In the Matter of Natural Resources Defense Council, Inc., et al., Appellants,v.New York State Department of Environmental Conservation, Respondent.BriefN.Y.March 24, 2015APL-2015-00043 Westchester County Clerk’s Index No. 16132/10 Court of Appeals STATE OF NEW YORK In the Matter of the Application of NATURAL RESOURCES DEFENSE COUNCIL, INC.; RIVERKEEPER, INC.; WATERKEEPER ALLIANCE, INC.; SOUNDKEEPER, INC.; SAVE THE SOUND; PECONIC BAYKEEPER, INC.; RARITAN BAYKEEPER, INC. (d/b/a NY/ NJ BAYKEEPER); HACKENSACK RIVERKEEPER, INC., Petitioners-Appellants, For a Judgment Pursuant to Article 78 of the Civil Practice Law & Rules —against— THE NEW YORK STATE DEPARTMENT OF ENVIRONMENTAL CONSERVATION, Respondent-Respondent. ADDENDUM TO SUPPLEMENTAL BRIEF FOR PETITIONERS-APPELLANTS d Attorneys for Petitioners-Appellants LAWRENCE M. LEVINE REBECCA J. HAMMER NATURAL RESOURCES DEFENSE COUNCIL, INC. 40 West 20th Street New York, New York 10011 Telephone: (212) 727-2700 Facsimile: (212) 727-1773 REED W. SUPER SUPER LAW GROUP, LLC 411 State Street, #2R Brooklyn, New York 11217 Telephone: (212) 242-2273 Facsimile: (855) 242-7956 February 24, 2015 TABLE OF CONTENTS NRDC v. Grannis, No. 110898/10 (Sup. Ct. N.Y. Cty. Aug. 4, 2011). ....... ADD001 DEC, 2008 Section 303(d) List of Impaired Waters Requiring a TMDL/Other Strategy (May 2008) ............................................................... ADD022 DEC, 2010 Section 303(d) List of Impaired Waters Requiring a TMDL/Other Strategy (June 2010) ............................................................... ADD082 ABC News, “California Surfer Dies After Ignoring Tainted Water Warning,” ........................................................................................... ADD127 Grant Parpan, “Town Officials: It’s Time to Reopen Waterways to Shellfishing,” The Suffolk Times, Feb. 10, 2015, ........................................ ADD129 ADD001 ADD002 ADD003 ADD004 ADD005 ADD006 ADD007 ADD008 ADD009 ADD010 ADD011 ADD012 ADD013 ADD014 ADD015 ADD016 ADD017 ADD018 ADD019 ADD020 ADD021 The Final New York State May 26, 2008 2008 Section 303(d) List of Impaired Waters Requiring a TMDL/Other Strategy Presented here is the Final New York State 2008 Section 303(d) List of Impaired/TMDL Waters. The list identifies those waters that do not support appropriate uses and that require development of a Total Maximum Daily Load (TMDL) or other restoration strategy. A Response Summary to public comments received on the draft List is also available. The Federal Clean Water Act requires states to periodically assess and report on the quality of waters in their state. Section 303(d) of the Act also requires states to identify Impaired Waters, where specific designated uses are not fully supported. For these Impaired Waters, states must consider the development of a Total Maximum Daily Load (TMDL) or other strategy to reduce the input of the specific pollutant(s) that restrict waterbody uses, in order to restore and protect such uses. An outline of the process used to monitor and assess the quality of New York State waters is contained in the New York State Consolidated Assessment and Listing Methodology (CALM). The CALM describes the water quality assessment and Section 303(d) listing process in order to improve the consistency of assessment and listing decisions. The waterbody listings in the New York State Section 303(d) List are grouped into a number of categories. The various categories, or Parts, of the list are outlined below. Final 2008 Section 303(d) List of Impaired Waters Requiring a TMDL Part 1 Individual Waterbody Segments with Impairments Requiring TMDL Development These are waters with verified impairments that are expected to be addressed by a segment/pollutant-specific TMDL. Part 2 Multiple Segment/Categorical Waterbody Impairments Requiring TMDL Development These are groups of waters affected by similar causes/sources where a single TMDL may be able to address multiple waters with the same issue. Part 2 is subdivided into: a) Waters Impaired by Atmospheric Deposition (acid rain) b) Waters Impaired by Fish Consumption Advisories c) Waters Impaired by Shellfishing Restrictions Part 3 Waterbodies Requiring Verification of Impairment or Cause/Pollutant These are waters where scheduling of TMDL development may be deferred pending verification of either the suspected impairment or the cause/pollutant related to the impairment. Part 3 is subdivided into: a) Waterbody Impairments Requiring Verification b) Verified Waterbody Impairments Requiring Verification of Cause/Pollutants c) Waterbody Segments Being Address Through Other Restoration Measures Appendix A - Smaller Lakes Impaired by Atmospheric Deposition (Acid Rain) Appendix B - Listed Waterbodies Not Meeting Dissolved Oxygen Standards ADD022 Impaired/Delisted Waters NOT Included on the NYS 2008 Section 303(d) List Included with but separate from the NYS 2008 Section 303(d) List are a few supplemental listings. Although these waterbody/pollutant listings are not considered to be on the Section 303(d), they provide additional information toward understanding listing decisions and clarify how impairments are considered. Specific supplemental lists are described below. Waterbody Segments Not Listed Because TMDL is Not Necessary A list of Other Impaired Waterbody Segments Not Listed (on 303(d) List) Because Development of a TMDL is Not Necessary is included with the Section 303(d) List. The purpose of this supplement is to provide a more comprehensive inventory of waters of the state that do not fully support designated uses and that are considered to be impaired. Section 303(d) of the Clean Water Act stipulates that impaired waters that do not require a TMDL are not to be included on the Section 303(d) List. There are three (3) justifications for not listing an impaired water: Category 4a - TMDL development is not necessary because a TMDL has already been established for the segment/pollutant. Category 4b - TMDL is not necessary because other required control measures are expected to result in restoration in a reasonable period of time. Category 4c - TMDL is not appropriate because the impairment is the result of pollution, rather than a pollutant that can be allocated through a TMDL. 2008 Waterbody/Pollutant Delistings A separate list of water/pollutant combinations that were included on the previous (2006) Section 303(d) List, but that are NOT included on the 2008 List is also presented. This information provides some linkage and continuity between the previous and proposed new list. The specific reason that the waterbody no longer appears on the List (i.e., delisting action, reassessment, re-segmentation, etc.) is also presented. Some of these waters (those that have been delisted but that remain Impaired) also appear on the list of Other Impaired Waterbody Segments Not Listed Because Development of a TMDL is Not Necessary. ADD023 N ew Y or k S ta te F in a l 20 08 S ec ti on 3 03 (d ) L is t M ay 2 6, 2 00 8 W at er I n d ex N u m b er W at er b od y N am e (W I/ P W L I D ) C ou n ty T yp e C la ss C au se /P ol lu ta n t S ou rc e Y ea r Im p ai rm en ts i n F in d le y L ak e, P o rt B ay , B u ck P o n d , L o n g P o n d a n d C ra n b er ry P o n d h av e b ee n v er if ie d . C o n se q u en tl y th es e li st in gs h av e b ee n m o ve d t o P ar t 1 f ro m P ar t 3 a. 1 1 2 0 0 8 S ec ti o n 3 0 3 d L is t o f Im p a ir ed W a te rs S e g m en ts a n d /o r p o ll u ta n ts l is te d i n B o ld T y p e ar e n e w l is ti n g s; i .e ., t h ey w er e n o t in cl u d ed i n t h e p re v io u s (2 0 0 6 ) S ec ti o n 3 0 3 (d ) L is t. * D en o te s H ig h P ri o ri ty W at er s, s ch ed u le d f o r T M D L /r es to ra ti o n s tr at eg y d ev el o p m en t an d s u b m is si o n f o r ap p ro v al t o U S E P A w it h in t h e n e x t tw o y ea rs . P ar t 1 - In d iv id u al W at er b od y S eg m en ts w it h I m p ai rm en t R eq u ir in g T M D L D ev el op m en t N ia ga ra R iv er /L ak e E ri e D ra in ag e B as in O n t 1 5 8 - 6 G il l C re ek a n d t ri b s (0 1 0 1 -0 0 0 2 ) N ia ga ra R iv er C U n kn o w n T o xi ci ty U rb an R u n o ff , C o n ta m . S ed 2 0 0 4 O n t 1 5 8 - 8 -1 B er gh o lt z C re ek a n d t ri b s (0 1 0 1 -0 0 0 4 ) N ia ga ra R iv er C P h o sp h o ru s U rb an R u n o ff 2 0 0 4 P at h o ge n s U rb an R u n o ff 2 0 0 4 O n t 1 5 8 -1 2 - 6 R an so m C re ek , L o w er , an d t ri b s (0 1 0 2 -0 0 0 4 ) E ri e R iv er C D .O ./ O xy ge n D em an d O n -S it e W T S 2 0 0 4 P at h o ge n s O n -S it e W T S 2 0 0 4 O n t 1 5 8 -1 2 - 6 R an so m C re ek , U p p er , an d t ri b s (0 1 0 2 -0 0 2 7 ) E ri e R iv er C (T ) D .O ./ O xy ge n D em an d O n -S it e W T S 2 0 0 4 P at h o ge n s O n -S it e W T S 2 0 0 4 O n t 1 5 8 -1 3 T w o M il e C re ek a n d t ri b s (0 1 0 1 -0 0 0 5 ) E ri e R iv er B F lo at ab le s C S O s 2 0 0 4 D .O ./ O xy ge n D em an d C S O s, M u n ic ip al 2 0 0 4 P at h o ge n s C S O s, M u n ic ip al 2 0 0 4 O n t 1 5 8 -1 5 S ca ja q u ad a C re ek , L o w er , an d t ri b s (0 1 0 1 -0 0 2 3 ) E ri e R iv er B F lo at ab le s C S O s, U rb an R u n o ff 2 0 0 4 D .O ./ O xy ge n D em an d C S O s, U rb an R u n o ff 2 0 0 4 P at h o ge n s C S O s, U rb an R u n o ff 2 0 0 4 O n t 1 5 8 -E ( p o rt io n 7 a) L ak e E ri e, D u n ki rk H ar b o r ( 0 1 0 5 -0 0 0 9 ) C h au ta u q u a G .L ak es B P at h o ge n s U rb an R u n o ff 2 0 0 4 O n t 1 5 8 .. E - 3 R u sh C re ek a n d t ri b s (0 1 0 4 -0 0 1 8 ) E ri e R iv er C P at h o ge n s C S O s, U rb an R u n o ff , M u n ic 2 0 0 4 P h o sp h o ru s C S O s, U rb an R u n o ff , M u n ic 2 0 0 4 O n t 1 5 8 .. E -2 3 -P 1 5 2 Ja va L ak e (0 1 0 4 -0 0 0 4 ) W yo m in g L ak e B P h o sp h o ru s O n -S it e W T S 2 0 0 4 A ll eg h en y R iv er D ra in ag e B as in P a- 6 3 -1 3 - 4 * C h ad ak oi n R iv er a n d t ri b s (0 2 0 2 -0 0 1 8 ) C ha ut au qu a R iv er C P h os p h or u s M u n ic /I n d , U rb R u n o ff 2 0 0 8 P a- 8 4 - 2 -P 1 5 3 * F in d le y L ak e (0 2 0 2 -0 0 0 4 ) C h au ta u q u a L ak e B P h o sp h o ru s A gr ic u lt u ra l 1 9 9 8 1 L ak e O n ta ri o ( M in o r T ri b s) D ra in ag e B as in O n t (p o rt io n 1 7 ) R oc h es te r E m b ay m en t - W es t (0 3 0 1 -0 0 6 8 ) M o n ro e G .L ak es A P at h og en s U rb an /S to rm R u n o ff 2 0 0 8 O n t 8 0 /P 8 9 * P o rt B ay ( 0 3 0 2 -0 0 1 2 ) W ay n e L ak e B P h o sp h o ru s A gr ic , M u n ic ip al 2 0 0 2 1 O n t 1 2 2 -P 1 5 3 * B u ck P o n d ( 0 3 0 1 -0 0 1 7 ) M o n ro e L ak e B P h o sp h o ru s U rb an /S to rm R u n o ff 2 0 0 2 1 O n t 1 2 3 -P 1 5 4 * L o n g P o n d ( 0 3 0 1 -0 0 1 5 ) M o n ro e L ak e B P h o sp h o ru s U rb an /S to rm R u n o ff 2 0 0 2 1 O n t 1 2 3 -P 1 5 4 - 2 -P 1 5 5 * C ra n b er ry P o n d ( 0 3 0 1 -0 0 1 6 ) M o n ro e L ak e B P h o sp h o ru s U rb an /S to rm R u n o ff 2 0 0 2 1 A D D 02 4 N ew Y or k S ta te F in a l 20 08 S ec ti on 3 03 (d ) L is t M ay 2 6, 2 00 8 W at er I n d ex N u m b er W at er b od y N am e (W I/ P W L I D ) C ou n ty T yp e C la ss C au se /P ol lu ta n t S ou rc e Y ea r Im p ai rm en ts i n L ak e N ea ta h w an ta a n d O w as co L ak e h av e b ee n v er if ie d . C o n se q u en tl y th e li st in gs h av e b ee n m o ve d t o P ar t 1 f ro m P ar t 3 a. 2 2 P a rt 1 - I n d iv id u al W at er b o d y S eg m en ts w it h I m p a ir m en t R eq u ir in g T M D L ( co n ’t ) G en es ee R iv er D ra in ag e B as in O n t 1 1 7 ( p o rt io n 1 ) G en es ee R iv er , L o w er , M ai n S te m ( 0 4 0 1 -0 0 0 1 ) M o n ro e R iv er B P h o sp h o ru s va ri o u s, m u lt ip le s o u rc es 2 0 0 4 P at h o ge n s va ri o u s, m u lt ip le s o u rc es 2 0 0 4 S il t/ S ed im en t va ri o u s, m u lt ip le s o u rc es 2 0 0 4 O n t 1 1 7 ( p o rt io n 2 ) G en es ee R iv er , M id d le , M ai n S te m ( 0 4 0 1 -0 0 0 3 ) M o n ro e R iv er B D .O ./ O xy ge n D em an d A gr ic u lt u re 2 0 0 4 P h o sp h o ru s A gr ic u lt u re 2 0 0 4 O n t 1 1 7 - 1 9 B la ck C re ek , L o w er , an d m in o r tr ib s (0 4 0 2 -0 0 3 3 ) M o n ro e R iv er C P h o sp h o ru s A gr ic , M u n ic ip al 2 0 0 4 O n t 1 1 7 - 1 9 B la ck C re ek , U p p er , an d m in o r tr ib s (0 4 0 2 -0 0 4 8 ) G en es ee R iv er C P h o sp h o ru s A gr ic , M u n ic ip al 2 0 0 4 O n t 1 1 7 - 2 7 -P 5 7 H o n eo ye L ak e (0 4 0 2 -0 0 3 2 ) O n ta ri o L ak e A A P h o sp h o ru s A gr ic , O n -S it e W T S 2 0 0 2 D .O ./ O xy ge n D em an d A gr ic , O n -S it e W T S 2 0 0 2 O n t 1 1 7 - 4 0 -P 6 7 C o n es u s L ak e (0 4 0 2 -0 0 0 4 ) L iv in gs to n L ak e A A P h o sp h o ru s A gr ic u lt u re 2 0 0 6 D .O ./ O xy ge n D em an d A gr ic u lt u re 2 0 0 2 O n t 1 1 7 - 7 0 -P 1 1 5 * S il ve r L ak e (0 4 0 3 -0 0 0 2 ) W yo m in g L ak e A P h o sp h o ru s A gr ic u lt u ra l 1 9 9 8 C h em u n g R iv er D ra in ag e B as in P a 3 -5 8 -2 0 .. P 5 1 * L ak e S al u b ri a (0 5 0 2 -0 0 1 1 ) S te u b en L ak e B P h o sp h o ru s O n -s it e W T S 2 0 0 2 P a 3 -5 8 -3 1 - 7 -P 6 6 S m it h P on d ( 0 5 0 2 -0 0 1 2 ) S te ub en L ak e B P h os p h or u s O n -s it e W T S 2 0 0 8 S u sq u eh an n a R iv er D ra in ag e B as in S R - 4 4 -1 4 -2 7 -P 3 5 a W h it n ey P o in t L ak e/ R es er vo ir ( 0 6 0 2 -0 0 0 4 ) B ro o m e L ak e C P h o sp h o ru s A gr ic u lt u ra l 2 0 0 2 S R - 5 2 P ar k C re ek a n d t ri b s (0 6 0 1 -0 0 3 1 ) B ro o m e R iv er C P at h o ge n s O n -s it e W T S 2 0 0 2 S R -1 4 6 ( p o rt io n 2 ) U n ad il la R iv er , U p p er , M ai n S te m ( 0 6 0 1 -0 0 3 7 ) H er ki m er R iv er C (T ) P at h o ge n s O n -s it e W T S , A gr ic 2 0 0 2 O sw eg o R iv er ( F in ge r L ak es ) D ra in ag e B as in O n t 6 6 - 3 -P 9 L ak e N ea ta h w an ta ( 0 7 0 1 -0 0 1 8 ) O sw eg o L ak e B N u tr ie n ts ( p h o sp h o ru s) U rb an /S to rm R u n o ff 1 9 9 8 2 O n t 6 6 -1 1 -P 2 6 -3 3 - 5 C an as to ta C re ek , L ow er , an d t ri b s (0 7 0 3 -0 0 0 2 ) M ad is o n R iv er C D .O ./ O x y g en D em an d M u n ic ip al , C S O s 2 0 0 8 P at h og en s M u n ic ip al , C S O s 2 0 0 8 O n t 6 6 -1 1 -P 2 6 -3 7 - 6 - 2 L im es to n e C re ek , L ow er , an d m in or t ri b s (0 7 0 3 -0 0 0 8 ) O no nd ag a R iv er C D .O ./ O x y g en D em an d M u n ic ip al 2 0 0 8 P at h og en s M u n ic ip al 2 0 0 8 O n t 6 6 -1 2 -4 3 -P 2 1 2 O w as co L ak e (0 7 0 6 -0 0 0 9 ) C ay u ga L ak e A A (T ) P at h o ge n s W il d li fe /O th er S o u rc es 1 9 9 8 2 O n t 6 6 -1 2 -4 3 -P 2 1 2 -2 8 * O w as co I n le t, U p p er , an d t ri b s (0 7 0 6 -0 0 1 4 ) C ay ug a R iv er C (T ) N u tr ie n ts M u n ic ip al /A gr ic 2 0 0 8 O n t 6 6 -1 2 -P 2 9 6 ( p o rt io n 4 ) * C ay u ga L ak e, S o u th er n E n d ( 0 7 0 5 -0 0 4 0 ) T o m p ki n s L ak e A P h o sp h o ru s M u n ic ip al , N P S 2 0 0 2 S il t/ S ed im en t M u n ic ip al , N P S 2 0 0 2 P at h og en s M u n ic ip al , N P S 2 0 0 8 A D D 02 5 N ew Y or k S ta te F in a l 20 08 S ec ti on 3 03 (d ) L is t M ay 2 6, 2 00 8 W at er I n d ex N u m b er W at er b od y N am e (W I/ P W L I D ) C ou n ty T yp e C la ss C au se /P ol lu ta n t S ou rc e Y ea r T he R es to ra ti on S tr at eg y/ T M D L e ff or t to a dd re ss s il t/ se di m en t lo ad s to L ak e G eo rg e w il l be a c om pr eh en si ve , la ke -w id e w at er sh ed e ff or t an d w il l co n si de r ad di ti on al l ak e tr ib ut ar ie s th at 3 p ro vi d e si gn if ic an t si lt /s ed im en t lo ad s to t h e la ke . T h e in it ia l st ra te gy f o cu se d o n F in kl e B ro o k an d w as p u b li c n o ti ce d f o r co m m en t in 2 0 0 5 . T h e sp ec if ic al ly i d en ti fi ed i m p ai re d w at er (s ) in t h is s eg m en t in cl u d e F o st er B ro o k (- 1 1 ). 4 T h e sp ec if ic al ly i d en ti fi ed i m p ai re d w at er (s ) in t h is s eg m en ts i n cl u d e E as t B ro o k (- 3 7 ), W es t B ro o k (- 3 8 ), P ro sp ec t M o u n ta in B ro o k (- 3 9 ), E n gl is h B ro o k (- 4 1 ). 5 T h e sp ec if ic al ly i d en ti fi ed i m p ai re d w at er (s ) in t h is s eg m en t in cl u d e F in kl e B ro o k (- 5 6 ). 6 Im p ai rm en ts i n C o ss ay u n a L ak e h av e b ee n v er if ie d . C o n se q u en tl y th e li st in g h as b ee n m o ve d f ro m P ar t 3 a to P ar t 1 . 7P a rt 1 - I n d iv id u al W at er b o d y S eg m en ts w it h I m p a ir m en t R eq u ir in g T M D L ( co n ’t ) B la ck R iv er D ra in ag e B as in O n t 1 9 - 4 0 ( p o rt io n 1 ) B ea ve r R iv er , L ow er , an d t ri b s (0 8 0 1 -0 1 9 7 ) L ew is R iv er C D .O ./ O x y g en D em an d O n -s it e W T S 2 0 0 8 P at h og en s O n -s it e W T S 2 0 0 8 O n t 1 9 - 5 1 M il l C re ek /S ou th B ra n ch , an d t ri b s (0 8 0 1 -0 2 0 0 ) L ew is R iv er C N u tr ie n ts A gr ic u lt u re 2 0 0 8 P at h og en s A gr ic u lt u re 2 0 0 8 L ak e C h am p la in D ra in ag e B as in C C u m b er la n d B ay ( 1 0 0 1 -0 0 0 1 ) C li n to n B ay B D .O ./ O xy ge n D em an d In d u st r, C o n ta m .S ed . 2 0 0 2 C - 3 ( p o rt io n 2 ) * G re at C h az y R iv er , L o w er , M ai n S te m ( 1 0 0 2 -0 0 0 1 ) C li n to n R iv er A S il t/ S ed im en t A gr ic , E ro si o n 2 0 0 2 C -1 0 1 -P 3 6 7 * L ak e G eo rg e (1 0 0 6 -0 0 1 6 ) an d t ri b s W ar re n L ak e A A sp cl S il t/ S ed im en t U rb /S to rm , E ro si o n 2 0 0 2 3 C -1 0 1 -P 3 6 7 -1 t h ru 2 6 * T ri b s to L ak e G eo rg e, E as t S h o re ( 1 0 0 6 -0 0 2 0 ) W ar re n R iv er A A sp cl S il t/ S ed im en t U rb /S to rm , E ro si o n 2 0 0 2 3 , 4 C -1 0 1 -P 3 6 7 -3 2 t h ru 4 1 * T ri b s to L ak e G eo rg e, L k. G eo rg e V il la ge ( 1 0 0 6 -0 0 0 8 ) W ar re n R iv er A A sp cl S il t/ S ed im en t U rb /S to rm , E ro si o n 2 0 0 2 3 , 5 C -1 0 1 -P 3 6 7 -5 3 ,5 6 * H u d d le /F in kl e B ro o ks a n d t ri b s (1 0 0 6 -0 0 0 3 ) W ar re n R iv er A A sp cl S il t/ S ed im en t U rb /S to rm , E ro si o n 2 0 0 2 3 , 6 C -1 0 1 -P 3 6 7 -5 9 * In d ia n B ro o k an d t ri b s (1 0 0 6 -0 0 0 2 ) W ar re n R iv er A A sp cl S il t/ S ed im en t U rb /S to rm , E ro si o n 2 0 0 2 3 C -1 0 1 -P 3 6 7 -8 6 * H ag u e B ro o k an d t ri b s (1 0 0 6 -0 0 0 6 ) W ar re n R iv er A A sp cl S il t/ S ed im en t U rb /S to rm , E ro si o n 2 0 0 2 3 U p p er H u d so n R iv er D ra in ag e B as in H -2 6 0 - 6 D w aa s K il l an d t ri b s (1 1 0 1 -0 0 0 7 ) S ar at o ga R iv er C (T ) P h o sp h o ru s U rb an R u n o ff , C o n st r. 2 0 0 6 S il t/ S ed im en t U rb an R u n o ff , C o n st r. 2 0 0 6 H -2 6 5 S ch u y le r C re ek a n d t ri b s (1 1 0 1 -0 0 9 3 ) S ar at o ga R iv er C (T ) P h os p h or u s S an it ar y D is ch ar ge 2 0 0 8 D .O ./ O x y g en D em an d S an it ar y D is ch ar ge 2 0 0 8 P at h og en s S an it ar y D is ch ar ge 2 0 0 8 H -2 9 9 -P 2 7 -1 3 - 1 -P 3 0 - T ri b s to L ak e L o n el y (1 1 0 1 -0 0 0 1 ) S ar at o ga R iv er C P h o sp h o ru s M u n ic ip al , U rb /S to rm 2 0 0 6 D .O ./ O xy ge n D em an d M u n ic ip al , U rb /S to rm 2 0 0 6 P at h o ge n s M u n ic ip al , U rb /S to rm 2 0 0 6 H -3 0 1 -1 7 -P 7 9 * C o ss ay u n a L ak e (1 1 0 3 -0 0 0 2 ) W as h in gt o n L ak e A P h o sp h o ru s O n -s it e W T S , A gr ic 2 0 0 2 7 A D D 02 6 N ew Y or k S ta te F in a l 20 08 S ec ti on 3 03 (d ) L is t M ay 2 6, 2 00 8 W at er I n d ex N u m b er W at er b od y N am e (W I/ P W L I D ) C ou n ty T yp e C la ss C au se /P ol lu ta n t S ou rc e Y ea r F o r th e p u rp o se s o f S ec ti o n 3 0 3 (d ) li st in g, t h is s eg m en t in cl u d es t h e lo w er h al f- m il e o f S ta rc h F ac to ry C re ek ( 1 2 0 1 -0 0 6 7 ). S ta rc h F ac to ry C re ek w as a ss es se d o ve ra ll t o h av e M in o r Im p ac ts 8 b u t su p p o rt in g u se s b as ed o n s am p li n g n ea r th e m o u th . B el o w t h e sa m p li n g p o in t a C S O i s th o u gh t to i m p ai r u se s in t h e lo w er h al f- m il e (o r 5 % ) o f th is 9 .2 m il e se gm en t. A r es to ra ti o n st ra te gy /T M D L f o r th is p o rt io n o f th is s eg m en t w il l b e ad d re ss ed i n t h e la rg er C S O s tr at eg y/ T M D L f o r th e M o h aw k R iv er ( 1 2 0 1 -0 0 9 3 )/ U ti ca H ar b o r (1 2 0 1 -0 2 2 8 ) se gm en ts . A r es to ra ti o n s tr at eg y/ T M D L f o r th is s eg m en t w il l b e d ev el o p ed i n c o n ju n ct io n w it h t h e S ch o h ar ie R es er vo ir s tr at eg y/ T M D L . 9 4 P a rt 1 - I n d iv id u al W at er b o d y S eg m en ts w it h I m p a ir m en t R eq u ir in g T M D L ( co n ’t ) M o h aw k R iv er D ra in ag e B as in H -2 4 0 ( p o rt io n 1 2 ) M o h aw k R iv er , M ai n S te m ( 1 2 0 1 -0 0 9 3 ) H er ki m er R iv er C F lo at ab le s C S O s, U rb an , In d /M u n ic 2 0 0 4 8 P at h o ge n s C S O s, U rb an , In d /M u n ic 2 0 0 4 D .O ./ O xy ge n D em an d C S O s, U rb an , In d /M u n ic 2 0 0 4 H -2 4 0 ( p o rt io n 1 2 b ) U ti ca H ar b o r (1 2 0 1 -0 2 2 8 ) O n ei d a B ay C F lo at ab le s C S O s, U rb an , In d /M u n ic 2 0 0 4 P at h o ge n s C S O s, U rb an , In d /M u n ic 2 0 0 4 D .O ./ O xy ge n D em an d C S O s, U rb an , In d /M u n ic 2 0 0 4 H -2 4 0 ( p o rt io n 1 3 ) M o h aw k R iv er , M ai n S te m ( 1 2 0 1 -0 0 1 0 ) O n ei d a R iv er B F lo at ab le s C S O s, U rb an , In d /M u n ic 2 0 0 4 P at h o ge n s C S O s, U rb an , In d /M u n ic 2 0 0 4 D .O ./ O xy ge n D em an d C S O s, U rb an , In d /M u n ic 2 0 0 4 H -2 4 0 - 1 1 -P 4 9 6 /P 4 9 8 * A n n L ee ( S h ak er s) P o n d , S tu m p P o n d ( 1 2 0 1 -0 0 9 6 ) A lb an y L ak e C P h o sp h o ru s U rb an R u n o ff 1 9 9 8 H -2 4 0 - 2 2 -P 5 1 9 C o ll in s L ak e (1 2 0 1 -0 0 7 7 ) S ch en ec ta d y L ak e B P h o sp h o ru s U rb an R u n o ff 2 0 0 4 H -2 4 0 - 8 2 -P 6 3 8 a S ch o h ar ie R es er vo ir ( 1 2 0 2 -0 0 1 2 ) G re en e L ak e( R ) A A (T S ) S il t/ S ed im en t S tr ea m b an k E ro si o n 1 9 9 8 H -2 4 0 - 8 2 - 6 3 C o b le sk il l C re ek , L o w er , an d t ri b s (1 2 0 2 -0 0 1 9 ) S ch o h ar ie R iv er C P at h o ge n s O n -S it e W T S 2 0 0 4 H -2 4 0 - 8 2 - 6 3 -1 9 -9 -P 5 8 9 E n gl ev il le P o n d ( 1 2 0 2 -0 0 0 9 ) S ch o h ar ie L ak e A P h o sp h o ru s A gr ic u lt u re 2 0 0 4 H -2 4 0 - 8 2 -1 0 4 -P 6 2 9 * S u m m it L ak e (1 2 0 2 -0 0 1 4 ) S ch o h ar ie L ak e B P h o sp h o ru s O n -S it e W T S 2 0 0 4 H -2 4 0 -1 8 7 - S te el e C re ek t ri b s (1 2 0 1 -0 1 9 7 ) H er ki m er R iv er A (T S ) P h o sp h o ru s A gr ic , S tr ea m E ro si o n 2 0 0 4 S il t/ S ed im en t A gr ic , S tr ea m E ro si o n 2 0 0 4 H -2 4 0 -2 1 1 ,2 1 4 B al lo u , N ai l C re ek s (1 2 0 1 -0 2 0 3 ) O n ei d a R iv er C D .O ./ O xy ge n D em an d C S O s, U rb an R u n o ff 2 0 0 4 P h o sp h o ru s C S O s, U rb an R u n o ff 2 0 0 4 H -2 4 0 -2 2 7 N in em il e C re ek , L o w er , an d t ri b s (1 2 0 1 -0 0 1 4 ) O n ei d a R iv er B (T ) P at h o ge n s O n -S it e W T S 2 0 0 4 L o w er H u d so n R iv er D ra in ag e B as in H - 4 S aw M il l R iv er ( 1 3 0 1 -0 0 0 7 ) W es tc h es te r R iv er va ri o u s F lo at ab le s U rb an R u n o ff 1 9 9 8 H - 3 1 -P 4 4 -2 4 -P 8 9 -1 0 -P 9 3 P ea ch L ak e (1 3 0 2 -0 0 0 4 ) W es tc h es te r L ak e B P at h o ge n s O n -s it e W T S 2 0 0 2 P h o sp h o ru s O n -s it e W T S 1 9 9 8 H - 5 5 - 8 -P 1 7 5 * O sc aw an a L ak e (1 3 0 1 -0 0 3 5 ) P u tn am L ak e A P h o sp h o ru s O n -s it e W T S , U rb an 2 0 0 2 H - 9 5 -1 0 -P 3 4 5 g H il ls id e L ak e (1 3 0 4 -0 0 0 1 ) D u tc h es s L ak e B P h o sp h o ru s O n -s it e W T S 2 0 0 2 H -1 7 1 -P 8 4 8 A sh o ka n R es er vo ir ( 1 3 0 7 -0 0 0 4 ) U ls te r L ak e( R ) A A (T ) S il t/ S ed im en t S tr ea m b an k E ro si o n 2 0 0 2 H -1 7 1 -P 8 4 8 - E so p u s C re ek , U p p ( 1 3 0 7 -0 0 0 7 ) U ls te r R iv er A (T ) S il t/ S ed im en t S tr ea m b an k E ro si o n 1 9 9 8 9 H -2 0 2 -P 8 f S le ep y H o ll o w L ak e (1 3 0 1 -0 0 5 9 ) G re en e L ak e A S il t/ S ed im en t S tr ea m b an k E ro si o n 2 0 0 2 H -2 0 4 - 2 - 7 -P 2 4 K in d er h o o k L ak e (1 3 1 0 -0 0 0 2 ) C o lu m b ia L ak e B P h o sp h o ru s A gr ic , O n -s it e W T S 2 0 0 2 H -2 3 5 -1 1 -P 3 7 7 S n yd er s L ak e (1 3 0 1 -0 0 4 3 ) R en ss el ae r L ak e B P h o sp h o ru s O xy ge n D em /S ed . 2 0 0 2 A D D 02 7 N ew Y or k S ta te F in a l 20 08 S ec ti on 3 03 (d ) L is t M ay 2 6, 2 00 8 W at er I n d ex N u m b er W at er b od y N am e (W I/ P W L I D ) C ou n ty T yp e C la ss C au se /P ol lu ta n t S ou rc e Y ea r A N ew Y or k C it y C S O A ba te m en t P ro gr am a nd N Y C D E P C at ch B as in H oo di n g P ro gr am a re i n p la ce . S im il ar e ff or ts t o a dd re ss f lo at ab le s fr om N ew J er se y ar e ne ce ss ar y to r es to re w at er u se s. 1 0 5 P a rt 1 - I n d iv id u al W at er b o d y S eg m en ts w it h I m p a ir m en t R eq u ir in g T M D L (c o n ’t ) A tl an ti c O ce an /L o n g Is la n d S o u n d D ra in ag e B as in (M W 1 .2 ) S I (p o rt io n 1 ) * A rt h u r K il l, C la ss I , an d m in o r tr ib s (1 7 0 1 -0 0 1 0 ) R ic h m o n d E st u ar y I F lo at ab le s U rb an /S to rm /C S O 2 0 0 2 1 0 (M W 1 .2 ) S I (p o rt io n 3 ) * N ew ar k B ay ( 1 7 0 1 -0 1 8 3 ) R ic h m o n d E st u ar y S D F lo at ab le s U rb an /S to rm /C S O 2 0 0 2 1 0 (M W 1 .2 ) S I (p o rt io n 4 ) * K il l V an K u ll ( 1 7 0 1 -0 1 8 4 ) R ic h m o n d E st u ar y S D F lo at ab le s U rb an /S to rm /C S O 2 0 0 2 1 0 (M W 1 .2 ) S I. .P 1 0 3 9 ,P 1 0 5 1 ,P 1 0 5 3 G ra ss m er e, A rb u tu s an d W o lf es L ak es ( 1 7 0 1 -0 3 5 7 ) R ic h m o n d L ak e B P h o sp h o ru s O n -s it e W T S , U rb an 2 0 0 2 (M W 2 .3 ) E R -1 -5 -P 1 0 4 3 V an C o rt la n d t L ak e (1 7 0 2 -0 0 0 8 ) B ro n x L ak e B P h o sp h o ru s U rb an R u n o ff 2 0 0 2 (M W 2 .4 ) E R -3 B ro n x R iv er , U p p er , an d t ri b s (1 7 0 2 -0 1 0 7 ) W es tc h es te r R iv er C D .O ./ O xy ge n D em an d U rb /S to rm R u n o ff 2 0 0 2 P at h o ge n s U rb /S to rm R u n o ff 2 0 0 4 (M W 3 .1 ) L IS ( p o rt io n 2 a) * L ar ch m o n t H ar b o r (1 7 0 2 -0 1 1 6 ) W es tc h es te r E st u ar y S B F lo at ab le s U rb /S to rm , M u n ic ip l 2 0 0 2 P at h o ge n s U rb /S to rm , M u n ic ip l 2 0 0 2 (M W 3 .2 ) L IS - 2 H u tc h in so n R iv er , M id d le , an d t ri b s (1 7 0 2 -0 0 7 4 ) W es tc h es te r R iv er B O il /G re as e U rb /S to rm , In d u st r 2 0 0 2 D .O ./ O xy ge n D em an d U rb /S to rm , In d u st r 2 0 0 2 P at h o ge n s U rb /S to rm , In d u st r 2 0 0 2 (M W 3 .3 ) L IS ( p o rt io n 2 b ) * M am ar o n ec k H ar b o r (1 7 0 2 -0 1 2 5 ) W es tc h es te r E st u ar y S B F lo at ab le s U rb /S to rm , M u n ic ip l 2 0 0 2 P at h o ge n s U rb /S to rm , M u n ic ip l 2 0 0 2 (M W 3 .3 ) L IS - 8 M am ar o n ec k R iv er , L o w er ( 1 7 0 2 -0 0 7 1 ) W es tc h es te r R iv er S C D .O ./ O xy ge n D em an d U rb /S to rm R u n o ff 2 0 0 2 S il t/ S ed im en t U rb /S to rm R u n o ff 2 0 0 2 (M W 3 .3 ) L IS - 8 M am ar o n ec k R iv er , U p p , & m in o r tr ib s (1 7 0 2 -0 1 2 3 ) W es tc h es te r R iv er C D .O ./ O xy ge n D em an d U rb /S to rm R u n o ff 2 0 0 2 S il t/ S ed im en t U rb /S to rm R u n o ff 2 0 0 2 (M W 3 .3 ) L IS - 8 - 1 S h el d ra ke R iv er ( 1 7 0 2 -0 0 6 9 ) W es tc h es te r R iv er C P h o sp h o ru s U rb /S to rm R u n o ff 2 0 0 2 S il t/ S ed im n t U rb /S to rm R u n o ff 2 0 0 2 (M W 3 .4 ) L IS ( p o rt io n 2 c) * M il to n H ar b o r (1 7 0 2 -0 0 6 3 ) W es tc h es te r E st u ar y S B F lo at ab le s U rb /S to rm , M u n ic ip l 2 0 0 2 P at h o ge n s U rb /S to rm , M u n ic ip l 2 0 0 2 (M W 3 .4 ) L IS -1 1 B li n d B ro o k, L o w er ( 1 7 0 2 -0 0 6 2 ) W es tc h es te r R iv er S C S il t/ S ed im en t U rb /S to rm R u n o ff 2 0 0 2 (M W 3 .4 ) L IS -1 1 B li n d B ro o k, U p p er , an d t ri b s (1 7 0 2 -0 1 3 0 ) W es tc h es te r R iv er C S il t/ S ed im en t U rb /S to rm R u n o ff 2 0 0 2 (M W 3 .6 ) L IS ( p o rt io n 2 d ) * P o rt C h es te r H ar b o r (1 7 0 2 -0 2 6 0 ) W es tc h es te r E st u ar y S B F lo at ab le s U rb /S to rm , M u n ic ip l 2 0 0 2 P at h o ge n s U rb /S to rm , M u n ic ip l 2 0 0 2 (M W 4 .2 b ) L IS -M B ( p o rt io n 2 ) M an h as se t B ay , an d t id al t ri b s (1 7 0 2 -0 1 4 1 ) N as sa u E st u ar y S B P at h o ge n s U rb /S to rm R u n o ff 2 0 0 2 (M W 4 .3 a) L IS -H H H em p st ea d H ar b o r, s o u th , & t id al t ri b s (1 7 0 2 -0 2 6 3 ) N as sa u E st u ar y S B P at h o ge n s U rb /S to rm R u n o ff 2 0 0 2 (M W 4 .3 a) L IS -H H -3 8 G le n C o ve C re ek , L o w er , an d t ri b s (1 7 0 2 -0 1 4 6 ) N as sa u E st u ar y S C P at h o ge n s U rb /S to rm , M u n /I n d 2 0 0 2 S il t/ S ed im en t U rb /S to rm , M u n /I n d 2 0 0 2 (M W 5 .3 ) L IS -6 2 -P 2 9 6 M il le rs P o n d ( 1 7 0 2 -0 0 1 3 ) S u ff o lk L ak e C D .O ./ O xy ge n D em an d U rb an /S to rm R u n o ff 2 0 0 2 P h o sp h o ru s U rb an /S to rm R u n o ff 2 0 0 2 (M W 6 .1 d ) G B ..G P B -P 4 9 5 M at ti tu ck o r M ar ra to o ka P o n d ( 1 7 0 1 -0 1 2 9 ) S u ff o lk L ak e A M et al s U rb /S to rm R u n o ff 2 0 0 2 D .O ./ O xy ge n D em an d U rb /S to rm R u n o ff 2 0 0 2 P at h o ge n s U rb /S to rm R u n o ff 2 0 0 2 P h o sp h o ru s U rb /S to rm R u n o ff 2 0 0 2 A D D 02 8 N ew Y or k S ta te F in a l 20 08 S ec ti on 3 03 (d ) L is t M ay 2 6, 2 00 8 W at er I n d ex N u m b er W at er b od y N am e (W I/ P W L I D ) C ou n ty T yp e C la ss C au se /P ol lu ta n t S ou rc e Y ea r In cl u de s U p p er F or ge R iv er , w h ic h i s th e tr ib o f p ri m ar y co n ce rn . T h e L o w er F o rg e R iv er i s in cl u d ed i n P ar t 2 c - Sh el lf is h in g W at er s p o rt io n o f th e li st . 1 1 6 P a rt 1 - I n d iv id u al W at er b o d y S eg m en ts w it h I m p a ir m en t R eq u ir in g T M D L ( co n ’t ) A tl an ti c O ce an /L o n g I sl an d S o u n d D ra in a g e B as in ( co n ’t ) (M W 7 .2 a) A O -M B -1 6 8 a th ru 1 7 5 T id al T ri b s to W es t M o ri ch es B ay ( 1 7 0 1 -0 3 1 2 ) S u ff o lk E st u ar y S C P at h o ge n s U rb /S to rm , A gr ic ,O W T S 2 0 0 6 1 1 N it ro ge n U rb /S to rm , A gr ic ,O W T S 2 0 0 6 D .O ./ O xy ge n D em an d U rb /S to rm , A gr ic ,O W T S 2 0 0 6 (M W 7 .5 ) A O -G S B -1 8 5 -P 8 8 9 C an aa n L ak e (1 7 0 1 -0 0 1 8 ) S u ff o lk L ak e B (T ) P h o sp h o ru s U rb /S to rm R u n o ff 2 0 0 2 S il t/ S ed im en t U rb /S to rm R u n o ff 2 0 0 2 (M W 7 .7 ) A O -G S B -1 9 3 .. P 3 0 4 L ak e R o n ko n ko m a (1 7 0 1 -0 0 2 0 ) S u ff o lk L ak e B P at h o ge n s U rb /S to rm R u n o ff 2 0 0 2 P h o sp h o ru s U rb /S to rm R u n o ff 2 0 0 2 (M W 7 .8 ) A O -G S B -1 9 4 C h am p li n C re ek , U p p er , an d t ri b s (1 7 0 1 -0 0 1 9 ) S u ff o lk R iv er C (T S ) T h er m al C h an ge s U rb /S to rm R u n o ff 2 0 0 2 (M W 8 .2 a) E B -2 2 4 t h ru 2 2 7 L I T ri b s, f re sh t o E as t B ay ( 1 7 0 1 -0 2 0 4 ) N as sa u R iv er C S il t/ S ed im en t U rb /S to rm R u n o ff 2 0 0 2 P h o sp h o ru s U rb /S to rm R u n o ff 2 0 0 2 (M W 8 .3 a) M D B -2 2 8 E as t M ea d o w B ro o k, U p p er , an d t ri b s (1 7 0 1 -0 2 1 1 ) N as sa u R iv er C S il t/ S ed im en t U rb /S to rm R u n o ff 2 0 0 2 (M W 8 .4 ) H B H em p st ea d B ay ( 1 7 0 1 -0 0 3 2 ) N as sa u E st u ar y S A N it ro ge n M u n ic p l, U rb /S to rm R u n o ff 2 0 0 6 (M W 8 .4 a) H B -2 3 3 -P 1 0 0 5 .. P 1 0 1 2 H em p st ea d L ak e (1 7 0 1 -0 0 1 5 ) N as sa u L ak e C P h o sp h o ru s U rb an /S to rm R u n o ff 2 0 0 2 (M W 8 .4 a) H B -2 3 5 -P 1 0 1 7 a G ra n t P ar k P o n d ( 1 7 0 1 -0 0 5 4 ) N as sa u L ak e C P h o sp h o ru s U rb an /S to rm R u n o ff 1 9 9 8 (M W 8 .5 b ) JB Ja m ai ca B ay , E as te rn , an d t ri b s, Q u ee n s (1 7 0 1 -0 0 0 5 ) Q u ee n s E st u ar y S B N it ro ge n U rb an /C S O ,M u n ic ip l 2 0 0 2 D .O ./ O xy ge n D em an d U rb an /C S O ,M u n ic ip l 2 0 0 2 (M W 8 .5 b ) JB -2 4 7 B er ge n B as in ( 1 7 0 1 -0 0 0 9 ) Q u ee n s E st u ar y I N it ro ge n U rb an /C S O ,M u n ic ip l 2 0 0 6 D .O ./ O xy ge n D em an d U rb an /C S O ,M u n ic ip l 2 0 0 2 (M W 8 .6 ) J B -2 4 9 a H en d ri x C re ek ( 1 7 0 1 -0 0 0 6 ) K in gs E st u ar y I N it ro ge n U rb an /C S O /M u n ic ip l 1 9 9 8 D .O ./ O xy ge n D em an d U rb an /C S O /M u n ic ip l 1 9 9 8 A D D 02 9 N ew Y or k S ta te F in a l 20 08 S ec ti on 3 03 (d ) L is t M ay 2 6, 2 00 8 W at er I n d ex N u m b er W at er b od y N am e (W I/ P W L I D ) C ou n ty T yp e C la ss C au se /P ol lu ta n t S ou rc e Y ea r S eg m en t in cl u d es p re vi o u sl y li st ed S o ft M ap le D am P o n d ( 0 8 0 1 -0 0 5 6 ); s eg m en t al so i n cl u d es p re vi o u sl y li st ed U n n am ed P o n d # 4 -4 3 2 ( 0 8 0 1 -0 1 0 0 ). 1 2 P re vi o u sl y li st ed a s S u n d ay C re ek ( 0 8 0 1 -0 2 1 0 ). 1 3 S eg m en t in cl u d es p re vi o u sl y li st ed U p p er W es t P o n d ( 0 8 0 1 -0 1 6 3 ). 1 4 S eg m en t in cl u d es p re vi o u sl y li st ed G o o se P o n d ( 0 8 0 1 -0 0 9 9 ). 1 5 P re vi o u sl y li st ed a s C ro o ke d L ak e (S ad ie P o n d ) (0 8 0 1 -0 1 4 4 ); s eg m en t al so i n cl u d es I ke is P o n d ( 0 8 0 1 -0 1 0 1 ) an d M cC ab e P o n d ( 0 8 0 1 -0 1 0 2 ). 1 6 P re vi o u sl y li st ed a s P ep p er b o x P o n d ( 0 8 0 1 -0 0 7 6 ); s eg m en t al so i n cl u d es p re vi o u sl y li st ed L o w er S p ri n g P o n d ( 0 8 0 1 -0 1 4 5 ). 