,OMOE Behaviour o f Toxicants - O i l S tud ies
073 C 173 U.TOR. ,DOE B i o l o g i c a l Breakdown o f Sunken O i 1
174 NWRI Responses o f ~ a t u r a l ' M ic rob i a1 Ecosystems t o Complex P o l l u t a n t s such as Crude O i 1
NWRI The Fa te o f O i l i n Canadian C l i m a t i c Condi t ions
NWRI Operat ion Preparedness - Hyd rau l i c O i l Spi 11 Cont ro l C r i t e r i a
NWRI
NWRI
NWRI
O i l S p i l l Model
O i l /Water / Ice Systems
Program: C C I W - Toxic Substances (Environmental Contaminants)
Background Study o f Aquat ic Environmental Q u a l i t y . Advice on Methods used Elsewhere t o Deal w i t h Research on t h e Increas ing Number of Hazardous Chemicals. To I d e n t i f y Actual o r Potent i a1 Canadian Envi ron~i ienta l Problems
Behavior of Toxicants - B iomagn i f i ca t i on NWRI
CWS , NWR I Organochlor ines Residue Leve ls and Reproduct ive Success o f He r r i ng G u l l s i n t h e Great l a k e s
* see ~ b b r e v i a t i o n s
I JC PAGE NO. SERIAL IN 1976 PERFORMING NUMBER DIRECTORY ORGANIZATION* TITLE OF PROJECT
083 C . ., ' 193 CWS , NWR I I d e n t i f y i u g Toxic Substances i n Great Lakes Her r i ng Gu l l s
1 9.7 NWRI
NWRI
Product Assessment from In tens i ve Degradation o f Po lych lor ina ted Biphenyls
The Analys is of S h e l l f i s h f o r PAH, Organochlorine, Phosphorus and S u l f u r Conta in ing Pest ic ides i n Oysters
NWRI Biodegradat ion o f Nonionic Detergents
N W R I Biodegradat ion and Charac ter iza t ion o f Nonionic Sur f ac tan ts
U.GlIE. Study t o Measure t h e E f f e c t s o f .Cadmium and Lead on the Photo Responses o f Freshwater Phelagic Microcrustaceans
U .GUE. Measurement o f Resp i ra t ion and Patho log ica l Changes i n Spec i f ied Tissues o f l e a d Poisoned F i sh
NWRI Heavy. Met a1 s i n C e l l s
U.WAT.. The B ind ing o f Heavy Metal (Hg and Cd) P o l l u t a n t s a t B i o l o g i c a l l y Important S i t e s
092 C 212 lI.TOR.,NWRI Organo-Metals i n Lake Water
093 C 2 1 3 NWRI ,GLFRB Charac ter iza t ion o f Complexation i n . . Lake Waters
. .
094 C . 216 NWRI . ..
Behavior o f Toxicants - Hg i n Sediments
095 C ., 21 8 NWRI Asbestos F ib res i n Upper Lakes
096 C 219 : : , NWRI,OMOE The Removal o f Asbestos F ib res f rom . .
. . Surf ace Water . .
222 NWRI N a t u r a l l y Occurr ing Radionucl ides i n Great l akes
098 C 222 NWRI Radionucl ides i n Upper l akes
099 C 226 IWD Environmental Contaminants Inventory
* see Abbreviat ions
I JC PAGE NO. SERIAL I N 1976 NUMBER DIRECTORY
114 C 265
* see Abbrev ia t ions
PERFORMING ORGANIZATION*
IWD
INF .LTD.
K . S. WAPPCER
J.W. PIKE
ORE '
J. DAGG
A. CUGOWSKI
U.WAT., NWRI
NWRI
NWRI
NWRI
NWRI
F. PENICKA
NWRI
TITLE OF PROJECT
The Soc ia l Costs o f Contaminants i n t he Environment
Forecast o f Economic A c t i v i t i e s i n t h e Great Lakes Water Basin from the Present t o 2020 A.D. Assess t h e ' E f f e c t o f Pol 1 u t i o n Abatement Programs
Studies Concerning Physica l -Chemical Wastewater Treatment Processes
'Studies on Wastewater Treatment Processes
Assessment o f Greywater on a Commercial Vessel
Col l e c t i o n and Ana lys is o f Wastewater Samples from Ships Operat ing on the Great Cakes
Research i n t o D i s i n f e c t i o n of Wastewater Samples from Great Lakes Ships Under Prov is ions of t h e .
.
Canada/U.S. Agreement
D i s i n f e c t i o n o f Wastewater f rom Great Lakes Ships
Oxych lo r i na t i on o f Organic P o l l u t a n t s
An I n v e s t i g a t i o n of the Photochemical Processes Occurr ing i n Ch lo r ina ted Mun ic ipa l E f f 1 uents and Lagoons
Photochemical Processes i n Aqueous Systems
Photox ida t ion and Photoe lec t roox ida t ion a t Metal Oxide - Water In te r faces
V e r i f i c a t i o n o f t h e Canadian SWM Model (COA P r o j e c t )
Development of Automatic Techniques f o r t h e Real Time P r e d i c t i o n o f Storm Surges
Sewer Pipe Junct ions
I JC PAGE NO. SERIAL I N 1976 PERFORMING NUMBER DIRECTORY ORGANIZATION* TITLE OF PROJECT
115 C 266 ClR F I n d u s t r i a l Waste Charac te r i za t i on i n Leather Tanneries Under Prov is ions of t h e Canada/U.S. Great Lakes Agreement
116-C - . 267 - LINIROYAI LTD. I n d u s t r i a1 Waste Character i z a t i o n i n . . t h e P e s t i c i d e I n d u s t r y Under Prov is ions
o f t h e Canada/U.S. Great Lakes Agreement
117 C 2 72 NWRI ,NRC C e l l y l o y s i s as i t Relates t o P o l l u t i o n i n I n l a n d Waters
118 C 276 U .VAT. , OMOE L i q u i d , I n d u s t r i a l Waste A t tenua t i on i n Soi 1
119 C 286 U.TOR. Determinat ion o f Heavy Meta ls Appl ied i n Chemical Sewage Sludge t o A g r i c u l t u r a l Land Under Prov is ions of t h e Canada/Ontario Agreement on Great Lakes Water Qua1 i t y
120 C 291 NWRI Development o f Sludge Sampling Techniques
121 C 2 92 B. PRESTED Methods o f I r o n and Aluminu~n Recovery from I n c i n e r a t i o n Ash
122 C 2 93 NWRI Dewatering and Recyc l ing Water
- >. Treatment P lan t Wastes
123 C 293 COR.PUB.SER.LTD. Compi 1 a t i o n o f a D i r e c t o r y of Research and Development P r o j e c t s i n S o l i d Waste Management i n Canada
124 C 297 NWRI Nat iona l Lake Sediment I nven to ry Program (P i l o t P r o j e c t )
125 C 298 GSU,lI.WAT. Sediment Palynology f o r Rates o f Sedimentation, Palaeocl imato logy and Paleoecology
126 C 300 NWRI Nearshore Sedimentology o f t he Great Lakes
127 C 302 NWRI Geochemical H i s t o r y o f Representat ive Lake Sediments
128 C 302 NWRI,U.WAT.,GSC Geochemical Budgets
129 C 303 NWRI Cha rac te r i za t i on o f Forms o f P, Fe and Associated Elements i n l a k e Sediments
* see Abbrev iat ions . . 256
I JC SERIAL NUMBER
PAGE NO. I N 1976 .
DIRECTORY PERFORMING
ORGANIZATION* TITLE OF PROJECT
NWRI Determinat ion o f Purines and Pyr im id ines i n Sediments
NWRI ~ d e n t i f y M a t e r i a l Adsorbed on Surfaces of Sediments and Water Suspended So l i ds
Manual o f phy;ical Sedimentology NWRI
NWRI
NWRI
NWR I
Lake Bottom Studies - Gr id Sampling
L i g h t Weight Corer
Development o f Geologica l Sampling Equipment
NWRI ,GSC,NRC
DOE, EPS
EPS
Support Geophysics
St. C l a i r R i v e r 1975 Current Survey
Codes o f P r a c t i c e f o r Thermal E l e c t r i c Generat ing S ta t i ons
Vessel Waste Source Character i z a t i o n EPS,ORF
GLFRB
GLFRB
G l F RB
Surve i l l ance Design
B i o l o g i c a l Su rve i l l ance and Assessment
Effect o f Thermal Experience on the Su rv i va l o f Selected Inve r teb ra tes
GLFRB Impact o f Thermal Power Plants, E f f luen t C h a r a c t e r i s t i c s and t h e Once Through Cool ing Process
Biomagnif i c a t i o n o f P e r s i s t e n t Toxicants i n Land Drainage
GLFRB, I JC
E f f e c t s o f Toxic M a t e r i a l s on Aquat ic B i o t a
GLFRB The Toxic Ac t i on o f Zinc on F i s h
GlFRB Toxicants and t h e E f f e c t s o f N a t u r a l l y Occurr ing Environmental S t i m u l i on L i f e Cycles o f Aquat ic I n v e r t e b r a t e s
WTC R e f i n e r y E f f l u e n t T o x i c i t y - Sarn ia 148 C 206
149 C 234
* see Abbrev ia t ions
WTC B i o l o g i c a l Treatment f o r Small Commun it i es
I JC PAGE NO. SERIAL I N 1976 PERFORM1 NG NUMBER DIRECTORY ORGANIZATION*
1 5 0 C . 238 WTC
151 C 2 39 WTC
152 c 241 WTC
153 C 242 WTC
154 C 243 WTC
155 C 2 44 WTC - . .
156 C 244- WTC
157 c 245 . . WTC
158 C - 249 WTC
159 C 251 . . WTC
161 C 269 WTC
, .