1 7 S eg m en t in cl u d es p re vi o u sl y li st ed U n n am ed P o n d # 4 -4 5 6 a (0 8 0 1 -0 0 8 9 ), U n n am ed P o n d # 4 -4 5 7 ( 0 8 0 1 -0 1 0 4 ) an d B ea r P o n d ( 0 8 0 1 -0 1 0 5 ). 1 8 S eg m en t in cl u d es p re vi o u sl y li st ed U n n am ed P o n d # 4 -4 7 4 b ( 0 8 0 1 -0 1 4 7 ) an d U n n am ed P o n d # 4 -4 7 6 ( 0 8 0 1 -0 0 9 0 ). 1 9 P re vi o u sl y li st ed a s C ro p se y P o n d ( 0 8 0 1 -0 0 3 9 ); s eg m en t in cl u d es p re vi o u sl y li st ed U n n am ed P o n d # 4 -4 8 4 a (0 8 0 1 -0 0 9 1 ), D ee r P o n d ( 0 8 0 1 -0 1 4 8 ), U n n am ed P o n d # 4 -4 8 8 ( 0 8 0 1 -0 1 0 6 ), 2 0 U n n am ed P o n d # 4 -4 9 0 ( 0 8 0 1 -0 0 9 2 ) an d U p p er M o sh ie r P o n d ( 0 8 0 1 -0 0 9 7 ). P re vi o u sl y li st ed a s R av en L ak e (0 8 0 1 -0 1 0 7 ). 2 1 7 P ar t 2a - M u lt ip le S eg m en t/ C at eg or ic al I m p ai re d W at er b od y S eg m en ts ( at m os p h er ic d ep os it io n ) M ig h t b e ad d re ss ed b y a w a te rb o d y s p ec if ic T M D L o r a p o ll u ta n t/ so u rc e sp ec if ic T M D L o r o th er s tr at eg y t o a tt ai n w at er q u al it y s ta n d ar d s. B la ck R iv er D ra in ag e B as in O n t 1 9 - 4 0 ( p o rt io n 7 )/ P 4 3 1 ,P 4 3 4 S o ft M ap le P o n d , S o ft M ap le R es er vo ir ( 0 8 0 1 -0 1 7 3 ) L ew is L ak e C (T ) A ci d /B as e (p H ) A tm o sp h er ic D ep . 1 9 9 8 1 2 O n t 1 9 - 4 0 ( p o rt io n 1 0 ) B ea ve r R iv er , U p p er , an d t ri b s (0 8 0 1 -0 2 1 0 ) H er ki m er R iv er C (T ) A ci d /B as e (p H ) A tm o sp h er ic D ep . 2 0 0 2 1 3 O n t 1 9 - 4 0 - 7 -P 4 1 6 ,P 4 1 7 L o w er , U p p er W es t P o n d ( 0 8 0 1 -0 2 8 4 ) L ew is L ak e C (T ) A ci d /B as e (p H ) A tm o sp h er ic D ep . 1 9 9 8 1 4 O n t 1 9 - 4 0 -1 0 -4 -P 4 1 9 ,P 2 8 6 G o o se P o n d , M ei st er P o n d ( 0 8 0 1 -0 2 8 6 ) L ew is L ak e C (T ) A ci d /B as e (p H ) A tm o sp h er ic D ep . 1 9 9 8 1 5 O n t 1 9 - 4 0 -1 5 -4 -P 4 3 6 S an d P o n d ( 0 8 0 1 -0 0 5 5 ) L ew is L ak e C (T ) A ci d /B as e (p H ) A tm o sp h er ic D ep . 1 9 9 8 O n t 1 9 - 4 0 -1 8 -3 -P 4 4 1 ,P 4 4 2 C ro o ke d L ak e, M cC ab e P o n d ( 0 8 0 1 -0 1 4 4 ) H er ki m er L ak e D A ci d /B as e (p H ) A tm o sp h er ic D ep . 1 9 9 8 1 6 O n t 1 9 - 4 0 -1 8 .. P 4 4 3 t h ru P 4 4 8 P ep p er b o x P o n d , S p ri n g P o n d s, T ie d L ak e ( 0 8 0 1 -0 0 7 6 ) H er ki m er L ak e D A ci d /B as e (p H ) A tm o sp h er ic D ep . 1 9 9 8 1 7 O n t 1 9 - 4 0 -1 9 -P 4 5 6 t h ru P 4 5 9 M in o r L ak es T ri b t o T h re e M il e C r W sh ed ( 0 8 0 1 -0 4 5 3 ) H er ki m er L ak e C A ci d /B as e (p H ) A tm o sp h er ic D ep . 1 9 9 8 1 8 O n t 1 9 -4 0 -2 0 -P 4 7 3 ,P 4 7 4 S u n d ay L ak e, S u n d ay C re ek R es er vo ir ( 0 8 0 1 -0 1 9 5 ) H er ki m er L ak e C (T ) A ci d /B as e (p H ) A tm o sp h er ic D ep . 2 0 0 8 1 9 O n t 1 9 -4 0 -2 2 -P 4 7 9 t h ru P 4 9 2 M in o r L ak es T ri b t o M o sh ie r C re ek ( 0 8 0 1 -0 0 3 9 ) H er ki m er L ak e C A ci d /B as e (p H ) A tm o sp h er ic D ep . 1 9 9 8 2 0 O n t 1 9 - 4 0 -P 4 9 3 - 2 -P 4 9 4 ,P 4 9 6 S h al lo w P o n d , R av en L ak e (0 8 0 1 -0 1 0 7 ) H er ki m er L ak e D A ci d /B as e (p H ) A tm o sp h er ic D ep . 1 9 9 8 2 1 A D D 03 0 N ew Y or k S ta te F in a l 20 08 S ec ti on 3 03 (d ) L is t M ay 2 6, 2 00 8 W at er I n d ex N u m b er W at er b od y N am e (W I/ P W L I D ) C ou n ty T yp e C la ss C au se /P ol lu ta n t S ou rc e Y ea r S eg m en t al so i n cl u d es p re vi o u sl y li st ed U n n am ed P o n d # 4 -4 9 7 ( 0 8 0 1 -0 1 0 8 ). 2 2 S eg m en t al so i n cl u d es p re vi o u sl y li st ed U n n am ed P o n d # 4 -5 0 1 ( 0 8 0 1 -0 1 2 4 ). 2 3 P re vi o u sl y li st ed a s P ea ke d M tn . L ak e (0 8 0 1 -0 1 1 1 ); s eg m en t al so i n cl u d es p re vi o u sl y li st ed H id d en L ak e (0 8 0 1 -0 1 1 4 ) an d U n n am ed P o n d # 4 -5 0 6 ( 0 8 0 1 -0 1 1 2 ). 2 4 P re vi o u sl y li st ed a s G in ge r P o n d ( 0 8 0 1 -0 1 2 6 ); s eg m en t al so i n cl u d es p re vi o u sl y li st ed U n n am ed P o n d # 4 -5 1 0 ( 0 8 0 1 -0 1 1 5 ) an d S o d a P o n d ( 0 8 0 1 -0 1 1 3 ). 2 5 S eg m en t al so i n cl u d es p re vi o u sl y li st ed U n n am ed P o n d # 4 -5 1 2 ( 0 8 0 1 -0 0 9 3 ), U n n am ed P o n d # 4 -5 1 3 ( 0 8 0 1 -0 1 1 6 ) an d U n n am ed P o n d # 4 -5 1 6 ( 0 8 0 1 -0 1 1 7 ). 2 6 P re vi o u sl y li st ed a s H ig b y T w in s E . P o n d ( 0 8 0 1 -0 0 6 8 ); s eg m en t al so i n cl u d es p re vi o u sl y li st ed H ig b y T w in s W . P o n d ( 0 8 0 1 -0 0 6 9 ), M u d P o n d ( 0 8 0 1 -0 0 7 4 ), W il d er P o n d ( 0 8 0 1 -0 0 6 1 ) 2 7 U n n am ed P o n d # 4 -5 2 6 ( 0 8 0 1 -0 1 1 8 ) an d S u m m it P o n d ( 0 8 0 1 -0 0 8 4 ). P re vi o u sl y li st ed a s F ly P o n d W es t (0 8 0 1 -0 1 4 9 ). 2 8 S eg m en t in cl u d es p re vi o u sl y li st ed U n n am ed P o n d # 4 -5 6 9 ( 0 8 0 1 -0 0 2 1 ). 2 9 P re vi o u sl y li st ed a s P o ck et P o n d ( 0 8 0 1 -0 0 7 7 ). 3 0 8 P ar t 2a - M u lt ip le S eg m en t/ C at eg or ic al I m p ai re d W at er b od y S eg m en ts ( at m os p h er ic d ep os it io n ) (c o n ’t ) B la ck R iv er D ra in ag e B as in ( co n ’t ) O n t 1 9 - 4 0 -P 4 9 3 - 2 -P 4 9 8 L yo n s L ak e (0 8 0 1 -0 1 0 9 ) H er ki m er L ak e C A ci d /B as e (p H ) A tm o sp h er ic D ep . 1 9 9 8 2 2 O n t 1 9 - 4 0 -P 4 9 3 - 3 -P 4 9 9 S li m P o n d ( 0 8 0 1 -0 1 2 5 ) H er ki m er L ak e C (T ) A ci d /B as e (p H ) A tm o sp h er ic D ep . 1 9 9 8 O n t 1 9 - 4 0 -P 4 9 3 - 4 -P 5 0 0 E ve rg re en L ak e (0 8 0 1 -0 1 1 0 ) H er ki m er L ak e C (T ) A ci d /B as e (p H ) A tm o sp h er ic D ep . 1 9 9 8 2 3 O n t 1 9 - 4 0 -P 4 9 3 - 5 -P 5 0 2 /6 -P 5 0 5 P ea ke d M tn . L ak e, H id d en L ak e (0 8 0 1 -0 1 1 1 ) H er ki m er L ak e C (T ) A ci d /B as e (p H ) A tm o sp h er ic D ep . 1 9 9 8 2 4 O n t 1 9 - 4 0 -P 4 9 3 - 6 .. P 5 0 8 .P 5 1 1 G in ge r P o n d , S o d a P o n d ( 0 8 0 1 -0 1 2 6 ) H er ki m er L ak e D A ci d /B as e (p H ) A tm o sp h er ic D ep . 1 9 9 8 2 5 O n t 1 9 - 4 0 -P 4 9 3 - 6 -P 5 1 5 D is m al P o n d ( 0 8 0 1 -0 0 6 5 ) H er ki m er L ak e D A ci d /B as e (p H ) A tm o sp h er ic D ep . 1 9 9 8 2 6 O n t 1 9 - 4 0 -P 4 9 3 .. P 5 2 2 t h ru P 5 3 5 M in o r L ak es T ri b t o R ed H o rs e C re ek ( 0 8 0 1 -0 0 6 8 ) H er ki m er L ak e C (T ) A ci d /B as e (p H ) A tm o sp h er ic D ep . 1 9 9 8 2 7 O n t 1 9 - 4 0 -P 4 9 3 -1 9 -P 5 4 7 t h ru P 5 6 5 M in o r L ak es T ri b t o S h in gl e S h an ty B ro o k (0 8 0 1 -0 1 4 9 ) H am il to n L ak e C (T ) A ci d /B as e (p H ) A tm o sp h er ic D ep . 1 9 9 8 2 8 O n t 1 9 - 4 0 -P 4 9 3 -2 1 - 1 -P 5 6 8 R o se P o n d ( 0 8 0 1 -0 3 0 8 ) H am il to n L ak e C (T ) A ci d /B as e (p H ) A tm o sp h er ic D ep . 1 9 9 8 2 9 O n t 1 9 - 4 0 -P 4 9 3 -2 1 -1 -P 5 7 0 T er ro r L ak e (0 8 0 1 -0 0 1 8 ) H am il to n L ak e C (T ) A ci d /B as e (p H ) A tm o sp h er ic D ep . 1 9 9 8 O n t 1 9 - 4 0 -P 4 9 3 -2 1 -P 5 7 1 E as t P o n d ( 0 8 0 1 -0 0 6 6 ) H er ki m er L ak e C (T ) A ci d /B as e (p H ) A tm o sp h er ic D ep . 1 9 9 8 O n t 1 9 - 4 0 -P 4 9 3 -3 2 T w it ch el l C re ek a n d t ri b s (0 8 0 1 -0 2 1 1 ) H er ki m er R iv er C (T ) A ci d /B as e (p H ) A tm o sp h er ic D ep . 2 0 0 2 O n t 1 9 - 4 0 -P 4 9 3 -3 2 -P 5 7 8 t h ru 5 8 7 M in o r L ak es T ri b t o T w it ch el l C re ek ( 0 8 0 1 -0 0 7 7 ) H er ki m er L ak e C (T ) A ci d /B as e (p H ) A tm o sp h er ic D ep . 1 9 9 8 3 0 O n t 1 9 - 4 0 -P 4 9 3 -3 2 -1 5 -P 5 8 0 S il ve r L ak e (0 8 0 1 -0 1 5 0 ) H am il to n L ak e C (T ) A ci d /B as e (p H ) A tm o sp h er ic D ep . 1 9 9 8 O n t 1 9 - 4 0 -P 4 9 3 -3 2 -P 5 8 4 T w it ch el l L ak e (0 8 0 1 -0 1 6 5 ) H er ki m er L ak e A (T ) A ci d /B as e (p H ) A tm o sp h er ic D ep . 1 9 9 8 A D D 03 1 N ew Y or k S ta te F in a l 20 08 S ec ti on 3 03 (d ) L is t M ay 2 6, 2 00 8 W at er I n d ex N u m b er W at er b od y N am e (W I/ P W L I D ) C ou n ty T yp e C la ss C au se /P ol lu ta n t S ou rc e Y ea r S eg m en t in cl u d es p re vi o u sl y li st ed C o rk P o n d ( 0 8 0 1 -0 1 1 9 ), S p ec ta cl e P o n d , E as t (0 8 0 1 -0 0 8 1 ), S p ec ta cl e P o n d , W es t (0 8 0 1 -0 0 8 2 ) an d M ah an P o n d ( 0 8 0 1 -0 0 7 3 ). 3 1 P re vi o u sl y li st ed a s T ro u t P o n d ( 0 8 0 1 -0 1 2 7 ); s eg m en t al so i n cl u d es p re vi o u sl y li st ed S te w ar t P o n d ( 0 8 1 0 -0 0 8 3 ) an d B il l’ s P o n d ( 0 8 0 1 -0 1 2 8 ). 3 2 P re vi o u sl y li st ed a s P an th er P o n d ( 0 8 0 1 -0 0 7 5 ); s eg m en t al so i n cl u d es p re vi o u sl y li st ed M ik es P o n d ( 0 8 0 1 -0 1 2 0 ), F if th C re ek P o n d ( 0 8 0 1 -0 0 4 2 ), U n n am ed P o n d # 4 -6 3 6 ( 0 8 0 1 -0 1 2 1 ), 3 3 U n n am ed P o n d # 4 -6 3 8 ( 0 8 0 1 -0 0 9 4 ) an d B lu e P o n d ( 0 8 0 1 -0 1 5 1 ). S eg m en t in cl u d es p re vi o u sl y li st ed U n n am ed P o n d # 4 -6 4 5 ( 0 8 0 1 -0 1 5 2 ) an d U n n am ed P o n d # 4 -6 4 6 ( 0 8 1 0 -0 1 2 2 ). 3 4 P re vi o u sl y li st ed a s E as t P o n d ( 0 8 0 1 -0 0 4 1 ); s eg m en t in cl u d es p re vi o u sl y li st ed W es t P o n d ( 0 8 0 1 -0 1 3 6 ), U n n am ed P o n d # 4 -6 7 9 ( 0 8 0 1 -0 1 2 3 ) an d B la ck F o o t P o n d ( 0 8 0 1 -0 0 6 4 ). 3 5 S eg m en t in cl u d es p re vi o u sl y li st ed B ra d le y B ro o k (0 8 0 1 -0 2 0 8 ) an d C el la r B ro o k (0 8 0 1 -0 2 1 7 ). 3 6 P re vi o u sl y li st ed a s L o st L ak e (0 8 0 1 -0 0 7 2 ). 3 7 S eg m en t in cl u d es p re vi o u sl y li st ed B al d M o u n ta in B ro o k (0 8 0 1 -0 2 0 9 ). 3 8 S eg m en t in cl u d es p re vi o u sl y li st ed U n n am ed P o n d # 4 -7 3 7 ( 0 8 0 1 -0 1 5 4 ). 3 9 P re vi o u sl y li st ed a s C o n st ab le C re ek ( 0 8 0 1 -0 2 1 3 ). 4 0 P re vi o u sl y li st ed a s M er ri am L ak e (0 8 0 1 -0 0 5 0 ); s eg m en t in cl u d es p re vi o u sl y li st ed S q u as h P o n d ( 0 8 0 1 -0 1 5 5 ), S il ve r D o ll ar P o n d ( 0 8 0 1 -0 0 7 9 ), G u ll L ak e S o u th ( 0 8 0 1 -0 0 1 3 ), U n n am ed P o n d 4 1 # 4 -7 5 9 ( 0 8 0 1 -0 0 2 2 ) U n n am ed P o n d # 4 -7 6 5 ( 0 8 0 1 -0 0 2 3 ), U n n am ed P o n d # 4 -7 6 6 ( 0 8 0 1 -0 0 2 4 ) an d N o rt h G u ll L ak e (0 8 0 1 -0 0 0 5 ). 9 P ar t 2a - M u lt ip le S eg m en t/ C at eg or ic al I m p ai re d W at er b od y S eg m en ts ( at m os p h er ic d ep os it io n ) (c o n ’t ) B la ck R iv e r D ra in a g e B as in ( co n ’t ) O n t 1 9 - 5 7 - 5 -P 6 0 8 ,P 6 1 0 ,P 6 1 5 E vi es P o n d , L o n g L ak e, F is h P o n d ( 0 8 0 1 -0 3 2 3 ) L ew is L ak e C A ci d /B as e (p H ) A tm o sp h er ic D ep . 1 9 9 8 3 1 O n t 1 9 - 5 7 - 7 -P 6 2 8 ,P 6 3 0 T ro u t P o n d , B il l's P o n d ( 0 8 0 1 -0 1 2 7 ) L ew is L ak e D A ci d /B as e (p H ) A tm o sp h er ic D ep . 1 9 9 8 3 2 O n t 1 9 - 5 7 - 9 -2 -P 6 3 2 ,P 6 3 5 ,P 6 3 8 P an th er , F if th C re ek , L en n o n P o n d s (0 8 0 1 -0 0 7 5 ) L ew is L ak e C (T ) A ci d /B as e (p H ) A tm o sp h er ic D ep . 1 9 9 8 3 3 O n t 1 9 - 5 7 -2 3 -P 6 4 7 In d ep en d en ce L ak e (0 8 0 1 -0 3 2 7 ) H er ki m er L ak e C (T ) A ci d /B as e (p H ) A tm o sp h er ic D ep . 1 9 9 8 3 4 O n t 1 9 - 5 7 -P 6 5 1 L it tl e D ia m o n d P o n d ( 0 8 0 1 -0 1 5 3 ) H am il to n L ak e C (T ) A ci d /B as e (p H ) A tm o sp h er ic D ep . 1 9 9 8 O n t 1 9 - 6 0 -P 6 7 4 t h ru P 6 8 4 M in o r L ak es T ri b t o U p p er O tt er C re ek ( 0 8 0 1 -0 0 4 1 ) H er ki m er L ak e C (T ) A ci d /B as e (p H ) A tm o sp h er ic D ep . 1 9 9 8 3 5 O n t 1 9 - 8 1 S o u th B r. M o o se R iv er , U p p er , an d t ri b s (0 8 0 1 -0 3 4 6 ) H am il to n R iv er C (T ) A ci d /B as e (p H ) A tm o sp h er ic D ep . 1 9 9 8 3 6 O n t 1 9 - 8 1 - 7 - 1 .. P 7 0 2 t h ru P 7 0 8 M in o r L ak es T ri b t o U p p er P in e C re ek ( 0 8 0 1 -0 0 7 2 ) L ew is L ak e C (T ) A ci d /B as e (p H ) A tm o sp h er ic D ep . 1 9 9 8 3 7 O n t 1 9 - 8 1 -1 8 -1 7 N o rt h B ra n ch M o o se R iv er a n d t ri b s (0 8 0 1 -0 2 1 2 ) H er ki m er R iv er C (T ) A ci d /B as e (p H ) A tm o sp h er ic D ep . 2 0 0 2 3 8 O n t 1 9 - 8 1 -1 8 -1 7 -1 4 -P 7 3 6 .. P 7 3 8 T h ir st y P o n d ( 0 8 0 1 -0 1 5 4 ) H am il to n L ak e C (T ) A ci d /B as e (p H ) A tm o sp h er ic D ep . 1 9 9 8 3 9 O n t 1 9 - 8 1 -1 8 -1 7 -P 7 5 2 B ig M o o se L ak e (0 8 0 1 -0 0 3 5 ) H er ki m er L ak e A (T ) A ci d /B as e (p H ) A tm o sp h er ic D ep . 2 0 0 2 O n t 1 9 - 8 1 -1 8 -1 7 -P 7 5 2 - T ri b s to B ig M o o se L ak e (0 8 0 1 -0 2 1 3 ) H er ki m er R iv er C (T ) A ci d /B as e (p H ) A tm o sp h er ic D ep . 2 0 0 2 4 0 O n t 1 9 - 8 1 -1 8 -1 7 .. P 7 5 3 t o P 7 6 7 M in o r L ak es T ri b t o B ig M o o se L ak e, N W ( 0 8 0 1 -0 0 5 0 ) H am il to n L ak e A A A ci d /B as e (p H ) A tm o sp h er ic D ep . 1 9 9 8 4 1 A D D 03 2 N ew Y or k S ta te F in a l 20 08 S ec ti on 3 03 (d ) L is t M ay 2 6, 2 00 8 W at er I n d ex N u m b er W at er b od y N am e (W I/ P W L I D ) C ou n ty T yp e C la ss C au se /P ol lu ta n t S ou rc e Y ea r P re vi o u sl y li st ed a s L o w er S is te r L ak e (0 8 0 1 -0 0 0 4 ). 4 2 S eg m en t in cl u d es p re vi o u sl y li st ed U n n am ed P o n d # 4 -7 7 1 ( 0 8 0 1 -0 1 5 6 ) an d U n n am ed P o n d # 4 -7 7 3 ( 0 8 0 1 -0 0 3 2 ). 4 3 P re vi o u sl y li st ed a s P ig eo n L ak e (0 8 0 1 -0 0 1 7 ); s eg m en t al so i n cl u d es p re vi o u sl y li st ed P u g H o le P o n d ( 0 8 0 1 -0 0 3 3 ). 4 4 P re vi o u sl y li st ed a s S ev en th L ak e In le t (0 8 0 1 -0 2 0 7 ); s eg m en t al so i n cl u d es B u ck C re ek ( 0 8 0 1 -0 2 1 5 ) an d W h ee le r C re ek ( 0 0 1 -0 2 1 6 ). 4 5 S eg m en t al so i n cl u d es p re vi o u sl y li st ed U n n am ed P o n d # 4 -7 9 2 ( 0 8 0 1 -0 0 3 1 ). 4 6 P re vi o u sl y li st ed a s B al sa m L ak e (0 8 0 1 -0 0 3 4 ). 4 7 P re vi o u sl y li st ed a s U n n am ed P o n d # 4 -8 4 1 ( 0 8 0 1 -0 1 3 1 ); s eg m en t al so i n cl u d es p re vi o u sl y li st ed U n n am ed P o n d # 4 -8 4 0 ( 0 8 0 1 -0 1 3 0 ) an d U n n am ed P o n d # 4 -8 4 6 ( 0 8 0 1 -0 0 9 5 ). 4 8 S eg m en t al so i n cl u d es p re vi o u sl y li st ed U n n am ed P o n d # 4 -8 5 1 ( 0 8 0 1 -0 1 4 1 ) an d M u sk ra t P o n d ( 0 8 0 1 -0 0 1 5 ). 4 9 P re vi o u sl y li st ed a s M o u n ta in L ak e (0 8 0 1 -0 0 5 2 ); s eg m en t in cl u d es p re vi o u sl y li st ed U n n am ed P o n d # 4 -8 5 6 ( 0 8 0 1 -0 0 2 6 ), U n n am ed P o n d # 4 -8 5 7 a (0 8 0 1 -0 1 3 2 ), U n n am ed P o n d # 4 -8 5 8 ( 0 8 0 1 - 5 0 0 0 9 6 ), T w in L ak e L o w er ( 0 8 0 1 -0 1 3 3 ), T w in L ak e U p p er ( 0 8 0 1 -0 0 8 5 ), L it tl e D ee r L ak e (0 8 0 1 -0 0 7 1 ) an d U n n am ed P o n d # 4 -8 6 3 ( 0 8 0 1 -0 1 5 8 ). P re vi o u sl y li st ed a s D ee p L ak e (0 8 0 1 -0 0 1 0 ); s eg m en t al so i n cl u d es p re vi o u sl y li st ed U n n am ed P o n d # 4 -8 6 4 a (0 8 0 1 -0 0 2 7 ), T w in L ak e W es t (0 8 0 1 -0 0 3 0 ), T w in L ak e W es t (0 8 0 1 -0 0 2 0 ), T w in 5 1 L ak e E as t (0 8 0 1 -0 0 1 9 ), U n n am ed P o n d # 4 -8 7 1 ( 0 8 0 1 -0 1 5 9 ), U n n am ed P o n d # 4 -8 7 2 ( 0 8 0 1 -0 0 2 8 ), W o lf L ak e (0 8 0 1 -0 0 2 5 ), N o rt h ru p L ak e (0 8 0 1 -0 1 6 0 ). 10 P ar t 2a - M u lt ip le S eg m en t/ C at eg or ic al I m p ai re d W at er b od y S eg m en ts ( at m os p h er ic d ep os it io n ) (c o n ’t ) B la ck R iv e r D ra in a g e B as in ( co n ’t ) O n t 1 9 - 8 1 -1 8 -1 7 -P 7 5 2 -7 .. P 7 6 0 O tt er P o n d ( 0 8 0 1 -0 0 1 6 ) H am il to n L ak e C (T ) A ci d /B as e (p H ) A tm o sp h er ic D ep . 1 9 9 8 O n t 1 9 - 8 1 -1 8 -1 7 -P 7 5 2 -7 -P 7 6 8 ,P 7 6 9 L o w er , U p p er S is te r L ak es ( 0 8 0 1 -0 0 0 4 ) H am il to n L ak e C (T ) A ci d /B as e (p H ) A tm o sp h er ic D ep . 1 9 9 8 4 2 O n t 1 9 - 8 1 -1 8 -1 7 -P 7 5 2 .. P 7 7 2 S o u th P o n d ( 0 8 0 1 -0 0 5 7 ) H er ki m er L ak e C (T ) A ci d /B as e (p H ) A tm o sp h er ic D ep . 1 9 9 8 4 3 O n t 1 9 - 8 1 -1 8 -1 7 -P 7 7 5 t o P 7 7 9 M in o r L ak es T ri b t o B ig M o o se L ak e, S E ( 0 8 0 1 -0 0 1 7 ) H am il to n L ak e C (T ) A ci d /B as e (p H ) A tm o sp h er ic D ep . 1 9 9 8 4 4 O n t 1 9 - 8 1 -1 8 -1 7 -P 7 5 2 -9 -P 7 7 7 C o n st ab le P o n d ( 0 8 0 1 -0 2 1 4 ) H er ki m er R iv er C (T ) A ci d /B as e (p H ) A tm o sp h er ic D ep . 2 0 0 2 O n t 1 9 - 8 1 -1 8 -P 7 9 2 d .. P 7 8 7 a- 2 T ri b s to F u lt o n C h ai n L ak es ( 0 8 0 1 -0 2 0 7 ) H am il to n R iv er C (T ) A ci d /B as e (p H ) A tm o sp h er ic D ep . 2 0 0 2 4 5 O n t 1 9 - 8 1 -1 8 -P 7 8 2 d .. .P 7 8 8 E ag le s N es t L ak e (0 8 0 1 -0 0 1 1 ) H am il to n L ak e C (T ) A ci d /B as e (p H ) A tm o sp h er ic D ep . 1 9 9 8 4 6 O n t 1 9 - 8 1 -5 1 - 2 -P 8 3 6 ,P 8 3 7 S ti n k L ak e, B al sa m L ak e (0 8 0 1 -0 0 3 4 ) H er ki m er L ak e C (T ) A ci d /B as e (p H ) A tm o sp h er ic D ep . 1 9 9 8 4 7 O n t 1 9 - 8 1 -5 2 -P 8 4 1 K et tl e P o n d ( 0 8 0 1 -0 1 3 1 ) H er ki m er L ak e C (T ) A ci d /B as e (p H ) A tm o sp h er ic D ep . 1 9 9 8 4 8 O n t 1 9 - 8 1 -5 8 -5 -P 8 5 2 In d ia n L ak e (0 8 0 1 -0 0 0 2 ) H am il to n L ak e C (T ) A ci d /B as e (p H ) A tm o sp h er ic D ep . 1 9 9 8 4 9 O n t 1 9 - 8 1 -5 8 -1 2 -P 8 5 4 ,P 8 5 5 H o rn L ak e, M o u n ta in L ak e (0 8 0 1 -0 0 5 2 ) H er ki m er L ak e C (T ) A ci d /B as e (p H ) A tm o sp h er ic D ep . 1 9 9 8 5 0 O n t 1 9 - 8 1 -5 8 -2 2 -2 -3 -P 8 6 2 t o P 8 7 5 M in o r L ak es T ri b t o I n d ia n R iv er ( 0 8 0 1 -0 0 1 0 ) H am il to n L ak e C (T ) A ci d /B as e (p H ) A tm o sp h er ic D ep . 1 9 9 8 5 1 O n t 1 9 - 8 1 -5 8 -2 5 -P 8 7 4 B ro o k T ro u t L ak e (0 8 0 1 -0 0 0 9 ) H am il to n L ak e C (T ) A ci d /B as e (p H ) A tm o sp h er ic D ep . 1 9 9 8 A D D 03 3 N ew Y or k S ta te F in a l 20 08 S ec ti on 3 03 (d ) L is t M ay 2 6, 2 00 8 W at er I n d ex N u m b er W at er b od y N am e (W I/ P W L I D ) C ou n ty T yp e C la ss C au se /P ol lu ta n t S ou rc e Y ea r P re vi o u sl y li st ed a s B ea r P o n d ( 0 8 0 1 -0 0 2 9 ). 5 2 S eg m en t in cl u d es p re vi o u sl y li st ed J im m y P o n d ( 0 8 0 1 -0 0 1 4 ). 5 3 S eg m en t w as p re vi o u sl y in cl u d ed i n A p p en d ix A o f S m al le r L ak es . 5 4 S eg m en t in cl u d es p re vi o u sl y li st ed U n n am ed P o n d # 4 -9 0 6 ( 0 8 0 1 -0 1 3 7 ). 5 5 S eg m en t in cl u d es p re vi o u sl y li st ed U n n am ed P o n d # 4 -9 4 6 ( 0 8 0 1 -0 1 6 2 ). 5 6 P re vi o u sl y li st ed a s L il y L ak e (0 8 0 1 -0 0 7 0 ). 5 7 P re vi o u sl y li st ed a s B u rp L ak e (0 8 0 1 -0 1 3 9 ); s eg m en t al so i n cl u d es p re vi o u sl y li st ed C o tt o n L ak e (0 8 0 1 -0 1 3 8 ). 5 8 P re vi o u sl y li st ed a s S n yd er L ak e (0 8 0 1 -0 0 8 0 ); s eg m en t in cl u d es p re vi o u sl y li st ed U n n am ed P o n d # 3 -1 0 1 6 ( 0 8 0 1 -0 1 2 9 ). 5 9 11 P ar t 2a - M u lt ip le S eg m en t/ C at eg or ic al I m p ai re d W at er b od y S eg m en ts ( at m os p h er ic d ep os it io n ) (c o n ’t ) B la ck R iv e r D ra in a g e B as in ( co n ’t ) O n t 1 9 - 8 1 -6 0 .. P 8 7 6 t h ru P 8 8 0 M in o r L ak es T ri b t o B en ed ic t C re ek ( 0 8 0 1 -0 0 2 9 ) H am il to n L ak e C (T ) A ci d /B as e (p H ) A tm o sp h er ic D ep . 1 9 9 8 5 2 O n t 1 9 - 8 1 -6 1 - 4 -P 8 8 5 F al ls P o n d ( 0 8 0 1 -0 3 9 9 ) H am il to n L ak e C (T ) A ci d /B as e (p H ) A tm o sp h er ic D ep . 1 9 9 8 5 3 O n t 1 9 - 8 1 -6 9 -P 8 8 8 S ly P o n d ( 0 8 0 1 -0 0 0 7 ) H am il to n L ak e C A ci d /B as e (p H ) A tm o sp h er ic D ep . 1 9 9 8 O n t 1 9 - 8 1 -7 1 - 2 -1 -P 8 8 9 C el la r P o n d ( 0 8 0 1 -0 0 0 1 ) H am il to n L ak e C (T ) A ci d /B as e (p H ) A tm o sp h er ic D ep . 1 9 9 8 5 4 O n t 1 9 - 8 8 -P 9 0 5 B ar n es L ak e (0 8 0 1 -0 1 3 4 ) L ew is L ak e C (T ) A ci d /B as e (p H ) A tm o sp h er ic D ep . 1 9 9 8 O n t 1 9 - 8 8 -P 9 0 7 R o u n d P o n d ( 0 8 0 1 -0 4 0 7 ) L ew is L ak e C (T ) A ci d /B as e (p H ) A tm o sp h er ic D ep . 1 9 9 8 5 5 O n t 1 9 -1 0 4 - 2 - 5 -P 9 4 8 D ea d L ak e (0 8 0 1 -0 4 2 7 ) H er ki m er L ak e C A ci d /B as e (p H ) A tm o sp h er ic D ep . 1 9 9 8 5 6 O n t 1 9 -1 0 4 -2 -P 9 5 1 ,- 1 -P 9 5 2 L it tl e W o o d h u ll L ak e, L il y L ak e (0 8 0 1 -0 0 7 0 ) H er ki m er L ak e C (T ) A ci d /B as e (p H ) A tm o sp h er ic D ep . 1 9 9 8 5 7 O n t 1 9 -1 1 4 -P 9 9 5 ,P 9 9 6 B u rp L ak e, B la ck C re ek L ak e (0 8 0 1 -0 1 3 9 ) H er ki m er L ak e C (T ) A ci d /B as e (p H ) A tm o sp h er ic D ep . 1 9 9 8 5 8 O n t 1 9 -1 2 8 -6 -P 1 0 0 3 L it tl e S al m o n L k. ( 0 8 0 1 -0 1 4 0 ) H er ki m er L ak e C (T ) A ci d /B as e (p H ) A tm o sp h er ic D ep . 1 9 9 8 O n t 1 9 -P 1 0 0 7 -1 0 -3 -P 1 0 0 8 t o P 1 0 1 6 M in o r L ak es T ri b t o N o rt h L ak e (0 8 0 1 -0 0 8 0 ) H er ki m er L ak e C (T ) A ci d /B as e (p H ) A tm o sp h er ic D ep . 1 9 9 8 5 9 S ai n t L aw re n ce R iv er D ra in ag e B as in S L C -2 9 -P 0 6 5 W o lf P o n d ( 0 9 0 2 -0 0 0 6 ) F ra n kl in L ak e B A ci d /B as e (p H ) A tm o sp h er ic D ep . 1 9 9 8 S L C -3 2 - 6 -2 6 -P 0 7 9 D ia m o n d P o n d ( 0 9 0 2 -0 0 1 1 ) F ra n kl in L ak e D A ci d /B as e (p H ) A tm o sp h er ic D ep . 1 9 9 8 S L C -3 2 -2 0 -4 1 -P 1 0 1 L o w er T w in P o n d ( 0 9 0 2 -0 0 4 5 ) E ss ex L ak e C (T ) A ci d /B as e (p H ) A tm o sp h er ic D ep . 1 9 9 8 S L C -3 2 -6 7 - 2 -P 2 2 1 B en z P o n d ( 0 9 0 2 -0 0 2 1 ) E ss ex L ak e D A ci d /B as e (p H ) A tm o sp h er ic D ep . 1 9 9 8 S L - 1 -0 4 6 -P 0 3 1 Jo e In d ia n L ak e (0 9 0 3 -0 0 6 0 ) S t. L aw re n ce L ak e C (T ) A ci d /B as e (p H ) A tm o sp h er ic D ep . 1 9 9 8 S L - 1 -P 0 8 5 - 1 -P 8 7 G u ll P o n d ( 0 9 0 3 -0 0 6 1 ) F ra n kl in L ak e C A ci d /B as e (p H ) A tm o sp h er ic D ep . 1 9 9 8 S L - 1 -P 1 0 9 -1 1 -2 -4 -1 -2 -P 1 1 6 L o st P o n d ( 0 9 0 3 -0 0 5 7 ) H am il to n L ak e D A ci d /B as e (p H ) A tm o sp h er ic D ep . 1 9 9 8 S L - 1 -P 1 0 9 -1 1 -2 -P 1 1 8 .. .P 1 2 9 R o ck P o n d , P -1 2 9 ( 0 9 0 3 -0 0 0 3 ) H am il to n L ak e B (T ) A ci d /B as e (p H ) A tm o sp h er ic D ep . 1 9 9 8 A D D 03 4 N ew Y or k S ta te F in a l 20 08 S ec ti on 3 03 (d ) L is t M ay 2 6, 2 00 8 W at er I n d ex N u m b er W at er b od y N am e (W I/ P W L I D ) C ou n ty T yp e C la ss C au se /P ol lu ta n t S ou rc e Y ea r S eg m en t in cl u d es p re vi o u sl y li st ed S t. G er m ai n P o n d ( P 2 0 1 ). 6 0 S eg m en t in cl u d es p re vi o u sl y li st ed E as t C o p p er as P o n d ( P 2 3 4 ). 6 1 12 P ar t 2a - M u lt ip le S eg m en t/ C at eg or ic al I m p ai re d W at er b od y S eg m en ts ( at m os p h er ic d ep os it io n ) (c o n ’t ) S ai n t L aw re n ce R iv e r D ra in a g e B as in ( co n ’t ) S L - 1 -P 1 0 9 -1 1 -P 1 4 4 .. .P 1 4 7 H ig h P o n d ( 0 9 0 3 -0 0 0 1 ) H am il to n L ak e C (T ) A ci d /B as e (p H ) A tm o sp h er ic D ep . 1 9 9 8 S L - 1 -P 1 0 9 -1 1 -P 1 4 4 .. .P 1 4 8 L it tl e P in e P o n d ( 0 9 0 3 -0 0 2 8 ) S t. L aw re n ce L ak e D A ci d /B as e (p H ) A tm o sp h er ic D ep . 1 9 9 8 S L - 1 -P 1 0 9 -1 1 -P 1 5 6 -4 -1 -P 1 6 1 S p ri n g P o n d ( 0 9 0 3 -0 0 4 1 ) S t. L aw re n ce L ak e C (T ) A ci d /B as e (p H ) A tm o sp h er ic D ep . 1 9 9 8 S L - 1 -P 1 0 9 -1 1 -P 1 7 0 H al fm o o n P o n d ( 0 9 0 3 -0 0 3 2 ) S t. L aw re n ce L ak e C (T ) A ci d /B as e (p H ) A tm o sp h er ic D ep . 1 9 9 8 S L - 1 -P 2 4 1 -2 2 -P 2 4 5 S o u th P o n d ( 0 9 0 3 -0 0 0 5 ) H am il to n L ak e C (T ) A ci d /B as e (p H ) A tm o sp h er ic D ep . 1 9 9 8 S L - 1 -P 2 4 1 -2 2 -P 2 4 5 -2 -P 2 4 7 S al m o n P o n d ( 0 9 0 3 -0 0 0 4 ) H am il to n L ak e C (T ) A ci d /B as e (p H ) A tm o sp h er ic D ep . 1 9 9 8 S L - 1 -P 2 7 6 -1 -P 2 7 7 .. .P 2 7 8 P il gr im P o n d ( 0 9 0 3 -0 0 4 3 ) H am il to n L ak e D A ci d /B as e (p H ) A tm o sp h er ic D ep . 1 9 9 8 S L - 2 -5 9 -3 2 -6 -1 -P 3 6 1 W o lf P o n d ( 0 9 0 4 -0 0 0 2 ) S t. L aw re n ce L ak e C (T ) A ci d /B as e (p H ) A tm o sp h er ic D ep . 1 9 9 8 S L -2 5 -P 3 0 9 C ra n b er ry L ak e (0 9 0 5 -0 0 0 7 ) S t. L aw re n ce L ak e A (T ) A ci d /B as e (p H ) A tm o sp h er ic D ep . 1 9 9 8 S L -2 5 -7 3 W .B r. O sw eg at ch ie ( 0 9 0 5 -0 0 0 3 ) L ew is R iv er F P A ci d /B as e (p H ) A tm o sp h er ic D ep . 1 9 9 8 S L -2 5 -7 3 -1 9 -5 -3 -P 1 3 6 D ry T im b er L ak e (0 9 0 5 -0 0 3 2 ) S t. L aw re n ce L ak e C (T ) A ci d /B as e (p H ) A tm o sp h er ic D ep . 1 9 9 8 S L -2 5 -7 3 -2 6 -3 8 -5 -P 1 8 4 G re en P o n d ( 0 9 0 5 -0 0 3 5 ) H er ki m er L ak e D A ci d /B as e (p H ) A tm o sp h er ic D ep . 1 9 9 8 S L -2 5 -7 3 -2 6 -3 8 -5 -P 1 8 6 L o o n H o ll o w P o n d ( 0 9 0 5 -0 1 0 5 ) H er ki m er L ak e C (T ) A ci d /B as e (p H ) A tm o sp h er ic D ep . 1 9 9 8 S L -2 5 -7 3 -2 6 -P 1 9 3 -. .. P 1 9 4 U n n am ed P # 4 -1 9 4 ( 0 9 0 5 -0 0 6 0 ) H er ki m er L ak e ? A ci d /B as e (p H ) A tm o sp h er ic D ep . 1 9 9 8 S L -2 5 -7 3 -2 6 -4 2 -1 -P 1 9 5 M u sk ra t P o n d ( 0 9 0 5 -0 0 6 1 ) H er ki m er L ak e D A ci d /B as e (p H ) A tm o sp h er ic D ep . 1 9 9 8 S L -2 5 -7 3 -2 6 -4 2 -P 1 9 6 B ea r P o n d ( 0 9 0 5 -0 0 6 2 ) H er ki m er L ak e D A ci d /B as e (p H ) A tm o sp h er ic D ep . 1 9 9 8 S L -2 5 -7 3 -2 6 -4 2 -P 1 9 6 -1 -P 1 9 7 D ia n a P o n d ( 0 9 0 5 -0 0 6 3 ) H er ki m er L ak e D A ci d /B as e (p H ) A tm o sp h er ic D ep . 1 9 9 8 S L -2 5 -7 3 -2 6 -4 3 -P 2 0 0 U p p er S o u th P o n d ( 0 9 0 5 -0 0 5 7 ) H er ki m er L ak e D A ci d /B as e (p H ) A tm o sp h er ic D ep . 1 9 9 8 S L -2 5 -7 3 -P 2 2 8 e U n n am ed P # 4 -2 8 8 e (0 9 0 5 -0 0 7 8 ) S t. L aw re n ce L ak e C (T ) A ci d /B as e (p H ) A tm o sp h er ic D ep . 1 9 9 8 S L -2 5 -7 3 -4 3 -P 2 4 4 -P 2 4 5 Ja ke s P o n d ( 0 9 0 5 -0 0 3 8 ) H er ki m er L ak e C (T ) A ci d /B as e (p H ) A tm o sp h er ic D ep . 1 9 9 8 S L -2 5 -1 0 1 -2 4 -8 -P 2 8 9 C ry st al L ak e (0 9 0 5 -0 0 3 0 ) S t. L aw re n ce L ak e C (T ) A ci d /B as e (p H ) A tm o sp h er ic D ep . 1 9 9 8 S L -2 5 -1 3 2 -1 -P 3 6 5 O ve n L ak e (0 9 0 5 -0 0 4 2 ) H er ki m er L ak e D A ci d /B as e (p H ) A tm o sp h er ic D ep . 1 9 9 8 S L -2 5 -1 3 2 -1 -P 3 6 6 G ra ss y P o n d ( 0 9 0 5 -0 0 3 4 ) H er ki m er L ak e C A ci d /B as e (p H ) A tm o sp h er ic D ep . 1 9 9 8 S L -2 5 -1 3 2 -1 -P 3 6 6 -P 3 6 7 H yd e P o n d ( 0 9 0 5 -0 0 7 1 ) H er ki m er L ak e C A ci d /B as e (p H ) A tm o sp h er ic D ep . 1 9 9 8 S L -2 5 -1 3 2 -P 3 6 6 -P 3 6 8 H it ch en s P o n d ( 0 9 0 5 -0 0 3 6 ) H er ki m er L ak e C A ci d /B as e (p H ) A tm o sp h er ic D ep . 1 9 9 8 S L -2 5 -1 4 0 -1 -P 3 7 7 G u ll L ak e (0 9 0 5 -0 0 7 2 ) H er ki m er L ak e C (T ) A ci d /B as e (p H ) A tm o sp h er ic D ep . 1 9 9 8 L ak e C h am p la in D ra in ag e B as in C -1 5 -P 1 1 4 .. P 1 1 5 t h ru P 2 0 6 M in o r L ak e T ri b t o U p p er S ar an ac L ak e (1 0 0 3 -0 0 8 6 ) F ra n kl in L ak e A A A ci d /B as e (p H ) A tm o sp h er ic D ep . 1 9 9 8 6 0 C -2 5 -2 6 .. P 2 3 3 t h ru P 2 5 1 M in o r L ak e T ri b t o W es t B r A u sa b le , M id ( 1 0 0 4 -0 0 6 5 ) E ss ex L ak e C (T ) A ci d /B as e (p H ) A tm o sp h er ic D ep . 1 9 9 8 6 1 A D D 03 5 N ew Y or k S ta te F in a l 20 08 S ec ti on 3 03 (d ) L is t M ay 2 6, 2 00 8 W at er I n d ex N u m b er W at er b od y N am e (W I/ P W L I D ) C ou n ty T yp e C la ss C au se /P ol lu ta n t S ou rc e Y ea r S eg m en t in cl u d es p re vi o u sl y li st ed L it tl e M o o se P o n d ( P 6 0 7 ). 6 2 S eg m en t in cl u d es p re vi o u sl y li st ed S o u th P in e L ak e. 6 3 13 P ar t 2a - M u lt ip le S eg m en t/ C at eg or ic al I m p ai re d W at er b od y S eg m en ts ( at m os p h er ic d ep os it io n ) (c o n ’t ) U p p er H u d so n R iv er D ra in ag e B as in H -3 6 3 -P 1 1 9 B u ll h ea d P o n d ( 1 1 0 1 -0 0 3 3 ) S ar at o ga L ak e C A ci d /B as e (p H ) A tm o sp h er ic D ep . 1 9 9 8 H -4 6 1 .. P 5 8 2 t h ru P 6 1 2 M in o r L ak es T ri b t o I n d ia n R iv er /L ak e (1 1 0 4 -0 0 0 8 ) H am il to n L ak e C A ci d /B as e (p H ) A tm o sp h er ic D ep . 1 9 9 8 6 2 H -4 6 9 .. P 6 2 4 t h ru P 6 6 9 M in o r L ak es T ri b t o C ed ar R iv er ( 1 1 0 4 -0 0 0 3 ) H am il to n L ak e C A ci d /B as e (p H ) A tm o sp h er ic D ep . 1 9 9 8 6 3 H -5 0 3 -P 6 8 0 /P 6 8 2 - 6 .. P 6 8 7 R o u n d P o n d ( 1 1 0 4 -0 0 7 3 ) H am il to n L ak e F P A ci d /B as e (p H ) A tm o sp h er ic D ep . 1 9 9 8 M o h aw k R iv er D ra in ag e B as in H -2 4 0 -1 4 4 -1 3 .. P 7 2 7 ,P 7 2 9 ,P 7 3 0 G re en , O tt er , S te w ar t L ak es (1 2 0 1 -0 0 0 9 ) F u lt o n L ak e B A ci d /B as e (p H ) A tm o sp h er ic D ep . 1 9 9 8 H -2 4 0 -1 4 4 -1 3 .. P 7 3 2 Ir vi n g P o n d ( 1 2 0 1 -0 2 3 0 , fo rm er ly 1 2 0 1 -0 0 0 4 ) F u lt o n L ak e B A ci d /B as e (p H ) A tm o sp h er ic D ep . 1 9 9 8 H -2 4 0 -1 4 4 -4 3 -P 7 8 6 M o re h o u se L ak e (1 2 0 1 -0 0 8 0 ) H am il to n L ak e B (T ) A ci d /B as e (p H ) A tm o sp h er ic D ep . 1 9 9 8 H -2 4 0 -1 4 4 -4 4 -P 7 9 0 ,P 7 9 0 a B ig A ld er b ed P d , B li n d M an s V ly ( 1 2 0 1 -0 0 0 2 ) H am il to n L ak e C (T ) A ci d /B as e (p H ) A tm o sp h er ic D ep . 1 9 9 8 H -2 4 0 -1 8 0 ( p o rt io n 5 ) W es t C an ad a C re ek , U p p , an d t ri b s (1 2 0 3 -0 0 0 8 ) H er ki m er R iv er A (T )/ F P A ci d /B as e (p H ) A tm o sp h er ic D ep . 1 9 9 8 H -2 4 0 -1 8 0 ( p o rt io n 6 ) W es t C an ad a C re ek , U p p , an d t ri b s (1 2 0 3 -0 0 2 5 ) H er ki m er R iv er C (T )/ F P A ci d /B as e (p H ) A tm o sp h er ic D ep . 2 0 0 4 H -2 4 0 -1 8 0 - P 7 9 9 -1 9 .. P 8 1 8 t o P 8 2 2 L ak es T ri b t o J er se yf ie ld L ak e (1 2 0 3 -0 0 0 2 ) H er ki m er L ak e C A ci d /B as e (p H ) A tm o sp h er ic D ep . 1 9 9 8 D el aw ar e R iv er D ra in ag e B as in D - 1 -P 5 8 b -8 2 E as t B ra n ch N ev er si n k R iv er a n d t ri b s (1 4 0 2 -0 0 0 7 ) U ls te r R iv er C (T ) A ci d /B as e (p H ) A tm o sp h er ic D ep . 2 0 0 4 D - 1 -3 3 -P 3 7 W o lf R es er vo ir ( 1 4 0 2 -0 0 4 5 ) S u ll iv an L ak e( R ) B A ci d /B as e (p H ) A tm o sp h er ic D ep . 2 0 0 4 O th er /S m al le r L ak es I m pa ir ed b y A tm os p h er ic D ep o si ti o n ( A ci d R ai n ). .. S ee A pp en d ix A P re vi o u s S ec ti o n 3 0 3 (d ) L is ts i n cl u d ed a d d it io n al s m al l la ke w at er b o d ie s im p ac te d b y at m os p h er ic d ep o si ti o n . B ec au se d ev el o p m en t o f a co m pr eh en si ve m o n it o ri n g st ra te gy r eq u ir ed l im it in g th e W I/ P W L d at ab as e to l ak es 6 .4 a cr es o r la rg er , th es e sm al le r la ke s ar e n o l o n ge r tr ac ke d a s in d iv id u al w at er b o d ie s in th e d at ab as e. A d d it io n al ly , so m e o th er l ak es w it h in a w at er sh ed m ay h av e b ee n j o in ed t o ge th er a s a si n gl e se gm en t, a n d a re n o l o n ge r tr ac ke d i n d iv id u al ly . I n o rd er t o a cc o m m o d at e th es e ch an ge s re ga rd in g th e tr ac ki n g o f w at er b o d ie s w it h in t h e W I/ P W L d at ab as e an d t o p ro vi d e co n ti n u it y b et w ee n t h is l is ti n g an d p re vi o u s li st s th at i n cl u d ed t ra ck in g of t h e sm al le r la ke w at er b o d ie s, a l is t of O th er /S m a ll er L a ke s Im p a ir ed b y A tm o sp h er ic D ep o si ti o n ( cu rr en tl y re p re se n ti n g 8 0 l ak es /p o n d s) i s in cl u d ed i n t h e 2 0 0 8 S ec ti o n 3 0 3 (d ) L is t an d i s at ta ch ed a s A p p en d ix A . N O T E : T h e 2 0 0 6 S ec ti o n 3 0 3 (d ) L is t in cl u d ed c o n si d er ab ly m o re sm al le r la ke s in A p p en d ix A . T h e re d u ct io n i n t h e n u m b er o f sm al le r la ke s in t h e 2 0 0 8 L is t is a r es u lt o f d el is ti n gs ( d u e to t h e A d ir o n d ac k L ak e A ci d R ai n T M D L ) an d th e re se gm en ti n g of s m al le r la ke s to b e in cl ud ed i n o th er l ak e w at er bo d y se gm en ts . A D D 03 6 N ew Y or k S ta te F in a l 20 08 S ec ti on 3 03 (d ) L is t M ay 2 6, 2 00 8 W at er I n d ex N u m b er W at er b od y N am e (W I/ P W L I D ) C ou n ty T yp e C la ss C au se /P ol lu ta n t S ou rc e Y ea r F is h c o n su m p ti o n a d vi so ry f o r C ay u ga C re ek i n cl u d es l o w er B er gh o lt z C re ek t o t h e fi rs t im p as si b le b ar ri er . 6 4 F or L ak e E ri e an d L ak e O nt ar io S h or el in e se gm en ts i nc lu de d o n th e S ec ti on 3 03 (d ) L is t du e to f is h co n su m pt io n re st ri ct io n s, t he p ri m ar y so ur ce o f co nt am in at io n is t he o p en l ak e ra th er t ha n 6 5 th e n ea r- sh o re w at er s. D u e to f is h m ig ra ti o n , th e ad vi so ri es a p p ly t o t ri b u ta ry w at er s u p t o t h e fi rs t im p as sa b le b ar ri er . 14 P a rt 2 b - M u lt ip le S eg m en t/ C a te g or ic a l Im p a ir ed W at er b o d y S eg m en ts ( fi sh c o n su m p ti o n ) M ig h t b e ad d re ss e d b y a w at er b o d y s p ec if ic T M D L o r a p o ll u ta n t/ so u rc e sp ec if ic T M D L o r o th e r st ra te g y t o a tt ai n w at er q u al it y s ta n d ar d s. N O T E : F is h c o n su m p ti o n a d vi so ri es /i m p ai rm en ts f o r al l w at er s li st ed b el o w e xt en d i n to a n d i n cl u d e tr ib u ta ry ( an d d o w n st re am ) w at er s to t h e fi rs t im p as sa b le b ar ri er . N ia g ar a R iv er /L a k e E ri e D ra in ag e B as in O n t 1 5 8 ( p o rt io n 1 ) N ia ga ra R iv er , L o w er , M ai n S te m (0 1 0 1 -0 0 2 7 ) N ia ga ra R iv er A -S p cl D io xi n C o n t. S ed , L an d .D is p . 1 9 9 8 M ir ex C o n t. S ed , L an d .D is p . 1 9 9 8 P C B s C o n t. S ed , L an d .D is p . 1 9 9 8 O n t 1 5 8 ( p o rt io n 2 ) N ia ga ra R iv er , U p p er , M ai n S te m (0 1 0 1 -0 0 0 6 ) N ia ga ra R iv er A -S p cl P C B s C o n t. S ed , L an d .D is p . 1 9 9 8 O n t 1 5 8 ( p o rt io n 3 ) C h ip p ew a (W es t) C h an n el ( 0 1 0 1 -0 0 2 8 ) N ia ga ra R iv er A -S p cl P C B s C o n t. S ed , L an d .D is p . 1 9 9 8 O n t 1 5 8 ( p o rt io n 4 ) B la ck R o ck C h an n el ( 0 1 0 1 -0 0 2 5 ) N ia ga ra R iv er A -S p cl P C B s C o n t. S ed , L an d .D is p . 1 9 9 8 O n t 1 5 8 - 8 C ay u ga C re ek a n d m in o r tr ib s (0 1 0 1 -0 0 0 1 ) N ia ga ra R iv er C D io xi n C o n ta m in at ed S ed . 1 9 9 8 O n t 1 5 8 - 8 -1 B er gh o lt z C re ek a n d t ri b s (0 1 0 1 -0 0 0 4 ) N ia ga ra R iv er C P C B s T o x/ C o n ta m . S ed im en t 2 0 0 4 6 4 O n t 1 5 8 -1 2 ( p o rt io n 1 ) T o n aw an d a C re ek , L o w er , M ai n S te m (0 1 0 2 -0 0 2 2 ) N ia ga ra R iv er C P C B s C o n ta m in at ed S ed . 1 9 9 8 O n t 1 5 8 -1 5 -P 2 5 D el aw ar e P ar k L ak e (0 1 0 1 -0 0 2 6 ) E ri e L ak e B P C B s C o n t. S ed , L an d .D is p . 1 9 9 8 O n t 1 5 8 -E ( p o rt io n 1 ) L ak e E ri e, E ri e B as in (0 1 0 4 -0 0 3 2 ) E ri e G .L ak es C P C B s C o n ta m in at ed S ed . 2 0 0 2 6 5 O n t 1 5 8 -E ( p o rt io n 2 ) L ak e E ri e, O u te r H ar b o r N o rt h ( 0 1 0 4 -0 0 3 3 ) E ri e G .L ak es B P C B s C o n ta m in at ed S ed . 2 0 0 2 6 5 O n t 1 5 8 -E ( p o rt io n 3 ) L ak e E ri e, O u te r H ar b o r S o u th (0 1 0 4 -0 0 3 4 ) E ri e G .L ak es C P C B s C o n ta m in at ed S ed . 2 0 0 2 6 5 O n t 1 5 8 -E ( p o rt io n 4 ) L ak e E ri e, N o rt h ea st S h o re li n e ( 0 1 0 4 -0 0 3 5 ) E ri e G .L ak es C P C B s C o n ta m in at ed S ed . 2 0 0 2 6 5 O n t 1 5 8 -E ( p o rt io n 5 ) L ak e E ri e, N o rt h ea st S h o re li n e ( 0 1 0 4 -0 0 3 6 ) E ri e G .L ak es B P C B s C o n ta m in at ed S ed . 2 0 0 2 6 5 O n t 1 5 8 -E ( p o rt io n 6 ) L ak e E ri e, M ai n L ak e, N o rt h ( 0 1 0 4 -0 0 3 7 ) E ri e G .L ak es A -S p cl P C B s C o n ta m in at ed S ed . 2 0 0 2 6 5 O n t 1 5 8 -E ( p o rt io n 7 ) L ak e E ri e, M ai n L ak e, S o u th ( 0 1 0 5 -0 0 3 3 ) C h au ta u q u a G .L ak es A -S p cl P C B s C o n ta m in at ed S ed . 2 0 0 2 6 5 O n t 1 5 8 -E ( p o rt io n 7 a) L ak e E ri e, D u n ki rk H ar b o r ( 0 1 0 5 -0 0 0 9 ) C h au ta u q u a G .L ak es B P C B s C o n ta m in at ed S ed . 2 0 0 2 6 5 O n t 1 5 8 -E ( p o rt io n 7 b ) L ak e E ri e, B ar ce lo n a H ar b o r (0 1 0 5 -0 0 1 1 ) C h au ta u q u a G .L ak es B P C B s C o n ta m in at ed S ed . 2 0 0 2 6 5 O n t 1 5 8 .. E - 1 B u ff al o R iv er ( 0 1 0 3 -0 0 0 1 ) E ri e R iv er C P C B s C o n ta m in at ed S ed . 1 9 9 8 6 5 L ak e O n ta ri o ( M in o r T ri b s) D ra in ag e B as in O n t (p o rt io n 1 ) L ak e O n ta ri o S h o re li n e, E as te rn ( 0 3 0 3 -0 0 2 3 ) Je ff er so n G .L ak es A P C B s C o n ta m in at ed S ed . 1 9 9 8 6 5 M ir ex C o n ta m in at ed S ed . 1 9 9 8 6 5 D io xi n C o n ta m in at ed S ed . 1 9 9 8 6 5 O n t (p o rt io n 2 ) L ak e O n ta ri o S h o re li n e, E as te rn ( 0 3 0 3 -0 0 1 1 ) Je ff er so n G .L ak es A P C B s C o n ta m in at ed S ed . 1 9 9 8 6 5 M ir ex C o n ta m in at ed S ed . 1 9 9 8 6 5 D io xi n C o n ta m in at ed S ed . 1 9 9 8 6 5 O n t (p o rt io n 2 a) C h au m o n t B ay ( 0 3 0 3 -0 0 2 4 ) Je ff er so n G .L ak es A P C B s C o n ta m in at ed S ed . 1 9 9 8 6 5 M ir ex C o n ta m in at ed S ed . 1 9 9 8 6 5 D io xi n C o n ta m in at ed S ed . 1 9 9 8 6 5 A D D 03 7 N ew Y or k S ta te F in a l 20 08 S ec ti on 3 03 (d ) L is t M ay 2 6, 2 00 8 W at er I n d ex N u m b er W at er b od y N am e (W I/ P W L I D ) C ou n ty T yp e C la ss C au se /P ol lu ta n t S ou rc e Y ea r T h is n ew l is ti n g is t h e re su lt o f a d ec is io n t o l is t B la ck R iv er B ay a s se p ar at e fr o m o th er L ak e O n ta ri o S h o re li n e se gm en ts . 6 6 15 P a rt 2 b - M u lt ip le S eg m en t/ C a te g or ic a l Im p a ir ed W at er b o d y S eg m en ts ( fi sh c o n su m p ti o n ) ( c o n ’t ) L ak e O n ta ri o ( M in o r T ri b s) D ra in a g e B as in O n t (p o rt io n 2 b ) G u ff in B ay ( 0 3 0 3 -0 0 2 5 ) Je ff er so n G .L ak es A P C B s C o n ta m in at ed S ed . 1 9 9 8 6 5 M ir ex C o n ta m in at ed S ed . 1 9 9 8 6 5 D io xi n C o n ta m in at ed S ed . 1 9 9 8 6 5 O n t (p o rt io n 3 ) L ak e O n ta ri o S h o re li n e, E as te rn ( 0 3 0 3 -0 0 2 6 ) Je ff er so n G .L ak es A P C B s C o n ta m in at ed S ed . 1 9 9 8 6 5 M ir ex C o n ta m in at ed S ed . 1 9 9 8 6 5 D io xi n C o n ta m in at ed S ed . 1 9 9 8 6 5 O nt ( po rt io n 3a ) B la ck R iv er B a y ( 0 3 0 3 -0 1 0 2 ) Je ff er so n B ay C P C B s C o n ta m in at ed S ed . 1 9 9 8 6 6 6 5 M ir ex C o n ta m in at ed S ed . 1 9 9 8 6 5 D io x in C o n ta m in at ed S ed . 1 9 9 8 6 5 O n t (p o rt io n 4 ) L ak e O n ta ri o S h o re li n e, E as te rn ( 0 3 0 3 -0 0 2 7 ) Je ff er so n G .L ak es A P C B s C o n ta m in at ed S ed . 1 9 9 8 6 5 M ir ex C o n ta m in at ed S ed . 1 9 9 8 6 5 D io xi n C o n ta m in at ed S ed . 1 9 9 8 6 5 O n t (p o rt io n 4 a) H en d er so n B ay ( 0 3 0 3 -0 0 2 2 ) Je ff er so n G .L ak es A P C B s C o n ta m in at ed S ed . 1 9 9 8 6 5 M ir ex C o n ta m in at ed S ed . 1 9 9 8 6 5 D io xi n C o n ta m in at ed S ed . 1 9 9 8 6 5 O n t (p o rt io n 5 ) L ak e O n ta ri o S h o re li n e, E as te rn ( 0 3 0 3 -0 0 2 8 ) Je ff er so n G .L ak es A P C B s C o n ta m in at ed S ed . 1 9 9 8 6 5 M ir ex C o n ta m in at ed S ed . 1 9 9 8 6 5 D io xi n C o n ta m in at ed S ed . 1 9 9 8 6 5 O n t (p o rt io n 6 ) L ak e O n ta ri o S h o re li n e, E as te rn ( 0 3 0 3 -0 0 2 9 ) Je ff er so n G .L ak es A P C B s C o n ta m in at ed S ed . 1 9 9 8 6 5 M ir ex C o n ta m in at ed S ed . 1 9 9 8 6 5 D io xi n C o n ta m in at ed S ed . 1 9 9 8 6 5 O n t (p o rt io n 7 ) L ak e O n ta ri o S h o re li n e, E as te rn ( 0 3 0 3 -0 0 3 0 ) O sw eg o G .L ak es A P C B s C o n ta m in at ed S ed . 1 9 9 8 6 5 M ir ex C o n ta m in at ed S ed . 1 9 9 8 6 5 D io xi n C o n ta m in at ed S ed . 1 9 9 8 6 5 O n t (p o rt io n 8 ) L ak e O n ta ri o S h o re li n e, E as te rn ( 0 3 0 3 -0 0 3 1 ) O sw eg o G .L ak es A P C B s C o n ta m in at ed S ed . 1 9 9 8 6 5 M ir ex C o n ta m in at ed S ed . 1 9 9 8 6 5 D io xi n C o n ta m in at ed S ed . 1 9 9 8 6 5 O n t (p o rt io n 9 ) L ak e O n ta ri o S h o re li n e, E as te rn ( 0 3 0 3 -0 0 3 2 ) O sw eg o G .L ak es A P C B s C o n ta m in at ed S ed . 1 9 9 8 6 5 M ir ex C o n ta m in at ed S ed . 1 9 9 8 6 5 D io xi n C o n ta m in at ed S ed . 1 9 9 8 6 5 O n t (p o rt io n 1 0 ) L ak e O n ta ri o S h o re li n e, O sw eg o ( 0 3 0 2 -0 0 4 0 ) O sw eg o G .L ak es A P C B s C o n ta m in at ed S ed . 1 9 9 8 6 5 M ir ex C o n ta m in at ed S ed . 1 9 9 8 6 5 D io xi n C o n ta m in at ed S ed . 1 9 9 8 6 5 O n t (p o rt io n 1 1 ) L ak e O n ta ri o S h o re li n e, C en tr al ( 0 3 0 2 -0 0 4 1 ) O sw eg o G .L ak es A P C B s C o n ta m in at ed S ed . 1 9 9 8 6 5 M ir ex C o n ta m in at ed S ed . 1 9 9 8 6 5 D io xi n C o n ta m in at ed S ed . 1 9 9 8 6 5 A D D 03 8 N ew Y or k S ta te F in a l 20 08 S ec ti on 3 03 (d ) L is t M ay 2 6, 2 00 8 W at er I n d ex N u m b er W at er b od y N am e (W I/ P W L I D ) C ou n ty T yp e C la ss C au se /P ol lu ta n t S ou rc e Y ea r T h es e se gm en ts h ad p re vi o u s b ee n c o n si d er ed a s o n e se gm en t an d l is te d a s S al m o n R iv er ( 0 3 0 3 -0 0 1 6 ). 6 7P a rt 2 b - M u lt ip le S eg m en t/ C a te g or ic a l Im p a ir ed W at er b o d y S eg m en ts ( fi sh c o n su m p ti o n ) ( c o n ’t ) L ak e O n ta ri o ( M in o r T ri b s) D ra in a g e B as in O n t (p o rt io n 1 2 ) L ak e O n ta ri o S h o re li n e, C en tr al ( 0 3 0 2 -0 0 4 2 ) C ay u ga G .L ak es A P C B s C o n ta m in at ed S ed . 1 9 9 8 6 5 M ir ex C o n ta m in at ed S ed . 1 9 9 8 6 5 D io xi n C o n ta m in at ed S ed . 1 9 9 8 6 5 O n t (p o rt io n 1 3 ) L ak e O n ta ri o S h o re li n e, C en tr al ( 0 3 0 2 -0 0 4 3 ) W ay n e G .L ak es A P C B s C o n ta m in at ed S ed . 1 9 9 8 6 5 M ir ex C o n ta m in at ed S ed . 1 9 9 8 6 5 D io xi n C o n ta m in at ed S ed . 1 9 9 8 6 5 O n t (p o rt io n 1 4 ) L ak e O n ta ri o S h o re li n e, C en tr al ( 0 3 0 2 -0 0 4 4 ) W ay n e G .L ak es A P C B s C o n ta m in at ed S ed . 1 9 9 8 6 5 M ir ex C o n ta m in at ed S ed . 1 9 9 8 6 5 D io xi n C o n ta m in at ed S ed . 1 9 9 8 6 5 O n t (p o rt io n 1 5 ) L ak e O n ta ri o S h o re li n e, C en tr al ( 0 3 0 2 -0 0 4 5 ) W ay n e G .L ak es A P C B s C o n ta m in at ed S ed . 1 9 9 8 6 5 M ir ex C o n ta m in at ed S ed . 1 9 9 8 6 5 D io xi n C o n ta m in at ed S ed . 1 9 9 8 6 5 O n t (p o rt io n 1 6 ) R o ch es te r E m b ay m en t - E as t (0 3 0 2 -0 0 0 2 ) M o n ro e G .L ak es A P C B s C o n ta m in at ed S ed . 1 9 9 8 6 5 M ir ex C o n ta m in at ed S ed . 1 9 9 8 6 5 D io xi n C o n ta m in at ed S ed . 1 9 9 8 6 5 O n t (p o rt io n 1 7 ) R o ch es te r E m b ay m en t - W es t (0 3 0 1 -0 0 6 8 ) M o n ro e G .L ak es A P C B s C o n ta m in at ed S ed . 1 9 9 8 6 5 M ir ex C o n ta m in at ed S ed . 1 9 9 8 6 5 D io xi n C o n ta m in at ed S ed . 1 9 9 8 6 5 O n t (p o rt io n 1 8 ) L ak e O n ta ri o S h o re li n e, W es te rn ( 0 3 0 1 -0 0 6 9 ) M o n ro e G .L ak es A P C B s C o n ta m in at ed S ed . 1 9 9 8 6 5 M ir ex C o n ta m in at ed S ed . 1 9 9 8 6 5 D io xi n C o n ta m in at ed S ed . 1 9 9 8 6 5 O n t (p o rt io n 1 9 ) L ak e O n ta ri o S h o re li n e, W es te rn ( 0 3 0 1 -0 0 7 0 ) O rl ea n s G .L ak es A P C B s C o n ta m in at ed S ed . 1 9 9 8 6 5 M ir ex C o n ta m in at ed S ed . 1 9 9 8 6 5 D io xi n C o n ta m in at ed S ed . 1 9 9 8 6 5 O n t (p o rt io n 2 0 ) L ak e O n ta ri o S h o re li n e, W es te rn ( 0 3 0 1 -0 0 7 1 ) O rl ea n s G .L ak es A P C B s C o n ta m in at ed S ed . 1 9 9 8 6 5 M ir ex C o n ta m in at ed S ed . 1 9 9 8 6 5 D io xi n C o n ta m in at ed S ed . 1 9 9 8 6 5 O n t (p o rt io n 2 1 ) L ak e O n ta ri o S h o re li n e, W es te rn ( 0 3 0 1 -0 0 7 2 ) N ia ga ra G .L ak es A P C B s C o n ta m in at ed S ed . 1 9 9 8 6 5 M ir ex C o n ta m in at ed S ed . 1 9 9 8 6 5 D io xi n C o n ta m in at ed S ed . 1 9 9 8 6 5 O n t (p o rt io n 2 2 ) L ak e O n ta ri o S h o re li n e, W es te rn ( 0 3 0 1 -0 0 5 3 ) N ia ga ra G .L ak es A P C B s C o n ta m in at ed S ed . 1 9 9 8 6 5 M ir ex C o n ta m in at ed S ed . 1 9 9 8 6 5 D io xi n C o n ta m in at ed S ed . 1 9 9 8 6 5 O n t 5 3 ( p o rt io n 1 ) S al m o n R iv er , L o w er , an d m in o r tr ib s (0 3 0 3 -0 0 1 6 ) O sw eg o R iv er C (T ) P C B s C o n ta m in at ed S ed . 1 9 9 8 6 7 M ir ex C o n ta m in at ed S ed . 1 9 9 8 O n t 5 3 ( p o rt io n 2 )/ P 1 8 a L ow er S al m on R iv er R es er vo ir ( 0 3 0 3 -0 0 6 7 ) O sw eg o L ak e( R ) C (T ) P C B s C o n ta m in at ed S ed . 1 9 9 8 6 7 M ir ex C o n ta m in at ed S ed . 1 9 9 8 O n t 5 3 ( p o rt io n 3 ) S al m on R iv er , M id d le , an d t ri b s (0 3 0 3 -0 0 6 8 ) O sw eg o R iv er C (T ) P C B s C o n ta m in at ed S ed . 1 9 9 8 6 7 M ir ex C o n ta m in at ed S ed . 1 9 9 8 O n t 1 0 8 /P 1 1 3 Ir o n d eq u o it B ay ( 0 3 0 2 -0 0 0 1 ) M o n ro e L ak e B M ir ex C o n ta m in at ed S ed . 1 9 9 8 P C B s C o n ta m in at ed S ed . 1 9 9 8 A D D 03 9 N ew Y or k S ta te F in a l 20 08 S ec ti on 3 03 (d ) L is t M ay 2 6, 2 00 8 W at er I n d ex N u m b er W at er b od y N am e (W I/ P W L I D ) C ou n ty T yp e C la ss C au se /P ol lu ta n t S ou rc e Y ea r T h es e se gm en ts h ad p re vi o u sl y b ee n c o n si d er ed a s o n e se gm en t an d l is te d a s E ig h te en m il e C re ek ( 0 3 0 1 -0 0 0 2 ). 6 8 T he se w at er s w er e id en ti fi ed a s be in g im pa ir ed b y m er cu ry s ub se qu en t to t h e ap p ro va l of t he N or th ea st R eg io na l M er cu ry T M D L . T hi s T M D L s pe ci fi ca ll y st at es t ha t it m ay a pp ly t o ad d it io na l 6 9 w at er s (b ey o n d t h o se l is te d i n t h e T M D L ) su b se q u en tl y id en ti fi ed a s b ei n g im p ai re d b y m er cu ry d u e to a tm o sp h er ic d ep o si ti o n . N Y S D E C i s cu rr en tl y co n si d er in g d el is ti n g th es e w at er s d u e to th e co ve ra ge p ro vi d ed b y th e N o rt h ea st R eg io n al M er cu ry T M D L . P re vi ou sl y th e se gm en t T ri bs t o F ul to n C ha in L ak es ( 08 01 -0 0 98 ) w hi ch i nc lu d es G ra y L ak e O ut le t, w hi ch i s su sp ec te d so ur ce o f D D T c on ta m in at io n/ fi sh c on su m pt io n ad vi so ry i n F o ur th L ak e, 7 0 w as l is te d fo r th is i m pa ir m en t. B ut s in ce t he h ea lt h ad vi so ry a pp li es t o th e la ke i t is m or e ap pr o pr ia te t o li st t h e se gm en t w hi ch i nc lu d es F ou rt h L ak e (0 80 1- 0 37 3) w it h th e un d er st an di n g th at fo r th e p u rp o se s o f S ec ti o n 3 0 3 (d ) li st in g, t h is s eg m en t in cl u d es t h e lo w er p o rt io n o f G ra y L ak e O u tl et . 17 P a rt 2 b - M u lt ip le S eg m en t/ C a te g or ic a l Im p a ir ed W at er b o d y S eg m en ts ( fi sh c o n su m p ti o n ) ( c o n ’t ) L ak e O n ta ri o ( M in o r R ib s) D ra in ag e B as in ( co n ’t ) O n t 1 4 8 E ig h te en m il e C re ek , L o w er , an d t ri b s ( 0 3 0 1 -0 0 0 2 ) N ia ga ra R iv er B ,C ,D P C B s C o n ta m in at ed S ed . 1 9 9 8 6 8 O n t 1 4 8 E ig h te en m il e C re ek , M id d le , an d t ri b s (0 3 0 1 -0 0 5 4 ) N ia ga ra R iv er C P C B s C o n ta m in at ed S ed . 1 9 9 8 6 8 O n t 1 4 8 E ig h te en m il e C re ek , U p p , an d m n r tr ib s (0 3 0 1 -0 0 5 5 ) N ia ga ra R iv er D P C B s C o n ta m in at ed S ed . 1 9 9 8 6 8 G en es ee R iv er D ra in ag e B as in O n t 1 1 7 ( p o rt io n 1 ) G en es ee R iv er , L o w er , M ai n S te m ( 0 4 0 1 -0 0 0 1 ) M o n ro e R iv er B P C B s C o n ta m .S ed . 2 0 0 4 M ir ex C o n ta m .S ed . 2 0 0 4 D io xi n C o n ta m .S ed . 2 0 0 4 O n t 1 1 7 - 2 7 -3 4 -1 1 -P 4 3 * C an ad ic e L ak e (0 4 0 2 -0 0 0 2 ) O n ta ri o L ak e A A (T S ) P C B s C o n t. S ed , L an d .D is p . 1 9 9 8 O n t 1 1 7 -1 3 6 -P 1 4 6 * R u sh fo rd L ak e (0 4 0 3 -0 0 2 4 ) A ll eg an y L ak e B (T ) M er cu ry A tm o sp h er ic D ep . 2 0 0 8 6 9 C h em u n g R iv er D ra in ag e B as in P A 3 -2 8 - 6 - 1 - 3 -1 3 a * K o p p er s P o n d ( 0 5 0 1 -0 0 1 2 ) C h em u n g L ak e C P C B s C o n t. S ed , L an d .D is p . 1 9 9 8 O sw eg o R iv er ( F in g er L a k es ) D ra in ag e B as in O n t 6 6 ( p o rt io n 2 ) O sw eg o R iv er ( 0 7 0 1 -0 0 0 6 ) O sw eg o R iv er B P C B s C o n ta m in at ed S ed . 1 9 9 8 O n t 6 6 -1 2 -1 2 -P 1 5 4 ( p o rt io n 1 ) O n o n d ag a L ak e, n o rt h er n e n d ( 0 7 0 2 -0 0 0 3 ) O n o n d ag a L ak e B D io xi n C o n ta m in at ed S ed . 1 9 9 8 M er cu ry C o n ta m in at ed S ed . 1 9 9 8 P C B s, o th er t o xi cs C o n ta m in at ed S ed . 1 9 9 8 O n t 6 6 -1 2 -1 2 -P 1 5 4 ( p o rt io n 2 ) O n o n d ag a L ak e, s o u th er n e n d ( 0 7 0 2 -0 0 2 1 ) O n o n d ag a L ak e C D io xi n C o n ta m in at ed S ed . 1 9 9 8 M er cu ry C o n ta m in at ed S ed . 1 9 9 8 P C B s, o th er t o xi cs C o n ta m in at ed S ed . 1 9 9 8 O n t 6 6 -1 2 -2 9 * S ka n ea te le s C re ek ( 0 7 0 7 -0 0 0 3 ) O n o n d ag a R iv er C (T ) P C B s In d u st ri al /L an d D is p . 1 9 9 8 O n t 6 6 -1 2 -P 3 6 9 -1 1 5 -P 3 8 8 K eu ka L ak e (0 7 0 5 -0 0 0 3 ) Y at es L ak e A A (T S ) D D T C o n ta m in at ed S ed . 1 9 9 8 B la ck R iv er D ra in ag e B as in O n t 1 9 - 8 1 -1 8 -P 7 8 2 a th ru d * F u lt o n C h ai n L ak es , F ir st t h ru F o u rt h L ak e (0 8 0 1 -0 3 7 3 ) H er ki m er L ak e A D D T C o n t. S ed ., L an d D is p 1 9 9 8 7 0 A D D 04 0 N ew Y or k S ta te F in a l 20 08 S ec ti on 3 03 (d ) L is t M ay 2 6, 2 00 8 W at er I n d ex N u m b er W at er b od y N am e (W I/ P W L I D ) C ou n ty T yp e C la ss C au se /P ol lu ta n t S ou rc e Y ea r T h is s eg m en t w as m is -i d en ti fi ed a s se gm en t 1 1 0 1 -0 0 0 5 i n t h e 2 0 0 6 S ec ti o n 3 0 3 (d ) L is t. 7 1 T h es e se gm en ts h ad p re vi o u sl y b ee n c o n si d er ed o n s eg m en t an d l is te d a s H o o si c R iv er , M id d le , M ai n S te m ( 1 1 0 2 -0 0 0 3 ). 7 2P a rt 2 b - M u lt ip le S eg m en t/ C a te g or ic a l Im p a ir ed W at er b o d y S eg m en ts ( fi sh c o n su m p ti o n ) ( c o n ’t ) S ai n t L aw re n ce D ra in ag e B as in S L S t. L aw re n ce R iv er ( 0 9 0 1 -0 0 0 1 ) S t. L aw re n ce R iv er A D io xi n C o n ta m in at ed S ed . 1 9 9 8 M ir ex C o n ta m in at ed S ed . 1 9 9 8 P C B s C o n ta m in at ed S ed . 1 9 9 8 S L S t. L aw re n ce R iv er ( 0 9 0 1 -0 0 0 2 ) S t. L aw re n ce R iv er A D io xi n In d u st r, C o n ta m .S ed . 1 9 9 8 M ir ex In d u st r, C o n ta m .S ed . 1 9 9 8 P C B s In d u st r, C o n ta m .S ed . 1 9 9 8 S L (C )- 2 1 ( p o rt io n 4 )/ P 6 b * U p p er C h at ea u g ay L ak e (0 9 0 2 -0 0 3 4 ) C li n to n L ak e B (T ) M er cu ry A tm o sp h er ic D ep . 2 0 0 8 6 9 S L (C )- 3 2 -5 2 -P 1 7 9 a. .P 2 0 2 * O sg oo d P on d ( 0 9 0 2 -0 1 4 8 ) F ra n kl in L ak e A A M er cu ry A tm o sp h er ic D ep . 2 0 0 8 6 9 S L - 1 ( p o rt io n 1 1 )/ P 2 4 1 * L on g L ak e (0 9 0 3 -0 0 7 8 ) H am il to n L ak e B M er cu ry A tm o sp h er ic D ep . 2 0 0 8 6 9 S L - 1 ( p o rt io n 1 4 )/ P 2 9 3 * R aq u et te L ak e (0 9 0 3 -0 0 8 1 ) H am il to n L ak e A A M er cu ry A tm o sp h er ic D ep . 2 0 0 8 6 9 S L - 1 -P 1 0 9 .. P 2 9 3 - 4 -P 3 0 7 * B lu e M o u n ta in L ak e (0 9 0 3 -0 2 0 4 ) H am il to n L ak e B (T ) M er cu ry A tm o sp h er ic D ep . 2 0 0 8 6 9 S L - 2 G ra ss R iv er ( 0 9 0 4 -0 0 0 9 ) S t. L aw re n ce R iv er B P C B s In d u st r, C o n ta m .S ed . 1 9 9 8 S L - 2 - M as se n a P o w er C an al ( 0 9 0 4 -0 0 1 2 ) S t. L aw re n ce R iv er D P C B s In d u st r, C o n ta m .S ed . 1 9 9 8 L ak e C h am p la in D ra in ag e B as in C ( p o rt io n x ) C u m b er la n d B ay ( 1 0 0 1 -0 0 0 1 ) C li n to n B ay B P C B s C o n ta m . S ed ., A tm . 1 9 9 8 C ( p o rt io n 1 ) L ak e C h am p la in , M ai n L ak e, N o rt h ( 1 0 0 0 -0 0 0 1 ) C li n to n L ak e A P C B s C o n ta m . S ed ., A tm . 1 9 9 8 C ( p o rt io n 2 ) L ak e C h am p la in , M ai n L ak e, M id d le ( 1 0 0 0 -0 0 0 2 ) C li n to n L ak e A P C B s C o n ta m . S ed ., A tm . 1 9 9 8 C ( p o rt io n 3 ) L ak e C h am p la in , M ai n L ak e, S o u th ( 1 0 0 0 -0 0 0 3 ) E ss ex L ak e A P C B s C o n ta m . S ed ., A tm . 1 9 9 8 C ( p o rt io n 4 ) L ak e C h am p la in , S o u th L ak e (1 0 0 0 -0 0 0 4 ) E ss ex L ak e B P C B s C o n ta m . S ed ., A tm . 1 9 9 8 C - 1 5 ( p o rt io n 4 )- P 7 4 * S ar an ac R iv er , U n io n F al ls R es er vo ir ( 1 0 0 3 -0 0 4 0 ) C li n to n L ak e( R ) C (T ) M er cu ry A tm o sp h er ic D ep . 2 0 0 8 6 9 C - 1 5 -P 1 0 4 * L ow er S ar an ac L ak e (1 0 0 3 -0 0 8 0 ) F ra n kl in L ak e A A M er cu ry A tm o sp h er ic D ep . 2 0 0 8 6 9 C - 4 8 -2 6 -P 3 1 5 * L in co ln P on d (1 0 0 4 -0 0 9 0 ) E ss ex L ak e B (T ) M er cu ry A tm o sp h er ic D ep . 2 0 0 8 6 9 U p p er H u d so n R iv er D ra in ag e B as in H ( p o rt io n 6 ) H u d so n R iv er ( 1 1 0 4 -0 0 4 5 ) S ar at o ga R iv er C M er cu ry C o n ta m in at ed S ed , 2 0 0 2 7 1 H -2 6 4 ( p o rt io n 1 ) H o o si c R iv er , L o w er , M ai n S te m ( 1 1 0 2 -0 0 0 2 ) R en ss el ae r R iv er C P C B s C o n ta m in at ed S ed . 1 9 9 8 H -2 6 4 ( p o rt io n 1 b )/ P 1 1 1 5 S ch ag h ti co ke R es er vo ir ( 1 1 0 2 -0 0 1 5 ) R en ss el ae r L ak e (R ) C P C B s C o n ta m in at ed S ed . 2 0 0 6 H -2 6 4 ( p o rt io n 2 ) H o o si c R iv er , M id d le , M ai n S te m ( 1 1 0 2 -0 0 0 3 ) R en ss el ae r R iv er B P C B s C o n ta m in at ed S ed . 1 9 9 8 7 2 H -2 6 4 ( p o rt io n 3 ) H oo si c R iv er , M id d le , M a in S te m ( 1 1 0 2 -0 0 1 6 ) R en ss el ae r R iv er C (T ) P C B s C o n ta m in at ed S ed . 2 0 0 8 7 2 H -2 6 4 ( p o rt io n 4 ) H oo si c R iv er , U p p er , an d t ri b s (1 1 0 2 -0 0 1 7 ) R en ss el ae r R iv er B (T ) P C B s C o n ta m in at ed S ed . 2 0 0 8 7 2 H -2 6 4 ( p o rt io n 5 ) H oo si c R iv er , U p p er , an d m in or t ri b s (1 1 0 2 -0 0 1 8 ) R en ss el ae r R iv er C (T ) P C B s C o n ta m in at ed S ed . 2 0 0 8 7 2A D D 04 1 N ew Y or k S ta te F in a l 20 08 S ec ti on 3 03 (d ) L is t M ay 2 6, 2 00 8 W at er I n d ex N u m b er W at er b od y N am e (W I/ P W L I D ) C ou n ty T yp e C la ss C au se /P ol lu ta n t S ou rc e Y ea r In a d d it io n t o t h e co n ta m in an ts f o r w h ic h t h er e ar e sp ec if ic H ea lt h A d vi so ri es f o r th e co n su m p ti o n o f fi sh , o th er c o n ta m in an ts h av e al so b ee n i d en ti fi ed a s co n tr ib u ti n g to t h e fi sh c o n su m p ti o n 7 3 im p ai rm en t. T h es e su b st an ce s in cl u d e m er cu ry , d io xi n s/ fu ra n s, P A H s an d p es ti ci d es . T h es e se gm en ts h ad p re vi o u sl y b ee n c o n si d er ed a s o n e se gm en t an d l is te d a s H u d so n R iv er , C la ss A (1 3 0 1 -0 0 0 1 ). 7 4 19 P a rt 2 b - M u lt ip le S eg m en t/ C a te g or ic a l Im p a ir ed W at er b o d y S eg m en ts ( fi sh c o n su m p ti o n ) ( c o n ’t ) U p p er H u d so n R iv e r D ra in a g e B as in ( co n ’t ) H -3 6 9 -P 1 2 7 * G re at S ac an d ag a L ak e (1 1 0 4 -0 0 2 4 ) S ar at og a L ak e B M er cu ry A tm o sp h er ic D ep . 2 0 0 8 6 9 H -3 6 9 -P 1 2 7 -4 6 - 8 -3 -P 1 5 6 * W oo d s L ak e ( 1 1 0 4 -0 1 3 4 ) H am il to n L ak e C M er cu ry A tm o sp h er ic D ep . 2 0 0 8 6 9 H -3 6 9 .. P 3 1 3 -4 -P 3 1 4 * S ac an d ag a L ak e (1 1 0 4 -0 0 5 0 ) H am il to n L ak e A A M er cu ry A tm o sp h er ic D ep . 2 0 0 8 6 9 H -3 9 1 ( p o rt io n 3 )/ P 3 7 4 S ch ro o n L ak e (1 1 0 4 -0 0 0 2 ) E ss ex L ak e A A P C B s A tm o sp h , U n kn o w n 1 9 9 8 M o h aw k R iv er D ra in ag e B as in H -2 4 0 ( p o rt io n 1 1 ) M o h aw k R /N Y S B ar ge C an al , M ai n S te m ( 1 2 0 1 -0 0 9 2 ) H er ki m er R iv er B P C B s C o n ta m . S ed im en t 1 9 9 8 H -2 4 0 ( p o rt io n 1 2 ) M o h aw k R iv er , M ai n S te m ( 1 2 0 1 -0 0 9 3 ) H er ki m er R iv er C P C B s C o n ta m . S ed im en t 1 9 9 8 H -2 4 0 ( p o rt io n 1 2 b ) U ti ca H ar b o r (1 2 0 1 -0 2 2 8 ) O n ei d a B ay C P C B s C o n ta m . S ed im en t 1 9 9 8 H -2 4 0 ( p o rt io n 1 3 ) M o h aw k R iv er , M ai n S te m ( 1 2 0 1 -0 0 1 0 ) O n ei d a R iv er B P C B s U n kn o w n 1 9 9 8 H -2 4 0 -1 4 4 -1 3 .. P 7 2 4 * P in e L ak e (1 2 0 1 -0 1 7 0 ) F ul to n L ak e B M er cu ry A tm o sp h er ic D ep . 2 0 0 8 6 9 H -2 4 0 -2 1 9 S au q u o it C re ek , L o w er , an d t ri b s (1 2 0 1 -0 0 6 9 ) O n ei d a R iv er C (T ) P C B s In d u st ri al , L ea k/ S p il l 2 0 0 2 H -2 4 0 -2 1 9 S au q u o it C re ek , M id d le , an d t ri b s (1 2 0 1 -0 2 0 7 ) O n ei d a R iv er C (T ) P C B s C o n ta m . S ed im en t 2 0 0 2 H -2 4 0 -2 3 4 T h re em il e C re ek a n d t ri b s (1 2 0 1 -0 2 2 3 ) O n ei d a R iv er C P C B s C o n ta m . S ed im en t 1 9 9 8 L o w er H u d so n R iv er D ra in ag e B as in H ( p o rt io n 1 ) H u d so n R iv er , C la ss I , (1 3 0 1 -0 0 0 6 ) N ew Y o rk E st u ar y I P C B s, o th er t o xi cs C o n ta m in at ed S ed . 1 9 9 8 7 3 C ad m iu m C o n ta m in at ed S ed . 1 9 9 8 H ( p o rt io n 2 a) H u d so n R iv er , C la ss S B , p o rt io n ( 1 3 0 1 -0 0 0 5 ) B ro n x E st u ar y S B P C B s, o th er t o xi cs C o n ta m in at ed S ed . 1 9 9 8 7 3 C ad m iu m C o n ta m in at ed S ed . 1 9 9 8 H ( p o rt io n 2 b ) H u d so n R iv er , C la ss S B , p o rt io n ( 1 3 0 1 -0 0 9 4 ) W es tc h es te r E st u ar y S B P C B s, o th er t o xi cs C o n ta m in at ed S ed . 1 9 9 8 7 3 C ad m iu m C o n ta m in at ed S ed . 1 9 9 8 H ( p o rt io n 3 ) H u d so n R iv er , C la ss B , ( 1 3 0 1 -0 0 0 3 ) O ra n ge E st u ar y B P C B s C o n ta m in at ed S ed . 1 9 9 8 C ad m iu m C o n ta m in at ed S ed . 1 9 9 8 H ( p o rt io n 4 a) H u d so n R iv er , C la ss A , (1 3 0 1 -0 0 0 1 ) O ra n ge E st u ar y A P C B s C o n ta m in at ed S ed . 1 9 9 8 7 4 C ad m iu m C o n ta m in at ed S ed . 1 9 9 8 H ( p o rt io n 4 b ) H u d so n R iv er , C la ss A , (1 3 0 1 -0 2 7 6 ) U ls te r E st u ar y A P C B s C o n ta m in at ed S ed . 1 9 9 8 7 4 C ad m iu m C o n ta m in at ed S ed . 1 9 9 8 H ( p o rt io n 5 ) H u d so n R iv er , C la ss C , ( 1 3 0 1 -0 0 0 2 ) A lb an y E st u ar y C P C B s C o n ta m in at ed S ed . 1 9 9 8 H - 4 S aw M il l R iv er ( 1 3 0 1 -0 0 0 7 ) W es tc h es te r R iv er va ri o u s C h lo rd an e C o n ta m in at ed S ed . 1 9 9 8 H -2 0 4 - 2 - 7 V al at ie K il l (1 3 1 0 -0 0 0 3 ) R en ss el ae r R iv er C (T ) P C B s C o n t. S ed . ,L an d D is p 1 9 9 8 H -2 0 4 - 2 - 7 -P 2 4 K in d er h o o k L ak e (1 3 1 0 -0 0 0 2 ) C o lu m b ia L ak e B P C B s C o n t. S ed ., L an d D is p 1 9 9 8 H -2 0 4 - 2 - 7 -P 3 4 N as sa u L ak e (1 3 1 0 -0 0 0 1 ) R en ss el ae r L ak e B P C B s C o n t. S ed ., L an d D is p 1 9 9 8 H -2 3 6 -P 4 4 5 * D y k en P on d ( 1 3 0 1 -0 2 7 1 ) R en ss el ae r L ak e B M er cu ry A tm o sp h er ic D ep . 2 0 0 8 6 9 A D D 04 2 N ew Y or k S ta te F in a l 20 08 S ec ti on 3 03 (d ) L is t M ay 2 6, 2 00 8 W at er I n d ex N u m b er W at er b od y N am e (W I/ P W L I D ) C ou n ty T yp e C la ss C au se /P ol lu ta n t S ou rc e Y ea r In cl u d es H er ri ck H o ll o w C re ek f o r w h ic h a f is h c o n su m p ti o n a d vi so ry i s in p la ce . 7 5 T h e so u rc e o f th e co n ta m in an ts f o r th es e w at er s w as p re vi o u sl y li st ed a s m ig ra to ry s p ec ie s, r ef le ct in g th e w id e ge o gr ap h ic r an ge o f st ri p ed b as s an d t h e in ab il it y to i d en ti fy s p ec if ic s o u rc e o f 7 6 th e p o ll u ta n t. H o w ev er t h e o n -g o in g ef fo rt t o d ev el o p a N ew Y o rk H ar b o r T M D L f o r to xi cs s u gg es ts t h at c o n ta m in at ed s ed im en ts a n d u rb an r u n o ff s o u rc es a re a m o re a p p ro p ri at e ch ar ac te ri za ti o n o f th es e so u rc es . 20 P a rt 2 b - M u lt ip le S eg m en t/ C a te g or ic a l Im p a ir ed W at er b o d y S eg m en ts ( fi sh c o n su m p ti o n ) ( co n ’t ) D el aw ar e R iv er D ra in ag e B as in D -7 1 -2 0 - T ro u t C re ek , U p p er , an d t ri b s (1 4 0 4 -0 0 5 0 ) D el aw ar e R iv er C (T S ) P C B s C o n t. S ed , L an d .D is p . 2 0 0 2 7 5 A tl an ti c O ce an /L o n g Is la n d S o u n d D ra in ag e B as in (M W 1 .1 ) L B L o w er N ew Y o rk B ay ( 1 7 0 1 -0 0 0 4 ) K in gs E st u ar y S B P C B s, o th er t o xi cs C o n ta m .S ed im en t, U rb an 1 9 9 8 7 3 7 6 (M W 1 .1 ) L B /G B L o w er N ew Y o rk B ay /G ra ve se n d B ay ( 1 7 0 1 -0 1 7 9 ) K in gs E st u ar y I P C B s, o th er t o xi cs C o n ta m .S ed im en t, U rb an 2 0 0 2 7 3 7 5 (M W 1 .2 ) R B ( p o rt io n 1 ) R ar it an B ay , C la ss S A ( 1 7 0 1 -0 0 0 2 ) R ic h m o n d E st u ar y S A P C B s, o th er t o xi cs C o n ta m .S ed im en t, U rb an 2 0 0 2 7 3 7 5 (M W 1 .2 ) R B ( p o rt io n 2 ) R ar it an B ay , C la ss S B ( 1 7 0 1 -0 1 8 0 ) R ic h m o n d E st u ar y S B P C B s, o th er t o xi cs C o n ta m .S ed im en t, U rb an 2 0 0 2 7 3 7 5 (M W 1 .2 ) R B ( p o rt io n 3 ) R ar it an B ay , C la ss I ( 1 7 0 1 -0 1 8 1 ) R ic h m o n d E st u ar y I P C B s, o th er t o xi cs C o n ta m .S ed im en t, U rb an 2 0 0 2 7 3 7 5 (M W 1 .2 ) S I (p o rt io n 1 ) A rt h u r K il l, C la ss I a n d m in o r tr ib s (1 7 0 1 -0 0 1 0 ) R ic h m o n d E st u ar y I P C B s, o th er t o xi cs C o n ta m in at ed S ed . 1 9 9 8 7 3 C ad m iu m C o n ta m in at ed S ed . 2 0 0 2 D io xi n C o n ta m in at ed S ed . 2 0 0 2 (M W 1 .2 ) S I (p o rt io n 2 ) A rt h u r K il l, C la ss S D a n d m in o r tr ib s (1 7 0 1 -0 1 8 2 ) R ic h m o n d E st u ar y S D P C B s, o th er t o xi cs C o n ta m in at ed S ed . 2 0 0 2 7 3 C ad m iu m C o n ta m in at ed S ed . 2 0 0 2 D io xi n C o n ta m in at ed S ed . 2 0 0 2 (M W 1 .2 ) S I (p o rt io n 3 ) N ew ar k B ay ( 1 7 0 1 -0 1 8 3 ) R ic h m o n d E st u ar y S D P C B s, o th er t o xi cs C o n ta m in at ed S ed . 2 0 0 2 7 3 C ad m iu m C o n ta m in at ed S ed . 2 0 0 2 D io xi n C o n ta m in at ed S ed . 2 0 0 2 (M W 1 .2 ) S I (p o rt io n 4 ) K il l V an K u ll ( 1 7 0 1 -0 1 8 4 ) R ic h m o n d E st u ar y S D P C B s, o th er t o xi cs C o n ta m in at ed S ed . 2 0 0 2 7 3 C ad m iu m C o n ta m in at ed S ed . 2 0 0 2 D io xi n C o n ta m in at ed S ed . 2 0 0 2 (M W 1 .3 ) U B U p p er N ew Y o rk B ay ( 1 7 0 1 -0 0 2 2 ) K in gs E st u ar y I P C B s, o th er t o xi cs C o n ta m in at ed S ed . 1 9 9 8 7 3 C ad m iu m C o n ta m in at ed S ed . 2 0 0 2 (M W 1 .3 ) U B -E B E ri e B as in ( 1 7 0 1 -0 1 8 5 ) K in gs E st u ar y S D P C B s, o th er t o xi cs C o n ta m in at ed S ed . 2 0 0 2 7 3 C ad m iu m C o n ta m in at ed S ed . 2 0 0 2 (M W 2 .1 ) E R ( p o rt io n 1 ) E as t R iv er , L o w er ( 1 7 0 2 -0 0 1 1 ) N ew Y o rk E st u ar y I P C B s, o th er t o xi cs C o n ta m in at ed S ed . 1 9 9 8 7 3 (M W 2 .3 ) E R ( p o rt io n 2 ) E as t R iv er , U p p er ( 1 7 0 2 -0 0 1 0 ) Q u ee n s E st u ar y I P C B s, o th er t o xi cs C o n ta m in at ed S ed . 1 9 9 8 7 3 (M W 2 .3 ) E R ( p o rt io n 3 ) E as t R iv er , U p p er ( 1 7 0 2 -0 0 3 2 ) Q u ee n s E st u ar y S B P C B s, o th er t o xi cs C o n ta m in at ed S ed . 1 9 9 8 7 3 (M W 2 .3 ) E R -1 H ar le m R iv er ( 1 7 0 2 -0 0 0 4 ) N ew Y o rk E st u ar y I P C B s, o th er t o xi cs C o n ta m in at ed S ed . 2 0 0 2 7 3 (M W 3 .3 ) L IS - 8 - 1 S h el d ra ke R iv er ( 1 7 0 2 -0 0 6 9 ) W es tc h es te r R iv er C C h lo rd an e C o n ta m in at ed S ed . 1 9 9 8 D ie ld ri n C o n ta m in at ed S ed . 1 9 9 8 A D D 04 3 N ew Y or k S ta te F in a l 20 08 S ec ti on 3 03 (d ) L is t M ay 2 6, 2 00 8 W at er I n d ex N u m b er W at er b od y N am e (W I/ P W L I D ) C ou n ty T yp e C la ss C au se /P ol lu ta n t S ou rc e Y ea r B ec au se d ev el op m en t of a c om pr eh en si ve m on it or in g st ra te gy r eq ui re d l im it in g th e W I/ P W L d at ab as e to l ak es 6 .4 a cr es o r la rg er , th es e sm al le r la ke s ar e no l o ng er t ra ck ed a s in di vi du al 7 7 w at er b o d ie s in t h e W I/ P W L d at ab as e. 21 P a rt 2 b - M u lt ip le S eg m en t/ C a te g or ic a l Im p a ir ed W at er b o d y S eg m en ts ( fi sh c o n su m p ti o n ) ( co n ’t ) A tl an ti c O ce an /L o n g Is la n d S o u n d D ra in ag e B as in ( co n ’t ) - - - R id d er s P o n d ( 1 7 0 1 -0 1 7 6 ) N as sa u L ak e C C h lo rd an e C o n ta m in at ed S ed . 1 9 9 8 7 7 (M W 4 .2 b ) L IS -M B -2 5 -P 1 2 2 W h it n ey L ak e (1 7 0 2 -0 1 0 1 ) N as sa u L ak e C C h lo rd an e C o n ta m in at ed S ed . 1 9 9 8 - - - S ai n t Ja m es P o n d ( 1 7 0 2 -0 0 4 9 ) S u ff o lk L ak e C C h lo rd an e/ D D T C o n ta m in at ed S ed . 1 9 9 8 7 7 - - - S p ri n g P o n d /L ak e (1 7 0 1 -0 0 2 2 ) S u ff o lk L ak e B C h lo rd an e C o n ta m in at ed S ed . 1 9 9 8 7 7 (M W 6 .3 h ) B IS .. P 7 5 3 * F re sh P on d (1 7 0 1 -0 2 8 0 ) S uf fo lk L ak e C M er cu ry A tm o sp h er ic D ep . 2 0 0 8 6 9 (M W 7 .8 ) A O -G S B -2 0 5 -P 9 3 4 L ak e C ap ri ( 1 7 0 1 -0 1 7 5 ) S u ff o lk L ak e C C ad m iu m C o n t. S ed , L an d .D is p . 1 9 9 8 C h lo rd an e C o n t. S ed , L an d .D is p . 2 0 0 2 (M W 8 .1 a) S O B -2 2 0 -P 9 6 9 M as sa p eq u a R es er vo ir ( 1 7 0 1 -0 1 5 7 ) N as sa u L ak e( R ) A C h lo rd an e C o n ta m in at ed S ed . 1 9 9 8 (M W 8 .3 a) M D B -2 2 8 -P 9 8 9 F re ep o rt R es er vo ir /E as t M ea d o w P o n d ( 1 7 0 1 -0 0 2 5 ) N as sa u L ak e( R ) A C h lo rd an e C o n ta m in at ed S ed . 2 0 0 2 (M W 8 .3 a) M D B -2 2 8 -P 9 8 9 -P 9 9 1 S m it h P o n d /R o o se ve lt P o n d ( 1 7 0 1 -0 1 3 6 ) N as sa u L ak e C C h lo rd an e C o n ta m in at ed S ed . 1 9 9 8 (M W 8 .3 a) M D B -2 3 1 -P 9 9 6 L o ft s P o n d ( 1 7 0 1 -0 0 2 9 ) N as sa u L ak e C C h lo rd an e C o n ta m in at ed S ed . 1 9 9 8 (M W 8 .4 a) H B -2 3 3 -P 1 0 0 5 S m it h P o n d ( 1 7 0 1 -0 0 2 8 ) N as sa u L ak e C C h lo rd an e C o n ta m in at ed S ed . 2 0 0 2 (M W 8 .4 a) H B -2 3 3 -P 1 0 0 5 .. P 1 0 0 8 H al ls P o n d ( 1 7 0 1 -0 0 2 7 ) N as sa u L ak e C C h lo rd an e C o n ta m in at ed S ed . 1 9 9 8 (M W 8 .4 a) H B -2 3 5 -P 1 0 1 7 a G ra n t P ar k P o n d ( 1 7 0 1 -0 0 5 4 ) N as sa u L ak e C P C B s C o n ta m in at ed S ed . 