162 C . ~2~;' . . ' WTC
163 C 27 3 WTC
164 C 273 WTC
165 C 274 WTC
- . . . . . . . . .
167C: . . ' 2 7 8 ( WTC
TITLE OF PROJECT
Physical/Chemical Treatment f o r Small Cornmun i t i es
Thermal Reac t i va t i on o f Carbon
B i o l o g i c a l N i t r i f i c a t i o n / D e n i t r i f i c a t i o n - N i t r i f i c a t i o n Opt i m i za t i on
F u l l y i n t e g r a t e d C.P.N. Removal System
Removal o f NH3-N03from I n d u s t r i a l E f f 1 uents
B i o l o g i c a l N i t r i f i c a t i o n o f I n d u s t r i a l Wastes
Avai 1 able Technology f o r Vessel Wastewater Pol 1 u t i o n Contro l
Vessel Waste Source ~ h a r a c t e r i z a t i o n
Ozone f o r E f f l u e n t D i s i n f e c t i o n
Upgrading E x i s t i n g Sewage Treatment P lan ts i n On ta r i o b y Ozonation
Pulp and Paper M i l l . € f f l u e n t - K r a f t
The Use o f Aluminum Oxide f o r T o x i c i t y Removal f rom K r a f t Bleachery E f f l u e n t
Colour Removal Processes
Physical/Chemical Treatment o f M in ing E f f 1 uents
Leachabi 1 i t y o f Rad ioac t ive Products from Uranium Mine Tai 1 i ngs
Metal F i n i s h i n g I n d u s t r y Waste Treatment
Dech lo r i na t i on o f Chlor-A1 k a l i I n d u s t r y E f f 1 uent
A Survey o f On ta r i o Sludge Disposal P rac t i ces
* see Abbrev iat ions
I JC SERIAL NUMBER
PAGE NO. I N 1976 PERFORM1 NG DIRECTORY ORGAN I ZATI ON*
28 1 WTC
2 83 WTC
288 WTC
289 WTC
289 WTC
2 90 WTC
290 WTC
37 1 DOE
374 HYD.CONS.CTD.
376 GREG. GEOSC .'-TD.
178 C 379 NWRI
179 C 379 NWRI
180 C 3 38 NWRI
181 C 3 39 NWRI
182 C 342 ACRES
TITLE OF PROJECT
Disposal o f Chemical Sewage Sludges on ?and - Lysimeter Studies
Sludge Cake Disposal on A g r i c u l t u r a l I, and
Anaerobic D iges t i on o f Chemical ly P r e c i p i t a t e d Sludges
SludgeTreatment Process Development Studies
Natura l Freeze-Thaw f o r Sludge Cond i t ion ing
Sludge Dewatering Design Manual . . .
I n d u s t r i a l Sludge Dewatering
Impact of Fores t Management P rac t i ces on Fores t Hydrologic Processes i n Boreal Ecosystems
Contaminant M ig ra t i on f rom On ta r io l a n d f i l l S i t e s
An i n v e s t i g a t i o n i n t o Research Use o f Computer Processing o f Landsat Data f o r Canada Land Inven to ry Land Use App l i ca t i ons
Hetero t roph ic B a c t e r i a l Populat ions Related t o Trophic S ta te i n t h e Great L akes.
A Continuous Cu l tu re Approach t o B a c t e r i a l Metabolism i n Lakewater
Remote Sensing Con t r i bu t i ons t o Basin Management Studies
Hydrographic Technique f o r Bed l o a d Discharge
Vegetat ion Cover o f Great Lakes Canadian Shore l ine : I t s Role i n C o n t r o l l i n g Rates o f Erosion
* see Abbreviat ions
I JC PAGE NO. SERIAL I N 1976 NUMBER DIRECTORY
PERFORMING ORGAN I ZATI ON*
QUE.U.;OMOE . . . . . . ..
Update o f Data Bank w i t h ~ i s c h a r ~ e : a n d Water Q u a l i t y Data f o r t h e Great Lakes Interconnect- i ng Channe-1s . . ., and Assoc.iated T r i b u t a r i e s
NWRI To ta l I no rgan i c Chemical Composition Task D - PLUARG - Sub-Ac t i v i t y
NWRI To ta l C and N Composit ion Task D - PLUARG - Sub-Acti v i t y
NWRI Forms o f P and Avai l a b i 1 i t y t o t he Boundary Waters Task D - PLUARG - Sub-Ac t i v i t y l e
R i ve r Mouth Survey ask D - Sub-Ac t i v i t y 20 - PLUARG
NWR I, OMOE
R.M. QUIGLEY
Geotechnical Study o f Eroding B l u f f s
Consul t a t i o n i n Methods o f Geotechnical i n s i t u and Labora tory Exp lo ra t i on o f -- Rapid l y Eroding B l u f f s
NWRI Program CCIW: R i ve r and Coastal Man agemen t
NWRI . r
Eva lua t ion o f E x i s t i n g Data (R iver I n p u t ) Task D - PCUARG - Sub-Ac t i v i t y 2a
Task Force 8, E f f e c t o f Land Disposal on Physico-Chemical P rope r t i es of Fine-Grained Dredge Spoi 1
NWRI Summary o f Shore l ine Recession Task D - PLUARG - Sub-Ac t i v i t y l a
NWRI Wave/Sediment I n t e r a c t i o n i n t h e Nearshore Zone
NWRI B l u f f S t r a t i g r a p h y and M i nera logy Task D - PLUARG - Sub-Ac t i v i t y 1b
NWRI Development o f Automated -- i n s i t u . Sensing Technology f o r Water Q u a l i t y Parameters
GLFRB, OMNR E f f e c t s o f N u t r i e n t Removal on Primary and Secondary P r o d u c t i o n i n t h e Bay o f Q u i n t e
* see Ab b rev i a t i ons
I JC SERIAL NUMBER
PAGE NO. I N 1976 PERFORMING DIRECTORY ORGANIZATION* TITLE OF PROJECT
39 9 GI- FRB Community S t r u c t u r e Ana l ys i s
40 1 GLF RB Zooplankton o f t h e Great Lakes
40 1 G!, FRB Development Rates of Great l a k e s Zoopl ankton
455 GLF RB Biogeochemical Ro le o f B i va l ves
455 BIOSYSTEMS CONS. I d e n t i f i c a t i o n o f Lake O n t a r i o Bottom Fauna Samples
21 2 GLFRB Methyl a t i o n o f Trace Meta ls i n Algae and B a c t e r i a
21 3 GI-FRB,U.WAT. R e l a t i o n s o f A l g a l D e t r i t u s and Tox ic Substances
291 WTC Sludge Sampling Methodology Development
292 OMOE ,WTC. Sludge Reduct ion and P r e c i p i t a n t Recovery
384 Y. KOTT Concentrat ion, D e t e c t i o n and I d e n t i f i c a t i o n o f I n d i c a t o r V i ruses i n Mun ic ipa l Waste Treatment E f f l u e n t s Under P rov i s i ons of t h e Canada/Ontario Agreement on Great t akes Water Qua1 i t y
210 C 3 90
211 C 454
212 C 380
213 C 380
* see Abbrev ia t ions
NWRI
BEAK
NWRI
NWRI
IUWRI
Study o f t h e R e l a t i o n s h i p Between t h e Inc idence o f Neoplasm i n F i s h and P o l l u t e d Waters and t o E s t a b l i s h t h e Ro le o f V i ruses i n T h i s R e l a t i o n s h i p
A l g a l B a c t e r i a l I n t e r a c t i o n i n Aquat i c Ecosystems: I n v e s t i g a t i o n s on Na tu ra l Mechan i sms
Taxonomic I d e n t i f i c a t i o n and Enumeration o f Phytop lankton Samples
Autecology o f She1 l e d I n v e r t e b r a t e s : Base l ine I n v e n t o r y ,
Repor t t o t h e IJC on Upper Lakes M i c r o b i o l o g i c a l Base l ine S tud ies
S tud ies on He te ro t roph i c and Au to t roph i c B a c t e r i a
I JC PAGE NO. . , . . . . . . . . .
SERIAL I N 1976 PERFORMING : ;,. > , , . . : .>.. . . . . .. ..- . *
NUMBER DIRECTORY ORGANIZATION* ;.- : . . - , . . . T IT lEOF PROJECT :, . ' . , . , , : / . . .. . . . . .- .. . . .. . . . .
214 C 38 1 NWR I Evaluat ion o f Heal t ,h Or ien ted I n d i c a t o r . .~ . . Bac te r i a
. . . . .. , , . .
215 C 382 NWRI ~ i r o l b g i ' c a l ~ e t h o d s , " ~ e v e l o ~ m e n t s , . . P lant , R i ve r and Lak!e. Mon i to r ing , . ~.
< . t . . .
216 C 384 OMOH Examination o f Sewage and Sewage Sludge f o r Enterov i ruses
QUE.. U . . . , . : . . . . The Growth o f Aquat ic Vascular .Pl.ants . .
WTC Scavenging o f Metal -Bearing Wastewaters Us ing .. P o l y e l e c t r o l y t e s . . . . .. .