1 9 9 8 M o re I n fo rm at io n R eg ar d in g F is h C o n su m p ti o n W at er s im p ai re d f o r fi sh c o n su m p ti o n a re b as ed o n N ew Y o rk S ta te D ep ar tm en t o f H ea lt h a d vi so ri es c o n ta in ed i n i ts a n n u al C he m ic al s in S po rt fi sh a nd G am e p u b li ca ti o n s. B ec au se t h e sp ec if ic e xt en t an d c o n d it io n s o f th e ad vi so ri es a re r ep o rt ed m o re p re ci se ly a n d m o re f re q u en tl y th an c an b e re p o rt ed t h ro u gh t h e S ec ti o n 3 0 3 (d ) L is t, t h is a d vi so ry i n fo rm at io n r eg ar d in g th e su p p o rt o f fi sh c o n su m p ti o n i n N ew Y o rk i s m o re t im el y an d t h e ex te n t o f th e ad vi so ry m o re p re ci se ly d el in ea te d t h an t h e in fo rm at io n p ro vi d ed i n t h e S ec ti o n 3 0 3 (d ) L is t. F o r th e m o st u p -t o -d at e fi sh c o n su m p ti o n a d vi so ry i n fo rm at io n , re fe r to h tt p :/ /w w w .h ea lt h .s ta te .n y. u s/ en vi ro n m en ta l/ o u td o o rs /f is h /f is h .h tm A D D 04 4 N ew Y or k S ta te F in a l 20 08 S ec ti on 3 03 (d ) L is t M ay 2 6, 2 00 8 W at er I n d ex N u m b er W at er b od y N am e (W I/ P W L I D ) C ou n ty T yp e C la ss C au se /P ol lu ta n t S ou rc e Y ea r 22 P ar t 2c - M u lt ip le S eg m en t/ C at eg or ic al I m p ai re d W at er b od y S eg m en ts ( sh el lf is h in g) (M ig h t b e a d d re ss ed b y a w at er b o d y s p ec if ic T M D L o r a p o ll u ta n t/ so u rc e sp ec if ic T M D L o r o th er s tr at eg y t o a tt ai n w at er q u al it y s ta n d ar d s) A tl an ti c O ce an /L o n g I sl an d S o u n d D ra in ag e B as in (M W 1 .2 ) R B ( p o rt io n 1 ) R ar it an B ay , C la ss S A ( 1 7 0 1 -0 0 0 2 ) R ic h m o n d E st u ar y S A P at h o ge n s U rb an /S to rm /C S O 1 9 9 8 (M W 3 .1 ) L IS ( p o rt io n 1 b ) N ew R o ch el le H ar b o r (1 7 0 2 -0 2 5 9 ) W es tc h es te r E st u ar y S A P at h o ge n s U rb /S to rm , M u n ic ip al 2 0 0 2 (M W 3 .1 ) L IS ( p o rt io n 2 ) L o n g Is la n d S o u n d , W es tc h es te r C o W at er s( 1 7 0 2 -0 0 0 1 ) W es tc h es te r E st u ar y S A P at h o ge n s U rb an /C S O , M u n ic ip l 1 9 9 8 (M W 4 .1 ) L IS ( p o rt io n 3 ) L o n g Is la n d S o u n d , N as sa u C o u n ty W at er s (1 7 0 2 -0 0 2 8 ) N as sa u E st u ar y S A P at h o ge n s U rb an /C S O , M u n ic ip l 1 9 9 8 (M W 4 .2 b ) L IS -M B ( p o rt io n 1 ) M an h as se t B ay , an d t id al t ri b s (1 7 0 2 -0 0 2 1 ) N as sa u E st u ar y S A P at h o ge n s U rb an /S to rm R u n o ff 1 9 9 8 (M W 4 .3 b ) L IS -4 1 -P 1 4 5 D o so ri s P o n d ( 1 7 0 2 -0 0 2 4 ) N as sa u E st u ar y S A P at h o ge n s U rb an /S to rm R u n o ff 2 0 0 2 (M W 5 .4 g) L IS -F I- P 1 1 0 1 ,P 1 1 0 2 B ea ch /I sl an d P o n d s, F is h er s Is la n d ( 1 7 0 1 -0 2 8 3 ) S u ff o lk E st u ar y S A P at h o ge n s U rb an /S to rm R u n o ff 2 0 0 2 (M W 6 .3 b ) G B ..G P B -1 2 2 a- P 6 5 2 S ca ll o p P o n d ( 1 7 0 1 -0 3 5 4 ) S u ff o lk E st u ar y S A P at h o ge n s U rb an /S to rm R u n o ff 2 0 0 2 (M W 6 .3 g) B IS .. P 7 6 4 O ys te r P o n d /L ak e M u n ch o gu e (1 7 0 1 -0 1 6 9 ) S u ff o lk E st u ar y S A P at h o ge n s U rb an /S to rm R u n o ff 1 9 9 8 (M W 6 .3 i) A O -S B -1 5 5 P h il li p s C re ek , L o w er , an d t id al t ri b s (1 7 0 1 -0 2 9 9 ) S u ff o lk E st u ar y S A P at h o ge n s U rb an /S to rm R u n o ff 2 0 0 2 (M W 6 .3 i) A O -S B -Q gC Q u o gu e C an al ( 1 7 0 1 -0 3 0 1 ) S u ff o lk E st u ar y S A P at h o ge n s U rb an /S to rm R u n o ff 2 0 0 2 (M W 7 .2 a) A O -M B ( p o rt io n 4 ) F o rg e R iv er , L o w er a n d C o ve ( 1 7 0 1 -0 3 1 6 ) S u ff o lk E st u ar y S A P at h o ge n s U rb an /S to rm , A gr ic . 2 0 0 2 (M W 7 .6 ) A O -G S B ( p o rt io n 6 ) N ic o ll B ay ( 1 7 0 1 -0 3 7 5 ) S u ff o lk E st u ar y S A P at h o ge n s U rb an /S to rm R u n o ff 2 0 0 2 (M W 7 .8 ) A O -G S B ( p o rt io n 7 ) G re at C o ve ( 1 7 0 1 -0 3 7 6 ) S u ff o lk E st u ar y S A P at h o ge n s U rb an /S to rm R u n o ff 2 0 0 2 (M W 8 .1 ) S O B S o u th O ys te r B ay ( 1 7 0 1 -0 0 4 1 ) N as sa u E st u ar y S A P at h o ge n s U rb an /S to rm R u n o ff 1 9 9 8 (M W 8 .2 ) E B E as t B ay ( 1 7 0 1 -0 2 0 2 ) N as sa u E st u ar y S A P at h o ge n s U rb an /S to rm R u n o ff 2 0 0 2 (M W 8 .3 ) M D B M id d le B ay ( 1 7 0 1 -0 2 0 8 ) N as sa u E st u ar y S A P at h o ge n s U rb an /S to rm R u n o ff 2 0 0 2 (M W 8 .3 ) M D B -E R I E as t R o ck aw ay I n le t (1 7 0 1 -0 2 1 7 ) N as sa u E st u ar y S A P at h o ge n s U rb an /S to rm R u n o ff 2 0 0 2 (M W 8 .3 ) M D B -R C R ey n o ld s C h an n el , ea st ( 1 7 0 1 -0 2 1 5 ) N as sa u E st u ar y S A P at h o ge n s U rb an /S to rm R u n o ff 2 0 0 2 (M W 8 .4 ) H B H em p st ea d B ay ( 1 7 0 1 -0 0 3 2 ) N as sa u E st u ar y S A P at h o ge n s U rb an /S to rm R u n o ff 1 9 9 8 (M W 8 .4 a) H B -2 3 6 W o o d m er e C h an n el ( 1 7 0 1 -0 2 1 9 ) N as sa u E st u ar y S A P at h o ge n s U rb an /S to rm R u n o ff 2 0 0 2 M o re I n fo rm at io n R eg ar d in g S h el lf is h in g W at er s im pa ir ed f or s he ll fi sh in g us e ar e ba se d on s he ll fi sh in g cl os u re s is su es b y N ew Y or k S ta te D ep ar tm en t of E nv ir on m en ta l C on se rv at io n S he ll fi sh er ie s P ro g ra m a n d t h e N at io n al S h el lf is h S an it at io n P ro g ra m . B ec au se t h e sp ec if ic e xt en t an d c o n d it io n s o f th e cl o su re s ar e re p o rt ed m o re p re ci se ly a n d m o re fr eq u en tl y th ro u gh t h es e p ro gr am s th an t h ro u gh t h e S ec ti o n 3 0 3 (d ) L is t, t h is s h el lf is h c lo su re i n fo rm at io n p ro vi d es b et te r d el in ea te d a n d m o re t im el y in fo rm at io n re ga rd in g th e su p p o rt o f sh el lf is h in g u se i n t h e w at er s o f N ew Y o rk t h an d o es t h e S ec ti o n 3 0 3 (d ) L is t. F o r th e m o st c u rr en t sh el lf is h in g cl o su re i n fo rm at io n , re fe r to h tt p :/ /w w w .d ec .s ta te .n y. u s/ w eb si te /d fw m r/ m ar in e/ sh el lf is h /s fn ts h /i n d ex .h tm . A D D 04 5 N ew Y or k S ta te F in a l 20 08 S ec ti on 3 03 (d ) L is t M ay 2 6, 2 00 8 W at er I n d ex N u m b er W at er b od y N am e (W I/ P W L I D ) C ou n ty T yp e C la ss C au se /P ol lu ta n t S ou rc e Y ea r D u e to a n al yt ic l im it at io n s, t h e tr ea tm en t o f n o n -d et ec t re su lt s in t h e d at a ev al u at io n , an d o th er d at a ev al u at io n a n d q u al it y as su ra n ce /q u al it y co n tr o l is su es , ad d it io n al m o n it o ri n g an d 7 8 ve ri fi ca ti o n o f P A H s an d s o m e O rg an o ch lo ri n e P es ti ci d es l o ad in gs i n t h e ri ve r ar e n ec es sa ry t o d ev el o p a T M D L . A m b ie n t m o n it o ri n g co n ce n tr at io n s o f p h en o li c co m p o u n d s in s o m e w at er s o f th is b as in o cc as io n al ly e xc ee d t h e cu rr en t 1 .0 ì g/ l st an d ar d f o r ae st h et ic s (t as te , f is h t ai n ti n g) . H o w ev er t h e 7 9 re li ab il it y o f th es e re su lt s is l im it ed f o r m u ch o f th e d at a se t b y a m in im u m r ep o rt in g le ve l eq u al t o t h e st an d ar d o f 1 .0 ì g/ l. In a d d it io n , th e fr eq u en cy a n d /o r m ag n it u d e b y w h ic h t h is s ta n d ar d is e xc ee d ed w as n o t co n si d er ed i n t h e p re vi o u s (1 9 9 8 ) S ec ti o n 3 0 3 (d ) L is ti n g. A s a re su lt , w at er s in t h e b as in w il l b e re -e va lu at ed f o r im p ac ts d u e to p h en o li c co m p o u n d s in l ig h t o f an al yt ic ca p ab il it ie s an d t h e n ew C o n so li d a te d A ss es sm en t a n d L is ti n g M et h o d o lo g y d u ri n g th e n ex t sc h ed u le d b as in m o n it o ri n g an d a ss es sm en t ef fo rt . 23 P ar t 3a - W at er b o d ie s fo r w h ic h T M D L D ev el op m en t M ay b e D ef er re d ( R eq u ir in g V er if ic at io n o f Im p ai rm en t) N ia ga ra R iv er /L ak e E ri e D ra in ag e B as in O n t 1 5 8 ( p o rt io n 1 ) N ia ga ra R iv er , L o w er , M ai n S te m ( 0 1 0 1 -0 0 2 7 ) N ia ga ra R iv er A (S ) O rg .C h lo r. P es t/ H C B C o n t. S ed , L an d D is p o sa l 2 0 0 6 7 8 P A H s C o n t. S ed , L an d D is p o sa l 2 0 0 2 O n t 1 5 8 ( p o rt io n 2 ) N ia ga ra R iv er , U p p er , M ai n S te m (0 1 0 1 -0 0 0 6 ) N ia ga ra R iv er A (S ) O rg .C h lo r. P es t/ H C B C o n t. S ed , L an d D is p o sa l 2 0 0 6 7 8 P A H s C o n t. S ed , L an d D is p o sa l 2 0 0 2 O n t 1 5 8 -1 2 ( p o rt io n 3 ) T o n aw an d a C r, M id d le , M ai n S te m ( 0 1 0 2 -0 0 0 2 ) G en es ee R iv er C P h o sp h o ru s U rb an /S to rm , S tr E ro si o n 2 0 0 4 S il t/ S ed im en t U rb an /S to rm , S tr E ro si o n 2 0 0 4 O n t 1 5 8 -1 2 ( p o rt io n 4 ) T o n aw an d a C r, U p p , & m in o r tr ib s (0 1 0 2 -0 0 0 3 ) G en es ee R iv er A S il t/ S ed im en t A gr ic , S tr ea m b an k E ro si o n 2 0 0 4 O n t 1 5 8 -1 2 - 1 E ll ic o tt C re ek , L o w er , an d t ri b s (0 1 0 2 -0 0 1 8 ) E ri e R iv er B P h o sp h o ru s U rb an R u n o ff 2 0 0 4 S il t/ S ed im en t U rb an R u n o ff 2 0 0 4 O n t 1 5 8 -1 2 -3 2 L it tl e T o n aw an d a C r, L o w , an d t ri b s (0 1 0 2 -0 0 0 1 ) G en es ee R iv er A S il t/ S ed im en t A gr ic , S tr ea m b an k E ro si o n 2 0 0 4 A ll eg h en y R iv er D ra in ag e B as in P a- 6 3 -1 3 - 4 -P 1 2 2 * C h au ta u q u a L ak e, S o u th ( 0 2 0 2 -0 0 2 0 ) C h au ta u q u a L ak e A P h o sp h o ru s A gr ic u lt u re 2 0 0 4 P a- 6 3 -1 3 - 4 -P 1 2 2 * C h au ta u q u a L ak e, N o rt h ( 0 2 0 2 -0 0 7 2 ) C h au ta u q u a L ak e A P h o sp h o ru s A gr ic u lt u re 2 0 0 4 P a- 6 3 -1 3 -P 1 3 3 L o w er C as sa d ag a L ak e (0 2 0 2 -0 0 0 3 ) C h au ta u q u a L ak e B N u tr ie n ts ( p h o sp h o ru s) A gr ic u lt u ra l 1 9 9 8 P a- 6 3 -1 3 -P 1 3 3 -3 -P 1 3 4 M id d le C as sa d ag a L ak e (0 2 0 2 -0 0 0 2 ) C h au ta u q u a L ak e C N u tr ie n ts ( p h o sp h o ru s) A gr ic u lt u ra l 1 9 9 8 L ak e O n ta ri o ( M in o r T ri b s) D ra in ag e B as in O n t 1 0 0 M il l C re ek a n d t ri b s (0 3 0 2 -0 0 2 5 ) M on ro e R iv er B D .O ./ O x y g en D em an d M u n ic ip al , O n -s it e W T S 2 0 0 8 P h os p h or u s M u n ic ip al , O n -s it e W T S 2 0 0 8 P at h og en s M u n ic ip al , O n -s it e W T S 2 0 0 8 O n t 1 0 7 S h ip b u il d er s C re ek a n d t ri b s (0 3 0 2 -0 0 2 6 ) M o n ro e R iv er C * D .O ./ O x y g en D em an d M u n ic ip al , O n -s it e W T S 2 0 0 8 P h os p h or u s M u n ic ip al , O n -s it e W T S 2 0 0 8 P at h og en s M u n ic ip al , O n -s it e W T S 2 0 0 8 O n t 1 3 8 O ak O rc h ar d C re ek ( 0 3 0 1 -0 0 1 4 ) G en es ee R iv er C N u tr ie n ts ( p h o sp h o ru s) A gr ic u lt u ra l 1 9 9 8 G en es ee R iv er D ra in ag e B as in O n t 1 1 7 - 2 7 -3 4 H em lo ck L ak e O u tl et a n d m in o r tr ib s (0 4 0 2 -0 0 1 3 ) O n ta ri o R iv er C P h o sp h o ru s O n -S it e W T S 2 0 0 4 P at h o ge n s O n -S it e W T S 2 0 0 4 C h em u n g R iv e r B as in P H E N O L IC C O M P O U N D S 79 A D D 04 6 N ew Y or k S ta te F in a l 20 08 S ec ti on 3 03 (d ) L is t M ay 2 6, 2 00 8 W at er I n d ex N u m b er W at er b od y N am e (W I/ P W L I D ) C ou n ty T yp e C la ss C au se /P ol lu ta n t S ou rc e Y ea r 24 P ar t 3a - W at er b o d ie s fo r w h ic h T M D L D ev el op m en t M ay b e D ef er re d ( R eq u ir in g V er if ic at io n o f Im p ai rm en t) ( c o n ’t ) S u sq u eh an n a R iv er D ra in ag e B as in S R - 9 9 -P 1 7 4 B ea ve r L ak e (0 6 0 1 -0 0 6 6 ) B ro o m e L ak e C P h o sp h o ru s O n -s it e W T S 2 0 0 2 S R -1 0 0 -P 1 7 4 a W h it e B ir ch L ak e (0 6 0 1 -0 0 6 8 ) B ro o m e L ak e ? P h o sp h o ru s O n -s it e W T S 2 0 0 2 O sw eg o R iv er ( F in ge r L ak es ) D ra in ag e B as in O n t 6 6 -1 2 ( p o rt io n 2 ) S en ec a R iv er ( 0 7 0 1 -0 0 0 8 ) O n o n d ag a R iv er C P at h o ge n s O n -s it e W T S 1 9 9 8 O n t 6 6 -1 2 -1 2 -P 1 5 4 - 4 O n on d ag a C re ek , M id d le , an d t ri b s (0 7 0 2 -0 0 0 4 ) O no nd ag a R iv er B T u rb id it y S tr ea m b an k E ro si o n 2 0 0 8 O n t 6 6 -1 2 -1 2 -P 1 5 4 - 4 O n on d ag a C re ek , U p p er , an d t ri b s (0 7 0 2 -0 0 2 4 ) O no nd ag a R iv er C T u rb id it y S tr ea m b an k E ro si o n 2 0 0 8 O n t 6 6 -1 2 -5 2 -1 8 P o n d B ro o k an d t ri b s (0 7 0 4 -0 0 0 4 ) S en ec a R iv er C D .O ./ O xy ge n D em an d A gr ic u lt u ra l 1 9 9 8 O n t 6 6 -1 2 -5 2 -2 3 - 1 M ar b le to w n C re ek ( 0 7 0 4 -0 0 0 3 ) W ay n e R iv er C (T ) P es ti ci d es A gr ic u lt u ra l 1 9 9 8 O n t 6 6 -1 2 -5 2 -2 3 -4 3 G re at B ro ok a n d m in or t ri b s (0 7 0 4 -0 0 3 4 ) O nt ar io R iv er C D .O ./ O x y g en D em an d M u n ic ip al , U rb an /S to rm 2 0 0 8 P h os p h or u s M u n ic ip al , U rb an /S to rm 2 0 0 8 S il t/ S ed im en t M u n ic ip al , U rb an /S to rm 2 0 0 8 O n t 6 6 -1 2 -5 2 -2 3 .. (B ar ge C an al ) N Y S B ar g e C an al ( p or ti on 5 ) (0 7 0 4 -0 0 2 0 ) W ay ne R iv er C D .O ./ O x y g en D em an d M u n ic ip al 2 0 0 8 P H E N O L IC C O M P O U N D S 7 9 S ai n t L aw re n ce R iv er D ra in ag e B as in S L -2 5 - 7 - P 1 * B la ck L ak e (0 9 0 6 -0 0 0 1 ) S t. L aw re n ce L ak e B N u tr ie n ts ( p h o sp h o ru s) A gr ic u lt u ra l 1 9 9 8 U p p er H u d so n R iv er D ra in ag e B as in H -2 9 9 -P 2 7 -1 3 - 1 -P 3 0 * L ak e L o n el y (1 1 0 1 -0 0 3 4 ) S ar at o ga L ak e B P h o sp h o ru s U rb an /S to rm R u n o ff 2 0 0 2 P H E N O L IC C O M P O U N D S 7 9 M o h aw k R iv er D ra in ag e B as in P H E N O L IC C O M P O U N D S 7 9 L o w er H u d so n R iv er D ra in ag e B as in H - 3 1 -P 4 4 -1 7 -5 -P 5 7 a L ak e L in co ln d al e (1 3 0 2 -0 0 8 9 ) W es tc h es te r L ak e B P h o sp h o ru s O n -s it e W T S , U rb an 2 0 0 2 H - 3 1 -P 4 4 -2 3 -P 5 9 - 6 -P 6 2 a L ak e C ar m el ( 1 3 0 2 -0 0 0 6 ) P u tn am L ak e B P h o sp h o ru s O n -s it e W T S 2 0 0 2 H - 4 9 a- P 1 6 0 L ak e M ea h ag h ( 1 3 0 1 -0 0 5 3 ) W es tc h es te r L ak e C P h o sp h o ru s O n -s it e W T S , U rb an 2 0 0 2 H - 9 4 Q u as sa ic C re ek ( 1 3 0 1 -0 0 7 9 ) O ra n ge R iv er D U n kn o w n T o xi c U rb an R u n o ff /C S O s 2 0 0 2 H -1 0 1 -P 3 6 5 * W ap p in ge rs L ak e (1 3 0 5 -0 0 0 1 ) D u tc h es s L ak e B P h o sp h o ru s U rb an /S to rm R u n o ff 1 9 9 8 S il t/ S ed im en t U rb an /S to rm R u n o ff 2 0 0 2 H -1 1 4 F al lk il l C re ek ( 1 3 0 1 -0 0 8 7 ) D u tc h es s R iv er C P h o sp h o ru s U rb an /S to rm R u n o ff 2 0 0 2 H -1 8 8 -P 9 0 2 R o b in so n P o n d ( 1 3 0 8 -0 0 0 3 ) C o lu m b ia L ak e B (T ) P h o sp h o ru s A gr ic u lt u ra l 1 9 9 8 H -1 9 3 -2 0 S h in gl e K il l (1 3 0 9 -0 0 0 8 ) G re en e R iv er C (T S ) P at h o ge n s P ri va te /O n -S it e W T S 2 0 0 2 H -1 9 3 -2 9 -P 9 5 0 a * B as ic C re ek R es er vo ir ( 1 3 0 9 -0 0 0 1 ) A lb an y L ak e( R ) A A es th et ic s (a lg al b lo o m s) H yd ro /H ab it at M o d 2 0 0 2 H -2 2 1 - 4 - 3 K ru m ki ll C re ek ( 1 3 1 1 -0 0 0 4 ) A lb an y R iv er C (T ) U n kn o w n T o xi c U rb an R u n o ff /C S O s 2 0 0 2 H -2 2 6 P at ro o n C re ek ( 1 3 0 1 -0 0 3 0 ) A lb an y R iv er C D .O ./ O xy ge n D em an d U rb an /S to rm /C S O s 2 0 0 2 H -2 3 4 K ro m m a K il l (1 3 0 1 -0 0 2 7 ) A lb an y R iv er D > C U n kn o w n T o xi c In d u st ri al 2 0 0 2 P H E N O L IC C O M P O U N D S 7 9 A D D 04 7 N ew Y or k S ta te F in a l 20 08 S ec ti on 3 03 (d ) L is t M ay 2 6, 2 00 8 W at er I n d ex N u m b er W at er b od y N am e (W I/ P W L I D ) C ou n ty T yp e C la ss C au se /P ol lu ta n t S ou rc e Y ea r 25 P ar t 3a - W at er b o d ie s fo r w h ic h T M D L D ev el op m en t M ay b e D ef er re d ( R eq u ir in g V er if ic at io n o f Im p ai rm en t) ( c o n ’t ) H o u sa to n ic R iv er D ra in ag e B as in C o n n 1 5 -1 2 -2 1 -P 1 1 3 4 * R u d d P o n d (1 6 0 1 -0 0 0 1 ) D u tc h es s L ak e C N u tr ie n ts ( p h o sp h o ru s) A gr ic u lt u ra l 1 9 9 8 O th e r (S el ec te d ) S ta te w id e W at er s (c o n ’t ) W a te rs w it h p H b et w ee n 6 .0 a n d 6 .5 o r b et w ee n 8 .5 a n d 9 .0 . A lt h o u g h N ew Y o rk S ta te w at er q u al it y s ta n d ar d s st at e th at p H s h al l n o t b e le ss t h a n 6 .5 n o r m o re t h an 8 .5 , th er e i s co n si d er a b le e v id en ce t h at a w id e r ra n g e o f p H i s su p p o rt iv e o f aq u a ti c l if e a n d o th e r u se s. T h e N Y S D E C A ss e ss m e n t M e th o d o lo g y r e fl e ct s th is f a c t b y i n d ic at in g t h a t fo r w at er s w it h p H b et w ee n 6 .0 a n d 6 .5 o r b et w ee n 8 .5 a n d 9 .0 , w at er s ar e co n si d er ed t o b e “s tr es se d ” b u t su p p o rt in g o f u se s (i .e ., n o t “i m p ai re d ”) u n le ss t h er e a re o th e r in d ic at io n s o f b io lo g ic al i m p ac t. A s th e t ri en n ia l w at er q u al it y s ta n d ar d s ru le -m ak in g e ff o rt m o v es f o rw ar d , N Y S D E C w il l ev al u at e th e cu rr en t p H s ta n d a rd s fo r fr es h w at er i n l ig h t o f av ai la b le r es ea rc h a n d a d o p t a cr it er io n t h at b et te r re fl ec ts t h e n a tu ra l ra n g e o f p H i n fr es h w at er s an d t h e re su lt in g i m p ac t o n u se s u p p o rt . P en d in g t h e d ev el o p m en t o f re v is ed s ta n d ar d s/ cr it er ia f o r p H , w at er s b et w ee n 6 .0 a n d 6 .5 a n d 8 .5 a n d 9 .0 m ay b e as se ss e d a s w at er s w it h I n su ff ic ie n t D at a to m ak e a d et er m in a ti o n r eg ar d in g l is ti n g ( In te g ra te d R ep o rt in g C at eg o ry 3 ). A D D 04 8 N ew Y or k S ta te F in a l 20 08 S ec ti on 3 03 (d ) L is t M ay 2 6, 2 00 8 W at er I n d ex N u m b er W at er b od y N am e (W I/ P W L I D ) C ou n ty T yp e C la ss C au se /P ol lu ta n t S ou rc e Y ea r S eg m en t w as m is -i d en ti fi ed a s S o u th B ra n ch , L o w er , an d t ri b s in 2 0 0 6 S ec ti o n 3 0 3 (d ) L is t. 8 0 Im p ai rm en ts i n B ea r C re ek h av e b ee n v er if ie d , b u t th e ca u se /p o ll u ta n t re q u ir e fu rt h er v er if ic at io n . C o n se q u en tl y th e li st in g h as b ee n m o ve d t o P ar t 3 b f ro m P ar t 3 a. 8 1 26 P ar t 3b - W at er b od ie s fo r w h ic h T M D L D ev el op m en t M ay b e D ef er re d ( R eq u ir in g V er if ic at io n o f C au se /P ol lu ta n t) N ia ga ra R iv er /L ak e E ri e D ra in ag e B as in O n t 1 5 8 -1 2 - 9 B ee m an C re ek a n d t ri b s (0 1 0 2 -0 0 3 0 ) E ri e R iv er C D .O ./ O xy ge n D em an d O n -S it e W T S 2 0 0 4 P h o sp h o ru s O n -S it e W T S 2 0 0 4 P at h o ge n s O n -S it e W T S 2 0 0 4 O n t 1 5 8 -1 2 -1 1 -1 M u rd er C re ek , L o w er , an d t ri b s (0 1 0 2 -0 0 3 1 ) E ri e R iv er C D .O ./ O xy ge n D em an d O n -S it e W T S 2 0 0 4 P h o sp h o ru s O n -S it e W T S 2 0 0 4 P at h o ge n s O n -S it e W T S 2 0 0 4 O n t 1 5 8 -1 2 -2 8 B o w en B ro o k an d t ri b s (0 1 0 2 -0 0 3 6 ) G en es ee R iv er C D .O ./ O xy ge n D em an d O n -S it e W T S 2 0 0 4 P h o sp h o ru s O n -S it e W T S 2 0 0 4 O n t 1 5 8 .. E - 2 - 1 S o u th B ra n ch S m o ke C r, L o w er , an d t ri b s (0 1 0 1 -0 0 3 6 ) E ri e R iv er C P h o sp h o ru s U rb an R u n o ff 2 0 0 4 8 0 S il t/ S ed im en t U rb an R u n o ff , E ro si o n 2 0 0 4 O n t 1 5 8 .. E -1 9 L it tl e S is te r C re ek , L o w er , an d t ri b s (0 1 0 4 -0 0 4 5 ) E ri e R iv er B P h o sp h o ru s O n -S it e W T S 2 0 0 4 P at h o ge n s O n -S it e W T S 2 0 0 4 O n t 1 5 8 .. E -2 2 M u d d y C re ek , L o w er , an d t ri b s (0 1 0 4 -0 0 5 1 ) E ri e R iv er B U n kn o w n T o xi ci ty U n kn o w n 2 0 0 6 A ll eg h en y R iv er D ra in ag e B as in P a- 6 3 -1 3 - 4 C h ad ak oi n R iv er a n d t ri b s (0 2 0 2 -0 0 1 8 ) C ha ut au qu a R iv er C U n k n ow n T ox ic it y In d u st ri al , U rb an R u n o ff 2 0 0 8 P a- 6 3 -1 3 -2 3 -P 1 3 1 B ea r L ak e (0 2 0 1 -0 0 0 3 ) C h au ta u q u a L ak e A N u tr ie n ts ( p h o sp h o ru s) A gr ic u lt u ra l 1 9 9 8 8 1 L ak e O n ta ri o ( M in o r T ri b s) D ra in ag e B as in O n t 1 0 8 /P 1 1 3 - 1 t h ru 6 ( se le ct ed ) M in or T ri b s to I ro n d eq u oi t B a y ( 0 3 0 2 -0 0 3 8 ) M on ro e R iv er C D .O ./ O x y g en D em an d M u n ic ip al , U rb an R u n o ff 2 0 0 8 P h os p h or u s M u n ic ip al , U rb an R u n o ff 2 0 0 8 P at h og en s M u n ic ip al , U rb an R u n o ff 2 0 0 8 O n t 1 0 8 /P 1 1 3 - 3 -1 2 T h om as C re ek /W h it e B ro ok a n d t ri b s (0 3 0 2 -0 0 2 3 ) M on ro e R iv er B P h os p h or u s M u n ic ip al , U rb an R u n o ff 2 0 0 8 U n k n ow n T ox ic it y M u n ic ip al , U rb an R u n o ff 2 0 0 8 O n t 1 2 0 S la te r C re ek a n d t ri b s (0 3 0 1 -0 0 2 0 ) M o n ro e R iv er C D .O ./ O xy ge n D em an d O n -S it e W T S 2 0 0 4 O n t 1 4 4 G ol d en H il l C re ek a n d t ri b s (0 3 0 1 -0 0 5 0 ) N ia ga ra R iv er C U n k n ow n T ox ic it y U n kn o w n 2 0 0 8 O n t 1 4 8 E ig h te en m il e C re ek , U p p , an d m in or t ri b s (0 3 0 1 -0 0 5 5 ) N ia ga ra R iv er D U n k n ow n T ox ic it y U n kn o w n 2 0 0 8 O n t 1 4 9 H op k in s C re ek a n d t ri b s (0 3 0 1 -0 0 6 0 ) N ia ga ra R iv er C U n k n ow n T ox ic it y U n kn o w n 2 0 0 8 O n t 1 5 6 F ou rm il e C re ek , L ow er , an d t ri b s (0 3 0 1 -0 0 6 6 ) N ia ga ra R iv er B U n k n ow n T ox ic it y U n kn o w n 2 0 0 8 A D D 04 9 N ew Y or k S ta te F in a l 20 08 S ec ti on 3 03 (d ) L is t M ay 2 6, 2 00 8 W at er I n d ex N u m b er W at er b od y N am e (W I/ P W L I D ) C ou n ty T yp e C la ss C au se /P ol lu ta n t S ou rc e Y ea r 27 P ar t 3b - W at er b od ie s fo r w h ic h T M D L D ev el op m en t M ay b e D ef er re d ( R eq u ir in g V er if ic at io n o f C au se /P ol lu ta n t) G en es ee R iv er D ra in ag e B as in O n t 1 1 7 - 1 8 L it tl e B la ck C re ek , L o w er , an d t ri b s (0 4 0 2 -0 0 4 7 ) M o n ro e R iv er C U n kn o w n T o xi ci ty U rb an R u n o ff 2 0 0 4 O n t 1 1 7 - 1 9 -3 0 B ig el o w C re ek a n d t ri b s (0 4 0 2 -0 0 1 6 ) G en es ee R iv er C P h o sp h o ru s A gr ic u lt u re 2 0 0 4 O n t 1 1 7 - 5 7 Ja yc o x C re ek a n d t ri b s (0 4 0 2 -0 0 6 4 ) L iv in gs to n R iv er C P h o sp h o ru s A gr ic u lt u re 2 0 0 4 S il t/ S ed im en t A gr ic u lt u re 2 0 0 4 O n t 1 1 7 - 6 6 -2 2 M il l C re ek a n d m in o r tr ib s (0 4 0 4 -0 0 1 1 ) L iv in gs to n R iv er C (T S ) S il t/ S ed im en t S tr ea m b an k E ro si o n 2 0 0 4 O n t 1 1 7 - 7 0 S il ve r L ak e O u tl et , U p p er , an d t ri b s (0 4 0 3 -0 0 3 4 ) W yo m in g R iv er C U n kn o w n U n kn o w n 2 0 0 4 C h em u n g R iv er D ra in ag e B as in P a 3 -5 7 - 5 ( p o rt io n 4 ) C an is te o R iv er , M id d le , an d m in or t ri b s (0 5 0 3 -0 0 0 1 ) S te ub en R iv er C U n k n ow n T ox ic it y U n kn o w n 2 0 0 8 O sw eg o R iv er ( F in ge r L ak es ) D ra in ag e B as in O n t 6 6 -1 2 ( p o rt io n 1 ) * S en ec a R iv er , L o w er , M ai n S te m ( 0 7 0 1 -0 0 0 1 ) O n o n d ag a R iv er C D .O ./ O xy ge n D em an d In va si ve S p ec ie s, A gr ic 1 9 9 8 O n t 6 6 -1 2 ( p o rt io n 2 ) S en ec a R iv er , L ow er , M a in S te m ( 0 7 0 1 -0 0 0 8 ) O no nd ag a R iv er C D .O ./ O x y g en D em an d In va si ve S p ec ie s, A gr ic 1 9 9 8 O n t 6 6 -1 2 -5 1 C ra n e B ro ok a n d t ri b s (0 7 0 4 -0 0 2 4 ) C ay ug a R iv er C S al in it y U n kn o w n 2 0 0 8 M o h aw k R iv er D ra in ag e B as in H -2 4 0 ( p o rt io n 1 4 ) M o h aw k R iv er , M ai n S te m ( 1 2 0 1 -0 0 9 4 ) O n ei d a R iv er C F lo at ab le s U rb an R u n o ff 2 0 0 4 C o p p er U rb an R u n o ff 2 0 0 4 D .O ./ O xy ge n D em an d U rb an R u n o ff 2 0 0 4 P at h o ge n s U rb an R u n o ff 2 0 0 4 L o w er H u d so n R iv er D ra in ag e B as in H -1 3 9 -1 3 -5 9 Q u ak er C re ek ( 1 3 0 6 -0 0 2 5 ) O ra n ge R iv er D > C D .O ./ O xy ge n D em an d A gr ic u lt u re 2 0 0 4 A tl an ti c O ce an /L o n g I sl an d S o u n d D ra in ag e B as in (M W 3 .6 ) L IS -1 3 B yr am R iv er , L o w er ( 1 7 0 2 -0 1 3 2 ) W es tc h es te r E st u ar y S C P at h o ge n s O n -s it e W T S , U rb an 2 0 0 4 A D D 05 0 N ew Y or k S ta te F in a l 20 08 S ec ti on 3 03 (d ) L is t M ay 2 6, 2 00 8 W at er I n d ex N u m b er W at er b od y N am e (W I/ P W L I D ) C ou n ty T yp e C la ss C au se /P ol lu ta n t S ou rc e Y ea r Im pa ir m en ts t o t h es e w at er s ar e b ei n g ad d re ss ed t h ro u gh t h e ef fo rt s o f th e O n o n d ag a L ak e P ar tn er sh ip . O n o n d ag a L ak e an d s o m e o f it s tr ib s (L ey C re ek , O n o n d ag a C re ek , H ar b o r B ro o k) h av e 8 2 o r w il l al so b en ef it f ro m a ct io n s re la te d t o t h e O n o n d ag a L ak e A m en d ed C o n se n t Ju d ge m en t Im p ai rm en ts t o K el se y C re ek h av e b ee n v er if ie d , b u t th e im p ai rm en t is b ei n g ad d re ss ed t h ro u gh o n -g o in g en vi ro n m en ta l (h az ar d o u s w as te ) re m ed ia ti o n a ct io n s. 8 3 P ar t 3c - W at er b od ie s fo r w h ic h T M D L D ev el op m en t M ay b e D ef er re d ( P en d in g Im p le m en ta ti on /E va lu at io n o f O th er R es to ra ti on M ea su re s) O sw eg o R iv er ( F in ge r L ak es ) D ra in ag e B as in O n t 6 6 -1 2 -1 2 O n on d ag a L ak e O u tl et ( 0 7 0 2 -0 0 2 0 ) O no nd ag a R iv er B D .O ./ O x y g en D em an d M u n ic p al ,U rb an R u n o ff 2 0 0 8 8 2 O n t 6 6 -1 2 -1 2 -P 1 5 4 ( p o rt io n 2 ) O n o n d ag a L ak e, s o u th er n e n d ( 0 7 0 2 -0 0 2 1 ) O n o n d ag a L ak e C P at h og en s C S O s, M u n ic p l, U rb 2 0 0 8 8 2 O n t 6 6 -1 2 -1 2 -P 1 5 4 - M in o r T ri b s to O n o n d ag a L ak e (0 7 0 2 -0 0 2 2 ) O n o n d ag a R iv er C P at h og en s C S O s, M u n ic p l, U rb 2 0 0 8 8 2 N u tr ie n ts ( p h os p h or u s) C S O s, M u n ic p l, U rb 2 0 0 8 A m m on ia ( N H 3 ) C S O s, M u n ic p l, U rb 2 0 0 8 C ya n id e C S O s, M u n ic p l, U rb 2 0 0 8 O n t 6 6 -1 2 -1 2 -P 1 5 4 - 2 B lo od y B ro ok a n d t ri b s (0 7 0 2 -0 0 0 6 ) O n o n d ag a R iv er C * P at h og en s M u n ic p al ,U rb an R u n o ff 2 0 0 8 8 2 O n t 6 6 -1 2 -1 2 -P 1 5 4 - 3 L ey C re ek a n d t ri b s (0 7 0 2 -0 0 0 1 ) O n o n d ag a R iv er C * P at h og en s M u n ic p al ,U rb an R u n o ff 2 0 0 8 8 2 N u tr ie n ts ( p h o sp h o ru s) C S O s, M u n ic p l, U rb 1 9 9 8 A m m o n ia ( N H 3 ) C S O s, M u n ic p l, U rb 1 9 9 8 C ya n id e M u n ic p al ,U rb an R u n o ff 2 0 0 8 U n kn o w n T o xi ci ty M u n ic p al ,U rb an R u n o ff 2 0 0 6 O nt 66 -1 2 -1 2 -P 15 4- 4 O no nd ag a C re ek , L ow er ( 07 0 2- 0 02 3) O no nd ag a R iv er C P at h og en s C S O s, M u n ic p l, U rb 2 0 0 8 8 2 N u tr ie n ts ( p h o sp h o ru s) C S O s, M u n ic p l, U rb 1 9 9 8 A m m o n ia ( N H 3 ) C S O s, M u n ic p l, U rb 1 9 9 8 U n kn o w n T o xi ci ty C S O s, M u n ic p l, U rb 2 0 0 6 O n t 6 6 -1 2 -1 2 -P 1 5 4 - 4 O n on d ag a C re ek , M id d le , an d t ri b s (0 7 0 2 -0 0 0 4 ) O no nd ag a R iv er B P at h og en s C S O s, M u n ic p l, U rb 2 0 0 8 8 2 N u tr ie n ts ( p h os p h or u s) C S O s, M u n ic p l, U rb 2 0 0 8 A m m on ia ( N H 3 ) C S O s, M u n ic p l, U rb 2 0 0 8 U n k n ow n T ox ic it y C S O s, M u n ic p l, U rb 2 0 0 8 O nt 66 -1 2 -1 2 -P 15 4- 5 H ar bo r B ro ok , L ow er , an d tr ib s (0 70 2- 0 00 2) O no nd ag a R iv er B P at h og en s C S O s, M u n ic p l, U rb 2 0 0 8 8 2 N u tr ie n ts ( p h o sp h o ru s) C S O s, M u n ic p l, U rb 1 9 9 8 A m m o n ia ( N H 3 ) C S O s, M u n ic p l, U rb 1 9 9 8 O nt 66 -1 2 -1 2 -P 15 4- 6 N in em il e C re ek , L ow er , an d tr ib s (0 70 2- 0 00 5) O no nd ag a R iv er C P at h og en s M u n ic p al ,U rb an R u n o ff 2 0 0 8 8 2 N u tr ie n ts ( p h o sp h o ru s) M u n ic p al ,U rb an R u n o ff 1 9 9 8 3 O n t 6 6 -1 2 -1 2 -P 1 5 4 - 6 - 2 G ed d es B ro o k an d t ri b s (0 7 0 2 -0 0 0 7 ) O n o n d ag a R iv er C A m m o n ia ( N H ) M u n ic p al ,U rb an R u n o ff 1 9 9 8 8 2 B la ck R iv er D ra in ag e B as in O n t 1 9 - 6 ( -1 ) K el se y C re ek ( 0 8 0 1 -0 1 9 1 ) Je ff er so n R iv er C P C B s In d u st r, C o n ta m .S ed . 1 9 9 8 8 3 A D D 05 1 N ew Y or k S ta te F in a l 20 08 S ec ti on 3 03 (d ) L is t M ay 2 6, 2 00 8 W at er I n d ex N u m b er W at er b od y N am e (W I/ P W L I D ) C ou n ty T yp e C la ss C au se /P ol lu ta n t S ou rc e Y ea r Im p ai rm en ts t o t h es e w at er s ar e b ei n g ad d re ss ed b y a R ec o rd o f D ec is io n a n d t h e o n -g o in g p la n f o r re m ed ia ti o n o f th e R iv er . 8 4 T h es e se gm en ts w er e p re vi o u sl y li st ed a s H u d so n R iv er s eg m en ts 1 1 0 1 -0 0 0 2 , 1 1 0 1 -0 0 4 0 a n d 1 1 0 1 -0 0 4 1 ; th ey h av e b ee n r e- se gm en te d a s re fl ec te d h er e. 8 5 Im p ai rm en ts t o t h es e w at er s ar e b ei n g ad d re ss ed b y a 2 0 0 5 O rd er o n C o n se n t w it h N Y C d ir ec ti n g th e ci ty t o d ev el o p a n d i m p le m en t w at er sh ed a n d f ac il it y p la n s to a d d re ss C S O d is ch ar ge s an d 8 6 b ri n g N ew Y o rk C it y w at er s in to c o m p li an ce w it h t h e C le an W at er A ct . T h is m ay i n cl u d e a re vi si o n o f w at er q u al it y st an d ar d s b as ed o n a U se A tt ai n ab il it y A n al ys is i f fi sh ab le /s w im m ab le go al s of t he C W A a re n o t a tt ai na bl e. N Y S D E C r em ai ns c om m it te d to t he d ev el op m en t of h ar bo r- w id e T M D L s fo r nu tr ie nt s, p at ho ge ns a nd t ox ic s. H ow ev er , it i s ap pr o pr ia te t o d ef er d ev el o p m en t o f se p ar at e T M D L s fo r th es e in d iv id u al C S O -i m p ac te d w at er b o d ie s in l ig h t o f th e en fo rc ea b le r eq u ir em en ts o f th e N Y C C S O C o n se n t O rd er . 29 P ar t 3c - W at er b od ie s fo r w h ic h T M D L D ev el op m en t M ay b e D ef er re d ( P en d in g Im p le m en ta ti on /E va lu at io n o f O th er R es to ra ti on M ea su re s) U p p er H u d so n R iv er B as in H ( p o rt io n 1 ) H u d so n R iv er , M ai n S te m ( 1 1 0 1 -0 0 0 2 ) S ar at o ga R iv er A P C B s C o n ta m in at ed S ed . 1 9 9 8 8 4 , 8 5 H ( p o rt io n 2 ) H u d so n R iv er , M ai n S te m ( 1 1 0 1 -0 0 4 2 ) S ar at o ga R iv er C P C B s C o n ta m in at ed S ed . 1 9 9 8 8 4 , 8 5 H ( p o rt io n 3 ) H u d so n R iv er , M ai n S te m ( 1 1 0 1 -0 0 4 3 ) S ar at o ga R iv er B P C B s C o n ta m in at ed S ed . 1 9 9 8 8 4 , 8 5 H ( p o rt io n 4 ) H u d so n R iv er , M ai n S te m ( 1 1 0 1 -0 0 4 4 ) S ar at o ga R iv er C P C B s C o n ta m in at ed S ed . 1 9 9 8 8 4 , 8 5 H ( p o rt io n 5 ) H u d so n R iv er , M ai n S te m ( 1 1 0 1 -0 0 0 5 ) S ar at o ga R iv er B P C B s C o n ta m in at ed S ed . 1 9 9 8 8 4 , 8 5 A tl an ti c O ce an /L o n g Is la n d S o u n d D ra in ag e B as in (M W 1 .1 ) L B /G B -2 5 3 C o n ey I sl an d C re ek ( 1 7 0 1 -0 0 0 8 ) K in gs E st u ar y I D .O ./ O xy ge n D em an d U rb an /C S O , O W T S 1 9 9 8 8 6 P at h o ge n s U rb an /C S O , O W T S 2 0 0 2 (M W 1 .3 ) U B -E B - 1 G o w an u s C an al ( 1 7 0 1 -0 0 1 1 ) K in gs E st u ar y S D D .O ./ O xy ge n D em an d U rb an /S to rm /C S O 1 9 9 8 8 6 (M W 2 .1 ) E R -L I- 4 N ew to w n C re ek a n d t id al t ri b s (1 7 0 2 -0 0 0 2 ) Q u ee n s E st u ar y S D D .O ./ O xy ge n D em an d U rb an /S to rm /C S O 2 0 0 4 8 6 (M W 2 .4 ) E R -3 B ro n x R iv er , L o w er ( 1 7 0 2 -0 0 0 6 ) B ro n x E st u ar y I P at h o ge n s U rb an /S to rm /C S O 1 9 9 8 8 6 O xy ge n D em an d U rb an /S to rm /C S O 2 0 0 4 (M W 2 .4 ) E R -3 B ro n x R iv er , M id d le , an d t ri b s (1 7 0 2 -0 1 0 6 ) B ro n x R iv er B P at h o ge n s U rb an /S to rm /C S O 2 0 0 2 8 6 (M W 2 .4 ) E R -4 W es tc h es te r C re ek ( 1 7 0 2 -0 0 1 2 ) B ro n x E st u ar y I D .O ./ O xy ge n D em an d U rb an /S to rm /C S O 2 0 0 4 8 6 (M W 2 .5 ) E R /L IS -L N B L it tl e N ec k B ay ( 1 7 0 2 -0 0 2 9 ) Q u ee n s E st u ar y S B P at h o ge n s U rb an /S to rm /C S O 1 9 9 8 8 6 (M W 2 .5 ) E R -L I- 1 2 F lu sh in g C re ek /B ay ( 1 7 0 2 -0 0 0 5 ) Q u ee n s E st u ar y I D .O ./ O xy ge n D em an d U rb an /S to rm /C S O 2 0 0 4 8 6 (M W 2 .5 ) E R /L IS -L N B -1 9 t h ru 2 0 A ll ey C re ek /L it tl e N ec k B ay T ri b ( 1 7 0 2 -0 0 0 9 ) Q u ee n s E st u ar y I > S C O xy ge n D em an d U rb an /S to rm /C S O 2 0 0 4 8 6 (M W 3 .2 ) L IS - 2 H u tc h in so n R iv er , L o w er , an d t ri b s (1 7 0 2 -0 0 0 3 ) B ro n x E st u ar y S B D .O ./ O xy ge n D em an d U rb an /S to rm /C S O 2 0 0 4 8 6 (M W 8 .5 b ) JB Ja m ai ca B ay , E as te rn , an d t ri b s, Q u ee n s (1 7 0 1 -0 0 0 5 ) Q u ee n s E st u ar y S B P at h o ge n s U rb an /C S O ,M u n ic ip l 1 9 9 8 8 6 (M W 8 .5 b ) JB -2 4 1 a T h u rs to n B as in ( 1 7 0 1 -0 1 5 2 ) Q u ee n s E st u ar y I D .O ./ O xy ge n D em an d U rb an /S to rm /C S O 2 0 0 2 8 6 (M W 8 .5 b ) JB -2 4 7 B er ge n B as in ( 1 7 0 1 -0 0 0 9 ) Q u ee n s E st u ar y I P at h o ge n s U rb an /C S O ,M u n ic ip l 1 9 9 8 8 6 (M W 8 .5 b ) JB -2 4 8 a S h el lb an k B as in ( 1 7 0 1 -0 0 0 1 ) Q u ee n s E st u ar y I N it ro ge n U rb an /S to rm /C S O 1 9 9 8 8 6 D .O ./ O xy ge n D em an d U rb an /S to rm /C S O 2 0 0 2 (M W 8 .5 b ) JB -2 4 9 S p ri n g C re ek ( 1 7 0 1 -0 3 6 1 ) Q u ee n s E st u ar y I D .O ./ O xy ge n D em an d U rb an /C S O ,M u n ic ip l 2 0 0 2 8 6 P at h o ge n s U rb an /C S O ,M u n ic ip l 2 0 0 2 (M W 8 .6 ) J B -2 4 9 a H en d ri x C re ek ( 1 7 0 1 -0 0 0 6 ) K in gs E st u ar y I P at h o ge n s U rb an /S to rm /C S O 2 0 0 2 8 6 (M W 8 .6 ) J B -2 5 0 a P ae rd eg at B as in ( 1 7 0 1 -0 3 6 3 ) K in gs E st u ar y I D .O ./ O xy ge n D em an d U rb an /S to rm /C S O 1 9 9 8 8 6 (M W 8 .6 ) J B -2 5 0 b M il l B as in a n d t id al t ri b s (1 7 0 1 -0 1 7 8 ) K in gs E st u ar y S B D .O ./ O xy ge n D em an d U rb /S to rm R u n o ff 1 9 9 8 8 6 A D D 05 2 30 T hi s pa ge i nt en ti on al ly l ef t bl an k. A D D 05 3 N ew Y or k S ta te F in a l 20 08 S ec ti on 3 03 (d ) L is t M ay 2 6, 2 00 8 W at er I n d ex N u m b er W at er b od y N am e (W I/ P W L I D ) C ou n ty T yp e S iz e C la ss C au se /P ol lu ta n t S ou rc e Y ea r S eg m en t w as p re vi o u sl y in cl u d e in P ar t 2 a; t h is s m al l la ke i s in cl u d ed i n t h e W o o d h u ll L ak e se gm en t (0 8 0 1 -0 4 4 1 ). 