NWRI ,EPS,USCG I c e Condi t ions and t h e Containment and Removal o f S p i l l e d O i l on St. C l a i r and D e t r o i t R ivers
NWRI, I L .GS G lac ia l and Post-Glac ia l Sediments i n Lakes Superior and Michigan
U .TOR. N u t r i e n t P a r t i t i o n i n g i n Lake Systems: The Dyna~nics o f Trans fer o f S i l i c o n Among Organisms, Sediment, and Water
U.GUE. Determinat ion o f Adsorpt ion and Ion-Exchange on Clay P a r t i c l e s and Organic Mat te r a t t he Water-Sediment I n t e r f a c e and t h e M ig ra t i on o f Ions During Diagenesis i n a Fresh-Water Environment (Lake Super ior)
223 ., C 141 U .TOR. P r e d i c t i n g Phosphorus Concentrat ion i n t h e Surface Waters o f Lakes
224 C 145 U.WIN. The E f f e c t o f ~ u t r i e n t s Derived f rom A g r i c u l t u r a l 'Drainage on Eut roph ica t i o n i n l a k e St. C l a i r
225 C 1 48 U.TOR. E ~ ~ t r o p h i c a t i o n o f Lakes i n Ontar io. Phytoplankton and Water Chemistry
226 C 300 U .WE. Coastal Environments o f t h e Great Lakes
227 C 432 U .GUE . Environmental In f luences on F i s h Taxonomy, Ecology and Behaviour
228 C - 436 U .TOR. To Model and Measure Responses i n F i s h Communities t o a Nur~iber o f Natura l and C u l t u r a l Stresses
* see Abbrevi a t i ons . I .
I JC SERIAL NUMBER I
PAGE NO. I N 1976 DIRECTORY
PERFORMING ORGAN I ZATI ON* TITLE OF PROJECT
U.TOR .. F ish Communities and Populat ions in. Stressed Aquat ic Environments
YORK U. P re fe r red Temperature and Photoperiod Studies i n F i s h
U .GUE. The E f f e c t s o f Environmental and I n t e r n a l Parameters on the Regulat ion o f Endocrine and o ther Homeostatic Mechanisms i n Te leos t Fishes and o the r Ver tebrates
U.GUE. Soc ia l Behaviour o f Salmonid Fishes i n . . Re1 a t i o n t o Eco log ica l and Energet ic
'Factors
4 38 U .TRENT Ecology and Temperature Tolerance of F i s h Eggs and l a r v a e
398 McM U. The Study o f Environmental In f luences on Phytoplankton Populat ions, Photosynthesis, P r o d u c t i v i t y and Community S t r u c t u r e
U.WIN. The E f f e c t o f l i g h t Q u a l i t y on Photosynthesis and Metabolism of Freshwater Plankton A1 gae
QUE.U. Phosphorus Cyc l i ng and t h e P r o d u c t i v i t y o f t he Plankton
U .TOR. Fac tors A f f e c t i n g the S t r u c t u r e o f L imnet ic Crustacean Zooplankton Communities
U.GUE. F i s h Composition, D i v e r s i t y and Eco log ica l Product ion i n Various Lagoons on Long Point , Lake E r i e
QUE,.U. Pale01 imnology and t h e Paleoecology o f Lakes
U .GUE. ,OMOE Studies o f Mycorrh i za l Fungi, . . Vegetat ion and Soi 1 Re la t ions i n Sand
Dunes o f t h e Great ' Lakes
241 C 383
* see 4bbrev ia t ions
U .GUE. M i c r o b i a l Ecology o f Sediments
: . . I JC PAGE NO. . . .
":. ..:, ,. :?'. . . .... . , . . . .: . . . < . ' i .. - SERIAL I N 1976 PERFORMING : . .., , . . , . . .
NUMBER DIRECTORY ORGANIZATION* .. , ; . TITI-E: 'c$ '~~&~JEcT . . . . . ..
242 C 39 0 U .GLIE . Studies on Ontar io Algae, E s p e c i a l l y Desmi d i aceae
243 C '390 " YORK U. ~ h o t o s y n t h e t i c ~ e t a b o l ism o f B l ue-Green A1 gae
244 C 390 U.TOR. Physio logy o f E x t r a c e l l u l a r Release i n Algae and B a c t e r i a
* see Abbrev iat ions
U .TOR. Environmental E f f e c t s on the Metabolism of Algae
U.WAT. Ecology, P r o d u c t i v i t y .and Taxonomy' of Freshwater A1 gae
U.GUE. I n f e c t i o u s Pancrea t ic Necors is (IPN) V i rus : Studies on t h e C a r r i e r S t a t e i n Brook T rou t ( S a l v e l i nus F o n t i n a l i s )
U .TRENT' I n v e s t i g a t i o n o f Oxygen D e p l e t i o n i n Freshwater Lakes and Resp i ra t i on o f Benth ic Communities
U.WAT. The Benth ic I n v e r t e b r a t e Fauna o f Pa r r y Sound, Georgian Bay .. . .
U .WAT. Fac tors I nvo l ved i n t h e D i s t r i b u t i o n ,
. . . H a b i t a t Se lec t i on and, Product ion Ecology o f Freshwater Animals
U.TOR. L imno log ica l Researches . . .
QUE.U. Studies on Typha and Other Wetland Vegetat ion
APWA Survey o f t h e P o l l u t i o n Problem i n Great Lakes Canadian Urban Areas
E PS Review o f Mun ic ipa l P rac t i ces i n Regard t o -P'roblems w i t h i n t h e Combined o r P a r t l y Combined Sewerage Systems i n
. . . . .. . On ta r i o . . . . P r o j e c t : 74-8-9 . . . .
MAC.ITD.,NWRI Research Program f o r t h e Development of a Storm Water Management Model (SWMM)
P&R LTD. Workshop f o r Computer Mode l l ing Technology Trans fer
I JC PAGE NO. SERIAL I N 1976 NUMBER - DIRECTORY , . TITI-E OF. PROJECT
C o l l e c t i o n o f F i e l d Data i n Hamil ton, O n t a r i o f o r t h e V e r i f i c a t i o n of Storm Water Management Model
MAC .I,TD. Data C o l l e c t i o n and Mode l l i ng a t Brucewood, N o r t h York
c o l l e c t i o n o f F i e l d Data i n Toronto, On ta r i o f o r t h e V e r i f i c a t i o n o f Storm ~ a t e ' r Management Model
NWRI
WTC
B u r l i n g t o n Sewer S tud ies Data C o l l e c t i o n
Pu lp and Paper M i l l E f f l u e n t Treatment - NSSC
EPS,OMOE
EPS
I n d u s t r i a1 Waste Cha rac te r i za t i ons
Land Disposal of I n d u s t r i a l and Hazardous Wastes. l a b o r a t o r y S tud ies
Soi l -Waste I n t e r a c t i o n Study, P h a s e ' I EPS
DOE . ,
QUE.U. ,NWRI
L a n d f i l l Contaminant. M i g r a t i o n
An Eva lua t i on o f H i s t o r i c a l Data on t h e Nearshore Water of t h e Great l a k e s (Canada)
OMOE Assessment o f Water Q u a l i t y Trends and Zones o f I n f l u e n c e i n Lake E r i e
OMOE Assessement o f Water Q u a l i t y Trends and Zones o f I n f l u e n c e i n Lake O n t a r i o
OMOE , OMNR
OMOE ,OMNR,NWR I
OMOE . .
OMOE ,OMNR
Harbour Q u a l i t y and Cur ren t S tud ies
Hami l ton Harbour A r t i f i c i a l M i x i n g
Coastal Water Q u a l i t y
Long Term S u r v e i l l a n c e - T r i b u t a r i e s t o t h e Great Lakes
OMOE
OMOE ,MI. DNR
Water Q u a l i t y M o n i t o r i n g i n t h e S t . C l a i r R i -ver 1 '
. ,
Water Qua1 i t y M o n i t o r i n g o f t h e D e t r o i t R i v e r .
* see Abbrev,i a t i ons
I JC PAGE NO. - ... , . . : , .
. . , , . : . . SERIAL I N 1976 PERFORMING . . , . : : . . . , .. .
. .. .. k . . . . ...
NUMBER DIRECTORY . ORGANIZATION* 2.' : : , i.;. .: :. TITI-Ei':.'OF'. PRO'JECT , . . . . . . ..
" '
277 C . . 90 OMOE
279 C 91 OMOE
280 C : 1 96 . ' OMOE '
- .. .
. . ~ssessment o f t h e Ex ten t o f 3 .. :. .
M i c r o b i o l o g i c a l Contamination Along t h e On ta r i o Shore l ine o f t h e D e t r o i t R i ve r
water. Q u a l i t y MonitotTng i n t h e .Hi.agara R ive r
Assessment o f Zones ' o f I n f 1 uence. i n ..the St. Lawrence R i v e r
Water Q u a l i t y Models f o r Water Management i n On ta r i o
E f f l u e n t D ispers ion Model f o r Southern Ontar io R i ve r Systems
PCB -Contamination as - a Model f o r :
Organic P o l l u t i o n E f f e c t s on Receiv ing Water B i o t a . .
281 C 197 OMOE Accumulation and Transpor t o f PCBs i n t he l ower Great Lakes
282 C 217' . . . OMOE ' . . Updat ing Sediment Chemistry S t a t u s : . i n
. . t h e S t . C l a i r System and Assessment o f
. . . . . t he . Thames R ive r Impact on Lake St.., C l a i r
. .
283 C 220 OMOE Arsenic P r e c i p i t a t i o n f rom Mine Drainage .. .
284 C 236 ' OMOE ,DOE Filamentous B a c t e r i a Cont ro l
285 C 237 OMOE Use o f Fly-Ash i n Wastewater Treatment
WTC Ef f luen t C h l o r i n a t i o n and D i s i n f e c t i o n A l . t e r n a t i ves \. . . .