8 7 T h is s m al l la ke i s in cl u d ed i n t h e L o n g L ak e O u tl et /C u m m in gs C re ek , an d t ri b s se gm en t (0 8 0 1 -0 4 1 5 ). 8 8 T h is s m al l la ke i s in cl u d ed i n t h e F ra n ci s L ak e se gm en t (0 8 0 1 -0 1 9 2 ). 8 9 T h is s m al l la ke i s in cl u d ed i n t h e M il e B ro o k an d t ri b s se gm en t (0 8 0 1 -0 4 0 8 ). 9 0 T h is s m al l la ke i s in cl u d ed i n t h e M u rm u r C re ek a n d t ri b s se gm en t (0 8 0 1 -0 2 1 9 ). 9 1 T h is s m al l la ke i s in cl u d ed i n t h e B ea ve r R iv er , M id d le , an d t ri b s se gm en t (0 8 0 1 -0 2 7 8 ). 9 2 31 A p p en d ix A - S m al le r L ak es I m p ai re d b y A tm os p h er ic D ep os it io n ( A ci d R ai n ) N O T E : W at er s li st ed h er e A R E i n cl u d ed i n t h e 20 0 8 S ec ti on 3 03 (d ) L is t B la ck R iv er D ra in ag e B as in O n t 1 9 -1 0 4 -P 9 8 1 -1 -P 9 8 2 .. P 9 8 4 B lo od su ck er P on d ( 0 8 0 1 -0 1 3 5 ) H er ki m er L ak e 4 .0 A C p H A ci d R ai n 1 9 9 8 8 7 C at P o n d ( 0 8 0 1 -0 0 3 6 ) H er ki m er L ak e 6 .0 A C (T ) p H A ci d R ai n 1 9 9 8 O n t 1 9 - 9 4 -1 -P 9 1 8 D o e P o n d ( 0 8 0 1 -0 1 6 1 ) H er ki m er L ak e 3 .0 A D p H A ci d R ai n 1 9 9 8 8 8 O n t 1 9 - 4 0 -P 4 4 9 -2 -P 4 5 0 .. P 4 5 3 M ir ro r P o n d ( 0 8 0 1 -0 1 4 6 ) L ew is L ak e 1 .0 A C p H A ci d R ai n 1 9 9 8 8 9 O n t 1 9 - 9 0 -5 -P 9 0 9 P o p la r P o n d ( 0 8 0 1 -0 0 7 8 ) H er ki m er L ak e 3 .0 A C p H A ci d R ai n 1 9 9 8 9 0 O n t 1 9 - 4 0 - 3 -P 4 0 9 U n n am ed P # 4 -4 0 9 ( 0 8 0 1 -0 1 4 2 ) L ew is L ak e 2 .0 A C p H A ci d R ai n 1 9 9 8 9 1 O n t 1 9 - 4 0 -1 7 -P 4 3 7 U n n am ed P # 4 -4 3 7 ( 0 8 0 1 -0 1 4 3 ) L ew is L ak e 4 .0 A C (T ) p H A ci d R ai n 1 9 9 8 9 2 S ai n t L aw re n ce R iv er D ra in ag e B as in S L - 1 -P 1 0 9 - 4 -1 -P 8 0 -2 -P 8 1 B u ck P o n d ( 0 9 0 3 -0 0 3 7 ) S t. L aw re n ce L ak e 2 .0 A D p H A ci d R ai n 1 9 9 8 S L - 2 -5 9 -3 2 -2 -1 -P 3 5 5 C ar tr id ge H il ls P ( 0 9 0 4 -0 0 0 4 ) S t. L aw re n ce L ak e 1 .0 A C (T ) p H A ci d R ai n 1 9 9 8 S L C -2 9 -1 8 ?. .. P 0 3 2 C h il d s P o n d ( 0 9 0 2 -0 0 1 3 ) F ra n kl in L ak e 2 .0 A ? p H A ci d R ai n 1 9 9 8 S L - 2 -5 9 -3 2 -1 -P 3 5 3 E gg P o n d ( 0 9 0 4 -0 0 0 3 ) S t. L aw re n ce L ak e 1 .0 A D p H A ci d R ai n 1 9 9 8 S L - 1 -P 1 0 9 -1 1 -2 -P 1 1 8 -3 -P 1 2 1 H ed ge h o g P o n d ( 0 9 0 3 -0 0 2 0 ) H am il to n L ak e 5 .0 A ? p H A ci d R ai n 1 9 9 8 S L C -3 2 -6 9 - 6 -P 2 2 6 H id d en P o n d ( 0 9 0 2 -0 0 2 2 ) E ss ex L ak e 5 .0 A D p H A ci d R ai n 1 9 9 8 S L - 1 -1 6 2 -P 2 3 5 -0 2 -P 2 3 8 .. P 2 4 0 H u n te r P o n d ( 0 9 0 3 -0 0 4 2 ) E ss ex L ak e 1 .0 A C (T ) p H A ci d R ai n 1 9 9 8 S L -2 5 -1 4 3 -P 3 8 1 Je n ki n s P o n d ( 0 9 0 5 -0 0 6 9 ) H er ki m er L ak e 2 .0 A C p H A ci d R ai n 1 9 9 8 S L -2 5 -7 3 -2 6 -3 7 -P 1 7 9 K el ly P o n d ( 0 9 0 5 -0 0 7 3 ) H er ki m er L ak e 4 .0 A D p H A ci d R ai n 1 9 9 8 S L -2 5 -P 3 0 9 - 9 -P 3 1 7 L it tl e D o g P o n d ( 0 9 0 5 -0 0 3 9 ) S t. L aw re n ce L ak e 6 .0 A C p H A ci d R ai n 1 9 9 8 S L -2 5 -1 4 0 -2 -P 3 7 8 L it tl e D u ck P o n d ( 0 9 0 5 -0 0 8 9 ) H am il to n L ak e 2 .0 A C (T ) p H A ci d R ai n 1 9 9 8 S L - 1 -P 2 9 3 -1 4 -1 -P 3 3 1 L o n e P o n d ( 0 9 0 3 -0 0 0 8 ) H am il to n L ak e 5 .0 A D p H A ci d R ai n 1 9 9 8 S L -2 5 -1 1 5 -P 3 0 7 L o st P o n d ( 0 9 0 5 -0 0 4 0 ) S t. L aw re n ce L ak e 6 .0 A C (T ) p H A ci d R ai n 1 9 9 8 S L C -3 2 -P 2 5 7 a- P 2 6 4 -P 2 6 5 .. P 2 6 8 a M ik es P o n d ( 0 9 0 2 -0 0 2 4 ) E ss ex L ak e 1 .0 A D p H A ci d R ai n 1 9 9 8 S L C -3 2 - 6 -3 1 -P 0 8 7 M o u n ta in P o n d ( 0 9 0 2 -0 0 1 9 ) E ss ex L ak e 4 .0 A B p H A ci d R ai n 1 9 9 8 S L C -2 9 -2 2 -P 0 4 7 O w ls h ea d P o n d ( 0 9 0 2 -0 0 1 6 ) E ss ex L ak e 1 .0 A A A p H A ci d R ai n 1 9 9 8 S L - 1 -0 7 4 -1 -P 0 6 3 -P 0 6 4 P re st o n P o n d ( 0 9 0 3 -0 0 3 1 ) S t. L aw re n ce L ak e 4 .0 A D p H A ci d R ai n 1 9 9 8 A D D 05 4 N ew Y or k S ta te F in a l 20 08 S ec ti on 3 03 (d ) L is t M ay 2 6, 2 00 8 W at er I n d ex N u m b er W at er b od y N am e (W I/ P W L I D ) C ou n ty T yp e S iz e C la ss C au se /P ol lu ta n t S ou rc e Y ea r 32 A p p en d ix A - S m al le r L ak es I m p ai re d b y A tm os p h er ic D ep os it io n ( A ci d R ai n ) ( co n ’t ) S ai n t L aw re n ce R iv er D ra in ag e B as in ( co n ’t ) S L C -2 9 -2 1 -7 -. .. P 0 4 0 a R az o rb ac k P o n d ( 0 9 0 2 -0 0 1 7 ) E ss ex L ak e 1 .0 A D p H A ci d R ai n 1 9 9 8 S L -2 5 -1 0 1 -P 2 7 9 R ea d w ay P o n d ( 0 9 0 5 -0 0 4 3 ) S t. L aw re n ce L ak e 2 .0 A D p H A ci d R ai n 1 9 9 8 S L - 1 -0 6 5 -P 0 6 0 R o b er ts P o n d ( 0 9 0 3 -0 0 3 0 ) S t. L aw re n ce L ak e 1 .0 A D p H A ci d R ai n 1 9 9 8 S L - 1 -1 6 2 -2 8 -P 2 3 1 R o ck P o n d ( 0 9 0 3 -0 0 1 3 ) E ss ex L ak e 5 .0 A C p H A ci d R ai n 1 9 9 8 S L C -2 9 -P 0 5 0 -3 -1 -P 0 5 7 S o u th D u ck P o n d ( 0 9 0 2 -0 0 1 8 ) E ss ex L ak e 2 .0 A D p H A ci d R ai n 1 9 9 8 S L - 1 -0 6 5 -2 6 -2 -P 0 5 2 S p ri n g P o n d ( 0 9 0 3 -0 0 3 5 ) E ss ex L ak e 3 .0 A D p H A ci d R ai n 1 9 9 8 S L C -3 2 -P 1 7 0 a U n n am ed P # 3 -1 7 0 ( 0 9 0 2 -0 0 0 9 ) F ra n kl in L ak e 3 .0 A A A (T ) p H A ci d R ai n 1 9 9 8 S L C -3 2 -8 6 -P 2 5 2 U n n am ed P # 3 -2 5 2 ( 0 9 0 2 -0 0 2 3 ) E ss ex L ak e 2 .0 A C p H A ci d R ai n 1 9 9 8 S L -2 5 -7 3 -2 6 -3 8 -2 -P 1 8 0 U n n am ed P # 4 -1 8 0 ( 0 9 0 5 -0 0 7 5 ) H am il to n L ak e 3 .0 A D p H A ci d R ai n 1 9 9 8 S L -2 5 -7 3 -4 0 -P 2 3 5 U n n am ed P # 4 -2 3 5 ( 0 9 0 5 -0 0 7 6 ) Je ff er so n L ak e 2 .0 A C (T ) p H A ci d R ai n 1 9 9 8 S L -2 5 -1 0 1 -2 4 -P 2 8 2 U n n am ed P # 4 -2 8 2 ( 0 9 0 5 -0 0 7 7 ) S t. L aw re n ce L ak e 1 .0 A D p H A ci d R ai n 1 9 9 8 S L -2 5 -1 0 1 -3 4 -2 -P 2 9 7 U n n am ed P # 4 -2 9 7 ( 0 9 0 5 -0 0 7 9 ) S t. L aw re n ce L ak e 3 .0 A C (T ) p H A ci d R ai n 1 9 9 8 S L -2 5 -P 3 0 9 -1 1 .. .P 3 2 4 U n n am ed P # 4 -3 2 4 ( 0 9 0 5 -0 0 7 0 ) S t. L aw re n ce L ak e 4 .0 A C (T ) p H A ci d R ai n 1 9 9 8 S L - 1 -0 5 8 -1 -P 0 3 7 U n n am ed P # 6 -0 3 7 ( 0 9 0 3 -0 0 3 4 ) S t. L aw re n ce L ak e 1 .0 A D p H A ci d R ai n 1 9 9 8 S L - 1 -0 6 5 -2 6 -3 -P 0 5 5 U n n am ed P # 6 -0 5 5 ( 0 9 0 3 -0 0 3 6 ) E ss ex L ak e 3 .0 A D p H A ci d R ai n 1 9 9 8 U n n am ed P # 6 -0 6 0 ( 0 9 0 3 -0 0 2 9 ) S t. L aw re n ce L ak e 4 .0 A D p H A ci d R ai n 1 9 9 8 S L - 1 -0 7 7 -P 0 6 7 U n n am ed P # 6 -0 6 7 ( 0 9 0 3 -0 0 2 6 ) S t. L aw re n ce L ak e 1 .0 A C (T ) p H A ci d R ai n 1 9 9 8 S L - 1 -P 0 8 9 - 1 -2 -P 0 9 4 U n n am ed P # 6 -0 9 4 ( 0 9 0 3 -0 0 2 3 ) F ra n kl in L ak e 5 .0 A D p H A ci d R ai n 1 9 9 8 S L - 1 -P 0 8 9 - 1 .. .P 1 0 7 U n n am ed P # 6 -1 0 7 ( 0 9 0 3 -0 0 3 8 ) E ss ex L ak e 1 .0 A D p H A ci d R ai n 1 9 9 8 S L - 1 -P 1 0 9 -1 1 -2 -P 1 1 8 -P 1 2 2 U n n am ed P # 6 -1 2 2 ( 0 9 0 3 -0 0 3 9 ) H am il to n L ak e 2 .0 A D p H A ci d R ai n 1 9 9 8 S L - 1 -P 1 0 9 -1 1 -2 -P 1 1 8 -P 1 2 5 a U n n am ed P # 6 -1 2 5 a (0 9 0 3 -0 0 4 0 ) H am il to n L ak e 1 .0 A D p H A ci d R ai n 1 9 9 8 S L - 1 -P 1 0 9 -1 1 -2 .. .P 1 4 1 U n n am ed P # 6 -1 4 1 ( 0 9 0 3 -0 0 1 8 ) H am il to n L ak e 4 .0 A D p H A ci d R ai n 1 9 9 8 S L - 1 -P 2 9 3 -1 3 -4 -P 3 2 3 U n n am ed P # 6 -3 2 3 ( 0 9 0 3 -0 0 1 4 ) H am il to n L ak e 5 .0 A D p H A ci d R ai n 1 9 9 8 S L C -3 2 -5 2 -1 5 -P 1 7 9 a- 5 -7 -P 1 8 6 W ar d P o n d ( 0 9 0 2 -0 0 2 0 ) E ss ex L ak e 3 .0 A D p H A ci d R ai n 1 9 9 8 L ak e C h am p la in D ra in ag e B as in B ar tl et t P o n d ( 1 0 0 3 -0 0 3 0 ) E ss ex L ak e 1 .0 A A A p H A ci d R ai n 1 9 9 8 B as s L ak e (1 0 0 3 -0 0 1 1 ) F ra n kl in L ak e 6 .0 A B p H A ci d R ai n 1 9 9 8 B u ll et P o n d ( 1 0 0 4 -0 0 1 7 ) E ss ex L ak e 1 .0 A C (T ) p H A ci d R ai n 1 9 9 8 C at am o u n t P o n d ( 1 0 0 3 -0 0 0 2 ) F ra n kl in L ak e 6 .0 A C (T ) p H A ci d R ai n 1 9 9 8 C ra n b er ry P o n d ( 1 0 0 4 -0 0 0 6 ) E ss ex L ak e 2 .0 A D p H A ci d R ai n 1 9 9 8 D o w P o n d ( 1 0 0 3 -0 0 2 2 ) F ra n kl in L ak e 1 .0 A C (T ) p H A ci d R ai n 1 9 9 8 L in d se y P o n d ( 1 0 0 3 -0 0 3 6 ) E ss ex L ak e 6 .0 A A A p H A ci d R ai n 1 9 9 8 L in e P o n d ( 1 0 0 3 -0 0 2 5 ) E ss ex L ak e 5 .0 A C (T ) p H A ci d R ai n 1 9 9 8 L it tl e E gg P o n d ( 1 0 0 3 -0 0 3 1 ) E ss ex L ak e 1 .0 A A A p H A ci d R ai n 1 9 9 8 L o st P o n d ( 1 0 0 4 -0 0 0 7 ) E ss ex L ak e 3 .0 A A A (T ) p H A ci d R ai n 1 9 9 8 M ar sh P o n d ( 1 0 0 3 -0 0 2 0 ) F ra n kl in L ak e 4 .0 A A A p H A ci d R ai n 1 9 9 8 M ar sh P o n d ( 1 0 0 3 -0 0 2 9 ) E ss ex L ak e 4 .0 A C (T ) p H A ci d R ai n 1 9 9 8 M cC af fe ry P o n d ( 1 0 0 3 -0 0 3 4 ) E ss ex L ak e 2 .0 A A A p H A ci d R ai n 1 9 9 8 M o u n ta in P o n d ( 1 0 0 3 -0 0 2 4 ) E ss ex L ak e 5 .0 A C (T ) p H A ci d R ai n 1 9 9 8 M u d P o n d ( 1 0 0 4 -0 0 1 6 ) E ss ex L ak e 3 .0 A A A p H A ci d R ai n 1 9 9 8 A D D 05 5 N ew Y or k S ta te F in a l 20 08 S ec ti on 3 03 (d ) L is t M ay 2 6, 2 00 8 W at er I n d ex N u m b er W at er b od y N am e (W I/ P W L I D ) C ou n ty T yp e S iz e C la ss C au se /P ol lu ta n t S ou rc e Y ea r 33 A p p en d ix A - S m al le r L ak es I m p ai re d b y A tm os p h er ic D ep os it io n ( A ci d R ai n ) ( co n ’t ) L ak e C h am p la in D ra in ag e B as in N o rt h W h et P o n d ( 1 0 0 3 -0 0 1 3 ) F ra n kl in L ak e 3 .0 A A A p H A ci d R ai n 1 9 9 8 S co tt P o n d ( 1 0 0 4 -0 0 0 8 ) E ss ex L ak e 3 .0 A C (T ) p H A ci d R ai n 1 9 9 8 S n ak e P o n d (1 0 0 5 -0 0 0 1 ) E ss ex L ak e 4 .0 A C (T ) p H A ci d R ai n 1 9 9 8 S o ch ia P o n d ( 1 0 0 3 -0 0 1 4 ) F ra n kl in L ak e 4 .0 A A A (T ) p H A ci d R ai n 1 9 9 8 S W A m p h it h ea tr e P o n d ( 1 0 0 3 -0 0 1 5 ) F ra n kl in L ak e 1 .0 A A A p H A ci d R ai n 1 9 9 8 U n n am ed P # 2 -0 3 6 ( 1 0 0 3 -0 0 2 3 ) F ra n kl in L ak e 3 .0 A C (T ) p H A ci d R ai n 1 9 9 8 U n n am ed P # 2 -0 6 7 ( 1 0 0 3 -0 0 2 6 ) E ss ex L ak e 2 .0 A B (T ) p H A ci d R ai n 1 9 9 8 U n n am ed P # 2 -0 6 8 ( 1 0 0 3 -0 0 1 7 ) F ra n kl in L ak e 3 .0 A B (T ) p H A ci d R ai n 1 9 9 8 U n n am ed P # 2 -0 7 9 ( 1 0 0 3 -0 0 2 7 ) E ss ex L ak e 1 .0 A C (T ) p H A ci d R ai n 1 9 9 8 U n n am ed P # 2 -0 8 0 ( 1 0 0 3 -0 0 2 8 ) E ss ex L ak e 2 .5 A C (T ) p H A ci d R ai n 1 9 9 8 U n n am ed P # 2 -1 6 6 ( 1 0 0 3 -0 0 3 2 ) E ss ex L ak e 2 .0 A A A p H A ci d R ai n 1 9 9 8 U n n am ed P # 2 -1 8 9 ( 1 0 0 3 -0 0 3 3 ) E ss ex L ak e 3 .0 A A A p H A ci d R ai n 1 9 9 8 U n n am ed P # 2 -1 9 6 ( 1 0 0 3 -0 0 3 5 ) E ss ex L ak e 1 .0 A A A p H A ci d R ai n 1 9 9 8 U n n am ed P # 2 -2 2 3 ( 1 0 0 4 -0 0 1 1 ) E ss ex L ak e 5 .0 A C (T ) p H A ci d R ai n 1 9 9 8 U n n am ed P # 2 -2 6 3 ( 1 0 0 4 -0 0 0 9 ) E ss ex L ak e 2 .0 A C (T ) p H A ci d R ai n 1 9 9 8 U n n am ed P # 2 -2 6 9 ( 1 0 0 4 -0 0 1 0 ) E ss ex L ak e 2 .0 A A A (T ) p H A ci d R ai n 1 9 9 8 W es t P o ll iw o g P o n d ( 1 0 0 3 -0 0 1 6 ) E ss ex L ak e 3 .0 A A A p H A ci d R ai n 1 9 9 8 A D D 05 6 34 T hi s pa ge i nt en ti on al ly l ef t bl an k. A D D 05 7 N ew Y or k S ta te F in a l 20 08 S ec ti on 3 03 (d ) L is t M ay 2 6, 2 00 8 W at er I n d ex N u m b er W at er b od y N am e (W I/ P W L I D ) C ou n ty T yp e S iz e C la ss C au se /P ol lu ta n t S ou rc e Y ea r S p ec if ic w at er b o d ie s w it h l o w d is so lv ed o xy ge n f ro m u n d et er m in ed c au se s (n at u ra l or o th er ) th at U S E P A r eq u es te d b e ad d ed t o t h e S ec ti o n 3 0 3 9 d ) L is t: C le ar L ak e (0 1 0 4 -0 0 5 7 ), C ry st al L ak e 9 3 (0 1 0 4 -0 0 7 0 ), C as e L ak e (0 2 0 1 -0 0 2 0 ), C u b a L ak e (0 2 0 1 -0 0 1 6 ), U p p er C as sa d ag a L ak e (0 2 0 2 -0 0 0 1 ), H yd e L ak e (0 3 0 3 -0 0 4 3 ), L am o ka L ak e an d M il l P o n d ( 0 5 0 2 -0 0 0 1 ), W an et a L ak e (0 5 0 2 -0 0 0 2 ), L o w er /U p p er L it tl e Y o rk L ak es ( 0 6 0 2 -0 0 1 7 ), T u ll y L ak e (0 6 0 2 -0 0 1 8 ), N o rw ic h R es er vo ir s (0 6 0 2 -0 0 1 0 ), L ak e M o ra in e (0 6 0 2 -0 0 0 7 ), L eb an o n R es er vo ir ( 0 6 0 2 -0 1 0 9 ), E at o n B ro o k R es er vo ir ( 0 6 0 2 -0 0 4 1 ), A ft o n L ak e (0 6 0 1 -0 0 1 0 ), C h en an go L ak e (0 6 0 1 -0 0 1 3 ), Y o u n g L ak e (0 6 0 1 -0 0 2 6 ), W ea ve r L ak e (M au m ee S w am p ) (0 6 0 1 -0 0 2 5 ), O ti sc o L ak e (0 7 0 2 -0 0 1 1 ), U pp er S ar an ac L ak e (1 00 3- 0 04 8) , T ay lo r P on d (a nd M ud P on d) ( 10 04 -0 0 63 ), L ow er C as ca de /U pp er C as ca de /M u d L ak es ( 10 0 4- 0 07 5) , P ut n am /N or th P on d (1 0 05 -0 0 18 ), L ak e L au d er da le , S ch o o lh o u se L ak e (1 1 0 2 -0 0 1 1 ), L ak e G il ea d ( 1 3 0 2 -0 0 2 4 ), L ak e G le n ei d a (1 3 0 2 -0 0 2 5 ), L ak e T o n et ta ( 1 3 0 2 -0 0 1 4 ), B ar ge r P o n d ( 1 3 0 1 -0 0 9 1 ), C o p ak e L ak e (1 3 1 0 -0 0 1 4 ), W at er vl ie t R es er vo ir (1 3 1 1 -0 0 0 1 ), B u rd en s L ak e (1 3 0 1 -0 0 2 5 ), W h it e/ A m b er L ak es ( 1 4 0 1 -0 0 1 8 ), S w an L ak e (1 4 0 1 -0 0 6 3 ), B ig M o h ic an L ak e (1 4 0 1 -0 0 0 7 ), L ak e H u n ti n gt o n ( 1 4 0 1 -0 0 0 8 ), S il ve r L ak e R es er vo ir (1 7 0 1 -0 3 5 9 ), W hi tn ey L ak e (1 7 0 2 -0 1 0 1 ), L au re l P o n d ( 1 7 0 1 -0 1 2 8 ), F o rt P o n d ( 1 7 0 1 -0 1 2 2 ), W ai n sc o tt P o n d /F ai rf ie ld P o n d ( 1 7 0 1 -0 1 4 4 ), O ld T ow n P o n d ( 1 7 0 1 -0 1 1 8 ), A ga w am L ak e (1 7 0 1 -0 1 1 7 ), W es t an d E as t M il l P o n d s (1 7 0 1 -0 0 2 6 ), M as sa p eq u a L ak e (1 7 0 1 -0 1 5 6 ), C am aa n s P o n d ( 1 7 0 1 -0 0 5 2 ), M il b u rn P o n d ( 1 7 0 1 -0 0 5 3 ). 35 A p p en d ix B - L is te d W at er b o d ie s N o t M ee ti n g D is so lv ed O xy ge n S ta n d ar d s, P en d in g V er if ic a ti o n o f U se I m p a ir m en ts /P o ll u ta n ts /S ou rc es It i s w id el y a c ce p te d t h at m o rp h o lo g y a n d o th e r n at u ra l co n d it io n s m ay c o n tr ib u te t o p er io d ic d is so lv e d o x y g en d ep le ti o n a t lo w er d ep th s in si g n if ic a n t n u m b er s o f th er m al ly s tr at if ie d w a te rs . H o w ev er b o tt o m w a te r co n d it io n s ar e n o t n ec e ss ar il y r ep re se n ta ti v e o f th e w a te rb o d y a s a w h o le a n d a q u at ic l if e an d o th e r u se s ar e o ft en f u ll y s u p p o rt ed i n t h e se w at er s. A lt h o u g h N Y S w at er q u al it y s ta n d ar d s m ay n o t b e m et a t ti m es i n th e se w at er s, t h e U S E P A p o li cy o f in d ep en d en t ap p li ca b il it y a ll o w s fo r re so lv in g d if fe re n ce s in a ss e ss m en t re su lt s b y w ei g h in g t h e h ig h er q u al it y o r m o re r ep re se n ta ti v e d at a se t m o re f av o ra b ly i n t h e at ta in m en t d ec is io n . N Y S D E C a c k n o w le d g e s th a t av a il a b le m o n it o ri n g d at a s h o w s w a te r q u a li ty s ta n d a rd s fo r d is so lv e d o x y g e n i n m an y w a te rb o d ie s, i n c lu d in g 4 6 sp e ci fi c w at e rb o d ie s id e n ti fi e d b y U S E P A , ar e n o t m et a t al l ti m e s/ se as o n s o r d ep th s. H o w ev e r N Y S D E C h a s n o t v e ri fi e d t h a t sp e ci fi c u se s o f th es e w at er s ar e ac tu al ly i m p ai re d o r d et er m in ed t h at t h e v io la ti o n o f th e w at er q u al it y s ta n d ar d i s a re su lt o f fa ct o rs o th er t h an n at u ra l co n d it io n s (e .g ., n at u ra l la k e st ra ti fi ca ti o n v er su s ex ce ss n u tr ie n t lo ad in g f ro m h u m an a ct iv it y ). W h il e it i s n o t p ra ct ic al t o i n cl u d e a li st in g o f al l th e w at er s th at c o rr es p o n d t o t h e U S E P A i n te rp re ta ti o n a n d a p p li ca ti o n o f th e d is so lv ed o x y g en s ta n d ar d f o r li st in g m ak in g d ec is io n s, t h e 4 6 w at er b o d ie s sp ec if ic al ly i d en ti fi ed b y U S E P A a re l is te d b el o w . 93 P ri o r to t h e n e x t li st in g c y c le N Y S D E C w il l in c lu d e i n i ts e st a b li sh e d m o n it o ri n g a n d a ss e ss m e n t p ro g ra m a s c h e d u le f o r th e e v a lu a ti o n o f w h e th e r th e se 4 6 w a te rs a re i m p a ir e d i n a n y s ig n if ic an t m an n e r b y p o ll u ta n t lo a d in g s th a t ar e f ro m o th e r th a n n a tu ra l co n d it io n s. U p o n v er if ic a ti o n o f im p ai rm en t to t h es e w at er s fr o m o th e r th an n a tu ra l so u rc es o r co n d it io n s, N Y S D E C w il l u n d er ta k e th e p re p ar a ti o n o f a T M D L t o ad d re ss t h e im p ai rm en t, u n le ss a T M D L o r o th er r es to ra ti o n s tr at eg y p la n t o a d d re ss t h e im p ai rm en t is a lr ea d y i n p la ce o r a T M D L i s n o t n ee d ed b ec au se a s in g le e n ti ty i s th e so u rc e o f a si g n if ic an t m aj o ri ty o f th e p o ll u ta n t lo ad in g t h at i s ca u si n g t h e im p ai rm e n t - o b v ia ti n g t h e n ee d f o r a lo ad a ll o ca ti o n a m o n g v ar io u s so u rc es . N Y S D E C w il l co n ti n u e to e v al u at e it s d is so lv ed o x y g en s ta n d ar d s la n g u ag e in o rd er t o m o re a p p ro p ri at el y r ef le ct t h e im p ac t o f n at u ra l co n d it io n s an d o cc u rr en ce o f p er io d ic l o w d is so lv e d o x y g en i n w at er s o f th e st at e. In t h e m ea n ti m e, N Y S D E C w il l re v ie w d is so lv e d o x y g en d at a in c o n ju n ct io n w it h o th er a v ai la b le d at a (p ar ti cu la rl y b io lo g ic al a ss es sm en ts t h at a re m o re d ir ec tl y r ef le ct iv e o f aq u at ic l if e u se ) to d e te rm in e th e ac tu al l ev el o f im p ac ts a n d s p ec if ic c au se s in o rd er t o r ea ch t h e m o st a p p ro p ri at e w at er q u al it y a ss es sm en t d ec is io n s. T h is a p p ro ac h i s d is cu ss ed in m o re d et ai l in t h e A ss es sm en t o f N a tu ra ll y O cc u rr in g L o w D is so lv e d O xy g en W a te rs s ec ti o n o f th e A ss e ss m e n t M e th o d o lo g y. A D D 05 8 36 T hi s pa ge i nt en ti on al ly l ef t bl an k. A D D 05 9 Im p a ir ed /D eL is te d W at er s N O T I n cl u d ed o n t h e 2 00 8 S ec ti o n 3 03 (d ) L is t W at er I n d ex N u m b er W at er b od y N am e (W I/ P W L I D ) C ou n ty T yp e C la ss C au se /P ol lu ta n t S ou rc e Ju st if ic at io n 37 O th er I m p ai re d W at er b od y S eg m en ts N ot L is te d B ec au se D ev el op m en t of a T M D L i s N ot N ec es sa ry T h e fo ll o w in g w at er s ar e N O T i n cl u d ed o n t h e 2 0 0 8 S ec ti o n 3 0 3 (d ) L is t. T h e p u rp o se o f th is s u p p le m en ta l li st i s to p ro vi d e a co m p re h en si ve i n ve n to ry o f al l w at er s o f th e st at e th at d o n o t fu ll y su p p o rt u se s an d t h at a re c o n si d er ed i m p ai re d . S ec ti o n 3 0 3 (d ) o f th e C le an W at er A ct s ti p u la te s th at i m p ai re d w at er s th at d o n o t re q u ir e a T M D L a re n o t in cl u d ed o n t h e S ec ti o n 3 0 3 (d ) L is t. T h er e ar e th re e (3 ) ca te go ri es /j u st if ic at io n s fo r n o t in cl u d in g an i m p ai re d w at er o f th e L is t. C at eg o ry 4 a - T M D L d ev el o p m en t is n o t n ec es sa ry b ec au se a T M D L h as a lr ea d y b ee n e st ab li sh ed f o r th e se gm en t/ p o ll u ta n t. C at eg o ry 4 b - T M D L i s n o t n ec es sa ry b ec au se o th er r eq u ir ed c o n tr o l m ea su re s ar e ex p ec te d t o r es u lt i n r es to ra ti o n i n a r ea so n ab le p er io d o f ti m e. C at eg o ry 4 c - T M D L i s n o t ap p ro p ri at e b ec au se t h e so le i m p ai rm en t is t h e re su lt o f p o ll u ti o n , ra th er t h an a p o ll u ta n t th at c an b e al lo ca te d t h ro u gh a T M D L . N O T E : W at er s w it h p o ll u ti o n -r el at ed i m p ai rm en ts t h at a re a ls o i m p ai re d b y p o ll u ta n ts a n d a re i n cl u d ed o n t h e S ec ti o n 3 0 3 (d ) L is t ar e n o t li st ed h er e. N ia ga ra R iv er /L ak e E ri e D ra in ag e B as in O n t 1 5 8 .. E -2 3 -P 1 5 2 Ja va L ak e (0 1 0 4 -0 0 0 4 ) W yo m in g L ak e B A lg al /W ee d G ro w th H ab /H yd M o d 4 c A ll eg h en y R iv er D ra in ag e B as in P a- 6 3 -1 3 - 4 -P 1 2 2 ( p o rt io n 1 ) C h au ta u q u a L ak e, S o u th ( 0 2 0 2 -0 0 2 0 ) C h au ta u q u a L ak e A A lg al /W ee d G ro w th H ab /H yd M o d 4 c P ro b le m S p ec ie s H ab /H yd M o d 4 c P a- 6 3 -1 3 - 4 -P 1 2 2 ( p o rt io n 2 ) C h au ta u q u a L ak e, N o rt h ( 0 2 0 2 -0 0 7 2 ) C h au ta u q u a L ak e A A lg al /W ee d G ro w th H ab /H yd M o d 4 c L ak e O n ta ri o ( M in o r T ri b s) D ra in ag e B as in O n t (p o rt io n 1 7 ) R o ch es te r E m b ay m en t - W es t (0 3 0 1 -0 0 6 8 ) M o n ro e G .L ak es A A lg al /W ee d G ro w th H ab /H yd M o d 4 c O n t 5 3 ( p o rt io n 4 )/ P 1 9 a S al m o n R iv er R es er vo ir ( 0 3 0 3 -0 0 6 9 ) O sw eg o L ak e( R ) C (T ) M er cu ry A tm o sp h er ic D ep . 4 a/ 2 0 0 7 O n t 7 4 /P 7 6 L it tl e S o d u s B ay ( 0 3 0 2 -0 0 1 7 ) C ay u ga L ak e B P h o sp h o ru s O n -s it e W T S , A gr ic 4 a/ 2 0 0 7 O n t 7 5 /P 7 7 B li n d S o d u s B ay ( 0 3 0 2 -0 0 2 1 ) W ay n e L ak e B P h o sp h o ru s O n -s it e W T S 4 a/ 2 0 0 7 G en es ee R iv er D ra in ag e B as in O n t 1 1 7 - 2 7 -3 4 H em lo ck L ak e O u tl et a n d m in o r tr ib s (0 4 0 2 -0 0 1 3 ) O n ta ri o R iv er C W at er L ev el /F lo w H ab /H yd M o d 4 c O n t 1 1 7 - 2 7 -P 5 7 H o n eo ye L ak e (0 4 0 2 -0 0 3 2 ) O n ta ri o L ak e A A A lg al /W ee d G ro w th H ab /H yd M o d 4 c P ro b le m S p ec ie s H ab /H yd M o d 4 c O n t 1 1 7 - 4 0 -P 6 7 C o n es u s L ak e (0 4 0 2 -0 0 0 4 ) L iv in gs to n L ak e A A A lg al /W ee d G ro w th H ab /H yd M o d 4 c P ro b le m S p ec ie s H ab /H yd M o d 4 c O n t 1 1 7 - 7 0 -P 1 1 5 S il ve r L ak e (0 4 0 3 -0 0 0 2 ) W yo m in g L ak e A A lg al /W ee d G ro w th H ab /H yd M o d 4 c C h em u n g R iv er D ra in ag e B as in P a 3 -5 7 - 5 ( p o rt io n 4 ) C an is te o R iv er , M id d le , an d m in o r tr ib s (0 5 0 3 -0 0 0 1 ) S te u b en R iv er C W at er L ev el /F lo w H ab /H yd M o d 4 c R es tr ic te d P as sa ge H ab /H yd M o d 4 c P a 3 -5 7 - 5 -4 7 -P 2 7 c A lm o n d L ak e (0 5 0 3 -0 0 0 3 ) A ll eg h en y L ak e B W at er L ev el /F lo w H yd ro M o d if ic at io n 4 c P a 3 -5 8 -1 5 -P 4 7 L am o ka L ak e an d M il l P o n d ( 0 5 0 2 -0 0 0 1 ) S ch u yl er L ak e A P ro b le m S p ec ie s H ab it at M o d if ic at io n 4 c P a 3 -5 8 -1 5 -P 4 7 -4 -P 4 8 W an et a L ak e (0 5 0 2 -0 0 0 2 ) S ch u yl er L ak e A P ro b le m S p ec ie s H ab it at M o d if ic at io n 4 c P a 3 -5 8 -3 1 - 7 -P 6 6 S m it h P o n d ( 0 5 0 2 -0 0 1 2 ) S te u b en L ak e B A lg al /W ee d G ro w th H ab /H yd M o d 4 c S u sq u eh an n a R iv er D ra in ag e B as in S R ( p o rt io n 1 ) S u sq u eh an n a R iv er , L o w er , M ai n S te m ( 0 6 0 3 -0 0 1 6 ) T io ga R iv er B M er cu ry A tm o sp h er ic D ep . 4 a/ 2 0 0 7 S R ( p o rt io n 2 ) S u sq u eh an n a R iv er , L o w er , M ai n S te m ( 0 6 0 3 -0 0 1 5 ) T io ga R iv er C M er cu ry A tm o sp h er ic D ep . 4 a/ 2 0 0 7 S R ( p o rt io n 3 ) S u sq u eh an n a R iv er , L o w er , M ai n S te m ( 0 6 0 3 -0 0 1 3 ) T io ga R iv er B M er cu ry A tm o sp h er ic D ep . 4 a/ 2 0 0 7 A D D 06 0 Im p a ir ed /D eL is te d W at er s N O T I n cl u d ed o n t h e 2 00 8 S ec ti o n 3 03 (d ) L is t W at er I n d ex N u m b er W at er b od y N am e (W I/ P W L I D ) C ou n ty T yp e C la ss C au se /P ol lu ta n t S ou rc e Ju st if ic at io n O n o n d ag a L ak e p re vi o u sl y ap p ea re d o n t h e li st o f O th er I m pa ir ed W at er bo dy S eg m en ts N ot L is te d B ec au se D ev el op m en t of a T M D L i s N ot N ec es sa ry d u e to i m p ai rm en ts f ro m , an d 9 4 d ev el o p m en t o f a T M D L f o r, a m m o n ia a n d p h o sp h o ru s. S u b se q u en tl y th e la ke h as b ee n f ou n d t o b e m ee ti n g w at er q u al it y st an d ar d s fo r am m o n ia , s o O n o n d ag a L ak e is c o n si d er ed t o h av e b ee n r es to re d f o r th is p o ll u ta n t. 38 O th er I m p ai re d W at er b od y S eg m en ts N ot L is te d B ec au se D ev el op m en t of a T M D L i s N ot N ec es sa ry (c on ’t ) S u sq u eh an n a R iv er D ra in ag e B as in (c o n ’t ) S R ( p o rt io n 4 ) S u sq u eh an n a R iv er , L o w er , M ai n S te m ( 0 6 0 3 -0 0 0 2 ) B ro o m e R iv er A M er cu ry A tm o sp h er ic D ep . 4 a/ 2 0 0 7 P at h o ge n s M u n ic ip al , C S O s 4 b S R ( p o rt io n 5 ) S u sq u eh an n a R iv er , M ai n S te m ( 0 6 0 1 -0 1 8 2 ) B ro o m e R iv er A M er cu ry A tm o sp h er ic D ep . 4 a/ 2 0 0 7 S R ( p o rt io n 6 ) S u sq u eh an n a R iv er , M ai n S te m ( 0 6 0 1 -0 0 4 0 ) B ro o m e R iv er B M er cu ry A tm o sp h er ic D ep . 4 a/ 2 0 0 7 S R ( p o rt io n 7 ) S u sq u eh an n a R iv er , M ai n S te m ( 0 6 0 1 -0 0 2 0 ) O ts eg o R iv er B M er cu ry A tm o sp h er ic D ep . 4 a/ 2 0 0 7 S R ( p o rt io n 8 )/ P 3 6 0 G o o d ye ar L ak e (0 6 0 1 -0 0 1 5 ) O ts eg o L ak e B M er cu ry A tm o sp h er ic D ep . 4 a/ 2 0 0 7 S R ( p o rt io n 9 ) S u sq u eh an n a R iv er , U p p er , M ai n S te m ( 0 6 0 1 -0 0 4 1 ) O ts eg o R iv er B M er cu ry A tm o sp h er ic D ep . 4 a/ 2 0 0 7 S R - 4 4 ( p o rt io n 1 ) C h en an go R iv er , L o w er , M ai n S te m ( 0 6 0 2 -0 0 3 3 ) B ro o m e R iv er B M er cu ry A tm o sp h er ic D ep . 4 a/ 2 0 0 7 S R - 4 4 ( p o rt io n 2 ) C h en an go R iv er , M id d le , M ai n S te m ( 0 6 0 2 -0 0 0 9 ) C h en an go R iv er B /C M er cu ry A tm o sp h er ic D ep . 4 a/ 2 0 0 7 S R - 4 4 ( p o rt io n 3 ) C h en an go R iv er , U p p er , M ai n S te m ( 0 6 0 2 -0 0 6 9 ) C h en an go R iv er B /C M er cu ry A tm o sp h er ic D ep . 4 a/ 2 0 0 7 S R - 4 4 -1 4 -2 7 -P 3 5 a W h it n ey P o in t L ak e/ R es er vo ir ( 0 6 0 2 -0 0 0 4 ) B ro o m e L ak e C A lg al /W ee d G ro w th H ab /H yd M o d 4 c S R - 4 4 -1 4 -5 9 -3 4 -P 5 6 D eR u yt er R es er vo ir ( 0 6 0 2 -0 0 8 6 ) O n o n d ag a L ak e( R ) B A lg al /W ee d G ro w th H ab /H yd M o d 4 c S R - 5 3 P ar k C re ek a n d t ri b s (0 6 0 1 -0 0 3 1 ) B ro o m e R iv er C R es tr ic te d P as sa ge H ab /H yd M o d 4 c S R - 9 9 - 1 -P 1 7 4 B ea ve r L ak e (0 6 0 1 -0 0 6 6 ) B ro o m e L ak e C A lg al /W ee d G ro w th H ab /H yd M o d 4 c S R -1 0 0 -P 1 7 4 a( ?) W h it e B ir ch L ak e (0 6 0 1 -0 0 6 8 ) B ro o m e L ak e ? A lg al /W ee d G ro w th H ab /H yd M o d 4 c S R -1 4 6 ( p o rt io n 1 ) U n ad il la R iv er , L o w er , M ai n S te m ( 0 6 0 1 -0 0 0 3 ) C h en an go R iv er B M er cu ry A tm o sp h er ic D ep . 4 a/ 2 0 0 7 O sw eg o R iv er ( F in ge r L ak es ) D ra in ag e B as in O n t 6 6 -1 1 -P 2 6 -3 7 - 6 - 2 L im es to n e C re ek , L o w er , an d m in o r tr ib s (0 7 0 3 -0 0 0 8 ) O n o n d ag a R iv er C O d o rs M u n ic ip al 4 c O n t 6 6 -1 2 -1 2 -P 1 5 4 ( p o rt io n 1 ) O n o n d ag a L ak e, n o rt h er n e n d ( 0 7 0 2 -0 0 0 3 ) O n o n d ag a L ak e B P h o sp h o ru s M u n ic ip al 4 a/ 1 9 9 8 9 4 O n t 6 6 -1 2 -1 2 -P 1 5 4 ( p o rt io n 2 ) O n o n d ag a L ak e, s o u th er n e n d ( 0 7 0 2 -0 0 2 1 ) O n o n d ag a L ak e C P h o sp h o ru s M u n ic ip al 4 a/ 1 9 9 8 9 4 O nt 66 -1 2 -1 2 -P 15 4- 4 O no nd ag a C re ek , L ow er ( 07 0 2 -0 02 3) O no nd ag a R iv er C O th er /H ab it at H ab it at M od if ic at io n 4 c O n t 6 6 -1 2 -1 2 -P 1 5 4 - 4 O n o n d ag a C re ek , M id d le , an d t ri b s (0 7 0 2 -0 0 0 4 ) O n o n d ag a R iv er B O th er /H ab it at H ab it at M o d if ic at io n 4 c O n t 6 6 -1 2 -1 2 -P 1 5 4 - 5 H ar b o r B ro o k, L o w er , an d t ri b s (0 7 0 2 -0 0 0 2 ) O n o n d ag a R iv er B O th er /H ab it at H ab it at M o d if ic at io n 4 c O n t 6 6 -1 2 -P 2 9 6 ( p o rt io n 4 ) C ay u ga L ak e, S o u th er n E n d ( 0 7 0 5 -0 0 4 0 ) T o m p ki n s L ak e A A lg al /W ee d G ro w th H ab /H yd M o d 4 c O nt 66 -1 2 -4 3 -P 21 2 O w as co L ak e (0 70 6- 0 00 9) C ay ug a L ak e A A (T ) A lg al /W ee d G ro w th H ab /H yd M o d 4 c B la ck R iv er D ra in ag e B as in O n t 1 9 - 4 0 ( p o rt io n 1 ) B ea ve r R iv er , L o w er , an d t ri b s (0 8 0 1 -0 1 9 7 ) L ew is R iv er C F lo at ab le s, O d o rs O n -s it e W T S 4 c O n t 1 9 - 4 0 ( p o rt io n 3 )/ P 4 1 8 H ig h F al ls P o n d ( 0 8 0 1 -0 2 7 4 ) L ew is L ak e C (T ) M er cu ry A tm o sp h er ic D ep . 4 a/ 2 0 0 7 O n t 1 9 - 4 0 ( p o rt io n 4 a) T ay lo rv il le , E lm er F al ls P o n d s (0 8 0 1 -0 2 7 6 ) L ew is L ak e C (T ) M er cu ry A tm o sp h er ic D ep . 4 a/ 2 0 0 7 O n t 1 9 - 4 0 ( p o rt io n 5 )/ P 4 2 6 E ff le y F al ls R es er vo ir ( 0 8 0 1 -0 1 7 2 ) L ew is L ak e( R ) C (T ) M er cu ry A tm o sp h er ic D ep . 4 a/ 2 0 0 7 O n t 1 9 - 4 0 ( p o rt io n 7 )/ P 4 3 4 ,P 4 3 1 S o ft M ap le R es er vo ir , S o ft M ap le P o n d ( 0 8 0 1 -0 1 7 3 ) L ew is L ak e C (T ) M er cu ry A tm o sp h er ic D ep . 4 a/ 2 0 0 7 O n t 1 9 - 4 0 ( p o rt io n 9 )/ P 4 4 9 B ea ve r L ak e, B ea ve r M ea d o w P o n d ( 0 8 0 1 -0 1 7 4 ) L ew is L ak e C (T ) M er cu ry A tm o sp h er ic D ep . 4 a/ 2 0 0 7 O n t 1 9 - 4 0 ( p o rt io n 1 1 )/ P 4 7 8 M o sh ie r R es er vo ir ( 0 8 0 1 -0 1 9 4 ) H er ki m er L ak e( R ) C (T ) M er cu ry A tm o sp h er ic D ep . 4 a/ 2 0 0 7 A D D 06 1 Im p a ir ed /D eL is te d W at er s N O T I n cl u d ed o n t h e 2 00 8 S ec ti o n 3 03 (d ) L is t W at er I n d ex N u m b er W at er b od y N am e (W I/ P W L I D ) C ou n ty T yp e C la ss C au se /P ol lu ta n t S ou rc e Ju st if ic at io n S eg m en t in cl u d es p re vi o u sl y li st ed F lo re n ce P o n d ( 0 8 0 1 -0 0 6 7 ). 9 5 39 O th er I m p ai re d W at er b od y S eg m en ts N ot L is te d B ec au se D ev el op m en t of a T M D L i s N ot N ec es sa ry (c on ’t ) B la ck R iv er D ra in ag e B as in ( co n ’t ) O n t 1 9 - 4 0 -2 0 -P 4 7 3 , P 4 7 4 S u n d ay L ak e, S u n d ay C re ek R es er vo ir ( 0 8 0 1 -0 1 9 5 ) H er ki m er L ak e C (T ) M er cu ry A tm o sp h er ic D ep . 4 a/ 2 0 0 7 O n t 1 9 - 4 0 -2 2 -P 4 8 9 L o w er M o sh ie r P o n d ( 0 8 0 1 -0 0 4 9 ) H er ki m er L ak e F P A ci d /B as e (p H ) A tm o sp h er ic D ep . 4 a/ 2 0 0 6 O n t 1 9 - 4 0 -P 4 4 9 -2 -P 4 5 0 -2 -P 4 5 1 F ra n ci s L ak e (0 8 0 1 -0 1 9 2 ) L ew is L ak e C (T ) M er cu ry A tm o sp h er ic D ep . 4 a/ 2 0 0 7 O n t 1 9 - 4 0 -P 4 9 3 S ti ll w at er R es er vo ir ( 0 8 0 1 -0 1 8 4 ) H er ki m er L ak e( R ) C (T ) M er cu ry A tm o sp h er ic D ep . 4 a/ 2 0 0 7 O n t 1 9 - 4 0 -P 4 9 3 - 6 -1 -P 5 0 4 H aw k P o n d ( 0 8 0 1 -0 0 4 4 ) H er ki m er L ak e F P A ci d /B as e (p H ) A tm o sp h er ic D ep . 4 a/ 2 0 0 6 O n t 1 9 - 4 0 -P 4 9 3 - 7 -P 5 1 7 S al m o n L ak e (0 8 0 1 -0 0 5 4 ) H er ki m er L ak e F P A ci d /B as e (p H ) A tm o sp h er ic D ep . 4 a/ 2 0 0 6 O n t 1 9 - 4 0 -P 4 9 3 - 7 -P 5 2 8 W it ch o p p le L ak e (0 8 0 1 -0 0 6 2 ) H er ki m er L ak e F P A ci d /B as e (p H ) A tm o sp h er ic D ep . 4 a/ 2 0 0 6 O n t 1 9 - 5 7 - 7 -P 6 1 9 ,P 6 2 2 ,6 2 5 C le ve la n d ,P ay n e, H u ck le b er ry , H al fm o o n L ks ( 0 8 0 1 -0 1 9 3 ) L ew is L ak e C M er cu ry A tm o sp h er ic D ep . 4 a/ 2 0 0 7 O n t 1 9 - 6 0 - 5 -P 6 4 4 L it tl e O tt er P o n d ( 0 8 0 1 -0 3 3 6 ) L ew is L ak e C A ci d /B as e (p H ) A tm o sp h er ic D ep . 4 a/ 2 0 0 6 9 5 O n t 1 9 - 8 1 -1 8 -1 7 -P 7 5 0 D ar t L ak e (0 8 0 1 -0 2 4 2 ) H er ki m er L ak e A M er cu ry A tm o sp h er ic D ep . 4 a/ 2 0 0 7 O n t 1 9 - 8 1 -1 8 -1 7 -P 7 5 2 B ig M o o se L ak e (0 8 0 1 -0 0 3 5 ) H er ki m er L ak e A (T ) M er cu ry A tm o sp h er ic D ep . 4 a/ 2 0 0 7 O n t 1 9 - 8 1 -1 8 -1 7 -P 7 5 2 .. P 7 6 8 ,P 7 6 9 L o w er , U p p er S is te r L ak e (0 8 0 1 -0 0 0 4 ) H am il to n L ak e C (T ) M er cu ry A tm o sp h er ic D ep . 4 a/ 2 0 0 7 O n t 1 9 - 8 1 -1 8 -1 7 -P 7 5 2 - 8 -P 7 7 4 R u ss ia n L ak e (0 8 0 1 -0 0 0 6 ) H am il to n L ak e C M er cu ry A tm o sp h er ic D ep . 4 a/ 2 0 0 7 A ci d /B as e (p H ) A tm o sp h er ic D ep . 4 a/ 2 0 0 6 O n t 1 9 -1 1 9 -P 1 0 0 0 U p p er T w in L ak e (0 8 0 1 -0 0 6 0 ) H er ki m er L ak e F P A ci d /B as e (p H ) A tm o sp h er ic D ep . 4 a/ 2 0 0 6 O n t 1 9 -P 1 0 0 7 N o rt h L ak e (0 8 0 1 -0 4 5 1 ) H er ki m er L ak e A (T ) M er cu ry A tm o sp h er ic D ep . 