: ,
287 C 351 AG.CAN;,OMOE - PLUARG - Task C - A g r i c u l t u r a l .Watershed Studies Phase 1 - Mon i to r i ng Programme Mon i to r i ng O f A g r i c u l t u r a l Watersheds
288 C 351 OMOE P o l l u t i o n f rom Land Use A c t i v i t i e s Reference Group (PLUARG) Task C - A c t i v i t y 4
1.
289 C 352 OMOE , OMNR P o l l u t i o n from Land Use A c t i v i t i e s Reference Group (PLUARG) Task C -
,: A c t i v i t y 3
* see Abbrev iat ions .:. , .. .. ..
. . . . . . . . ,
I JC PAGE NO. SERIAL I N 1976 PERFORMING NUMBER DIRECTORY ORGANIZATION* TITLE OF PROJECT
290 ~ C 354 OMAF '-and Use Survey i n Eleven A g r i c u l t u r a l Watersheds i n Ontar io
291 C 365 OMOE , OMAF Mon i to r i ng Eleven A g r i c u l t u r a l Watersheds i n On ta r i o f o r Pes t i c i des
292 C .. 265 OMOE Users Manual f o r Flow Mon i to r i ng Tec hn i ques
293 C 278 U.GUE. Land Appl i c a t i o n o f Sewage Sludge
294 C 305 OMAF., NWR I Analys is of Lake On ta r i o Sediments f o r Organochlor ine I n s e c t i c i d e s and PCBs
295 C 336 U .GUE. Suspended Sol i d s Taken f rom Mouths of R i ve r and Streams En te r i ng Great !akes
296 C 370 OMOE Hydro logic and Hydrogeologic Models f o r Southern On ta r i o Drainage Basins
297 C 374 U .MAT :, OMOE M o n i t o r i n g P e s t i c i d e M i g r a t i o n from Waste Disposal S i t e s
298 C 389 OMOE Great Lakes Inshore Phytop 1 ankton Mon i to r i ng
392 : OMOE Phytoplankton o f Penetang Bay and Adjacent Inshore Areas o f Georgian Bay
300 C 3 93 OMOE,OMNR,ONT.H. Phytoplankton o f t h e Nant icoke Area of Lake E r i e
301 C 394 OMOE , OMNR P r o j e c t Q u i n t e (Phytoplankton of t h e Bay of Q u i n t e )
3 96 OMOE Eco log i ca l Model f o r Southern On ta r i o R i v e r Systems
303 C 364 AG . CAN. PCUARG - Task C - A g r i c u l t u r a l Watershed Studies Met a1 Storage and Transpor t Mechanisms i n S o i l and Sediment W i t h i n Watersheds
304 C 366 AG. CAN.,OMOE PlUARG Task C - A g r i c u l t u r a l Watershed Studies, Runoff C h a r a c t e r i s t i c s from Feedlots and Manure Storage Areas i n Southwest On ta r i o
*. see Abbrev i a t i ons
I JC SERIAL NUMBER
PAGE NO. I N 1976 DIRECTORY
" . . . . .
. . . . ? . . . . .
PERFORMING . . .. , . . . ,
ORGANIZATION* " . : i ' ' ;, : - :'! , - . TITI-E {OF -PROJECT . . . ..
AG . CAN . PLUARG Task C - A g r i c u l t u r a l Watershed Studies, P o l l u t a n t Transpor t t o Subsurface and Surface Waters i n an In teg ra ted Farm Operat ion
AG.CAN.,OMAF PLUARG Task C - A c t i v i t y 1 (Canada) A g r i c u l t u r a l Watershed Studies, Great Lakes Basin, Canada
AG .CAN. , OMOE PlUARG - Task C - A g r i c u l t u r a l Watershed Studies M ine ra log i ca l Character i z a t i o n o f Sediments Generated i n A g r i c u l t u r a l Watersheds
AG.CAN. PlUARG Task C - A g r i c u l t u r a l Watershed Studies Transformat ion and Transpor t o f N i t rogen and Water i n A g r i c u l t u r a l S o i l s - Biochemical and Physica l Cha rac te r i za t i on and Mode l l ing
AG.CAN.,HRS,OMOE PLUARG - Task C - A g r i c u l t u r a l Watershed Studies N u t r i e n t and Metal Content o f Streams i n an A g r i c u l t u r a l Watershed
The D i s t r i b u t i o n o f Heavy Meta ls i n A g r i c u l t u r a l Watersheds
The Role o f Organic Mat te r i n t h e T ranspo r t and Storage o f Heavy Metals i n A g r i c u l t u r a l Watersheds
D.R. COOTE Consul ta t ion, and Coord inat ion o f , Research on A g r i c u l t u r a l Pol l u t i o n i n t h e Lower Great Lakes Basin
PLUARG - Task C - A g r i c u l t u r a l Watershed Studies Coordinat ion; Data Hand1 i n g and Transfe'r; Qua1 i t y Contro l
PLUARG - Task C - A g r i c u l t u r a l Watershed Studies Eros ional Losses from A g r i c u l t u r a l Land
,
Q u a n t i t a t i v e ~easurement of P r e c i p i t a t i o n - Ten PLUARG Watersheds
316 C 369 U.WIN. H i s t o r i c a l Frequency o f Season Runoff o f Various Amounts i n Southern Ontar io
* see Abbrev iat ions
268
I JC PAGE NO. SERIAL I N . 1976 NLIMBER DIRECTORY
PERFORMING ORGANIZATION* TITLE OF PROJECT ,
PLUARG - Task C - So i l . Survey
IWD A S imula t ion Study o f t h e Economic Impact o f Water Pol l u t i o n Abatement Costs i n Canada
IWD Economic and Demographic Aspects of P o l l u t i o n from Land Use A c t i v i t i e s i n t h e Great takes Basin from Present t o 2020
Land Use I n s t i t u t i o n a l I nven to ry f o r t he Canadian Great Lakes Basin
IWD
IWD . .