4 a/ 2 0 0 7 S ai n t L aw re n ce R iv er D ra in ag e B as in S L (C )- 3 2 -5 2 -1 5 -P 1 7 9 a M ea ch am L ak e (0 9 0 2 -0 0 3 9 ) F ra n kl in L ak e F P M er cu ry A tm o sp h er ic D ep . 4 a/ 2 0 0 7 S L - 1 -P 0 3 5 c C ar ry F al ls R es er vo ir ( 0 9 0 3 -0 0 5 5 ) S t. L aw re n ce L ak e( R ) B M er cu ry A tm o sp h er ic D ep . 4 a/ 2 0 0 7 S L - 1 ( p o rt io n 9 )/ P 1 0 9 T u p p er L ak e (0 9 0 3 -0 0 6 2 ) F ra n kl in L ak e A M er cu ry A tm o sp h er ic D ep . 4 a/ 2 0 0 7 S L - 1 ( p o rt io n 1 3 )/ P 2 7 6 F o rk ed L ak e (0 9 0 3 -0 0 8 0 ) H am il to n L ak e B M er cu ry A tm o sp h er ic D ep . 4 a/ 2 0 0 7 S L - 1 -1 6 2 -P 2 3 3 -0 1 -P 2 3 4 B la ck P o n d ( 0 9 0 3 -0 0 0 7 ) E ss ex L ak e F P A ci d /B as e (p H ) A tm o sp h er ic D ep . 4 a/ 2 0 0 6 S L - 1 -P 1 0 9 .. P 2 4 1 -2 2 -P 2 4 5 S o u th P o n d ( 0 9 0 3 -0 0 0 5 ) H am il to n L ak e C M er cu ry A tm o sp h er ic D ep . 4 a/ 2 0 0 7 S L - 1 -P 1 0 9 .. P 2 4 1 -2 6 -P 2 4 8 L ak e E at o n ( 0 9 0 3 -0 0 5 6 ) H am il to n L ak e A A (T ) M er cu ry A tm o sp h er ic D ep . 4 a/ 2 0 0 7 S L - 1 -1 7 2 -P 2 9 3 -1 3 -4 -P 3 2 2 U p p er H ay m ar sh P o n d ( 0 9 0 3 -0 0 1 7 ) H am il to n L ak e F P A ci d /B as e (p H ) A tm o sp h er ic D ep . 4 a/ 2 0 0 6 S L - 1 -P 1 0 9 -1 1 .. .P 1 7 2 H ig h P o n d ( 0 9 0 3 -0 0 2 5 ) S t. L aw re n ce L ak e F P A ci d /B as e (p H ) A tm o sp h er ic D ep . 4 a/ 2 0 0 6 S L - 1 -P 1 0 9 -1 5 -P 1 7 8 -1 -P 1 7 9 B la ck P o n d ( 0 9 0 3 -0 0 2 7 ) S t. L aw re n ce L ak e F P A ci d /B as e (p H ) A tm o sp h er ic D ep . 4 a/ 2 0 0 6 S L - 1 -P 2 9 3 -1 3 -4 -P 3 2 5 P el ch er P o n d ( 0 9 0 3 -0 0 0 2 ) H am il to n L ak e F P A ci d /B as e (p H ) A tm o sp h er ic D ep . 4 a/ 2 0 0 6 S L - 1 -P 2 9 3 -1 3 -8 -P 3 2 7 M id d le C h ai n P o n d ( 0 9 0 3 -0 0 1 1 ) H am il to n L ak e F P A ci d /B as e (p H ) A tm o sp h er ic D ep . 4 a/ 2 0 0 6 S L - 1 -P 2 9 3 -1 3 -8 -P 3 3 0 U n n am ed P # 6 -3 3 0 ( 0 9 0 3 -0 0 1 5 ) H am il to n L ak e F P A ci d /B as e (p H ) A tm o sp h er ic D ep . 4 a/ 2 0 0 6 S L - 1 -P 2 9 3 .. .P 3 1 5 A lu m in u m P o n d ( 0 9 0 3 -0 0 0 6 ) H am il to n L ak e F P A ci d /B as e (p H ) A tm o sp h er ic D ep . 4 a/ 2 0 0 6 S L -2 5 - 7 /P 1 - 3 -1 9 -P 1 0 R ed L ak e (0 9 0 6 -0 0 3 9 ) Je ff er so n L ak e C M er cu ry A tm o sp h er ic D ep . 4 a/ 2 0 0 7 S L -2 5 - 7 - 3 -P 0 3 8 In d ia n L ak e (0 9 0 6 -0 0 0 3 ) L ew is L ak e C M er cu ry A tm o sp h er ic D ep . 4 a/ 2 0 0 7 S L -2 5 -5 0 -P 7 1 M o o n L ak e (0 9 0 5 -0 0 9 3 ) Je ff er so n L ak e C P h o sp h o ru s O n -s it e W T S 4 a/ 2 0 0 7 S L -2 5 -7 3 -2 6 -3 8 -P 1 8 3 -P 1 8 5 T w in P o n d s (0 9 0 5 -0 0 5 9 ) H er ki m er L ak e F P A ci d /B as e (p H ) A tm o sp h er ic D ep . 4 a/ 2 0 0 6 S L -2 5 -7 3 -2 6 -4 0 -. .. P 1 8 9 R o ck L ak e (0 9 0 5 -0 0 1 5 ) H er ki m er L ak e F P A ci d /B as e (p H ) A tm o sp h er ic D ep . 4 a/ 2 0 0 6 S L -2 5 -7 3 -2 6 -4 0 -. .. P 1 9 0 E m er al d L ak e (0 9 0 5 -0 0 0 8 ) H er ki m er L ak e F P A ci d /B as e (p H ) A tm o sp h er ic D ep . 4 a/ 2 0 0 6 A D D 06 2 Im p a ir ed /D eL is te d W at er s N O T I n cl u d ed o n t h e 2 00 8 S ec ti o n 3 03 (d ) L is t W at er I n d ex N u m b er W at er b od y N am e (W I/ P W L I D ) C ou n ty T yp e C la ss C au se /P ol lu ta n t S ou rc e Ju st if ic at io n 40 O th er I m p ai re d W at er b od y S eg m en ts N ot L is te d B ec au se D ev el op m en t of a T M D L i s N ot N ec es sa ry (c on ’t ) S ai n t L aw re n ce R iv er D ra in ag e B as in ( co n ’t ) S L -2 5 -7 3 -2 6 -4 0 -P 1 9 1 S an d L ak e (0 9 0 5 -0 0 1 6 ) H er ki m er L ak e F P A ci d /B as e (p H ) A tm o sp h er ic D ep . 4 a/ 2 0 0 6 S L -2 5 -7 3 -2 6 -4 0 .. .P 1 9 2 S it z P o n d ( 0 9 0 5 -0 0 1 7 ) H er ki m er L ak e F P A ci d /B as e (p H ) A tm o sp h er ic D ep . 4 a/ 2 0 0 6 S L -2 5 -7 3 -2 6 -4 3 -P 1 9 8 L o w er S o u th P o n d ( 0 9 0 5 -0 0 1 2 ) H er ki m er L ak e F P A ci d /B as e (p H ) A tm o sp h er ic D ep . 4 a/ 2 0 0 6 S L -2 5 -7 3 -2 6 -4 3 -P 1 9 9 M id d le S o u th P o n d ( 0 9 0 5 -0 0 1 3 ) H er ki m er L ak e F P A ci d /B as e (p H ) A tm o sp h er ic D ep . 4 a/ 2 0 0 6 S L -2 5 -7 3 -2 6 -4 4 -P 2 0 1 N .B ee ch ri d ge P o n d ( 0 9 0 5 -0 0 1 9 ) H er ki m er L ak e F P A ci d /B as e (p H ) A tm o sp h er ic D ep . 4 a/ 2 0 0 6 S L -2 5 -7 3 -2 6 -4 4 -P 2 0 3 E .B ee ch ri d ge P o n d ( 0 9 0 5 -0 0 2 0 ) H er ki m er L ak e F P A ci d /B as e (p H ) A tm o sp h er ic D ep . 4 a/ 2 0 0 6 S L -2 5 -7 3 -2 6 -4 7 -P 2 0 5 U n n am ed P # 4 -2 0 5 ( 0 9 0 5 -0 0 2 1 ) H er ki m er L ak e F P A ci d /B as e (p H ) A tm o sp h er ic D ep . 4 a/ 2 0 0 6 S L -2 5 -7 3 -2 6 -4 8 -1 -P 2 0 8 U n n am ed P # 4 -2 0 8 ( 0 9 0 5 -0 0 2 2 ) H er ki m er L ak e F P A ci d /B as e (p H ) A tm o sp h er ic D ep . 4 a/ 2 0 0 6 S L -2 5 -7 3 -2 6 -4 9 -P 2 1 0 W il ly s L ak e (0 9 0 5 -0 0 2 6 ) H er ki m er L ak e F P A ci d /B as e (p H ) A tm o sp h er ic D ep . 4 a/ 2 0 0 6 S L -2 5 -7 3 -2 6 -P 2 0 4 U n n am ed P # 4 -2 0 4 ( 0 9 0 5 -0 0 5 0 ) H er ki m er L ak e F P A ci d /B as e (p H ) A tm o sp h er ic D ep . 4 a/ 2 0 0 6 S L -2 5 -7 3 -2 6 -P 2 1 4 W al ke r L ak e (0 9 0 5 -0 0 2 4 ) H er ki m er L ak e F P A ci d /B as e (p H ) A tm o sp h er ic D ep . 4 a/ 2 0 0 6 S L -2 5 - 7 3 -P 2 3 7 L o n g P o n d ( 0 9 0 5 -0 0 5 8 ) L ew is L ak e C (T ) M er cu ry A tm o sp h er ic D ep . 4 a/ 2 0 0 7 S L -2 5 -P 3 0 9 C ra n b er ry L ak e (0 9 0 5 -0 0 0 7 ) S t. L aw re n ce L ak e A (T ) M er cu ry A tm o sp h er ic D ep . 4 a/ 2 0 0 7 S L -2 5 -1 1 8 -1 -P 3 4 0 O tt er P o n d ( 0 9 0 5 -0 0 1 4 ) S t. L aw re n ce L ak e F P A ci d /B as e (p H ) A tm o sp h er ic D ep . 4 a/ 2 0 0 6 S L -2 5 -1 2 6 -4 -P 3 5 0 L o n e D u ck P o n d ( 0 9 0 5 -0 0 8 8 ) H am il to n L ak e F P A ci d /B as e (p H ) A tm o sp h er ic D ep . 4 a/ 2 0 0 6 S L -2 5 -1 2 6 -5 -P 3 5 1 M u ir P o n d ( 0 9 0 5 -0 0 4 1 ) H er ki m er L ak e F P A ci d /B as e (p H ) A tm o sp h er ic D ep . 4 a/ 2 0 0 6 S L -2 5 -1 2 6 -7 -1 -P 3 5 4 L o w er R il ey P o n d ( 0 9 0 5 -0 0 1 1 ) H er ki m er L ak e F P A ci d /B as e (p H ) A tm o sp h er ic D ep . 4 a/ 2 0 0 6 S L -2 5 -1 2 6 -7 -1 -P 3 5 5 U p p er R il ey P o n d ( 0 9 0 5 -0 0 2 3 ) H er ki m er L ak e F P A ci d /B as e (p H ) A tm o sp h er ic D ep . 4 a/ 2 0 0 6 S L -2 5 -1 2 6 -P 3 5 2 W o lf P o n d ( 0 9 0 5 -0 0 2 7 ) H er ki m er L ak e F P A ci d /B as e (p H ) A tm o sp h er ic D ep . 4 a/ 2 0 0 6 S L -2 5 -1 2 6 -P 3 5 2 -1 -P 3 5 3 S tr ee te r F is h p o n d ( 0 9 0 5 -0 0 6 7 ) H er ki m er L ak e F P A ci d /B as e (p H ) A tm o sp h er ic D ep . 4 a/ 2 0 0 6 S L -2 5 -1 3 1 -P 3 6 3 S le n d er P o n d ( 0 9 0 5 -0 0 7 4 ) S t. L aw re n ce L ak e F P A ci d /B as e (p H ) A tm o sp h er ic D ep . 4 a/ 2 0 0 6 S L -2 5 -1 3 2 -6 -P 3 7 1 U n n am ed P # 4 -3 7 1 ( 0 9 0 5 -0 0 5 6 ) S t. L aw re n ce L ak e F P A ci d /B as e (p H ) A tm o sp h er ic D ep . 4 a/ 2 0 0 6 S L -2 5 -1 3 2 -7 -P 3 7 2 L it tl e C ro o ke d L k (0 9 0 5 -0 0 1 0 ) H er ki m er L ak e F P A ci d /B as e (p H ) A tm o sp h er ic D ep . 4 a/ 2 0 0 6 S L -2 5 -1 3 2 -P 3 6 9 T o ad P o n d ( 0 9 0 5 -0 0 4 6 ) H er ki m er L ak e F P A ci d /B as e (p H ) A tm o sp h er ic D ep . 4 a/ 2 0 0 6 S L -2 5 -1 3 2 -P 3 7 3 C ro o ke d L ak e (0 9 0 5 -0 0 0 6 ) H er ki m er L ak e F P A ci d /B as e (p H ) A tm o sp h er ic D ep . 4 a/ 2 0 0 6 S L -2 5 -1 3 3 -1 -P 3 7 6 G al P o n d ( 0 9 0 5 -0 0 0 9 ) H er ki m er L ak e F P A ci d /B as e (p H ) A tm o sp h er ic D ep . 4 a/ 2 0 0 6 S L -2 5 -1 3 3 .. .P 3 7 5 C ra ck er P o n d ( 0 9 0 5 -0 0 0 5 ) H er ki m er L ak e F P A ci d /B as e (p H ) A tm o sp h er ic D ep . 4 a/ 2 0 0 6 S L -2 5 -P 3 0 9 - 9 -2 -P 3 1 3 C u rt is P o n d ( 0 9 0 5 -0 0 0 4 ) S t. L aw re n ce L ak e F P A ci d /B as e (p H ) A tm o sp h er ic D ep . 4 a/ 2 0 0 6 S L -2 5 -P 3 0 9 - 9 -5 -P 3 1 4 U n n am ed P # 4 -3 1 4 ( 0 9 0 5 -0 0 8 0 ) S t. L aw re n ce L ak e F P A ci d /B as e (p H ) A tm o sp h er ic D ep . 4 a/ 2 0 0 6 S L -2 5 -P 3 0 9 - 9 -5 -P 3 1 5 D o n u t P o n d ( 0 9 0 5 -0 0 8 1 ) S t. L aw re n ce L ak e F P A ci d /B as e (p H ) A tm o sp h er ic D ep . 4 a/ 2 0 0 6 S L -2 5 -P 3 0 9 - 9 -P 3 1 6 D o g P o n d ( 0 9 0 5 -0 0 3 1 ) S t. L aw re n ce L ak e F P A ci d /B as e (p H ) A tm o sp h er ic D ep . 4 a/ 2 0 0 6 S L -2 5 -P 3 0 9 -1 2 -1 -2 -P 3 2 5 In d ia n M o u n ta in P ( 0 9 0 5 -0 0 3 7 ) S t. L aw re n ce L ak e F P A ci d /B as e (p H ) A tm o sp h er ic D ep . 4 a/ 2 0 0 6 S L -2 5 -P 3 0 9 .. 1 2 4 -P 3 4 3 ,P 3 4 4 B u ck P o n d , C ag e L ak e (0 9 0 5 -0 0 0 1 ) S t. L aw re n ce L ak e F P A ci d /B as e (p H ) A tm o sp h er ic D ep . 4 a/ 2 0 0 6 S L C -3 2 -2 0 -9 5 -P 1 4 1 L it tl e L o n g P o n d ( 0 9 0 2 -0 0 0 4 ) F ra n kl in L ak e F P A ci d /B as e (p H ) A tm o sp h er ic D ep . 4 a/ 2 0 0 6 S L C -3 2 -2 0 -9 5 -P 1 4 2 K it fo x P o n d ( 0 9 0 2 -0 0 0 3 ) F ra n kl in L ak e F P A ci d /B as e (p H ) A tm o sp h er ic D ep . 4 a/ 2 0 0 6 S L C -3 2 -8 1 -P 2 3 8 -2 -P 2 4 4 T o ad P o n d ( 0 9 0 2 -0 0 0 8 ) F ra n kl in L ak e F P A ci d /B as e (p H ) A tm o sp h er ic D ep . 4 a/ 2 0 0 6 S L C -3 2 -P 1 7 0 L o n g P o n d , P -1 7 0 ( 0 9 0 2 -0 0 0 5 ) F ra n kl in L ak e F P A ci d /B as e (p H ) A tm o sp h er ic D ep . 4 a/ 2 0 0 6 S L C -3 2 -P 2 5 7 a- P 2 6 4 -P 2 6 5 .. P 2 7 1 B ea r P o n d ( 0 9 0 2 -0 0 0 7 ) F ra n kl in L ak e F P A ci d /B as e (p H ) A tm o sp h er ic D ep . 4 a/ 2 0 0 6 A D D 06 3 Im p a ir ed /D eL is te d W at er s N O T I n cl u d ed o n t h e 2 00 8 S ec ti o n 3 03 (d ) L is t W at er I n d ex N u m b er W at er b od y N am e (W I/ P W L I D ) C ou n ty T yp e C la ss C au se /P ol lu ta n t S ou rc e Ju st if ic at io n T h e cu rr en t N Y S D O H f is h c o n su m p ti o n a d vi so ry i s li st ed f o r W el le r P o n d ; h o w ev er t h er e is n o b ar ri er b et w ee n t h e la ke s an d M id d le S ar an ac L ak e m ay a ls o b e af fe ct ed . 9 6 V er m o n t h as i ss u ed a f is h c o n su m p ti o n a d v is o ry i n t h e P o u lt n ey R iv er b as ed o n m er cu ry c o n ta m in at io n . 9 7 T h is w at er b o d y in cl u d es a n d w as p re vi o u sl y li st ed a s W h ip p le B ro o k. 9 8 T h e sp ec if ic al ly i d en ti fi ed w at er (s ) in t h is s eg m en t in cl u d e C lo ck m il l P o n d ( P 2 2 8 ), R o ck L ak e (P 2 2 9 ), L o w er L o o m is P o n d ( P 2 5 6 ), M id d le L o o m is P o n d ( P 2 5 7 ), T ro u t L ak e (P 2 6 0 ), C h u b 9 9 L ak e (P 2 6 4 ), R o ck L ak e (P 2 7 5 ) an d M ec o L ak e (P 2 7 6 ). O th er I m p ai re d W at er b od y S eg m en ts N ot L is te d B ec au se D ev el op m en t of a T M D L i s N ot N ec es sa ry (c on ’t ) L ak e C h am p la in D ra in ag e B as in C ( p o rt io n x ) C u m b er la n d B ay ( 1 0 0 1 -0 0 0 1 ) C li n to n B ay B M er cu ry C o n ta m . S ed ., A tm . 4 a/ 1 9 9 8 P C B s C o n ta m . S ed ., A tm . 4 a/ 1 9 9 8 C ( p o rt io n 1 ) L ak e C h am p la in , M ai n L ak e, N o rt h ( 1 0 0 0 -0 0 0 1 ) C li n to n L ak e A P h o sp h o ru s M u n ic ip al , A g, o th er 4 a/ 2 0 0 2 M er cu ry C o n ta m . S ed ., A tm . 4 a/ 1 9 9 8 C ( p o rt io n 2 ) L ak e C h am p la in , M ai n L ak e, M id d le ( 1 0 0 0 -0 0 0 2 ) C li n to n L ak e A P h o sp h o ru s M u n ic ip al , A g, o th er 4 a/ 2 0 0 2 M er cu ry C o n ta m . S ed ., A tm . 4 a/ 1 9 9 8 C ( p o rt io n 3 ) L ak e C h am p la in , M ai n L ak e, S o u th ( 1 0 0 0 -0 0 0 3 ) E ss ex L ak e A P h o sp h o ru s M u n ic ip al , A g, o th er 4 a/ 2 0 0 2 M er cu ry C o n ta m . S ed ., A tm . 4 a/ 1 9 9 8 C ( p o rt io n 4 ) L ak e C h am p la in , S o u th L ak e (1 0 0 0 -0 0 0 4 ) E ss ex L ak e B P h o sp h o ru s M u n ic ip al , A g, o th er 4 a/ 2 0 0 2 M er cu ry C o n ta m . S ed ., A tm . 4 a/ 1 9 9 8 C ( p o rt io n 5 ) L ak e C h am p la in , S o u th B ay ( 1 0 0 5 -0 0 1 4 ) W as h in gt o n L ak e B P h o sp h o ru s M u n ic ip al , A g, o th er 4 a/ 2 0 0 2 C - 1 5 ( p o rt io n 5 )- P 7 6 S ar an ac R iv er , F ra n kl in F al ls P o n d ( 1 0 0 3 -0 0 4 5 ) E ss ex L ak e( R ) C M er cu ry A tm o sp h er ic D ep . 4 a/ 2 0 0 7 C - 1 5 -P 1 1 0 , P 2 0 7 t h ru P 2 0 9 M id d le S ar an ac L ak e/ W el le r P o n d ( 1 0 0 3 -0 0 8 3 ) F ra n kl in L ak e A A M er cu ry A tm o sp h er ic D ep . 4 a/ 2 0 0 7 9 6 C - 1 5 -P 1 1 4 .. P 1 2 0 P o ll iw o g P o n d ( 1 0 0 3 -0 0 9 0 ) F ra n kl in L ak e A A M er cu ry A tm o sp h er ic D ep . 4 a/ 2 0 0 7 C - 25 A us ab le R iv er , L ow er , an d m in o r tr ib s (1 0 04 -0 0 15 ) C li nt on R iv er C (T ) W at er L ev el /F lo w H yd ro M od if ic at io n 4 c C - 48 -2 6- P 31 5 L in co ln P on d (1 0 04 -0 0 90 ) E ss ex L ak e B (T ) P ro b le m S pe ci es H ab it at M od if ic at io n 4 c C - 86 -3 -P 33 8, P 33 9, P 34 0 B ar tl et t, M ud , N or th P on ds ( 10 01 -0 0 27 ) E ss ex L ak e A A (T ) P ro b le m S pe ci es H ab it at M od if ic at io n 4 c C -1 0 1- P 36 7 L ak e G eo rg e (1 00 6 -0 0 16 ) W ar re n L ak e A A sp cl P ro b le m S pe ci es H ab it at M od if ic at io n 4 c C -1 3 4 - 4 -1 7 W in ch el l C re ek a n d t ri b s (1 0 0 5 -0 0 6 1 ) W as h in gt o n R iv er C D .O ./ O xy ge n D em an d A gr ic u lt u re 4 b C -1 3 8 P o u lt n ey R iv er , L o w er , an d t ri b s (1 0 0 5 -0 0 5 3 ) W as h in gt o n R iv er C M er cu ry A tm o sp h er ic D ep . 4 a/ 2 0 0 7 9 7 U p p er H u d so n R iv er D ra in ag e B as in H -2 6 4 -1 1 M in o r T ri b s to M id d le H o o si c R iv er ( 1 1 0 2 -0 0 0 4 ) W as h in gt o n R iv er C (T ) D .O ./ O xy ge n D em an d A gr ic u lt u ra l 4 b 9 8 H -3 0 1 B at te n K il l, M id dl e, a nd m in o r tr ib s (1 1 03 -0 0 11 ) W as hi n gt on R iv er B (T ) O th er /H ab it at H ab it at M od if ic at io n 4 c H -3 0 1 B at te n K il l, U pp er , an d tr ib s (1 10 3- 0 01 2) W as hi n gt on R iv er C O th er /H ab it at H ab it at M od if ic at io n 4 c H -3 6 9- P 12 7 G re at S ac an da ga L ak e (1 10 4- 0 02 4) S ar at og a L ak e B W at er L ev el /F lo w H yd ro M od if ic at io n 4 c H -3 6 9 -P 1 2 7 -4 6 - 9 -P 1 6 4 ,P 1 6 5 C h as e L ak e, M u d L ak e (1 1 0 4 -0 1 3 5 ) F u lt o n L ak e C M er cu ry A tm o sp h er ic D ep . 4 a/ 2 0 0 7 H -3 6 9 -P 1 2 7 -4 6 -1 2 -P 1 6 8 H o lm es L ak e (1 1 0 4 -0 0 0 6 ) F u lt o n L ak e F P A ci d /B as e (p H ) A tm o sp h er ic D ep . 4 a/ 2 0 0 6 H -3 6 9 .. 2 0 -2 3 -4 -P 2 2 5 S an d L ak e (1 1 0 4 -0 0 1 5 ) H am il to n L ak e F P A ci d /B as e (p H ) A tm o sp h er ic D ep . 4 a/ 2 0 0 6 M er cu ry A tm o sp h er ic D ep . 4 a/ 2 0 0 7 H -3 6 9 .. 2 0 -2 3 -6 -P 2 3 2 S p y L ak e (1 1 0 4 -0 1 6 0 ) H am il to n L ak e C M er cu ry A tm o sp h er ic D ep . 4 a/ 2 0 0 7 H -3 6 9 .. 2 0 -4 3 -P 2 7 0 S il ve r L ak e (1 1 0 4 -0 0 1 6 ) H am il to n L ak e F P A ci d /B as e (p H ) A tm o sp h er ic D ep . 4 a/ 2 0 0 6 H -3 6 9 .. 2 0 -P 2 2 2 t h ru P 2 7 6 M in o r L ak es T ri b t o U p p .W .B r S ac an d ag a (1 1 0 4 -0 0 1 3 ) H am il to n L ak e F P A ci d /B as e (p H ) A tm o sp h er ic D ep . 4 a/ 2 0 0 6 9 9A D D 06 4 Im p a ir ed /D eL is te d W at er s N O T I n cl u d ed o n t h e 2 00 8 S ec ti o n 3 03 (d ) L is t W at er I n d ex N u m b er W at er b od y N am e (W I/ P W L I D ) C ou n ty T yp e C la ss C au se /P ol lu ta n t S ou rc e Ju st if ic at io n T h e sp ec if ic al ly i d en ti fi ed w at er (s ) in t h is s eg m en t in cl u d e L ak e C o ld en ( P 7 0 6 ), U p p er W al lf ac e P o n d ( P 7 1 9 ). 1 0 0 42 O th er I m p ai re d W at er b od y S eg m en ts N ot L is te d B ec au se D ev el op m en t of a T M D L i s N ot N ec es sa ry (c on ’t ) U p p er H u d so n R iv er D ra in ag e B as in ( co n ’t ) H -3 9 1 ( p o rt io n 3 )/ P 3 7 4 S ch ro o n L ak e (1 1 0 4 -0 0 0 2 ) E ss ex L ak e A A M er cu ry A tm o sp h , U n kn o w n 4 a/ 2 0 0 7 H -3 9 1 .. 3 7 -P 4 2 0 ,P 4 2 1 A ld er , C ra n e P o n d s (1 1 0 4 -0 2 2 9 ) E ss ex L ak e N M er cu ry A tm o sp h er ic D ep . 4 a/ 2 0 0 7 H -4 3 8 -2 0 -2 a- P 5 5 7 S to n ey P o n d ( 1 1 0 4 -0 0 1 8 ) E ss ex L ak e F P A ci d /B as e (p H ) A tm o sp h er ic D ep . 4 a/ 2 0 0 6 H -4 6 1 -1 7 - 1 -P 5 8 8 a K in gs F lo w ( 1 1 0 4 -0 2 7 1 ) H am il to n L ak e C (T ) M er cu ry A tm o sp h er ic D ep . 4 a/ 2 0 0 7 H -4 6 1 -1 7 - 1 -P 5 8 8 a- 5 -P 5 9 0 R o u n d P o n d ( 1 1 0 4 -0 0 7 3 ) H am il to n L ak e F P M er cu ry A tm o sp h er ic D ep . 4 a/ 2 0 0 7 H -4 6 9 - 9 -P 6 4 5 R o ck P o n d ( 1 1 0 4 -0 2 8 5 ) H am il to n L ak e C M er cu ry A tm o sp h er ic D ep . 4 a/ 2 0 0 7 H -4 6 9 - 9 -P 6 4 5 a L ak e D u ra n t (1 1 0 4 -0 0 5 9 ) H am il to n L ak e C M er cu ry A tm o sp h er ic D ep . 4 a/ 2 0 0 7 H -5 0 8 t h ru 5 4 6 .. P 6 9 5 t h ru P 7 1 9 M in o r L ak es T ri b t o U p p er H u d so n ( 1 1 0 4 -0 0 0 7 ) E ss ex L ak e F P A ci d /B as e (p H ) A tm o sp h er ic D ep . 4 a/ 2 0 0 6 1 0 0 M o h aw k R iv er D ra in ag e B as in H -2 4 0 (p o rt io n 1 6) /P 10 59 D el ta R es er vo ir ( 1 20 1- 0 01 9) O ne id a L ak e( R ) A (T ) W at er L ev el /F lo w H yd ro M od if ic at io n 4 c H -2 4 0 - 1 1 -P 4 9 6 /P 4 9 8 A n n L ee ( S h ak er s) P o n d , S tu m p P o n d ( 1 2 0 1 -0 0 9 6 ) A lb an y L ak e C A lg al /W ee d G ro w th H ab /H yd M o d 4 c H -2 4 0 - 2 2 -P 5 1 9 C o ll in s L ak e (1 2 0 1 -0 0 7 7 ) S ch en ec ta d y L ak e B A lg al /W ee d G ro w th H ab /H yd M o d 4 c H -2 4 0 - 8 2 -P 6 3 8 a S ch o h ar ie R es er vo ir ( 1 2 0 2 -0 0 1 2 ) S ch o h ar ie L ak e( R ) A A (T S ) M er cu ry A tm o sp h er ic D ep . 4 a/ 2 0 0 7 H -2 4 0 - 8 2 - 6 3 -1 9 -9 -P 5 8 9 E n gl ev il le P o n d ( 1 2 0 2 -0 0 0 9 ) S ch o h ar ie L ak e A A lg al /W ee d G ro w th H ab /H yd M o d 4 c H -2 4 0 - 8 2 -1 0 4 -P 6 2 9 S u m m it L ak e (1 2 0 2 -0 0 1 4 ) S ch o h ar ie L ak e B A lg al /W ee d G ro w th H ab /H yd M o d 4 c H -2 4 0 -1 4 4 -1 3 -P 7 1 6 ,P 7 1 7 ,P 7 1 8 L il y, C an ad a, S te w ar ts L an d , W es t L ak es ( 1 2 0 1 -0 0 5 0 ) F u lt o n L ak e B (T ) M er cu ry A tm o sp h er ic D ep . 4 a/ 2 0 0 6 H -2 4 0 -1 4 4 -1 3 .. P 7 2 1 ,P 7 2 2 ,P 7 2 3 S to n er L ak es ( 1 2 0 1 -0 1 6 9 ) F u lt o n L ak e N M er cu ry A tm o sp h er ic D ep . 4 a/ 2 0 0 6 H -2 4 0 -1 4 4 -2 8 -P 7 5 0 .. P 7 5 3 .P 7 5 5 K n ap p s L o n g L k, L o n g P d ( 1 2 0 1 -0 0 0 7 ) F u lt o n L ak e F P A ci d /B as e (p H ) A tm o sp h er ic D ep . 4 a/ 2 0 0 6 H -2 4 0 -1 4 4 -2 9 -P 7 6 8 L it tl e M et ca lf L ak e (1 2 0 1 -0 2 2 7 ) H er ki m er L ak e F P A ci d /B as e (p H ) A tm o sp h er ic D ep . 4 a/ 2 0 0 6 H -2 4 0 -1 4 4 -3 4 -P 7 7 1 R ed lo u se L ak e (1 2 0 1 -0 0 0 8 ) H am il to n L ak e F P A ci d /B as e (p H ) A tm o sp h er ic D ep . 4 a/ 2 0 0 6 H -2 4 0 -1 4 4 -3 8 -P 7 7 7 F er ri s L ak e (1 2 0 1 -0 0 0 3 ) H am il to n L ak e F P A ci d /B as e (p H ) A tm o sp h er ic D ep . 4 a/ 2 0 0 6 M er cu ry A tm o sp h er ic D ep . 4 a/ 2 0 0 7 H -2 4 0- 1 80 ( po rt io n 1 ) W es t C an ad a C re ek , L ow er , M ai n S te m ( 12 0 3- 0 02 3) H er ki m er R iv er C (T ) W at er L ev el /F lo w H yd ro M od if ic at io n 4 c H -2 4 0- 1 80 ( po rt io n 2 ) W es t C an ad a C re ek , L ow er , M ai n S te m ( 12 0 3- 0 01 1) H er ki m er R iv er C (T ) W at er L ev el /F lo w H yd ro M od if ic at io n 4 c H -2 4 0- 1 80 ( po rt io n 3 ) W es t C an ad a C re ek , M id d le , M ai n S te m ( 12 0 3- 0 02 4) H er ki m er R iv er B (T ) W at er L ev el /F lo w H yd ro M od if ic at io n 4 c H -2 4 0- 1 80 - 1 t hr u 3 5 (s el ec te d) M in or T ri bs t o L ow er W es t C an ad a C r (1 2 03 -0 0 82 ) H er ki m er R iv er C A es th et ic s L an d fi ll /L an d D is p. 4 c H -2 4 0- 1 80 - 59 S te ub en C re ek a nd t ri b s (1 20 3- 0 01 3) O ne id a R iv er C O th er /H ab it at H ab it at M od if ic at io n 4 c H -2 4 0 -1 8 0 -7 4 -1 6 -1 -P 8 5 6 T w in L ak e, S o u th ( 1 2 0 3 -0 0 0 5 ) H am il to n L ak e F P A ci d /B as e (p H ) A tm o sp h er ic D ep . 4 a/ 2 0 0 6 H -2 4 0 -1 8 0 -7 4 -2 1 -P 8 6 2 T L ak e (1 2 0 3 -0 0 0 4 ) H am il to n L ak e F P A ci d /B as e (p H ) A tm o sp h er ic D ep . 4 a/ 2 0 0 6 H -2 4 0 -1 8 0 -7 4 .. P 8 6 4 t h ru P 8 6 7 B u ck P o n d s, W h it e B ir ch L ak e (1 2 0 3 -0 0 0 1 ) H am il to n L ak e F P A ci d /B as e (p H ) A tm o sp h er ic D ep . 4 a/ 2 0 0 6 H -2 4 0 -1 8 0 -8 7 -P 9 0 8 ,P 9 0 9 S p ru ce , B al sa m L ak es ( 1 2 0 3 -0 0 0 7 ) H am il to n L ak e F P A ci d /B as e (p H ) A tm o sp h er ic D ep . 4 a/ 2 0 0 6 H -2 4 0 -1 8 0 -9 1 -P 9 1 5 ,P 9 1 9 B ea ve r P d , P o o r L ak e (1 2 0 3 -0 0 0 3 ) H am il to n L ak e F P A ci d /B as e (p H ) A tm o sp h er ic D ep . 4 a/ 2 0 0 6 H -2 4 0 -1 8 7 - S te el e C re ek t ri b s (1 2 0 1 -0 1 9 7 ) H er ki m er R iv er A (T S ) A lg al /W ee d G ro w th H ab /H yd M o d 4 c H -2 4 0 -2 2 7 N in em il e C re ek , L o w er , an d t ri b s (1 2 0 1 -0 0 1 4 ) O n ei d a R iv er B (T ) T h er m al C h an ge s H ab /H yd M o d 4 c A D D 06 5 Im p a ir ed /D eL is te d W at er s N O T I n cl u d ed o n t h e 2 00 8 S ec ti o n 3 03 (d ) L is t W at er I n d ex N u m b er W at er b od y N am e (W I/ P W L I D ) C ou n ty T yp e C la ss C au se /P ol lu ta n t S ou rc e Ju st if ic at io n 43 O th er I m p ai re d W at er b od y S eg m en ts N ot L is te d B ec au se D ev el op m en t of a T M D L i s N ot N ec es sa ry (c on ’t ) L o w er H u d so n R iv er D ra in ag e B as in H - 3 1 -P 4 4 N ew C ro to n R es er vo ir ( 1 3 0 2 -0 0 1 0 ) W es tc h es te r L ak e( R ) A A P h o sp h o ru s U rb an R u n o ff 4 a/ 2 0 0 0 H - 3 1 -P 4 4 U p p er N ew C ro to n /M u sc o o t R es er vo ir ( 1 3 0 2 -0 0 4 2 ) W es tc h es te r L ak e( R ) A P h o sp h o ru s U rb an R u n o ff 4 a/ 2 0 0 0 H - 3 1 -P 4 4 -1 4 -P 5 0 A m aw al k R es er vo ir ( 1 3 0 2 -0 0 4 4 ) W es tc h es te r L ak e( R ) A P h o sp h o ru s U rb an R u n o ff 4 a/ 2 0 0 0 M er cu ry A tm o sp h er ic D ep . 4 a/ 2 0 0 7 H - 3 1 -P 4 4 -1 4 - 1 H al lo ck s M il l B ro o k, L o w er ( 1 3 0 2 -0 0 5 1 ) W es tc h es te r R iv er A (T ) A m m o n ia M u n ic ip al 4 b H - 3 1 -P 4 4 -2 3 ( p o rt io n 2 )/ P 5 9 C ro to n F al ls R es er vo ir ( 1 3 0 2 -0 0 2 6 ) P u tn am L ak e( R ) A (T ) P h o sp h o ru s U rb an R u n o ff 4 a/ 2 0 0 0 H - 3 1 -P 4 4 -2 3 ( p o rt io n 4 )/ P 6 7 W es t B ra n ch R es er vo ir ( 1 3 0 2 -0 0 2 2 ) P u tn am L ak e( R ) A A P h o sp h o ru s U rb an R u n o ff 4 a/ 2 0 0 0 M er cu ry A tm o sp h er ic D ep . 4 a/ 2 0 0 7 H - 3 1 -P 4 4 -2 3 ( p o rt io n 6 )/ P 7 6 B o yd C o rn er s R es er vo ir ( 1 3 0 2 -0 0 4 5 ) P u tn am L ak e® A A P h o sp h o ru s U rb an R u n o ff 4 a/ 2 0 0 0 M er cu ry A tm o sp h er ic D ep . 4 a/ 2 0 0 7 H - 3 1 -P 4 4 -2 3 -P 5 9 - 6 ( p o rt 2 )/ P 6 2 M id d le B ra n ch R es er vo ir ( 1 3 0 2 -0 0 0 9 ) P u tn am L ak e( R ) A P h o sp h o ru s U rb an R u n o ff 4 a/ 2 0 0 0 H - 3 1 -P 4 4 -2 4 ( p o rt io n 2 )/ P 8 3 D iv er ti n g R es er vo ir ( 1 3 0 2 -0 0 4 6 ) P u tn am L ak e( R ) A A P h o sp h o ru s U rb an R u n o ff 4 a/ 2 0 0 0 M er cu ry A tm o sp h er ic D ep . 4 a/ 2 0 0 7 H - 3 1 -P 4 4 -2 4 - 9 -P 8 6 B o g B ro o k R es er vo ir ( 1 3 0 2 -0 0 4 1 ) P u tn am L ak e( R ) A A P h o sp h o ru s U rb an R u n o ff 4 a/ 2 0 0 0 M er cu ry A tm o sp h er ic D ep . 4 a/ 2 0 0 7 H - 3 1 -P 4 4 -2 4 ( p o rt io n 4 )/ P 8 9 E as t B ra n ch R es er vo ir ( 1 3 0 2 -0 0 4 0 ) P u tn am L ak e( R ) A A P h o sp h o ru s U rb an R u n o ff 4 a/ 2 0 0 0 M er cu ry A tm o sp h er ic D ep . 4 a/ 2 0 0 7 H - 3 1 -P 4 4 -2 6 /P 1 0 3 T it ic u s R es er vo ir ( 1 3 0 2 -0 0 3 5 ) W es tc h es te r L ak e( R ) A A P h o sp h o ru s U rb an R u n o ff 4 a/ 2 0 0 0 M er cu ry A tm o sp h er ic D ep . 4 a/ 2 0 0 7 H - 3 1 -P 4 4 -3 5 -P 1 0 9 C ro ss R iv er R es er vo ir ( 1 3 0 2 -0 0 0 5 ) W es tc h es te r L ak e( R ) A A (T ) P h o sp h o ru s U rb an R u n o ff 4 a/ 2 0 0 0 M er cu ry A tm o sp h er ic D ep . 4 a/ 2 0 0 7 H - 4 3 - 1 -1 1 - 9 -P 1 5 0 d B re ak n ec k P o n d ( 1 3 0 1 -0 1 2 3 ) R o ck la n d L ak e A A M er cu ry A tm o sp h er ic D ep . 4 a/ 2 0 0 7 H -1 2 8 -P 4 3 7 C h o d ik es P o n d ( 1 3 0 1 -0 2 0 8 ) U ls te r L ak e A M er cu ry A tm o sp h er ic D ep . 4 a/ 2 0 0 7 H -1 3 9 -1 4 -P 8 1 5 a R o n d o u t R es er vo ir ( 1 3 0 6 -0 0 0 3 ) U ls te r L ak e( R ) A A M er cu ry A tm o sp h er ic D ep . 4 a/ 2 0 0 7 H -1 7 1 -P 8 4 8 A sh o ka n R es er vo ir ( 1 3 0 7 -0 0 0 4 ) U ls te r L ak e( R ) A A (T ) M er cu ry A tm o sp h er ic D ep . 4 a/ 2 0 0 7 H -1 9 3 - 2 -P 9 2 1 S o u th L ak e, N o rt h L ak e (1 3 0 9 -0 0 1 7 ) G re en e L ak e B M er cu ry A tm o sp h er ic D ep . 4 a/ 2 0 0 7 H -1 9 3 -2 9 -P 9 5 0 a B as ic C re ek R es er vo ir ( 1 3 0 9 -0 0 0 1 ) A lb an y L ak e( R ) A A lg al /W ee d G ro w th H ab /H yd M o d 4 c H -2 1 2 H an na cr oi s C re ek , M id dl e, a nd t ri bs ( 13 01 -0 0 20 ) A lb an y R iv er A (T S ) W at er L ev el /F lo w H yd ro lo gi c M od if 4 c H -2 3 5 -1 1 -P 3 7 7 S n yd er s L ak e (1 3 0 1 -0 0 4 3 ) R en ss el ae r L ak e B A lg al /W ee d G ro w th H ab /H yd M o d 4 c H -2 3 6 -1 3 -P 4 2 5 D u n h am R es er vo ir ( 1 3 0 1 -0 2 6 2 ) R en ss el ae r L ak e( R ) A M er cu ry A tm o sp h er ic D ep . 4 a/ 2 0 0 7 D el aw ar e R iv er D ra in ag e B as in D -1 -P 5 8 b N ev er si n k R es er vo ir ( 1 4 0 2 -0 0 0 9 ) S u ll iv an L ak e( R ) A A (T ) M er cu ry A tm o sp h er ic D ep . 4 a/ 2 0 0 7 D - 1 -3 8 -P 5 1 L o ch S h el d ra ke /S h el d ra ke P o n d ( 1 4 0 2 -0 0 5 7 ) S u ll iv an L ak e B M er cu ry A tm o sp h er ic D ep . 4 a/ 2 0 0 7 D -1 0 ( p o rt io n 2 )/ P 7 9 a R io R es er vo ir ( 1 4 0 1 -0 0 7 4 ) S u ll iv an L ak e( R ) B (T ) M er cu ry A tm o sp h er ic D ep . 4 a/ 2 0 0 7 D -1 0 ( p o rt io n 5 )/ P 1 0 8 a S w in gi n g B ri d ge R es er vo ir ( 1 4 0 1 -0 0 0 2 ) S u ll iv an L ak e( R ) B M er cu ry A tm o sp h er ic D ep . 4 a/ 2 0 0 7 D -7 0 -P 3 5 8 a P ep ac to n R es er vo ir ( 1 4 0 3 -0 0 0 2 ) D el aw ar e L ak e (R A A (T ) M er cu ry A tm o sp h er ic D ep . 4 a/ 2 0 0 7 D -7 1 ( p o rt io n 3 )/ P 4 0 2 a C an n o n sv il le R es er vo ir ( 1 4 0 4 -0 0 0 1 ) D el aw ar e L ak e( R ) A A (T ) P h o sp h o ru s A gr ic u lt u re , M u n ic p l 4 a/ 2 0 0 0 M er cu ry A tm o sp h er ic D ep . 4 a/ 2 0 0 7 A D D 06 6 Im p a ir ed /D eL is te d W at er s N O T I n cl u d ed o n t h e 2 00 8 S ec ti o n 3 03 (d ) L is t W at er I n d ex N u m b er W at er b od y N am e (W I/ P W L I D ) C ou n ty T yp e C la ss C au se /P ol lu ta n t S ou rc e Ju st if ic at io n 44 O th er I m p ai re d W at er b od y S eg m en ts N ot L is te d B ec au se D ev el op m en t of a T M D L i s N ot N ec es sa ry (c on ’t ) H ac ke n sa ck /R am ap o R iv er D ra in ag e B as in N J- P 1 0 2 6 G re en w o o d L ak e (1 5 0 1 -0 0 0 1 ) O ra n ge L ak e B P h o sp h o ru s O n -s it e W T S , U rb an 4 a/ 2 0 0 5 A tl an ti c O ce an /L o n g Is la n d S o u n d D ra in ag e B as in (M W 1 .1 ) L B /G B -2 5 3 C o n ey I sl an d C re ek ( 1 7 0 1 -0 0 0 8 ) K in gs E st u ar y I F lo at ab le s C S O s, U rb an /S to rm 4 b (M W 1 .2 ) S I. .P 1 0 3 9 ,P 1 0 5 1 ,P 1 0 5 3 G ra sm er e, A rb u tu s an d W o lf es L ak es ( 1 7 0 1 -0 3 5 7 ) R ic h m o n d L ak e B A lg al /W ee d G ro w th H ab /H yd M o d 4 c (M W 1 .3 ) U B -E B - 1 G o w an u s C an al ( 1 7 0 1 -0 0 1 1 ) K in gs E st u ar y S D F lo at ab le s, O d o rs C S O s, U rb an /S to rm 4 b (M W 2 .1 ) E R ( p o rt io n 1 ) E as t R iv er , L o w er ( 1 7 0 2 -0 0 1 1 ) N ew Y o rk E st u ar y I F lo at ab le s C S O s, U rb an /S to rm 4 b D .O ./ O xy ge n D em an d M u n ic ip al ,U rb ,C S O s 4 a/ 2 0 0 0 (M W 2 .1 ) E R -L I- 4 N ew to w n C re ek a n d t id al t ri b s (1 7 0 2 -0 0 0 2 ) Q u ee n s E st u ar y S D F lo at ab le s C S O s, U rb an /S to rm 4 b (M W 2 .3 ) E R ( p o rt io n 2 ) E as t R iv er , U p p er ( 1 7 0 2 -0 0 1 0 ) Q u ee n s E st u ar y I F lo at ab le s C S O s, U rb an /S to rm 4 b D .O ./ O xy ge n D em an d M u n ic ip al ,U rb ,C S O s 4 a/ 2 0 0 0 (M W 2 .3 ) E R ( p o rt io n 3 ) E as t R iv er , U p p er ( 1 7 0 2 -0 0 3 2 ) Q u ee n s E st u ar y S B F lo at ab le s C S O s, U rb an /S to rm 4 b D .O ./ O xy ge n D em an d M u n ic ip al ,U rb ,C S O s 4 a/ 2 0 0 0 (M W 2 .3 ) E R -1 H ar le m R iv er ( 1 7 0 2 -0 0 0 4 ) N ew Y o rk E st u ar y I F lo at ab le s C S O s, U rb an /S to rm 4 b (M W 2 .4 ) E R -3 B ro n x R iv er , L o w er ( 1 7 0 2 -0 0 0 6 ) B ro n x E st u ar y I F lo at ab le s C S O s, U rb an /S to rm 4 b (M W 2 .4 ) E R -3 B ro n x R iv er , M id d le , an d t ri b s (1 7 0 2 -0 1 0 6 ) B ro n x R iv er B F lo at ab le s C S O s, U rb an /S to rm 4 b (M W 2 .4 ) E R -4 W es tc h es te r C re ek ( 1 7 0 2 -0 0 1 2 ) B ro n x E st u ar y I F lo at ab le s C S O s, U rb an /S to rm 4 b (M W 2 .5 ) E R -L I- 1 2 F lu sh in g C re ek /B ay ( 1 7 0 2 -0 0 0 5 ) Q u ee n s E st u ar y I F lo at ab le s C S O s, U rb an /S to rm 4 b N it ro ge n M u n ic ip al ,U rb ,C S O s 4 a/ 2 0 0 0 (M W 2 .5 ) E R /L IS -L N B L it tl e N ec k B ay ( 1 7 0 2 -0 0 2 9 ) Q u ee n s E st u ar y S B D .O ./ O xy ge n D em an d M u n ic ip al ,U rb ,C S O s 4 a/ 2 0 0 0 (M W 2 .5 ) E R /L IS -L N B -1 9 t h ru 2 0 A ll ey C re ek /L it tl e N ec k B ay T ri b ( 1 7 0 2 -0 0 0 9 ) Q u ee n s E st u ar y I > S C F lo at ab le s C S O s, U rb an /S to rm 4 b (M W 3 .1 ) L IS ( p o rt io n 2 ) L o n g Is la n d S o u n d , W es tc h es te r C o W at er s (1 7 0 2 -0 0 0 1 ) W es tc h es te r E st u ar y S A * D .O ./ O xy ge n D em an d M u n ic ip al ,U rb ,C S O s 4 a/ 2 0 0 0 N it ro ge n M u n ic ip al ,U rb ,C S O s 4 a/ 2 0 0 0 (M W 3 .2 ) L IS - 2 H u tc h in so n R iv er , L o w er , an d t ri b s (1 7 0 2 -0 0 0 3 ) B ro n x E st u ar y S B F lo at ab le s, O d o rs C S O s, U rb an /S to rm 4 b (M W 4 .1 ) L IS ( p o rt io n 3 ) L o n g Is la n d S o u n d , N as sa u C o u n ty W at er s (1 7 0 2 -0 0 2 8 ) N as sa u E st u ar y S A D .O ./ O xy ge n D em an d M u n ic ip al ,U rb ,C S O s 4 a/ 2 0 0 0 N it ro ge n M u n ic ip al ,U rb ,C S O s 4 a/ 2 0 0 0 (M W 4 .3 a) L IS -H H H em p st ea d H ar b o r, n o rt h , a n d t id al t ri b s (1 7 0 2 -0 0 2 2 ) N as sa u E st u ar y S A P at h o ge n s U rb an /S to rm R u n o ff 4 a/ 2 0 0 7 (M W 4 .4 a) L IS -O B H O ys te r B ay H ar b o r (1 7 0 2 -0 0 1 6 ) N as sa u E st u ar y S A P at h o ge n s U rb an /S to rm R u n o ff 4 a/ 2 0 0 3 (M W 4 .4 a) L IS -O B H -M N C M il l N ec k C re ek a n d t id al t ri b s (1 7 0 2 -0 1 5 1 ) N as sa u E st u ar y S A P at h o ge n s U rb /S to rm , M u n ic ip l 4 a/ 2 0 0 3 (M W 4 .4 b ) L IS -C S H C o ld S p ri n g H ar b o r, a n d t id al t ri b s (1 7 0 2 -0 0 1 8 ) N as sa u E st u ar y S A P at h o ge n s U rb an /S to rm R u n o ff 4 a/ 2 0 0 7 (M W 5 .2 a) L IS -H B -H H H u n ti n gt o n H ar b o r (1 7 0 2 -0 2 2 8 ) S u ff o lk E st u ar y S A P at h o ge n s U rb /S to rm , M u n ic ip l 4 a/ 2 0 0 7 (M W 5 .2 a) L IS -H B -N B -C H C en te rp o rt H ar b o r (1 7 0 2 -0 2 2 9 ) S u ff o lk E st u ar y S A P at h o ge n s U rb /S to rm , M u n ic ip l 4 a/ 2 0 0 7 (M W 5 .2 a) L IS -H B -N B -N H N o rt h p o rt H ar b o r (1 7 0 2 -0 2 3 0 ) S u ff o lk E st u ar y S A P at h o ge n s U rb /S to rm , M u n ic ip l 4 a/ 2 0 0 7 (M W 5 .3 ) L IS -6 2 -P 2 9 6 M il le rs P o n d ( 1 7 0 2 -0 0 1 3 ) S u ff o lk L ak e C A lg al /W ee d G ro w th H ab /H yd M o d 4 c (M W 5 .4 a) L IS -S B -S B H S to n y B ro o k H ar b o r an d W es t M ea d o w C r (1 7 0 2 -0 0 4 7 ) S u ff o lk E st u ar y S A P at h o ge n s U rb an /S to rm R u n o ff 4 a/ 2 0 0 7 (M W 5 .4 c) L IS -P JH ( p o rt io n 1 ) P o rt J ef fe rs o n H ar b o r, N o rt h , a n d t ri b s (1 7 0 2 -0 0 1 5 ) S u ff o lk E st u ar y S A P at h o ge n s U rb /S to rm , M u n ic ip l 4 a/ 2 0 0 7 (M W 5 .4 c) L IS -P JH -C B C o n sc ie n ce B ay a n d t id al t ri b s (1 7 0 2 -0 0 9 1 ) S u ff o lk E st u ar y S A P at h o ge n s U rb /S to rm , M u n ic ip l 4 a/ 2 0 0 7 (M W 5 .4 c) L IS -P JH -S H S et au ke t H ar b o r (1 7 0 2 -0 2 4 2 ) S u ff o lk E st u ar y S A P at h o ge n s U rb /S to rm , M u n ic ip l 4 a/ 2 0 0 7 (M W 5 .4 d ) L IS -M S H M t S in ai H ar b o r an d t id al t ri b s (1 7 0 2 -0 0 1 9 ) S u ff o lk E st u ar y S A P at h o ge n s U rb an /S to rm R u n o ff 4 a/ 2 0 0 7 (M W 5 .4 e) L IS - 7 1 M at ti tu ck I n le t/ C r, L o w , an d t id al t ri b s (1 7 0 2 -0 0 2 0 ) S u ff o lk E st u ar y S A P at h o ge n s U rb an /S to rm R u n o ff 4 a/ 2 0 0 7 (M W 5 .4 e) L IS - 7 2 G o ld sm it h I n le t (1 7 0 2 -0 0 2 6 ) S u ff o lk E st u ar y S A P at h o ge n s U rb an /S to rm R u n o ff 4 a/ 2 0 0 7 A D D 06 7 Im p a ir ed /D eL is te d W at er s N O T I n cl u d ed o n t h e 2 00 8 S ec ti o n 3 03 (d ) L is t W at er I n d ex N u m b er W at er b od y N am e (W I/ P W L I D ) C ou n ty T yp e C la ss C au se /P ol lu ta n t S ou rc e Ju st if ic at io n 45 O th er I m p ai re d W at er b od y S eg m en ts N ot L is te d B ec au se D ev el op m en t of a T M D L i s N ot N ec es sa ry (c on ’t ) A tl an ti c O ce an /L o n g Is la n d S o u n d D ra in ag e B as in ( co n ’t ) (M W 5 .4 g) L IS -F I- W H W es t H ar b o r, F