U .VAT.
Environment a1 Awareness
Study o f t h e Temporal and Spa t ia l D i s t r i b u t i o n o f I nve r teb ra te Species i n the Shallow L i t t o r a l Zone o f t he Great Lakes
Development o f A n a l y t i c a l Methodology f o r t h e Ana lys is o f Dissolved Organic Substances i n D r ink ing Water
Eva lua t ion o f t he EPA Carbon Adsor7t ion Method f o r t h e Mon i to r i ng o f Canadian Pub l i c D r ink ing Water Suppl ies
Analys is o f Toxic Organic Const i tuents i n Ottawa Dr ink ing Water
NHW, OMOE
NHW,NWRI
Survey o f V o l a t i l e Organohalides i n Canadian Pub l i c D r i n k i n g Water Suppl ies
Study o f t h e Poss ib le Transfer o f Asbestos F ib res t o A i r on the Evaporat ion o f Asbestos-Contaminated Water
Study o f t h e E f f e c t o f Ozonation on the Dissolved Organic Const i tuents o f D r i n k i n g Water
Streambank Erosion Study OMNR, U . GUE . 330 C 5 NWR I Storm Surge Forecas t ing
331 C 6 IWD P r e c i p i t a t i o n Chemistry
* see Abbreviat ions
I JC PAGE NO. (?!M , :: .
I N 1976 PERFORMING .. SERIAL . .. .. .. . .
NUMBER DIRECTORY .. .. ORGANIZATION* ::: :,:;: . ."" . , TITI-E, . , , @F~:~~~P,ROJECT .. . . , ., . . ? . . , . . , . : * . . . . . . . 1' . , . . , . . , . . .- . . .. ., . . .. . .
. . > :
332 C 9 NWRI ,OMOE Atmospheric l o a d i n g o f Great Lakes Waters
333 C 11 NWRI Stab le Isotopes i n d e l a t i o n t o - , . Atmospheric I n p u t s o f S u l f u r and N i t rogen i n t o t h e Great Lakes
334 C 19 NWRI Tracer Measurement o f vaporat at ion f rom Rivers
335 C 2 2 1NT.SAT.IWF. Transmission o f S a t e l l i t e Imagery f o r I c e Forecas t ing . , . . . . ,
336 C 24 NWRI C r i t e r i a f o r I c e Cover S t a b i l i t y
337 C 2 7 NWRI ~ o r m a t i o " o f F r a z i l I c e i n Water w i t h Surf ace
338 C 27 NWRI F r a z i l and V e l o c i t y Inst rument
339 C 3 3 NWR I Regular and I r r e g u l a r Wave C r i t e r i a
340 C 11 NWRI Stab le Isotope Study o f S u l f u r ' P o l l u t i o n Around Sudbury
341 C 19 NWRI Tracer Measurement o f Evaporat ion f rom Rivers
342 C 28 NWRI . . I c e P i 1 i n g on Lakeshores
NWRI F i e l d Observat ions and Ana lys is of Breaking Surface Waves
344 C 32 NWRI Nearshore Wave Energy Transformation
345 C 12 U.WO. L i d a r Mapping and Observat ions on Atniospheric P a r t i c u l a t e s
346 C 12 AE.SC1 . . .CONS. Assessment o f t h e Eco log ica l E f fec t s of Long Term Atmospheric Mater i a1 Depos it i on . . . . . . . .
347 C 17 ACE, DClE T e r r e s t r i a1 Water Bal ance, I n t e r n a t i o n a l F i e l d Year on Great Lakes
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348 C 28 CAN'.RES.INST. :. Design;Fabricate and Test a F r a z i l I c e Measuring Instrument.
349 C 6 . U.WIN. Chemical Analyses o f P r e c i p i t a t i o n - S ix PLUARG Watersheds