is h er s Is la n d ( 1 7 0 2 -0 0 4 6 ) S u ff o lk E st u ar y S A P at h o ge n s U rb an /S to rm R u n o ff 4 a/ 2 0 0 7 (M W 6 .1 b ) G B -S IS (- D H ) D er in g H ar b o r (1 7 0 1 -0 0 5 0 ) S u ff o lk E st u ar y S A P at h o ge n s U rb an /S to rm R u n o ff 4 a/ 2 0 0 6 (M W 6 .1 b ) G B -S IS - 7 8 S ti rl in g C re ek a n d B as in ( 1 7 0 1 -0 0 4 9 ) S u ff o lk E st u ar y S A P at h o ge n s U rb an /S to rm R u n o ff 4 a/ 2 0 0 6 (M W 6 .1 b ) G B -S IS - 8 0 c- P 4 1 8 a B u d d s P o n d ( 1 7 0 1 -0 2 3 4 ) S u ff o lk E st u ar y S A P at h o ge n s U rb an /S to rm R u n o ff 4 a/ 2 0 0 6 (M W 6 .1 b ) G B -S IS - 8 3 a, 8 3 b T o w n /J o ck ey C re ek s an d t id al t ri b s (1 7 0 1 -0 2 3 5 ) S u ff o lk E st u ar y S A P at h o ge n s U rb an /S to rm R u n o ff 4 a/ 2 0 0 6 (M W 6 .1 b ) G B -S IS - 8 4 -P 4 2 3 G o o se C re ek ( 1 7 0 1 -0 2 3 6 ) S u ff o lk E st u ar y S A P at h o ge n s U rb an /S to rm R u n o ff 4 a/ 2 0 0 2 (M W 6 .1 b ) G B -S IS -P 4 2 0 H as h am o m u ck P o n d ( 1 7 0 1 -0 1 6 2 ) S u ff o lk E st u ar y S A P at h o ge n s U rb an /S to rm R u n o ff 4 a/ 2 0 0 6 (M W 6 .1 c) G B ..L P B - 9 0 R ic h m o n d C re ek a n d t id al t ri b s (1 7 0 1 -0 2 4 5 ) S u ff o lk E st u ar y S A P at h o ge n s U rb an /S to rm R u n o ff 4 a/ 2 0 0 6 (M W 6 .1 d ) G B ..G P B - 9 7 t h ru 1 0 4 T id al T ri b s, G r P ec o n ic B ay , N o rt h sh r (1 7 0 1 -0 2 4 7 ) S u ff o lk E st u ar y S A P at h o ge n s U rb an /S to rm R u n o ff 4 a/ 2 0 0 6 (M W 6 .1 e) F B F la n d er s B ay , ea st /c en te r, a n d t ri b s (1 7 0 1 -0 0 3 0 ) S u ff o lk E st u ar y S A P at h o ge n s U rb /S to rm , M u n ic ip l 4 a/ 2 0 0 6 (M W 6 .1 e) G B ..F B ,F B -1 1 1 F la n d er s B ay , W es t/ L o w er S aw m il l C r (1 7 0 1 -0 2 5 4 ) S u ff o lk E st u ar y S C D .O ./ O xy ge n D em an d U rb /S to rm R u n o ff 4 a/ 2 0 0 7 N it ro ge n U rb /S to rm R u n o ff 4 a/ 2 0 0 7 P at h o ge n s U rb /S to rm R u n o ff 4 a/ 2 0 0 6 (M W 6 .1 e) G B ..F B -1 1 0 M ee ti n gh o u se /T er ry s C re ek s an d t ri b s (1 7 0 1 -0 2 5 6 ) S u ff o lk E st u ar y S C D .O ./ O xy ge n D em an d A gr ic ( se d im n t b ed s) 4 a/ 2 0 0 7 N it ro ge n U rb /S to rm R u n o ff 4 a/ 2 0 0 7 P at h o ge n s U rb /S to rm R u n o ff 4 a/ 2 0 0 6 (M W 6 .2 ) G B ..F B -1 1 2 ( p o rt io n 1 ) P ec o n ic R iv er , L o w er , an d t id al t ri b s (1 7 0 1 -0 2 5 9 ) S u ff o lk E st u ar y S C D .O ./ O xy ge n D em an d U rb /S to rm R u n o ff 4 a/ 2 0 0 7 N it ro ge n U rb /S to rm R u n o ff 4 a/ 2 0 0 7 P at h o ge n s U rb /S to rm R u n o ff 4 a/ 2 0 0 6 (M W 6 .3 a) G B ..F B -R B R ee ve s B ay a n d t id al t ri b s (1 7 0 1 -0 2 7 2 ) S u ff o lk E st u ar y S A P at h o ge n s U rb /S to rm , M u n ic ip l 4 a/ 2 0 0 6 (M W 6 .3 b ) G B ..G P B -1 2 2 -P 6 4 8 S eb o n ac C r/ B u ll h ea d B ay a n d t id al t ri b s (1 7 0 1 -0 0 5 1 ) S u ff o lk E st u ar y S A P at h o ge n s U rb an /S to rm R u n o ff 4 a/ 2 0 0 6 (M W 6 .3 b ) G B ..G P B -1 2 2 a- P 6 5 1 L it tl e S eb o n ac C re ek ( 1 7 0 1 -0 2 5 3 ) S u ff o lk E st u ar y S A P at h o ge n s U rb an /S to rm R u n o ff 4 a/ 2 0 0 6 (M W 6 .3 c) G B ..L P B -1 2 3 -P 6 5 9 N o rt h S ea H ar b o r an d t ri b s (1 7 0 1 -0 0 3 7 ) S u ff o lk E st u ar y S A P at h o ge n s U rb an /S to rm R u n o ff 4 a/ 2 0 0 6 (M W 6 .3 c) G B ..L P B -1 2 4 -P 6 6 5 W o o le y P o n d ( 1 7 0 1 -0 0 4 8 ) S u ff o lk E st u ar y S A P at h o ge n s U rb an /S to rm R u n o ff 4 a/ 2 0 0 6 (M W 6 .3 d ) G B -S IS -1 2 6 N o ya ck C re ek a n d t id al t ri b s (1 7 0 1 -0 2 3 7 ) S u ff o lk E st u ar y S A P at h o ge n s U rb an /S to rm R u n o ff 4 a/ 2 0 0 6 (M W 6 .3 d ) G B -S IS -S H B ,S H C S ag H ar b o r an d S ag H ar b o r C o ve ( 1 7 0 1 -0 0 3 5 ) S u ff o lk E st u ar y S A P at h o ge n s U rb an /S to rm R u n o ff 4 a/ 2 0 0 6 (M W 6 .3 f) G B -A H A ca b o n ac k H ar b o r (1 7 0 1 -0 0 4 7 ) S u ff o lk E st u ar y S A P at h o ge n s U rb an /S to rm R u n o ff 4 a/ 2 0 0 6 (M W 6 .3 f) G B -S IS -N H -1 3 6 N o rt h w es t C re ek a n d t id al t ri b s (1 7 0 1 -0 0 4 6 ) S u ff o lk E st u ar y S A P at h o ge n s U rb an /S to rm R u n o ff 4 a/ 2 0 0 6 (M W 6 .3 g) B IS .. P 7 6 1 L ak e M o n ta u k (1 7 0 1 -0 0 3 1 ) S u ff o lk E st u ar y S A P at h o ge n s U rb an /S to rm R u n o ff 4 a/ 2 0 0 6 (M W 6 .3 h ) A O -P 7 8 0 G eo rg ic a P o n d ( 1 7 0 1 -0 1 4 5 ) S u ff o lk E st u ar y S A P at h o ge n s A gr ic u lt u ra l 4 a/ 2 0 0 7 (M W 6 .3 h ) A O -P 7 8 6 S ag ap o n ac k P o n d ( 1 7 0 1 -0 1 4 6 ) S u ff o lk E st u ar y S A P at h o ge n s A gr ic u lt u ra l 4 a/ 2 0 0 7 (M W 6 .3 i) A O -P 7 9 0 M ec o x B ay a n d t ri b s (1 7 0 1 -0 0 3 4 ) S u ff o lk E st u ar y S A P at h o ge n s A gr ic u lt u ra l 4 a/ 2 0 0 7 (M W 6 .3 i) A O -S B -1 4 3 ,1 4 4 H ea d y an d T ay lo r C re ek s an d t ri b s (1 7 0 1 -0 2 9 4 ) S u ff o lk E st u ar y S A P at h o ge n s U rb an /S to rm R u n o ff 4 a/ 2 0 0 7 (M W 6 .3 i) A O -S B -1 4 8 ,1 5 0 P en n y P o n d a n d S m it h C re ek ( 1 7 0 1 -0 2 9 8 ) S u ff o lk E st u ar y S A P at h o ge n s U rb an /S to rm R u n o ff 4 a/ 2 0 0 7 (M W 6 .3 i) A O -S B -1 5 3 W ee su ck C re ek a n d t id al t ri b s (1 7 0 1 -0 1 1 1 ) S u ff o lk E st u ar y S A P at h o ge n s U rb an /S to rm R u n o ff 4 a/ 2 0 0 7 (M W 6 .3 i) A O -S B -1 5 6 P en n im an C re ek a n d t id al t ri b s (1 7 0 1 -0 3 0 0 ) S u ff o lk E st u ar y S A P at h o ge n s U rb an /S to rm R u n o ff 4 a/ 2 0 0 7 (M W 6 .3 i) A O -S B -Q gC -P 8 3 4 O gd en P o n d ( 1 7 0 1 -0 3 0 2 ) S u ff o lk E st u ar y S A P at h o ge n s U rb an /S to rm R u n o ff 4 a/ 2 0 0 7 (M W 6 .3 j) A O -Q B Q u an tu ck B ay ( 1 7 0 1 -0 0 4 2 ) S u ff o lk E st u ar y S A P at h o ge n s U rb an /S to rm R u n o ff 4 a/ 2 0 0 7 (M W 6 .3 j) A O -S B -Q B -Q tC Q u an tu ck C an al /M o n ey b o gu e B ay ( 1 7 0 1 -0 3 7 1 ) S u ff o lk E st u ar y S A P at h o ge n s U rb an /S to rm R u n o ff 4 a/ 2 0 0 7 A D D 06 8 Im p a ir ed /D eL is te d W at er s N O T I n cl u d ed o n t h e 2 00 8 S ec ti o n 3 03 (d ) L is t W at er I n d ex N u m b er W at er b od y N am e (W I/ P W L I D ) C ou n ty T yp e C la ss C au se /P ol lu ta n t S ou rc e Ju st if ic at io n 46 O th er I m p ai re d W at er b od y S eg m en ts N ot L is te d B ec au se D ev el op m en t of a T M D L i s N ot N ec es sa ry (c on ’t ) A tl an ti c O ce an /L o n g Is la n d S o u n d D ra in ag e B as in ( co n ’t ) (M W 7 .2 a) A O -M B ( p o rt io n 3 ) T u th il l, H ar ts , S ea tu ck C o ve s (1 7 0 1 -0 3 0 9 ) S u ff o lk E st u ar y S A P at h o ge n s U rb an /S to rm , A gr ic . 4 a/ 2 0 0 7 (M W 7 .2 b ) A O -M B -N B N ar ro w B ay ( 1 7 0 1 -0 3 1 8 ) S u ff o lk E st u ar y S A P at h o ge n s U rb an /S to rm , A gr ic . 4 a/ 2 0 0 7 (M W 7 .3 ) A O -G S B ( p o rt io n 4 ) B el lp o rt B ay ( 1 7 0 1 -0 3 2 0 ) S u ff o lk E st u ar y S A P at h o ge n s U rb an /S to rm R u n o ff 4 a/ 2 0 0 7 (M W 7 .3 ) A O -G S B ( p o rt io n 5 ) P at ch o gu e B ay ( 1 7 0 1 -0 3 2 6 ) S u ff o lk E st u ar y S A P at h o ge n s U rb an /S to rm R u n o ff 4 a/ 2 0 0 7 (M W 7 .7 ) A O -G S B -1 9 3 .. P 3 0 4 L ak e R o n ko n ko m a (1 7 0 1 -0 0 2 0 ) S u ff o lk L ak e B A lg al /W ee d G ro w th H ab /H yd M o d 4 c (M W 8 .3 a) M D B -2 2 8 E as t M ea d o w B ro o k, U p p er , an d t ri b s (1 7 0 1 -0 2 1 1 ) N as sa u R iv er C W at er L ev el /F lo w H ab /H yd M o d 4 c (M W 8 .5 ) J B Ja m ai ca B ay , E as te rn , an d t ri b s (Q u ee n s) ( 1 7 0 1 -0 0 0 5 ) Q u ee n s E st u ar y S B F lo at ab le s C S O s, U rb an /S to rm 4 b (M W 8 .5 a) J B -2 4 1 a T h u rs to n B as in ( 1 7 0 1 -0 1 5 2 ) Q u ee n s E st u ar y I F lo at ab le s C S O s, U rb an /S to rm 4 b (M W 8 .5 a) J B -2 4 7 B er ge n B as in ( 1 7 0 1 -0 0 0 9 ) Q u ee n s E st u ar y I F lo at ab le s C S O s, U rb an /S to rm 4 b (M W 8 .5 a) J B -2 4 9 S p ri n g C re ek a n d t ri b s (1 7 0 1 -0 3 6 1 ) Q u ee n s E st u ar y I F lo at ab le s C S O s, U rb an /S to rm 4 b (M W 8 .6 a) J B -2 4 9 a H en d ri x C re ek ( 1 7 0 1 -0 0 0 6 ) K in gs E st u ar y I F lo at ab le s, O d o rs C S O s, U rb an /S to rm 4 b (M W 8 .6 a) J B -2 5 0 a P ae rd eg at B as in ( 1 7 0 1 -0 3 6 3 ) K in gs E st u ar y I F lo at ab le s, O d o rs C S O s, U rb an /S to rm 4 b (M W 8 .6 a) J B -2 5 0 b M il l B as in a n d t id al t ri b s (1 7 0 1 -0 1 7 8 ) K in gs E st u ar y S B F lo at ab le s C S O s, U rb an /S to rm 4 b A D D 06 9 Im p a ir ed /D eL is te d W at er s N O T I n cl u d ed o n t h e 2 00 8 S ec ti o n 3 03 (d ) L is t W at er I n d ex N u m b er W at er b od y N am e (W I/ P W L I D ) C ou n ty T yp e C la ss C au se /P ol lu ta n t S ou rc e Ju st if ic at io n 47 2 0 0 8 W a te rb o d y /P o ll u ta n t D el is ti n g s (W at er s/ P ol lu ta n ts l is te d i n 2 00 6, b u t th at a re N O T i n cl u d ed i n t h e 20 08 S ec ti on 3 03 (d ) L is t) T h e fo ll o w in g w at er b o d y/ p o ll u ta n t li st in gs s w er e in cl u d ed o n t h e p re vi o u s (2 0 0 6 ) S ec ti o n 3 0 3 (d ) L is t, b u t ar e N O T i n cl u d ed o n t h e 2 0 0 8 L is t. T h is l is t is p re se n te d i n o rd er t o p ro vi d e so m e co n ti n u it y an d e as e o f tr ac ki n g w at er b o d y/ p o ll u ta n t co m b in at io n s ac ro ss S ec ti o n 3 0 3 (d ) li st in g cy cl es . T h e ex p la n at io n f o r w hy t h es e li st in gs n o l o n ge r ap p ea r in t h e L is t (e .g ., d el is ti n g ac ti o n , r e- se gm en ta ti o n o f th e se gm en t, e tc .) i s al so p re se n te d b el o w . N o te : S o m e o f th es e li st in gs (t ho se t ha t ar e Im pa ir ed ) al so a p p ea r on t h e p re ce d in g li st o f O th er I m pa ir ed W at er bo dy S eg m en ts N ot L is te d B ec au se D ev el op m en t of a T M D L i s N ot N ec es sa ry . N ia ga ra R iv er /L ak e E ri e D ra in ag e B as in O n t 1 5 8 ( p o rt io n 1 ) N ia ga ra R iv er , L o w er , M ai n S te m ( 0 1 0 1 -0 0 2 7 ) N ia ga ra R iv er A (S ) C h lo rd an e C o n t. S ed , L an d D is p re as se ss m en t p p -D D D C o n t. S ed , L an d D is p re as se ss m en t O ct o ch lo ro st yr en e C o n t. S ed , L an d D is p re as se ss m en t B en zo (a )a n th ra ce n e C o n t. S ed , L an d D is p re as se ss m en t O n t 1 5 8 ( p o rt io n 2 ) N ia ga ra R iv er , U p p er , M ai n S te m (0 1 0 1 -0 0 0 6 ) N ia ga ra R iv er A (S ) C h lo rd an e C o n t. S ed , L an d D is p re as se ss m en t p p -D D D C o n t. S ed , L an d D is p re as se ss m en t O ct o ch lo ro st yr en e C o n t. S ed , L an d D is p re as se ss m en t B en zo (a )a n th ra ce n e C o n t. S ed , L an d D is p re as se ss m en t T h es e 8 w at er s/ p ol lu ta n ts h av e b ee n d el is te d d u e to r ea ss es sm en t th at f ou n d c on ce n tr at io n s su b st an ti al ly b el ow a p p li ca b le w at er q u al it y s ta n d ar d s. N ot e th at t h es e p ol lu ta n ts w er e n ot s p ec if ic al ly i n cl u d ed i n t h e 20 0 6 L is t b u t w er e in cl u d ed w it h in b ro ad er c at eg or ie s of p ol lu ta n ts t h at w er e li st ed . L ak e O n ta ri o ( M in o r T ri b s) D ra in ag e B as in O n t 5 3 ( p o rt io n 4 )/ P 1 9 a S al m o n R iv er R es er vo ir ( 0 3 0 3 -0 0 6 9 ) O sw eg o L ak e( R ) C (T ) M er cu ry A tm o sp h er ic D ep . 4 a/ 2 0 0 7 T h is w at er h as b ee n d el is te d d u e to a p p ro va l of t h e N or th ea st R eg io n al M er cu ry T M D L i n 2 0 0 7 . O n t 7 4 /P 7 6 L it tl e S o d u s B ay ( 0 3 0 2 -0 0 1 7 ) C ay u ga L ak e B P h o sp h o ru s O n -s it e W T S , A gr ic 4 a/ 2 0 0 7 O n t 7 5 /P 7 7 B li n d S o d u s B ay ( 0 3 0 2 -0 0 2 1 ) W ay n e L ak e B P h o sp h o ru s O n -s it e W T S 4 a/ 2 0 0 7 T h es e 2 w at er s h av e b ee n d el is te d d u e to a p p ro va l of w a te rb od y -s p ec if ic T M D L s in 2 0 0 7 . S u sq u eh an n a R iv er D ra in ag e B as in S R ( p o rt io n 1 ) S u sq u eh an n a R iv er , L o w er , M ai n S te m ( 0 6 0 3 -0 0 1 6 ) T io ga R iv er B M er cu ry A tm o sp h er ic D ep . 4 a/ 2 0 0 7 S R ( p o rt io n 2 ) S u sq u eh an n a R iv er , L o w er , M ai n S te m ( 0 6 0 3 -0 0 1 5 ) T io ga R iv er C M er cu ry A tm o sp h er ic D ep . 4 a/ 2 0 0 7 S R ( p o rt io n 3 ) S u sq u eh an n a R iv er , L o w er , M ai n S te m ( 0 6 0 3 -0 0 1 3 ) T io ga R iv er B M er cu ry A tm o sp h er ic D ep . 4 a/ 2 0 0 7 S R ( p o rt io n 4 ) S u sq u eh an n a R iv er , L o w er , M ai n S te m ( 0 6 0 3 -0 0 0 2 ) B ro o m e R iv er A M er cu ry A tm o sp h er ic D ep . 4 a/ 2 0 0 7 S R ( p o rt io n 5 ) S u sq u eh an n a R iv er , M ai n S te m ( 0 6 0 1 -0 1 8 2 ) B ro o m e R iv er A M er cu ry A tm o sp h er ic D ep . 4 a/ 2 0 0 7 S R ( p o rt io n 6 ) S u sq u eh an n a R iv er , M ai n S te m ( 0 6 0 1 -0 0 4 0 ) B ro o m e R iv er B M er cu ry A tm o sp h er ic D ep . 4 a/ 2 0 0 7 S R ( p o rt io n 7 ) S u sq u eh an n a R iv er , M ai n S te m ( 0 6 0 1 -0 0 2 0 ) O ts eg o R iv er B M er cu ry A tm o sp h er ic D ep . 4 a/ 2 0 0 7 S R ( p o rt io n 8 )/ P 3 6 0 G o o d ye ar L ak e (0 6 0 1 -0 0 1 5 ) O ts eg o L ak e B M er cu ry A tm o sp h er ic D ep . 4 a/ 2 0 0 7 S R ( p o rt io n 9 ) S u sq u eh an n a R iv er , U p p er , M ai n S te m ( 0 6 0 1 -0 0 4 1 ) O ts eg o R iv er B M er cu ry A tm o sp h er ic D ep . 4 a/ 2 0 0 7 S R - 4 4 ( p o rt io n 1 ) C h en an go R iv er , L o w er , M ai n S te m ( 0 6 0 2 -0 0 3 3 ) B ro o m e R iv er B M er cu ry A tm o sp h er ic D ep . 4 a/ 2 0 0 7 S R - 4 4 ( p o rt io n 2 ) C h en an go R iv er , M id d le , M ai n S te m ( 0 6 0 2 -0 0 0 9 ) C h en an go R iv er B /C M er cu ry A tm o sp h er ic D ep . 4 a/ 2 0 0 7 S R - 4 4 ( p o rt io n 3 ) C h en an go R iv er , U p p er , M ai n S te m ( 0 6 0 2 -0 0 6 9 ) C h en an go R iv er B /C M er cu ry A tm o sp h er ic D ep . 4 a/ 2 0 0 7 S R -1 4 6 ( p o rt io n 1 ) U n ad il la R iv er , L o w er , M ai n S te m ( 0 6 0 1 -0 0 0 3 ) C h en an go R iv er B M er cu ry A tm o sp h er ic D ep . 4 a/ 2 0 0 7 T h es e 1 3 w at er s h av e b ee n d el is te d d u e to a p p ro va l of t h e N or th ea st R eg io n al M er cu ry T M D L i n 2 0 0 7 . A D D 07 0 Im p a ir ed /D eL is te d W at er s N O T I n cl u d ed o n t h e 2 00 8 S ec ti o n 3 03 (d ) L is t W at er I n d ex N u m b er W at er b od y N am e (W I/ P W L I D ) C ou n ty T yp e C la ss C au se /P ol lu ta n t S ou rc e Ju st if ic at io n T he se w at er bo d ie s w er e pr ev io u sl y in cl ud ed a s im pa ir ed b u t no t re qu ir in g T M D L d ev el op m en t in t he 2 0 06 S ec ti on 3 03 (d ) L is t be ca us e a T M D L f or a m m on ia i n O no nd ag a L ak e w as 1 0 1 co m p le te d i n 1 9 9 8 . 48 2 0 0 8 W a te rb o d y /P o ll u ta n t D el is ti n g s (W at er s/ P ol lu ta n ts l is te d i n 2 00 6, b u t th at a re N O T i n cl u d ed i n t h e 20 08 S ec ti on 3 03 (d ) L is t) (c o n ’t ) S u sq u eh an n a R iv er D ra in ag e B as in S R - 4 4 -1 4 -5 9 -3 4 -P 5 6 D eR u yt er R es . (0 6 0 2 -0 0 8 6 ) M ad is o n L ak e B N u tr ie n ts ( p h o sp h o ru s) A gr ic u lt u ra l re as se ss m en t T h is w at er h as b ee n d el is te d d u e to m or e re ce n t as se ss m en ts t h at i n d ic at e im p ro ve d w at er q u al it y an d b ec au se n ew a ss es sm en ts u si n g th e N Y S C on so li d at ed A ss es sm en t an d L is ti n g M et h od ol og y i n d ic at es t h at t h es e w at er s cu rr en tl y f u ll y s u p p or t re cr ea ti on al u se a n d a re m ee ti n g a ll a p p li ca b le st an d ar d s an d a ss es sm en t cr it er ia . O sw eg o R iv er /F in ge r L ak es D ra in ag e B as in O n t 6 6 -1 1 -P 2 6 O n ei d a L ak e (0 7 0 3 -0 0 0 1 ) O sw eg o L ak e B N u tr ie n ts ( p h o sp h o ru s) A gr ic u lt u ra l re as se ss m en t O n t 6 6 -1 1 -P 2 6 -3 7 C h it te n an go C re ek ( 0 7 0 3 -0 0 0 5 ) M ad is o n R iv er C N u tr ie n ts ( p h o sp h o ru s) A gr ic u lt u ra l re as se ss m en t T h es e 2 w at er s h av e b ee n d el is te d d u e to m or e re ce n t as se ss m en ts t h at i n d ic at e im p ro ve d w at er q u al it y an d b ec au se n ew a ss es sm en ts u si n g th e N Y S C on so li d at ed A ss es sm en t an d L is ti n g M et h od ol og y i n d ic at es t h at t h es e w at er s cu rr en tl y f u ll y s u p p or t re cr ea ti on al u se a n d a re m ee ti n g a ll a p p li ca b le st an d ar d s an d a ss es sm en t cr it er ia . O n t 6 6 -1 2 -1 2 -P 1 5 4 ( p o rt io n 1 ) O n o n d ag a L ak e, n o rt h er n e n d ( 0 7 0 2 -0 0 0 3 ) O n o n d ag a L ak e B A m m o n ia M u n ic ip al re as se ss m en t 1 0 1 O n t 6 6 -1 2 -1 2 -P 1 5 4 ( p o rt io n 2 ) O n o n d ag a L ak e, s o u th er n e n d ( 0 7 0 2 -0 0 2 1 ) O n o n d ag a L ak e C A m m o n ia M u n ic ip al re as se ss m en t 1 0 1 T h es e 2 w at er s/ p ol lu ta n ts h av e b ee n d el is te d d u e to r ec en t as se ss m en ts t h at s h ow a p p li ca b le w at er q u al it y s ta n d ar d s fo r am m on ia a re b ei n g m et . B la ck R iv er D ra in ag e B as in O nt 19 - 81 -1 8- 1 7- P 75 2. .P 76 9 U pp er S is te r L ak e (0 80 1- 0 00 8 ) H am il to n L ak e F P M er cu ry A tm os ph er ic D ep . re -s eg m en te d T h is w at er h as b ee n d el is te d d u e to i ts c on so li d at io n i n to t h e L ow er , U p p er S is te r L ak es ( 0 8 0 1 -0 0 0 4 ) se g m en t. T h is c on so li d at ed s eg m en t w as su b se q u en tl y d el is te d d u e to t h e N or th ea st R eg io n al M er cu ry T M D L w h ic h a d d re ss es m er cu ry i m p ai rm en ts i n b ot h l ak es . O n t 1 9 - 4 0 ( p o rt io n 3 )/ P 4 1 8 H ig h F al ls P o n d ( 0 8 0 1 -0 2 7 4 ) L ew is L ak e C (T ) M er cu ry A tm o sp h er ic D ep . 4 a/ 2 0 0 7 O n t 1 9 - 4 0 ( p o rt io n 4 a) T ay lo rv il le , E lm er F al ls P o n d s (0 8 0 1 -0 2 7 6 ) L ew is L ak e C (T ) M er cu ry A tm o sp h er ic D ep . 4 a/ 2 0 0 7 O n t 1 9 - 4 0 ( p o rt io n 5 )/ P 4 2 6 E ff le y F al ls R es er vo ir ( 0 8 0 1 -0 1 7 2 ) L ew is L ak e( R ) C (T ) M er cu ry A tm o sp h er ic D ep . 4 a/ 2 0 0 7 O n t 1 9 - 4 0 ( p o rt io n 7 )/ P 4 3 4 ,P 4 3 1 S o ft M ap le R es er vo ir , S o ft M ap le P o n d ( 0 8 0 1 -0 1 7 3 ) L ew is L ak e C (T ) M er cu ry A tm o sp h er ic D ep . 4 a/ 2 0 0 7 O n t 1 9 - 4 0 ( p o rt io n 9 )/ P 4 4 9 B ea ve r L ak e, B ea ve r M ea d o w P o n d ( 0 8 0 1 -0 1 7 4 ) L ew is L ak e C (T ) M er cu ry A tm o sp h er ic D ep . 4 a/ 2 0 0 7 O n t 1 9 - 4 0 ( p o rt io n 1 1 )/ P 4 7 8 M o sh ie r R es er vo ir ( 0 8 0 1 -0 1 9 4 ) H er ki m er L ak e( R ) C (T ) M er cu ry A tm o sp h er ic D ep . 4 a/ 2 0 0 7 O n t 1 9 - 4 0 -2 0 -P 4 7 3 , P 4 7 4 S u n d ay L ak e, S u n d ay C re ek R es er vo ir ( 0 8 0 1 -0 1 9 5 ) H er ki m er L ak e C (T ) M er cu ry A tm o sp h er ic D ep . 4 a/ 2 0 0 7 O n t 1 9 - 4 0 -P 4 4 9 -2 -P 4 5 0 -2 -P 4 5 1 F ra n ci s L ak e (0 8 0 1 -0 1 9 2 ) L ew is L ak e C (T ) M er cu ry A tm o sp h er ic D ep . 4 a/ 2 0 0 7 O n t 1 9 - 4 0 -P 4 9 3 S ti ll w at er R es er vo ir ( 0 8 0 1 -0 1 8 4 ) H er ki m er L ak e( R ) C (T ) M er cu ry A tm o sp h er ic D ep . 4 a/ 2 0 0 7 O n t 1 9 - 5 7 - 7 -P 6 1 9 ,P 6 2 2 ,6 2 5 C le ve la n d ,P ay n e, H u ck le b er ry , H al fm o o n L ks ( 0 8 0 1 -0 1 9 3 ) L ew is L ak e C M er cu ry A tm o sp h er ic D ep . 4 a/ 2 0 0 7 O n t 1 9 - 8 1 -1 8 -1 7 -P 7 5 0 D ar t L ak e (0 8 0 1 -0 2 4 2 ) H er ki m er L ak e A M er cu ry A tm o sp h er ic D ep . 4 a/ 2 0 0 7 O n t 1 9 - 8 1 -1 8 -1 7 -P 7 5 2 B ig M o o se L ak e (0 8 0 1 -0 0 3 5 ) H er ki m er L ak e A (T ) M er cu ry A tm o sp h er ic D ep . 4 a/ 2 0 0 7 O n t 1 9 - 8 1 -1 8 -1 7 -P 7 5 2 .. P 7 6 8 ,P 7 6 9 L o w er , U p p er S is te r L ak e (0 8 0 1 -0 0 0 4 ) H am il to n L ak e C (T ) M er cu ry A tm o sp h er ic D ep . 4 a/ 2 0 0 7 O n t 1 9 - 8 1 -1 8 -1 7 -P 7 5 2 - 8 -P 7 7 4 R u ss ia n L ak e (0 8 0 1 -0 0 0 6 ) H am il to n L ak e C M er cu ry A tm o sp h er ic D ep . 4 a/ 2 0 0 7 O n t 1 9 -P 1 0 0 7 N o rt h L ak e (0 8 0 1 -0 4 5 1 ) H er ki m er L ak e A (T ) M er cu ry A tm o sp h er ic D ep . 4 a/ 2 0 0 7 T h es e 1 5 w at er s h av e b ee n d el is te d d u e to a p p ro va l of t h e N or th ea st R eg io n al M er cu ry T M D L i n 2 0 0 7 . A D D 07 1 Im p a ir ed /D eL is te d W at er s N O T I n cl u d ed o n t h e 2 00 8 S ec ti o n 3 03 (d ) L is t W at er I n d ex N u m b er W at er b od y N am e (W I/ P W L I D ) C ou n ty T yp e C la ss C au se /P ol lu ta n t S ou rc e Ju st if ic at io n 49 2 0 0 8 W a te rb o d y /P o ll u ta n t D el is ti n g s (W at er s/ P ol lu ta n ts l is te d i n 2 00 6, b u t th at a re N O T i n cl u d ed i n t h e 20 08 S ec ti on 3 03 (d ) L is t) (c o n ’t ) B la ck R iv er D ra in ag e B as in (c o n ’t ) O n t 1 9 - 4 0 -1 8 -7 -P 4 4 4 a U n n am ed P # 4 -4 4 4 a (0 8 0 1 -0 1 0 3 ) H er ki m er L ak e F P A ci d /B as e (p H ) A tm o sp h er ic D ep . 4 a/ 2 0 0 6 O n t 1 9 - 4 0 -1 9 -P 4 5 6 U n n am ed P # 4 -4 5 6 ( 0 8 0 1 -0 0 8 8 ) H er ki m er L ak e F P A ci d /B as e (p H ) A tm o sp h er ic D ep . 4 a/ 2 0 0 6 O n t 1 9 - 4 0 -2 2 -3 -P 4 8 7 S u n sh in e P o n d ( 0 8 0 1 -0 0 5 8 ) H er ki m er L ak e F P A ci d /B as e (p H ) A tm o sp h er ic D ep . 4 a/ 2 0 0 6 O n t 1 9 - 4 0 -2 2 -P 4 8 9 L o w er M o sh ie r P o n d ( 0 8 0 1 -0 0 4 9 ) H er ki m er L ak e F P A ci d /B as e (p H ) A tm o sp h er ic D ep . 4 a/ 2 0 0 6 O n t 1 9 - 4 0 -2 2 -P 4 9 2 D u ck P o n d ( 0 8 0 1 -0 0 4 0 ) H er ki m er L ak e F P A ci d /B as e (p H ) A tm o sp h er ic D ep . 4 a/ 2 0 0 6 O n t 1 9 - 4 0 -P 4 9 3 - 6 -1 -P 5 0 4 H aw k P o n d ( 0 8 0 1 -0 0 4 4 ) H er ki m er L ak e F P A ci d /B as e (p H ) A tm o sp h er ic D ep . 4 a/ 2 0 0 6 O n t 1 9 - 4 0 -P 4 9 3 - 7 -P 5 1 7 S al m o n L ak e (0 8 0 1 -0 0 5 4 ) H er ki m er L ak e F P A ci d /B as e (p H ) A tm o sp h er ic D ep . 4 a/ 2 0 0 6 O n t 1 9 - 4 0 -P 4 9 3 - 7 -P 5 2 8 W it ch o p p le L ak e (0 8 0 1 -0 0 6 2 ) H er ki m er L ak e F P A ci d /B as e (p H ) A tm o sp h er ic D ep . 4 a/ 2 0 0 6 O n t 1 9 - 4 0 -P 4 9 3 - 7 -P 5 2 8 .. P 5 3 1 W il d er P o n d ( 0 8 0 1 -0 0 6 1 ) H er ki m er L ak e F P A ci d /B as e (p H ) A tm o sp h er ic D ep . 4 a/ 2 0 0 6 O n t 1 9 - 4 0 -P 4 9 3 -3 2 -P 5 8 4 .. P 5 8 7 L o w er L il yp ad P o n d ( 0 8 0 1 -0 0 4 8 ) H er ki m er L ak e F P A ci d /B as e (p H ) A tm o sp h er ic D ep . 4 a/ 2 0 0 6 O n t 1 9 - 5 7 -1 0 -3 -P 6 3 5 F if th C re ek P o n d ( 0 8 0 1 -0 0 4 2 ) H er ki m er L ak e F P A ci d /B as e (p H ) A tm o sp h er ic D ep . 4 a/ 2 0 0 6 O n t 1 9 - 6 0 -P 6 7 6 -2 -2 -P 6 7 8 E as t P o n d ( 0 8 0 1 -0 0 4 1 ) H er ki m er L ak e F P A ci d /B as e (p H ) A tm o sp h er ic D ep . 4 a/ 2 0 0 6 O n t 1 9 - 8 1 -1 8 -1 7 -P 7 5 2 -4 -P 7 5 6 M er ri am L ak e (0 8 0 1 -0 0 5 0 ) H er ki m er L ak e F P A ci d /B as e (p H ) A tm o sp h er ic D ep . 4 a/ 2 0 0 6 O n t 1 9 - 8 1 -1 8 -1 7 -P 7 5 2 -7 -P 7 6 9 U p p er S is te r L ak e (0 8 0 1 -0 0 0 8 ) H am il to n L ak e F P A ci d /B as e (p H ) A tm o sp h er ic D ep . 4 a/ 2 0 0 6 O n t 1 9 - 8 1 -1 8 -1 7 -P 7 5 2 -8 -P 7 7 4 R u ss ia n L ak e (0 8 0 1 -0 0 0 6 ) H am il to n L ak e F P A ci d /B as e (p H ) A tm o sp h er ic D ep . 4 a/ 2 0 0 6 O n t 1 9 - 8 1 -1 8 -1 7 -P 7 5 2 .. P 7 7 2 S o u th P o n d ( 0 8 0 1 -0 0 5 7 ) H er ki m er L ak e F P A ci d /B as e (p H ) A tm o sp h er ic D ep . 4 a/ 2 0 0 6 O n t 1 9 - 8 1 -5 8 -1 2 -P 8 5 5 M o u n ta in L ak e (0 8 0 1 -0 0 5 2 ) H er ki m er L ak e F P A ci d /B as e (p H ) A tm o sp h er ic D ep . 4 a/ 2 0 0 6 O n t 1 9 - 8 1 -5 8 -5 -P 8 5 2 In d ia n L ak e (0 8 0 1 -0 0 0 2 ) H am il to n L ak e F P A ci d /B as e (p H ) A tm o sp h er ic D ep . 4 a/ 2 0 0 6 O n t 1 9 -1 1 9 -P 1 0 0 0 U p p er T w in L ak e (0 8 0 1 -0 0 6 0 ) H er ki m er L ak e F P A ci d /B as e (p H ) A tm o sp h er ic D ep . 4 a/ 2 0 0 6 O n t 1 9 -P 1 0 0 7 -1 0 .. P 1 0 1 1 .. P 1 0 1 2 M o n u m en t L ak e (0 8 0 1 -0 0 5 1 ) H er ki m er L ak e F P A ci d /B as e (p H ) A tm o sp h er ic D ep . 4 a/ 2 0 0 6 T h es e 2 0 w at er s h av e b ee n d el is te d d u e to t h e ap p ro va l of t h e A d ir on d ac k L ak es A ci d R ai n T M D L i n 2 0 0 6 . O n t 1 9 - 4 0 -2 2 -1 -1 -P 4 8 0 C ro p se y P o n d ( 0 8 0 1 -0 0 3 9 ) H er ki m er L ak e F P A ci d /B as e (p H ) A tm o sp h er ic D ep . 4 a/ 2 0 0 6 O n t 1 9 - 6 0 - 5 -P 6 4 4 -P 6 6 4 a F lo re n ce P o n d ( 0 8 0 1 -0 0 6 7 ) L ew is L ak e F P A ci d /B as e (p H ) A tm o sp h er ic D ep . 4 a/ 2 0 0 6 O n t 1 9 -P 1 0 0 7 -1 0 -3 -P 1 0 1 0 G o o se n ec k L ak e (0 8 0 1 -0 0 4 3 ) H er ki m er L ak e F P A ci d /B as e (p H ) A tm o sp h er ic D ep . 4 a/ 2 0 0 6 O n t 1 9 - 4 0 -P 4 9 3 -3 2 -1 6 -P 5 8 3 Jo ck P o n d ( 0 8 0 1 -0 0 4 5 ) H er ki m er L ak e F P A ci d /B as e (p H ) A tm o sp h er ic D ep . 4 a/ 2 0 0 6 O n t 1 9 - 4 0 -P 4 9 3 -3 2 -P 5 8 4 .. P 5 8 5 O sw eg o P o n d ( 0 8 0 1 -0 0 5 3 ) H er ki m er L ak e F P A ci d /B as e (p H ) A tm o sp h er ic D ep . 4 a/ 2 0 0 6 O n t 1 9 - 4 0 -1 8 -2 -2 -P 4 3 9 U n n am ed P # 4 -4 3 9 ( 0 8 0 1 -0 0 8 6 ) H er ki m er L ak e F P A ci d /B as e (p H ) A tm o sp h er ic D ep . 4 a/ 2 0 0 6 O n t 1 9 - 4 0 -1 8 -2 -P 4 4 0 U n n am ed P # 4 -4 4 0 ( 0 8 0 1 -0 0 8 7 ) H er ki m er L ak e F P A ci d /B as e (p H ) A tm o sp h er ic D ep . 4 a/ 2 0 0 6 O n t 1 9 -1 1 9 -P 1 0 0 0 U p p er T w in L ak e (0 8 0 1 -0 0 6 0 ) H er ki m er L ak e F P A ci d /B as e (p H ) A tm o sp h er ic D ep . 4 a/ 2 0 0 6 T h es e 8 S m al le r L ak es w at er s h av e b ee n d el is te d d u e to t h e ap p ro va l of t h e A d ir on d ac k L ak es A ci d R ai n T M D L i n 2 0 0 6 . O nt 19 - 40 -1 3- P 43 2 U nn am ed P # 4- 4 32 ( 08 0 1- 0 10 0) L ew is L ak e C (T ) A ci d/ B as e (p H ) A tm os ph er ic D ep . re -s eg m en te d O nt 19 - 40 -1 8- 2 -1 -P 43 8 Ik ei s P on d (0 8 01 -0 1 01 ) H er ki m er L ak e D A ci d/ B as e (p H ) A tm os ph er ic D ep . re -s eg m en te d O nt 19 - 40 -1 8- 7 -P 44 4 L ow er S pr in g P o nd ( 08 0 1- 0 14 5) H am il to n L ak e C A ci d/ B as e (p H ) A tm os ph er ic D ep . re -s eg m en te d O nt 19 - 40 -1 9- P 45 6a U nn am ed P # 4- 4 56 a (0 80 1- 0 0 8 9) H er ki m er L ak e D A ci d/ B as e (p H ) A tm os ph er ic D ep . re -s eg m en te d O nt 19 - 40 -2 0 S un da y C re ek ( 08 01 -0 2 10 ) H er ki m er R iv er C (T ) A ci d/ B as e (p H ) A tm os ph er ic D ep . re -s eg m en te d O nt 19 - 40 -2 2- 3 -P 48 4a U nn am ed P # 4- 4 84 a (0 80 1- 0 0 9 1) H er ki m er L ak e C A ci d/ B as e (p H ) A tm os ph er ic D ep . re -s eg m en te d O nt 19 - 40 -2 2- 3 -P 48 5 D ee r P on d (0 8 01 -0 1 48 ) H am il to n L ak e D A ci d/ B as e (p H ) A tm os ph er ic D ep . re -s eg m en te d O nt 19 - 40 -2 2- P 49 1 U pp er M os hi er P d (0 8 01 -0 0 97 ) H er ki m er L ak e C A ci d/ B as e (p H ) A tm os ph er ic D ep . re -s eg m en te d O nt 19 - 40 -P 49 3- 2 -3 -P 49 7 U nn am ed P # 4- 4 97 ( 08 0 1- 0 10 8) H er ki m er L ak e C A ci d/ B as e (p H ) A tm os ph er ic D ep . re -s eg m en te d A D D 07 2 Im p a ir ed /D eL is te d W at er s N O T I n cl u d ed o n t h e 2 00 8 S ec ti o n 3 03 (d ) L is t W at er I n d ex N u m b er W at er b od y N am e (W I/ P W L I D ) C ou n ty T yp e C la ss C au se /P ol lu ta n t S ou rc e Ju st if ic at io n 50 2 0 0 8 W a te rb o d y /P o ll u ta n t D el is ti n g s (W at er s/ P ol lu ta n ts l is te d i n 2 00 6, b u t th at a re N O T i n cl u d ed i n t h e 20 08 S ec ti on 3 03 (d ) L is t) (c o n ’t ) B la ck R iv er D ra in ag e B as in (c o n ’t ) O nt 19 - 40 -P 49 3- 6 -2 -P 50 5 H id d en L ak e (0 80 1- 0 11 4) H er ki m er L ak e C (T ) A ci d/ B as e (p H ) A tm os ph er ic D ep . re -s eg m en te d O nt 19 - 40 -P 49 3- 6 -3 -P 51 0 U nn am ed P # 4- 5 10 ( 08 0 1- 0 11 5) H er ki m er L ak e C A ci d/ B as e (p H ) A tm os ph er ic D ep . re -s eg m en te d O nt 19 - 40 -P 49 3- 6 -3 -P 51 1 S od a P o nd ( 08 0 1- 0 11 3) H er ki m er L ak e D A ci d/ B as e (p H ) A tm os ph er ic D ep . re -s eg m en te d O nt 19 - 40 -P 49 3- 6 -5 -P 51 3 U nn am ed P # 4- 5 13 ( 08 0 1- 0 11 6) H er ki m er L ak e C A ci d/ B as e (p H ) A tm os ph er ic D ep . re -s eg m en te d O nt 19 - 40 -P 49 3- 7 -7 -P 52 2 H ig by T w in s E . P on d (0 8 01 -0 0 68 ) H er ki m er L ak e C (T ) A ci d/ B as e (p H ) A tm os ph er ic D ep . re -s eg m en te d O nt 19 - 40 -P 49 3- 7 -7 -P 52 3 H ig by T w in s W . P o nd ( 08 0 1- 0 06 9) H er ki m er L ak e C (T ) A ci d/ B as e (p H ) A tm os ph er ic D ep . re -s eg m en te d O nt 19 - 40 -P 49 3- 7 .. P 52 5. .P 52 7 S um m it P on d (0 8 01 -0 0 84 ) H er ki m er L ak e C (T ) A ci d/ B as e (p H ) A tm os ph er ic D ep . re -s eg m en te d O nt 19 - 57 - 7 -P 63 0 B il l's P o nd ( 08 0 1- 0 12 8) L ew is L ak e D A ci d/ B as e (p H ) A tm os ph er ic D ep . re -s eg m en te d O nt 19 - 57 -1 0- 5 -P 63 8 U nn am ed P # 4- 6 38 ( 08 0 1- 0 09 4) H er ki m er L ak e C (T ) A ci d/ B as e (p H ) A tm os ph er ic D ep . re -s eg m en te d O nt 19 - 57 -2 3- P 64 6 U nn am ed P # 4- 6 46 ( 08 0 1- 0 12 2) H er ki m er L ak e C (T ) A ci d/ B as e (p H ) A tm os ph er ic D ep . re -s eg m en te d O nt 19 - 60 -P 67 6- 2 -P 67 9 U nn am ed P # 4- 6 79 ( 08 0 1- 0 12 3) H er ki m er L ak e C (T ) A ci d/ B as e (p H ) A tm os ph er ic D ep . re -s eg m en te d O nt 19 - 60 -P 67 6- 4 -3 -P 68 1 B la ck F oo t P on d (0 8 01 -0 0 64 ) H er ki m er L ak e C (T ) A ci d/ B as e (p H ) A tm os ph er ic D ep . re -s eg m en te d O nt 19 - 81 -1 8- 1 7- 1 4- P 73 6. .P 73 7 U nn am ed P # 4- 7 37 ( 08 0 1- 0 15 4) H am il to n L ak e C (T ) A ci d/ B as e (p H ) A tm os ph er ic D ep . re -s eg m en te d O nt 19 - 81 -1 8- 1 7- P 73 9- 3 -P 74 3- 1 B al d M o un ta in B ro o k (0 80 1 -0 2 09 ) H er ki m er R iv er C (T ) A ci d/ B as e (p H ) A tm os ph er ic D ep . re -s eg m en te d O nt 19 - 81 -1 8- 1 7- P 75 2- 2 -P 75 4 S qu as h P on d (0 8 01 -0 1 55 ) H am il to n L ak e A A A ci d/ B as e (p H ) A tm os ph er ic D ep . re -s eg m en te d O nt 19 - 81 -1 8- 1 7- P 75 2- 6 -P 75 8 G ul l L ak e S ou th ( 08 01 -0 0 13 ) H am il to n L ak e C A ci d/ B as e (p H ) A tm os ph er ic D ep . re -s eg m en te d O nt 19 - 81 -1 8- 1 7- P 75 2- 7 ..P 75 9 U nn am ed P # 4- 7 59 ( 08 0 1- 0 02 2) H am il to n L ak e C (T ) A ci d/ B as e (p H ) A tm os ph er ic D ep . re -s eg m en te d O nt 19 - 81 -1 8- 1 7- P 75 2- 7 ..P 76 2 N or th G ul l L ak e (0 80 1- 0 00 5) H am il to n L ak e C A ci d/ B as e (p H ) A tm os ph er ic D ep . re -s eg m en te d O nt 19 - 81 -1 8- 1 7- P 75 2- 9 - C on st ab le C re ek ( 08 0 1- 0 21 3) H er ki m er R iv er C (T ) A ci d/ B as e (p H ) A tm os ph er ic D ep . re -s eg m en te d O nt 19 - 81 -1 8- 1 7- P 75 2- 9 -P 77 9 P ig eo n L ak e (0 8 01 -0 0 17 ) H am il to n L ak e C (T ) A ci d/ B as e (p H ) A tm os ph er ic D ep . re -s eg m en te d O nt 19 - 81 -1 8- 1 7- P 75 2- 9 ..P 77 5 P ug H ol e P on d (0 8 01 -0 0 33 ) H am il to n L ak e ? A ci d/ B as e (p H ) A tm os ph er ic D ep . re -s eg m en te d O nt 19 - 81 -1 8- 1 7- P 75 2. .P 77 3 U nn am ed P # 4- 7 73 ( 08 0 1- 0 03 2) H am il to n L ak e C (T ) A ci d/ B as e (p H ) A tm os ph er ic D ep . re -s eg m en te d O nt 19 - 81 -1 8- P 79 2d ..P 78 7a -2 S ev en th L ak e In le t (0 8 01 -0 2 07 ) H am il to n R iv er C (T ) A ci d/ B as e (p H ) A tm os ph er ic D ep . re -s eg m en te d O nt 19 - 81 -1 8- P 79 2d ..P 78 7a -4 B uc k C re ek ( 08 01 -0 2 15 ) H am il to n R iv er C (T ) A ci d/ B as e (p H ) A tm os ph er ic D ep . re -s eg m en te d O nt 19 - 81 -1 8- P 79 2d ..P 78 7a -6 W he el er C re ek ( 08 01 -0 2 16 ) H am il to n R iv er C (T ) A ci d/ B as e (p H ) A tm os ph er ic D ep . re -s eg m en te d O nt 19 - 81 -5 8- 1 6- P 86 3 U nn am ed P # 4- 8 63 ( 08 0 1- 0 15 8) H am il to n L ak e C (T ) A ci d/ B as e (p H ) A tm os ph er ic D ep . re -s eg m en te d O nt 19 - 81 -5 8- 2 2- 2 -3 -P 86 6 D ee p L ak e (0 80 1- 0 01 0) H am il to n L ak e C (T ) A ci d/ B as e (p H ) A tm os ph er ic D ep . re -s eg m en te d O nt 19 - 81 -5 8- 2 2- P 87 3 W ol f L ak e (0 80 1- 0 02 5) H am il to n L ak e C (T ) A ci d/ B as e (p H ) A tm os ph er ic D ep . re -s eg m en te d O nt 19 - 81 -5 8- P 86 9 T w in L ak e W es t (0 80 1- 0 02 0) H am il to n L ak e C (T ) A ci d/ B as e (p H ) A tm os ph er ic D ep . re -s eg m en te d O nt 19 - 81 -5 8- P 87 0 T w in L ak e E as t (0 8 01 -0 0 19 ) H am il to n L ak e C (T ) A ci d/ B as e (p H ) A tm os ph er ic D ep . re -s eg m en te d O nt 19 - 81 -5 8- P 87 5 N or th ru p L ak e (0 80 1- 0 16 0) H am il to n L ak e C (T ) A ci d/ B as e (p H ) A tm os ph er ic D ep . re -s eg m en te d O nt 19 - 81 - 3 - 8- P 88 0 B ea r P on d (0 8 01 -0 0 29 ) H am il to n L ak e C (T ) A ci d/ B as e (p H ) A tm os ph er ic D ep . re -s eg m en te d O nt 19 - 81 -7 1 B ra dl ey B ro ok ( 08 01 -0 2 08 ) H am il to n R iv er C (T ) A ci d/ B as e (p H ) A tm os ph er ic D ep . re -s eg m en te d O nt 19 - 81 -7 1- 2 -1 C el la r B ro ok ( 08 0 1- 0 21 7) H am il to n R iv er C (T ) A ci d/ B as e (p H ) A tm os ph er ic D ep . re -s eg m en te d O nt 19 -P 10 07 -1 0 -3 -P 10 11 S ny de r L ak e (0 80 1- 0 08 0) H er ki m er L ak e C (T ) A ci d/ B as e (p H ) A tm os ph er ic D ep . re -s eg m en te d T h es e 4 4 w at er s h av e b ee n c on so li d at ed i n to o th er s eg m en ts a n d a re n o lo n g er l is te d s ep ar at el y ; se e fo ot n ot es a cc om p an y in g t h e P ar t 2 a L is ti n g . A D D 07 3 Im p a ir ed /D eL is te d W at er s N O T I n cl u d ed o n t h e 2 00 8 S ec ti o n 3 03 (d ) L is t W at er I n d ex N u m b er W at er b od y N am e (W I/ P W L I D ) C ou n ty T yp e C la ss C au se /P ol lu ta n t S ou rc e Ju st if ic at io n 51 2 0 0 8 W a te rb o d y /P o ll u ta n t D el is ti n g s (W at er s/ P ol lu ta n ts l is te d i n 2 00 6, b u t th at a re N O T i n cl u d ed i n t h e 20 08 S ec ti on 3 03 (d ) L is t) (c o n ’t ) B la ck R iv er D ra in ag e B as in (c o n ’t ) O nt 19 - 40 -1 9- P 45 9 B ea r P on d (0 8 01 -0 1 05 ) H er ki m er L ak e D pH A ci d R ai n re -s eg m en te d O nt 19 - 57 -1 0. .. P 64 0 B lu e P on d (0 8 01 -0 1 51 ) H am il to n L ak e C pH A ci d R ai n re -s eg m en te d O nt 19 - 57 - 5 -P 60 7 C or k P on d (0 8 01 -0 1 19 ) L ew is L ak e C pH A ci d R ai n re -s eg m en te d O nt 19 -1 1 4- 1 3- P 99 4 C ot to n L ak e (0 8 01 -0 1 38 ) H er ki m er L ak e C (T ) pH A ci d R ai n re -s eg m en te d O nt 19 - 40 -1 8- 3 -P 44 1 C ro o ke d L ak e (S ad ie P on d) ( 08 01 -0 1 44 ) L ew is L ak e D pH A ci d R ai n re -s eg m en te d O nt 19 - 40 -P 49 3- 1 9- P 53 9. .P 55 8 F ly P on d W es t (0 80 1- 0 14 9) H am il to n L ak e C (T ) pH A ci d R ai n re -s eg m en te d O nt 19 - 81 -6 1- 1 4- P 88 6 Ji m m y P on d (0 8 01 -0 0 14 ) H am il to n L ak e C (T ) pH A ci d R ai n re -s eg m en te d O nt 19 - 81 -5 8- 1 6- 5 -P 86 1 L it tl e D ee r L ak e (0 80 1- 0 07 1) H er ki m er L ak e C (T ) pH A ci d R ai n re -s eg m en te d O nt 19 - 81 - 7 - 1- P 70 1- 1 -2 -P 70 2 L os t L ak e (0 80 1- 0 07 2) L ew is L ak e C (T ) pH A ci d R ai n re -s eg m en te d O n t 1 9 - 4 0 -1 8 -3 -P 4 4 2 M ac ca b e P o n d ( 0 8 0 1 -0 1 0 2 ) L ew is L ak e C p H A ci d R ai n re -s eg m en te d O nt 19 - 57 - 5 -P 61 3 M ah an P on d (0 8 01 -0 0 73 ) L ew is L ak e C pH A ci d R ai n re -s eg m en te d O nt 19 - 57 - 9 -P 63 1 M ik es P o nd ( 08 0 1- 0 12 0) L ew is L ak e C pH A ci d R ai n re -s eg m en te d O nt 19 - 40 -P 49 3- 7 -8 -P 52 4 M ud P on d (0 8 01 -0 0 74 ) H er ki m er L ak e C (T ) pH A ci d R ai n re -s eg m en te d O nt 19 - 81 -5 8- 5 -P 85 2- 3 -P 85 3 M us kr at P on d (0 8 01 -0 0 15 ) H am il to n L ak e C (T ) pH A ci d R ai n re -s eg m en te d O nt 19 - 40 -P 49 3- 3 2- 1 6- 1 -2 -P 58 1 P oc ke t P o nd ( 08 0 1- 0 07 7) H er ki m er L ak e C (T ) pH A ci d R ai n re -s eg m en te d O nt 19 - 81 -1 8- 1 7- P 75 2- 2 ..P 75 5 S il ve r D ol la r P d. ( 0 80 1- 0 07 9) H er ki m er L ak e A A pH A ci d R ai n re -s eg m en te d O nt 19 - 57 - 5 -P 61 2 S pe ct ac le P o nd , E as t (0 80 1- 0 0 8 1) L ew is L ak e C pH A ci d R ai n re -s eg m en te d O nt 19 - 57 - 5 -P 61 1 S pe ct ac le P o nd , W es t (0 80 1- 0 08 2) L ew is L ak e C pH A ci d R ai n re -s eg m en te d O nt 19 - 57 - 7 -3 -P 62 7 S te w ar t P on d (0 8 01 -0 0 83 ) L ew is L ak e C pH A ci d R ai n re -s eg m en te d O nt 19 - 57 - 7 -7 -P 62 8 T ro ut P on d (0 8 01 -0 1 27 ) L ew is L ak e C (T ) pH A ci d R ai n re -s eg m en te d O nt 19 - 81 -5 8- 1 6- 5 -5 -P 85 8 T w in L ak e L ow er ( 08 0 1- 0 13 3) H er ki m er L ak e C (T ) pH A ci d R ai n re -s eg m en te d O nt 19 - 81 -5 8- 1 6- 5 -5 -P 86 0 T w in L ak e U pp er ( 08 0 1- 0 08 5) H er ki m er L ak e C (T ) pH A ci d R ai n re -s eg m en te d O nt 19 - 81 -5 8- P 86 8 T w in L ak es W es t (0 80 1- 0 03 0) H am il to n L ak e C (T ) pH A ci d R ai n re -s eg m en te d O nt 19 -P 10 07 -1 1 -4 -P 10 16 U nn am ed P # 3- 1 01 6 (0 8 01 -0 1 29 ) H er ki m er L ak e C (T ) pH A ci d R ai n re -s eg m en te d O nt 19 - 40 -1 9- P 45 7 U nn am ed P # 4- 4 57 ( 08 0 1- 0 10 4) H er ki m er L ak e C (T ) pH A ci d R ai n re -s eg m en te d O nt 19 - 40 -2 0- P 47 3- 1 -P 47 4 U nn am ed P # 4- 4 74 b (0 8 01 -0 1 47 ) H am il to n L ak e C (T ) pH A ci d R ai n re -s eg m en te d O nt 19 - 40 -2 0- P 47 3- 1 -P 47 4. .P 47 6 U nn am ed P # 4- 4 76 ( 08 0 1- 0 09 0) H er ki m er L ak e C (T ) pH A ci d R ai n re -s eg m en te d O nt 19 - 40 -2 2- 3 -P 48 8 U nn am ed P # 4- 4 88 ( 08 0 1- 0 10 6) H er ki m er L ak e C pH A ci d R ai n re -s eg m en te d O nt 19 - 40 -2 2- P 48 9- 1 -P 49 0 U nn am ed P # 4- 4 90 ( 08 0 1- 0 09 2) H er ki m er L ak e C pH A ci d R ai n re -s eg m en te d O nt 19 - 40 -P 49 3- 4 -P 50 0- P 50 1 U nn am ed P # 4- 5 01 ( 08 0 1- 0 12 4) H er ki m er L ak e C pH A ci d R ai n re -s eg m en te d O nt 19 - 40 -P 49 3- 6 -3 -1 -P 50 6 U nn am ed P # 4- 5 06 ( 08 0 1- 0 11 2) H er ki m er L ak e C pH A ci d R ai n re -s eg m en te d O nt 19 - 40 -P 49 3- 6 -4 -P 51 2 U nn am ed P # 4- 5 12 ( 08 0 1- 0 09 3) H er ki m er L ak e C (T ) pH A ci d R ai n re -s eg m en te d O nt 19 - 40 -P 49 3- 6 -P 51 6 U nn am ed P # 4- 5 16 ( 08 0 1- 0 11 7) H er ki m er L ak e C pH A ci d R ai n re -s eg m en te d O nt 19 - 40 -P 49 3- 7 -8 -P 52 5. .P 52 6 U nn am ed P # 4- 5 26 ( 08 0 1- 0 11 8) H er ki m er L ak e C (T ) pH A ci d R ai n re -s eg m en te d O nt 19 - 40 -P 49 3- 2 1- 1 -4 -2 -P 56 9 U nn am ed P # 4- 5 69 ( 08 0 1- 0 02 1) H am il to n L ak e C (T ) pH A ci d R ai n re -s eg m en te d O nt 19 - 57 -1 0- 5 -P 63 6 U nn am ed P # 4- 6 36 ( 08 0 1- 0 12 1) H er ki m er L ak e C (T ) pH A ci d R ai n re -s eg m en te d O nt 19 - 57 -2 2- P 64 5 U nn am ed P # 4- 6 45 ( 08 0 1- 0 15 2) H am il to n L ak e C (T ) pH A ci d R ai n re -s eg m en te d A D D 07 4 Im p a ir ed /D eL is te d W at er s N O T I n cl u d ed o n t h e 2 00 8 S ec ti o n 3 03 (d ) L is t W at er I n d ex N u m b er W at er b od y N am e (W I/ P W L I D ) C ou n ty T yp e C la ss C au se /P ol lu ta n t S ou rc e Ju st if ic at io n 52 2 0 0 8 W a te rb o d y /P o ll u ta n t D el is ti n g s (W at er s/ P ol lu ta n ts l is te d i n 2 00 6, b u t th at a re N O T i n cl u d ed i n t h e 20 08 S ec ti on 3 03 (d ) L is t) (c o n ’t ) B la ck R iv er D ra in ag e B as in (c o n ’t ) O nt 19 - 81 -1 8- 1 7- P 75 2- 7 -2 -P 76 5 U nn am ed P # 4- 7 65 ( 08 0 1- 0 02 3) H am il to n L ak e C (T ) pH A ci d R ai n re -s eg m en te d O nt 19 - 81 -1 8- 1 7- P 75 2- 7 -2 -P 76 6 U nn am ed P # 4- 7 66 ( 08 0 1- 0 02 4) H am il to n L ak e C (T ) pH A ci d R ai n re -s eg m en te d O nt 19 - 81 -1 8- 1 7- P 75 2- 7 ..P 77 1 U nn am ed P # 4- 7 71 ( 08 0 1- 0 15 6) H am il to n L ak e C (T ) pH A ci d R ai n re -s eg m en te d O nt 19 - 81 -1 8- P 78 2d -1 0 ..P 79 2 U nn am ed P # 4- 7 92 ( 08 0 1- 0 03 1) H am il to n L ak e C (T ) pH A ci d R ai n re -s eg m en te d O nt 19 - 81 -5 2- P 84 0 U nn am ed P # 4- 8 40 ( 08 0 1- 0 13 0) H er ki m er L ak e C (T ) pH A ci d R ai n re -s eg m en te d O nt 19 - 81 -5 2- P 84 6 U nn am ed P # 4- 8 46 ( 08 0 1- 0 09 5) H er ki m er L ak e C (T ) pH A ci d R ai n re -s eg m en te d O nt 19 - 81 -5 8- P 86 5- 5 -2 -P 85 1 U nn am ed P # 4- 8 51 ( 08 0 1- 0 14 1) H am il to n L ak e C (T ) pH A ci d R ai n re -s eg m en te d O nt 19 - 81 -5 8- 1 4- P 85 6 U nn am ed P # 4- 8 56 ( 08 0 1- 0 02 6) H am il to n L ak e C (T ) pH A ci d R ai n re -s eg m en te d O nt 19 - 81 -5 8- 1 6- 5 -P 85 7A U nn am ed P # 4- 8 57 a (0 80 1- 0 13 2) H er ki m er L ak e C (T ) pH A ci d R ai n re -s eg m en te d O nt 19 - 81 -5 8- 1 6- 5 -P 85 8 U nn am ed P # 4- 8 58 ( 08 0 1- 0 09 6) H er ki m er L ak e C (T ) pH A ci d R ai n re -s eg m en te d O nt 19 - 81 -5 8- P 86 4A U nn am ed P # 4- 8 64 a (0 80 1- 0 0 2 7) H am il to n L ak e C (T ) pH A ci d R ai n re -s eg m en te d O nt 19 - 81 -5 8- 2 2- 3 -P 87 1 U nn am ed P # 4- 8 71 ( 08 0 1- 0 15 9) H am il to n L ak e C (T ) pH A ci d R ai n re -s eg m en te d O nt 19 - 81 -5 8- 2 2- P 87 2 U nn am ed P # 4- 8 72 ( 08 0 1- 0 02 8) H am il to n L ak e C (T ) pH A ci d R ai n re -s eg m en te d O nt 19 - 88 -P 90 6 U nn am ed P # 4- 9 06 ( 08 0 1- 0 13 7) H er ki m er L ak e C pH A ci d R ai n re -s eg m en te d O nt 19 -1 0 4- 2 -4 -P 94 6 U nn am ed P # 4- 9 46 ( 08 0 1- 0 16 2) H er ki m er L ak e C pH A ci d R ai n re -s eg m en te d O nt 19 - 40 - 7 -P 41 7 U pp er W es t P o nd ( 08 0 1- 0 16 3) L ew is L ak e C (T ) pH A ci d R ai n re -s eg m en te d O nt 19 - 60 -1 5- P 67 5 W es t P on d (0 8 01 -0 1 36 ) H er ki m er L ak e C (T ) pH A ci d R ai n re -s eg m en te d T h es e 5 5 S m al l L ak es w at er s h av e b ee n c on so li d at ed i n to o th er s eg m en ts a n d n o lo n g er a p p ea r in A p p en d ix A ; se e fo ot n ot es a cc om p an y in g P ar t 2 a L is ti n g s. S ai n t L aw re n ce R iv er D ra in ag e B as in S L (C )- 3 2 -5 2 -1 5 -P 1 7 9 a M ea ch am L ak e (0 9 0 2 -0 0 3 9 ) F ra n kl in L ak e F P M er cu ry A tm o sp h er ic D ep . 4 a/ 2 0 0 7 S L - 1 -P 0 3 5 c C ar ry F al ls R es er vo ir ( 0 9 0 3 -0 0 5 5 ) S t. L aw re n ce L ak e( R ) B M er cu ry A tm o sp h er ic D ep . 4 a/ 2 0 0 7 S L - 1 ( p o rt io n 9 )/ P 1 0 9 T u p p er L ak e (0 9 0 3 -0 0 6 2 ) F ra n kl in L ak e A M er cu ry A tm o sp h er ic D ep . 4 a/ 2 0 0 7 S L - 1 ( p o rt io n 1 3 )/ P 2 7 6 F o rk ed L ak e (0 9 0 3 -0 0 8 0 ) H am il to n L ak e B M er cu ry A tm o sp h er ic D ep . 4 a/ 2 0 0 7 S L - 1 -P 1 0 9 .. P 2 4 1 -2 2 -P 2 4 5 S o u th P o n d ( 0 9 0 3 -0 0 0 5 ) H am il to n L ak e C M er cu ry A tm o sp h er ic D ep . 4 a/ 2 0 0 7 S L - 1 -P 1 0 9 .. P 2 4 1 -2 6 -P 2 4 8 L ak e E at o n ( 0 9 0 3 -0 0 5 6 ) H am il to n L ak e A A (T ) M er cu ry A tm o sp h er ic D ep . 4 a/ 2 0 0 7 S L -2 5 - 7 /P 1 - 3 -1 9 -P 1 0 R ed L ak e (0 9 0 6 -0 0 3 9 ) Je ff er so n L ak e C M er cu ry A tm o sp h er ic D ep . 4 a/ 2 0 0 7 S L -2 5 - 7 - 3 -P 0 3 8 In d ia n L ak e (0 9 0 6 -0 0 0 3 ) L ew is L ak e C M er cu ry A tm o sp h er ic D ep . 4 a/ 2 0 0 7 S L -2 5 - 7 3 -P 2 3 7 L o n g P o n d ( 0 9 0 5 -0 0 5 8 ) L ew is L ak e C (T ) M er cu ry A tm o sp h er ic D ep . 4 a/ 2 0 0 7 S L -2 5 -P 3 0 9 C ra n b er ry L ak e (0 9 0 5 -0 0 0 7 ) S t. L aw re n ce L ak e A (T ) M er cu ry A tm o sp h er ic D ep . 4 a/ 2 0 0 7 T h es e 1 0 w at er s h av e b ee n d el is te d d u e to a p p ro va l of t h e N or th ea st R eg io n al M er cu ry T M D L i n 2 0 0 7 . S L -2 5 -5 0 -P 7 1 M o o n L ak e (0 9 0 5 -0 0 9 3 ) Je ff er so n L ak e C P h o sp h o ru s O n -s it e W T S 4 a/ 2 0 0 7 T h is w at er h as b ee n d el is te d d u e to a p p ro va l of w a te rb od y -s p ec if ic T M D L s in 2 0 0 7 . S L - 1 -1 6 2 -P 2 3 3 -0 1 -P 2 3 4 B la ck P o n d ( 0 9 0 3 -0 0 0 7 ) E ss ex L ak e F P A ci d /B as e (p H ) A tm o sp h er ic D ep . 4 a/ 2 0 0 6 S L - 1 -1 7 2 -P 2 9 3 -1 3 -4 -P 3 2 2 U p p er H ay m ar sh P o n d ( 0 9 0 3 -0 0 1 7 ) H am il to n L ak e F P A ci d /B as e (p H ) A tm o sp h er ic D ep . 4 a/ 2 0 0 6 S L - 1 -P 1 0 9 -1 1 .. .P 1 7 2 H ig h P o n d ( 0 9 0 3 -0 0 2 5 ) S t. L aw re n ce L ak e F P A ci d /B as e (p H ) A tm o sp h er ic D ep . 4 a/ 2 0 0 6 S L - 1 -P 1 0 9 -1 5 -P 1 7 8 -1 -P 1 7 9 B la ck P o n d ( 0 9 0 3 -0 0 2 7 ) S t. L aw re n ce L ak e F P A ci d /B as e (p H ) A tm o sp h er ic D ep . 4 a/ 2 0 0 6 A D D 07 5 Im p a ir ed /D eL is te d W at er s N O T I n cl u d ed o n t h e 2 00 8 S ec ti o n 3 03 (d ) L is t W at er I n d ex N u m b er W at er b od y N am e (W I/ P W L I D ) C ou n ty T yp e C la ss C au se /P ol lu ta n t S ou rc e Ju st if ic at io n T h is s eg m en t w as e rr o n eo u sl y li st ed t w ic e – a s N .B ee ch ri d ge P o n d ( 0 9 0 5 -0 0 1 9 ) an d a ls o a s U n n am ed P o n d # 4 -2 0 1 ( 0 9 0 5 -0 0 4 7 ) – i n t h e 2 0 0 6 S ec ti o n 3 0 3 (d ) L is t. 1 0 2 T h is s eg m en t w as e rr o n eo u sl y li st ed t w ic e – a s E .B ee ch ri d ge P o n d ( 0 9 0 5 -0 0 2 0 ) an d a ls o a s U n n am ed P o n d # 4 -2 0 3 ( 0 9 0 5 -0 0 4 9 ) – i n t h e 2 0 0 6 S ec ti o n 3 0 3 (d ) L is t. 1 0 3 53 2 0 0 8 W a te rb o d y /P o ll u ta n t D el is ti n g s (W at er s/ P ol lu ta n ts l is te d i n 2 00 6, b u t th at a re N O T i n cl u d ed i n t h e 20 08 S ec ti on 3 03 (d ) L is t) (c o n ’t ) S ai n t L aw re n ce R iv er D ra in ag e B as in ( co n ’t ) S L - 1 -P 2 9 3 -1 3 -4 -P 3 2 5 P el ch er P o n d ( 0 9 0 3 -0 0 0 2 ) H am il to n L ak e F P A ci d /B as e (p H ) A tm o sp h er ic D ep . 4 a/ 2 0 0 6 S L - 1 -P 2 9 3 -1 3 -8 -P 3 2 7 M id d le C h ai n P o n d ( 0 9 0 3 -0 0 1 1 ) H am il to n L ak e F P A ci d /B as e (p H ) A tm o sp h er ic D ep . 4 a/ 2 0 0 6 S L - 1 -P 2 9 3 -1 3 -8 -P 3 3 0 U n n am ed P # 6 -3 3 0 ( 0 9 0 3 -0 0 1 5 ) H am il to n L ak e F P A ci d /B as e (p H ) A tm o sp h er ic D ep . 4 a/ 2 0 0 6 S L - 1 -P 2 9 3 .. .P 3 1 5 A lu m in u m P o n d ( 0 9 0 3 -0 0 0 6 ) H am il to n L ak e F P A ci d /B as e (p H ) A tm o sp h er ic D ep . 4 a/ 2 0 0 6 S L -2 5 -7 3 -2 6 -3 8 -P 1 8 3 -P 1 8 5 T w in P o n d s (0 9 0 5 -0 0 5 9 ) H er ki m er L ak e F P A ci d /B as e (p H ) A tm o sp h er ic D ep . 4 a/ 2 0 0 6 S L -2 5 -7 3 -2 6 -4 0 -. .. P 1 8 9 R o ck L ak e (0 9 0 5 -0 0 1 5 ) H er ki m er L ak e F P A ci d /B as e (p H ) A tm o sp h er ic D ep . 4 a/ 2 0 0 6 S L -2 5 -7 3 -2 6 -4 0 -. .. P 1 9 0 E m er al d L ak e (0 9 0 5 -0 0 0 8 ) H er ki m er L ak e F P A ci d /B as e (p H ) A tm o sp h er ic D ep . 4 a/ 2 0 0 6 S L -2 5 -7 3 -2 6 -4 0 -P 1 9 1 S an d L ak e (0 9 0 5 -0 0 1 6 ) H er ki m er L ak e F P A ci d /B as e (p H ) A tm o sp h er ic D ep . 4 a/ 2 0 0 6 S L -2 5 -7 3 -2 6 -4 0 .. .P 1 9 2 S it z P o n d ( 0 9 0 5 -0 0 1 7 ) H er ki m er L ak e F P A ci d /B as e (p H ) A tm o sp h er ic D ep . 4 a/ 2 0 0 6 S L -2 5 -7 3 -2 6 -4 3 -P 1 9 8 L o w er S o u th P o n d ( 0 9 0 5 -0 0 1 2 ) H er ki m er L ak e F P A ci d /B as e (p H ) A tm o sp h er ic D ep . 4 a/ 2 0 0 6 S L -2 5 -7 3 -2 6 -4 3 -P 1 9 9 M id d le S o u th P o n d ( 0 9 0 5 -0 0 1 3 ) H er ki m er L ak e F P A ci d /B as e (p H ) A tm o sp h er ic D ep . 4 a/ 2 0 0 6 S L -2 5 -7 3 -2 6 -4 4 -P 2 0 1 N .B ee ch ri d ge P o n d ( 0 9 0 5 -0 0 1 9 ) H er ki m er L ak e F P A ci d /B as e (p H ) A tm o sp h er ic D ep . 4 a/ 2 0 0 6 1 0 2 S L -2 5 -7 3 -2 6 -4 4 -P 2 0 3 E .B ee ch ri d ge P o n d ( 0 9 0 5 -0 0 2 0 ) H er ki m er L ak e F P A ci d /B as e (p H ) A tm o sp h er ic D ep . 4 a/ 2 0 0 6 1 0 3 S L -2 5 -7 3 -2 6 -4 7 -P 2 0 5 U n n am ed P # 4 -2 0 5 ( 0 9 0 5 -0 0 2 1 ) H er ki m er L ak e F P A ci d /B as e (p H ) A tm o sp h er ic D ep . 4 a/ 2 0 0 6 S L -2 5 -7 3 -2 6 -4 8 -1 -P 2 0 8 U n n am ed P # 4 -2 0 8 ( 0 9 0 5 -0 0 2 2 ) H er ki m er L ak e F P A ci d /B as e (p H ) A tm o sp h er ic D ep . 4 a/ 2 0 0 6 S L -2 5 -7 3 -2 6 -4 9 -P 2 1 0 W il ly s L ak e (0 9 0 5 -0 0 2 6 ) H er ki m er L ak e F P A ci d /B as e (p H ) A tm o sp h er ic D ep . 4 a/ 2 0 0 6 S L -2 5 -7 3 -2 6 -P 2 0 4 U n n am ed P # 4 -2 0 4 ( 0 9 0 5 -0 0 5 0 ) H er ki m er L ak e F P A ci d /B as e (p H ) A tm o sp h er ic D ep . 4 a/ 2 0 0 6 S L -2 5 -7 3 -2 6 -P 2 1 4 W al ke r L ak e (0 9 0 5 -0 0 2 4 ) H er ki m er L ak e F P A ci d /B as e (p H ) A tm o sp h er ic D ep . 4 a/ 2 0 0 6 S L -2 5 -1 1 8 -1 -P 3 4 0 O tt er P o n d ( 0 9 0 5 -0 0 1 4 ) S t. L aw re n ce L ak e F P A ci d /B as e (p H ) A tm o sp h er ic D ep . 4 a/ 2 0 0 6 S L -2 5 -1 2 6 -4 -P 3 5 0 L o n e D u ck P o n d ( 0 9 0 5 -0 0 8 8 ) H am il to n L ak e F P A ci d /B as e (p H ) A tm o sp h er ic D ep . 4 a/ 2 0 0 6 S L -2 5 -1 2 6 -5 -P 3 5 1 M u ir P o n d ( 0 9 0 5 -0 0 4 1 ) H er ki m er L ak e F P A ci d /B as e (p H ) A tm o sp h er ic D ep . 4 a/ 2 0 0 6 S L -2 5 -1 2 6 -7 -1 -P 3 5 4 L o w er R il ey P o n d ( 0 9 0 5 -0 0 1 1 ) H er ki m er L ak e F P A ci d /B as e (p H ) A tm o sp h er ic D ep . 4 a/ 2 0 0 6 S L -2 5 -1 2 6 -7 -1 -P 3 5 5 U p p er R il ey P o n d ( 0 9 0 5 -0 0 2 3 ) H er ki m er L ak e F P A ci d /B as e (p H ) A tm o sp h er ic D ep . 4 a/ 2 0 0 6 S L -2 5 -1 2 6 -P 3 5 2 W o lf P o n d ( 0 9 0 5 -0 0 2 7 ) H er ki m er L ak e F P A ci d /B as e (p H ) A tm o sp h er ic D ep . 4 a/ 2 0 0 6 S L -2 5 -1 2 6 -P 3 5 2 -1 -P 3 5 3 S tr ee te r F is h p o n d ( 0 9 0 5 -0 0 6 7 ) H er ki m er L ak e F P A ci d /B as e (p H ) A tm o sp h er ic D ep . 4 a/ 2 0 0 6 S L -2 5 -1 3 1 -P 3 6 3 S le n d er P o n d ( 0 9 0 5 -0 0 7 4 ) S t. L aw re n ce L ak e F P A ci d /B as e (p H ) A tm o sp h er ic D ep . 4 a/ 2 0 0 6 S L -2 5 -1 3 2 -6 -P 3 7 1 U n n am ed P # 4 -3 7 1 ( 0 9 0 5 -0 0 5 6 ) S t. L aw re n ce L ak e F P A ci d /B as e (p H ) A tm o sp h er ic D ep . 4 a/ 2 0 0 6 S L -2 5 -1 3 2 -7 -P 3 7 2 L it tl e C ro o ke d L k (0 9 0 5 -0 0 1 0 ) H er ki m er L ak e F P A ci d /B as e (p H ) A tm o sp h er ic D ep . 4 a/ 2 0 0 6 S L -2 5 -1 3 2 -P 3 6 9 T o ad P o n d ( 0 9 0 5 -0 0 4 6 ) H er ki m er L ak e F P A ci d /B as e (p H ) A tm o sp h er ic D ep . 4 a/ 2 0 0 6 S L -2 5 -1 3 2 -P 3 7 3 C ro o ke d L ak e (0 9 0 5 -0 0 0 6 ) H er ki m er L ak e F P A ci d /B as e (p H ) A tm o sp h er ic D ep . 4 a/ 2 0 0 6 S L -2 5 -1 3 3 -1 -P 3 7 6 G al P o n d ( 0 9 0 5 -0 0 0 9 ) H er ki m er L ak e F P A ci d /B as e (p H ) A tm o sp h er ic D ep . 4 a/ 2 0 0 6 S L -2 5 -1 3 3 .. .P 3 7 5 C ra ck er P o n d ( 0 9 0 5 -0 0 0 5 ) H er ki m er L ak e F P A ci d /B as e (p H ) A tm o sp h er ic D ep . 4 a/ 2 0 0 6 S L -2 5 -P 3 0 9 - 9 -2 -P 3 1 3 C u rt is P o n d ( 0 9 0 5 -0 0 0 4 ) S t. L aw re n ce L ak e F P A ci d /B as e (p H ) A tm o sp h er ic D ep . 4 a/ 2 0 0 6 S L -2 5 -P 3 0 9 - 9 -5 -P 3 1 4 U n n am ed P # 4 -3 1 4 ( 0 9 0 5 -0 0 8 0 ) S t. L aw re n ce L ak e F P A ci d /B as e (p H ) A tm o sp h er ic D ep . 4 a/ 2 0 0 6 S L -2 5 -P 3 0 9 - 9 -5 -P 3 1 5 D o n u t P o n d ( 0 9 0 5 -0 0 8 1 ) S t. L aw re n ce L ak e F P A ci d /B as e (p H ) A tm o sp h er ic D ep . 4 a/ 2 0 0 6 S L -2 5 -P 3 0 9 - 9 -P 3 1 6 D o g P o n d ( 0 9 0 5 -0 0 3 1 ) S t. L aw re n ce L ak e F P A ci d /B as e (p H ) A tm o sp h er ic D ep . 4 a/ 2 0 0 6 A D D 07 6 Im p a ir ed /D eL is te d W at er s N O T I n cl u d ed o n t h e 2 00 8 S ec ti o n 3 03 (d ) L is t W at er I n d ex N u m b er W at er b od y N am e (W I/ P W L I D ) C ou n ty T yp e C la ss C au se /P ol lu ta n t S ou rc e Ju st if ic at io n 54 2 0 0 8 W a te rb o d y /P o ll u ta n t D el is ti n g s (W at er s/ P ol lu ta n ts l is te d i n 2 00 6, b u t th at a re N O T i n cl u d ed i n t h e 20 08 S ec ti on 3 03 (d ) L is t) (c o n ’t ) S ai n t L aw re n ce R iv er D ra in ag e B as in (c o n ’t ) S L -2 5 -P 3 0 9 -1 2 -1 -2 -P 3 2 5 In d ia n M o u n ta in P ( 0 9 0 5 -0 0 3 7 ) S t. L aw re n ce L ak e F P A ci d /B as e (p H ) A tm o sp h er ic D ep . 4 a/ 2 0 0 6 S L -2 5 -P 3 0 9 .. 1 2 4 -P 3 4 3 ,P 3 4 4 B u ck P o n d , C ag e L ak e (0 9 0 5 -0 0 0 1 ) S t. L aw re n ce L ak e F P A ci d /B as e (p H ) A tm o sp h er ic D ep . 4 a/ 2 0 0 6 S L C -3 2 -2 0 -9 5 -P 1 4 1 L it tl e L o n g P o n d ( 0 9 0 2 -0 0 0 4 ) F ra n kl in L ak e F P A ci d /B as e (p H ) A tm o sp h er ic D ep . 4 a/ 2 0 0 6 S L C -3 2 -2 0 -9 5 -P 1 4 2 K it fo x P o n d ( 0 9 0 2 -0 0 0 3 ) F ra n kl in L ak e F P A ci d /B as e (p H ) A tm o sp h er ic D ep . 4 a/ 2 0 0 6 S L C -3 2 -8 1 -P 2 3 8 -2 -P 2 4 4 T o ad P o n d ( 0 9 0 2 -0 0 0 8 ) F ra n kl in L ak e F P A ci d /B as e (p H ) A tm o sp h er ic D ep . 4 a/ 2 0 0 6 S L C -3 2 -P 1 7 0 L o n g P o n d , P # 4 -1 7 0 ( 0 9 0 2 -0 0 0 5 ) F ra n kl in L ak e F P A ci d /B as e (p H ) A tm o sp h er ic D ep . 4 a/ 2 0 0 6 S L C -3 2 -P 2 5 7 a- P 2 6 4 -P 2 6 5 .. P 2 7 1 B ea r P o n d ( 0 9 0 2 -0 0 0 7 ) F ra n kl in L ak e F P A ci d /B as e (p H ) A tm o sp h er ic D ep . 4 a/ 2 0 0 6 T h es e 4 7 w at er s h av e b ee n d el is te d d u e to t h e ap p ro va l of t h e A d ir on d ac k L ak es A ci d R ai n T M D L i n 2 0 0 6 . S L -2 5 -P 3 0 9 -1 2 -1 2 -P 3 2 6 A sh P o n d ( 0 9 0 5 -0 0 2 8 ) S t. L aw re n ce L ak e F P p H A ci d R ai n 4 a/ 2 0 0 6 S L -2 5 -1 3 2 -P 3 7 3 .. .P 3 7 4 C o ve y P o n d ( 0 9 0 5 -0 0 2 9 ) H er ki m er L ak e F P p H A ci d R ai n 4 a/ 2 0 0 6 S L C -3 2 -2 0 -9 6 -P 1 4 8 D o u gl as P o n d ( 0 9 0 2 -0 0 1 2 ) F ra n kl in L ak e F P p H A ci d R ai n 4 a/ 2 0 0 6 S L C -3 2 -P 1 7 1 G ra ss P o n d ( 0 9 0 2 -0 0 0 2 ) F ra n kl in L ak e F P p H A ci d R ai n 4 a/ 2 0 0 6 S L -2 5 -1 3 1 -P 3 6 2 G ra ss y P o n d ( 0 9 0 5 -0 0 3 3 ) S t. L aw re n ce L ak e F P p H A ci d R ai n 4 a/ 2 0 0 6 S L -2 5 -P 3 0 9 -1 1 -P 3 1 9 -P 3 2 0 L it tl e F is h P o n d ( 0 9 0 5 -0 0 8 2 ) S t. L aw re n ce L ak e F P p H A ci d R ai n 4 a/ 2 0 0 6 S L - 1 -1 6 2 -P 2 3 5 -0 1 -P 2 3 7 L o st P o n d ( 0 9 0 3 -0 0 0 9 ) E ss ex L ak e F P p H A ci d R ai n 4 a/ 2 0 0 6 S L - 1 -P 2 9 3 -1 3 -8 -P 3 2 6 L o w er C h ai n P o n d ( 0 9 0 3 -0 0 1 0 ) H am il to n L ak e F P p H A ci d R ai n 4 a/ 2 0 0 6 S L - 1 -P 2 9 3 .. .P 2 9 8 L o w er H el m s P o n d ( 0 9 0 3 -0 0 2 4 ) H am il to n L ak e F P p H A ci d R ai n 4 a/ 2 0 0 6 S L C -2 9 -2 2 -. .. P 0 4 5 M id d le N o tc h P o n d ( 0 9 0 2 -0 0 1 5 ) F ra n kl in L ak e F P p H A ci d R ai n 4 a/ 2 0 0 6 S L - 1 -P 2 9 3 -0 4 -P 3 0 4 -P 3 0 6 .. .P 3 0 9 P in e P o n d ( 0 9 0 3 -0 0 2 2 ) H am il to n L ak e F P p H A ci d R ai n 4 a/ 2 0 0 6 S L - 1 -P 2 9 3 -0 4 -P 3 0 4 -P 3 0 5 P o tt er P o n d ( 0 9 0 3 -0 0 1 2 ) H am il to n L ak e F P p H A ci d R ai n 4 a/ 2 0 0 6 S L C -3 2 -5 2 -1 5 -P 1 7 9 a- 5 -8 .. P 1 8 9 U n n am ed P # 3 -1 8 9 ( 0 9 0 2 -0 0 1 0 ) F ra n kl in L ak e F P p H A ci d R ai n 4 a/ 2 0 0 6 S L -2 5 -7 3 -2 6 -4 5 -P 2 0 2 U n n am ed P # 4 -2 0 2 ( 0 9 0 5 -0 0 4 8 ) H er ki m er L ak e F P p H A ci d R ai n 4 a/ 2 0 0 6 S L -2 5 -7 3 -2 6 ?. .. P 2 0 6 U n n am ed P # 4 -2 0 6 ( 0 9 0 5 -0 0 5 2 ) H er ki m er L ak e F P p H A ci d R ai n 4 a/ 2 0 0 6 S L -2 5 -7 3 -2 6 -4 7 -P 2 0 7 U n n am ed P # 4 -2 0 7 ( 0 9 0 5 -0 0 5 3 ) H er ki m er L ak e F P p H A ci d R ai n 4 a/ 2 0 0 6 S L -2 5 -7 3 -2 6 -4 8 -P 2 0 9 U n n am ed P # 4 -2 0 9 ( 0 9 0 5 -0 0 5 5 ) H er ki m er L ak e F P p H A ci d R ai n 4 a/ 2 0 0 6 S L -2 5 -7 3 -2 6 -4 9 -P 2 1 1 U n n am ed P # 4 -2 1 1 ( 0 9 0 5 -0 0 6 4 ) H er ki m er L ak e F P p H A ci d R ai n 4 a/ 2 0 0 6 S L -2 5 -7 3 -2 6 -5 1 -P 2 1 2 U n n am ed P # 4 -2 1 2 ( 0 9 0 5 -0 0 6 5 ) H er ki m er L ak e F P p H A ci d R ai n 4 a/ 2 0 0 6 S L -2 5 -7 3 -2 6 -5 1 -P 2 1 3 U n n am ed P # 4 -2 1 3 ( 0 9 0 5 -0 0 6 6 ) H er ki m er L ak e F P p H A ci d R ai n 4 a/ 2 0 0 6 S L -2 5 -P 3 0 9 -1 1 .. .P 3 2 0 a U n n am ed P # 4 -3 2 0 a (0 9 0 5 -0 0 8 3 ) S t. L aw re n ce L ak e F P p H A ci d R ai n 4 a/ 2 0 0 6 S L -2 5 -P 3 0 9 -1 1 .. .P 3 2 0 b U n n am ed P # 4 -3 2 0 b ( 0 9 0 5 -0 0 8 4 ) S t. L aw re n ce L ak e F P p H A ci d R ai n 4 a/ 2 0 0 6 S L -2 5 -P 3 0 9 -1 1 .. .P 3 2 1 a U n n am ed P # 4 -3 2 1 a (0 9 0 5 -0 0 8 5 ) S t. L aw re n ce L ak e F P p H A ci d R ai n 4 a/ 2 0 0 6 S L -2 5 -P 3 0 9 -1 1 .. .P 3 2 2 b U n n am ed P # 4 -3 2 2 b ( 0 9 0 5 -0 0 8 6 ) S t. L aw re n ce L ak e F P p H A ci d R ai n 4 a/ 2 0 0 6 S L -2 5 -1 2 8 -1 -P 3 5 6 U n n am ed P # 4 -3 5 6 ( 0 9 0 5 -0 0 6 8 ) S t. L aw re n ce L ak e F P p H A ci d R ai n 4 a/ 2 0 0 6 S L -2 5 -1 3 2 -5 -P 3 7 0 U n n am ed P # 4 -3 7 0 ( 0 9 0 5 -0 1 0 4 ) H er ki m er L ak e F P p H A ci d R ai n 4 a/ 2 0 0 6 S L - 1 -P 1 0 9 -1 1 -2 -P 1 1 8 -3 -P 1 1 9 U n n am ed P # 6 -1 1 9 ( 0 9 0 3 -0 0 2 1 ) H am il to n L ak e F P p H A ci d R ai n 4 a/ 2 0 0 6 S L - 1 -P 1 0 9 -1 1 -2 -P 1 1 8 -P 1 2 4 U n n am ed P # 6 -1 2 4 ( 0 9 0 3 -0 0 1 9 ) H am il to n L ak e F P p H A ci d R ai n 4 a/ 2 0 0 6 S L - 1 -P 2 9 3 -1 3 -8 -P 3 2 8 U p p er C h ai n P o n d ( 0 9 0 3 -0 0 1 6 ) H am il to n L ak e F P p H A ci d R ai n 4 a/ 2 0 0 6 S L C -2 9 -2 2 -. .. P 0 4 6 U p p er N o tc h P o n d ( 0 9 0 2 -0 0 1 4 ) F ra n kl in L ak e F P p H A ci d R ai n 4 a/ 2 0 0 6 S L -2 5 -1 2 6 .. .P 3 4 6 W as h b o w l P o n d ( 0 9 0 5 -0 0 8 7 ) H am il to n L ak e F P p H A ci d R ai n 4 a/ 2 0 0 6 S L -2 5 -1 3 2 -1 -P 3 6 4 W es t P o n d ( 0 9 0 5 -0 0 2 5 ) H er ki m er L ak e F P p H A ci d R ai n 4 a/ 2 0 0 6 T h es e 3 2 S m al le r L ak es w at er s h av e b ee n d el is te d d u e to t h e ap p ro va l of t h e A d ir on d ac k L ak es A ci d R ai n T M D L i n 2 0 0 6 . A D D 07 7 Im p a ir ed /D eL is te d W at er s N O T I n cl u d ed o n t h e 2 00 8 S ec ti o n 3 03 (d ) L is t W at er I n d ex N u m b er W at er b od y N am e (W I/ P W L I D ) C ou n ty T yp e C la ss C au se /P ol lu ta n t S ou rc e Ju st if ic at io n T h e cu rr en t N Y S D O H f is h c o n su m p ti o n a d vi so ry i s li st ed f o r W el le r P o n d ; h o w ev er t h er e is n o b ar ri er b et w ee n t h e la ke s an d M id d le S ar an ac L ak e m ay a ls o b e af fe ct ed . 1 0 4 V er m o n t h as i ss u ed a f is h c o n su m p ti o n a d v is o ry i n t h e P o u lt n ey R iv er b as ed o n m er cu ry c o n ta m in at io n . 1 0 5 55 2 0 0 8 W a te rb o d y /P o ll u ta n t D el is ti n g s (W at er s/ P ol lu ta n ts l is te d i n 2 00 6, b u t th at a re N O T i n cl u d ed i n t h e 20 08 S ec ti on 3 03 (d ) L is t) (c o n ’t ) L ak e C h am p la in D ra in ag e B as in C ( p o rt io n 1 ) L ak e C h am p la in , M ai n L ak e, N o rt h ( 1 0 0 0 -0 0 0 1 ) C li n to n L ak e A M er cu ry C o n ta m . S ed ., A tm . 4 a/ 2 0 0 7 C ( p o rt io n 2 ) L ak e C h am p la in , M ai n L ak e, M id d le ( 1 0 0 0 -0 0 0 2 ) C li n to n L ak e A M er cu ry C o n ta m . S ed ., A tm . 4 a/ 2 0 0 7 C ( p o rt io n 3 ) L ak e C h am p la in , M ai n L ak e, S o u th ( 1 0 0 0 -0 0 0 3 ) E ss ex L ak e A M er cu ry C o n ta m . S ed ., A tm . 4 a/ 2 0 0 7 C ( p o rt io n 4 ) L ak e C h am p la in , S o u th L ak e (1 0 0 0 -0 0 0 4 ) E ss ex L ak e B M er cu ry C o n ta m . S ed ., A tm . 4 a/ 2 0 0 7 C ( p o rt io n x ) C u m b er la n d B ay ( 1 0 0 1 -0 0 0 1 ) C li n to n B ay B M er cu ry C o n ta m . S ed ., A tm . 4 a/ 2 0 0 7 C - 1 5 ( p o rt io n 5 )- P 7 6 S ar an ac R iv er , F ra n kl in F al ls P o n d ( 1 0 0 3 -0 0 4 5 ) E ss ex L ak e( R ) C M er cu ry A tm o sp h er ic D ep . 4 a/ 2 0 0 7 C - 1 5 -P 1 1 0 , P 2 0 7 t h ru P 2 0 9 M id d le S ar an ac L ak e/ W el le r P o n d ( 1 0 0 3 -0 0 8 3 ) F ra n kl in L ak e A A M er cu ry A tm o sp h er ic D ep . 4 a/ 2 0 0 7 1 0 4 C - 1 5 -P 1 1 4 .. P 1 2 0 P o ll iw o g P o n d ( 1 0 0 3 -0 0 9 0 ) F ra n kl in L ak e A A M er cu ry A tm o sp h er ic D ep . 4 a/ 2 0 0 7 C -1 3 8 P o u lt n ey R iv er , L o w er , an d t ri b s (1 0 0 5 -0 0 5 3 ) W as h in gt o n R iv er C M er cu ry A tm o sp h er ic D ep . 4 a/ 2 0 0 7 1 0 5 T h es e 9 w at er s h av e b ee n d el is te d d u e to a p p ro va l of t h e N or th ea st R eg io n al M er cu ry T M D L i n 2 0 0 7 . A m p h it h ea tr e P o n d # 2 -1 3 1 ( 1 0 0 3 -0 0 1 8 ) F ra n kl in L ak e F P p H A ci d R ai n 4 a/ 2 0 0 6 B ar tl et t P o n d ( 1 0 0 3 -0 0 1 2 ) E ss ex L ak e F P p H A ci d R ai n 4 a/ 2 0 0 6 C o n le y L in e P o n d ( 1 0 0 3 -0 0 0 3 ) F ra n kl in L ak e F P p H A ci d R ai n 4 a/ 2 0 0 6 L it tl e E ch o P o n d ( 1 0 0 3 -0 0 0 6 ) F ra n kl in L ak e F P p H A ci d R ai n 4 a/ 2 0 0 6 L it tl e N o rt h W h ey P o n d ( 1 0 0 3 -0 0 0 7 ) F ra n kl in L ak e F P p H A ci d R ai n 4 a/ 2 0 0 6 L o w er W al lf ac e P o n d ( 1 0 0 4 -0 0 0 4 ) E ss ex L ak e F P p H A ci d R ai n 4 a/ 2 0 0 6 T w el ft h T ee P o n d ( 1 0 0 3 -0 0 1 0 ) F ra n kl in L ak e F P p H A ci d R ai n 4 a/ 2 0 0 6 U n n am ed P o n d # 2 -1 3 3 ( 1 0 0 3 -0 0 1 9 ) F ra n kl in L ak e F P p H A ci d R ai n 4 a/ 2 0 0 6 T h es e 8 S m al le r L ak es w at er s h av e b ee n d el is te d d u e to t h e ap p ro va l of t h e A d ir on d ac k L ak es A ci d R ai n T M D L i n 2 0 0 6 . U p p er H u d so n R iv er D ra in ag e B as in H -3 6 9 -P 1 2 7 -4 6 - 9 -P 1 6 4 ,P 1 6 5 C h as e L ak e, M u d L ak e (1 1 0 4 -0 1 3 5 ) F u lt o n L ak e C M er cu ry A tm o sp h er ic D ep . 4 a/ 2 0 0 7 H -3 6 9 .. 2 0 -2 3 -4 -P 2 2 5 S an d L ak e (1 1 0 4 -0 0 1 5 ) H am il to n L ak e N M er cu ry A tm o sp h er ic D ep . 4 a/ 2 0 0 7 H -3 6 9 .. 2 0 -2 3 -6 -P 2 3 2 S p y L ak e (1 1 0 4 -0 1 6 0 ) H am il to n L ak e C M er cu ry A tm o sp h er ic D ep . 4 a/ 2 0 0 7 H -3 9 1 ( p o rt io n 3 )/ P 3 7 4 S ch ro o n L ak e (1 1 0 4 -0 0 0 2 ) E ss ex L ak e A A M er cu ry A tm o sp h , U n kn o w n 4 a/ 2 0 0 7 H -3 9 1 .. 3 7 -P 4 2 0 ,P 4 2 1 A ld er , C ra n e P o n d s (1 1 0 4 -0 2 2 9 ) E ss ex L ak e N M er cu ry A tm o sp h er ic D ep . 4 a/ 2 0 0 7 H -4 6 1 -1 7 - 1 -P 5 8 8 a K in gs F lo w ( 1 1 0 4 -0 2 7 1 ) H am il to n L ak e C (T ) M er cu ry A tm o sp h er ic D ep . 4 a/ 2 0 0 7 H -4 6 1 -1 7 - 1 -P 5 8 8 a- 5 -P 5 9 0 R o u n d P o n d ( 1 1 0 4 -0 0 7 3 ) H am il to n L ak e F P M er cu ry A tm o sp h er ic D ep . 4 a/ 2 0 0 7 H -4 6 9 - 9 -P 6 4 5 R o ck P o n d ( 1 1 0 4 -0 2 8 5 ) H am il to n L ak e C M er cu ry A tm o sp h er ic D ep . 4 a/ 2 0 0 7 H -4 6 9 - 9 -P 6 4 5 a L ak e D u ra n t (1 1 0 4 -0 0 5 9 ) H am il to n L ak e C M er cu ry A tm o sp h er ic D ep . 4 a/ 2 0 0 7 T h es e 9 w at er s h av e b ee n d el is te d d u e to a p p ro va l of t h e N or th ea st R eg io n al M er cu ry T M D L i n 2 0 0 7 . A D D 07 8 Im p a ir ed /D eL is te d W at er s N O T I n cl u d ed o n t h e 2 00 8 S ec ti o n 3 03 (d ) L is t W at er I n d ex N u m b er W at er b od y N am e (W I/ P W L I D ) C ou n ty T yp e C la ss C au se /P ol lu ta n t S ou rc e Ju st if ic at io n T h e sp ec if ic al ly i d en ti fi ed w at er (s ) in t h is s eg m en t in cl u d e C lo ck m il l P o n d ( P 2 2 8 ), R o ck L ak e (P 2 2 9 ), L o w er L o o m is P o n d ( P 2 5 6 ), M id d le L o o m is P o n d ( P 2 5 7 ), T ro u t L ak e (P 2 6 0 ), C h u b 1 0 6 L ak e (P 2 6 4 ), R o ck L ak e (P 2 7 5 ) an d M ec o L ak e (P 2 7 6 ). T h e sp ec if ic al ly i d en ti fi ed w at er (s ) in t h is s eg m en t in cl u d e L ak e C o ld en ( P 7 0 6 ), U p p er W al lf ac e P o n d ( P 7 1 9 ). 1 0 7 56 2 0 0 8 W a te rb o d y /P o ll u ta n t D el is ti n g s (W at er s/ P ol lu ta n ts l is te d i n 2 00 6, b u t th at a re N O T i n cl u d ed i n t h e 20 08 S ec ti on 3 03 (d ) L is t) (c o n ’t ) U p p er H u d so n R iv er D ra in ag e B as in ( co n ’t ) H -3 6 9 -P 1 2 7 -4 6 -1 2 -P 1 6 8 H o lm es L ak e (1 1 0 4 -0 0 0 6 ) F u lt o n L ak e F P A ci d /B as e (p H ) A tm o sp h er ic D ep . 4 a/ 2 0 0 6 H -3 6 9 .. 2 0 -2 3 -4 -P 2 2 5 S an d L ak e (1 1 0 4 -0 0 1 5 ) H am il to n L ak e F P A ci d /B as e (p H ) A tm o sp h er ic D ep . 4 a/ 2 0 0 6 H -3 6 9 .. 2 0 -P 2 2 2 t h ru P 2 7 6 M in o r L ak es T ri b t o U p p .W .B r S ac an d ag a (1 1 0 4 -0 0 1 3 ) H am il to n L ak e F P A ci d /B as e (p H ) A tm o sp h er ic D ep . 4 a/ 2 0 0 6 1 0 6 H -3 6 9 .. 2 0 -4 3 -P 2 7 0 S il ve r L ak e (1 1 0 4 -0 0 1 6 ) H am il to n L ak e F P A ci d /B as e (p H ) A tm o sp h er ic D ep . 4 a/ 2 0 0 6 H -4 3 8 -2 0 -2 a- P 5 5 7 S to n ey P o n d ( 1 1 0 4 -0 0 1 8 ) E ss ex L ak e F P A ci d /B as e (p H ) A tm o sp h er ic D ep . 4 a/ 2 0 0 6 H -5 0 8 t h ru 5 4 6 .. P 6 9 5 t h ru P 7 1 9 M in o r L ak es T ri b t o U p p er H u d so n ( 1 1 0 4 -0 0 0 7 ) E ss ex L ak e F P A ci d /B as e (p H ) A tm o sp h er ic D ep . 4 a/ 2 0 0 6 1 0 7 T h es e 6 w at er s h av e b ee n d el is te d d u e to t h e ap p ro va l of t h e A d ir on d ac k L ak es A ci d R ai n T M D L i n 2 0 0 6 . H -3 9 1 -P 3 7 4 .. P 3 9 8 M ar io n P o n d ( 1 1 0 4 -0 0 2 0 ) E ss ex L ak e F P p H A ci d R ai n 4 a/ 2 0 0 6 T h is S m al le r L ak es w at er h as b ee n d el is te d d u e to t h e ap p ro va l of t h e A d ir on d ac k L ak es A ci d R ai n T M D L i n 2 0 0 6 . M o h aw k R iv er D ra in ag e B as in H -2 4 0 - 8 2 -P 6 3 8 a S ch o h ar ie R es er vo ir ( 1 2 0 2 -0 0 1 2 ) S ch o h ar ie L ak e( R ) A A (T S ) M er cu ry A tm o sp h er ic D ep . 4 a/ 2 0 0 7 H -2 4 0 -1 4 4 -1 3 -P 7 1 6 ,P 7 1 7 ,P 7 1 8 L il y, C an ad a, S te w ar ts L an d , W es t L ak es ( 1 2 0 1 -0 0 5 0 ) F u lt o n L ak e B (T ) M er cu ry A tm o sp h er ic D ep . 4 a/ 2 0 0 7 H -2 4 0 -1 4 4 -1 3 .. P 7 2 1 ,P 7 2 2 ,P 7 2 3 S to n er L ak es ( 1 2 0 1 -0 1 6 9 ) F u lt o n L ak e N M er cu ry A tm o sp h er ic D ep . 4 a/ 2 0 0 7 H -2 4 0 -1 4 4 -3 8 -P 7 7 7 F er ri s L ak e (1 2 0 1 -0 0 0 3 ) H am il to n L ak e F P M er cu ry A tm o sp h er ic D ep . 4 a/ 2 0 0 7 T h es e 4 w at er s h av e b ee n d el is te d d u e to a p p ro va l of t h e N or th ea st R eg io n al M er cu ry T M D L i n 2 0 0 7 . H -2 4 0 -1 4 4 -2 8 -P 7 5 0 .. P 7 5 3 .P 7 5 5 K n ap p s L o n g L k, L o n g P d ( 1 2 0 1 -0 0 0 7 ) F u lt o n L ak e F P A ci d /B as e (p H ) A tm o sp h er ic D ep . 4 a/ 2 0 0 6 H -2 4 0 -1 4 4 -2 9 -P 7 6 8 L it tl e M et ca lf L ak e (1 2 0 1 -0 2 2 7 ) H er ki m er L ak e F P A ci d /B as e (p H ) A tm o sp h er ic D ep . 4 a/ 2 0 0 6 H -2 4 0 -1 4 4 -3 4 -P 7 7 1 R ed lo u se L ak e (1 2 0 1 -0 0 0 8 ) H am il to n L ak e F P A ci d /B as e (p H ) A tm o sp h er ic D ep . 4 a/ 2 0 0 6 H -2 4 0 -1 4 4 -3 8 -P 7 7 7 F er ri s L ak e (1 2 0 1 -0 0 0 3 ) H am il to n L ak e F P A ci d /B as e (p H ) A tm o sp h er ic D ep . 4 a/ 2 0 0 6 H -2 4 0 -1 8 0 -7 4 -1 6 -1 -P 8 5 6 T w in L ak e, S o u th ( 1 2 0 3 -0 0 0 5 ) H am il to n L ak e F P A ci d /B as e (p H ) A tm o sp h er ic D ep . 4 a/ 2 0 0 6 H -2 4 0 -1 8 0 -7 4 -2 1 -P 8 6 2 T L ak e (1 2 0 3 -0 0 0 4 ) H am il to n L ak e F P A ci d /B as e (p H ) A tm o sp h er ic D ep . 4 a/ 2 0 0 6 H -2 4 0 -1 8 0 -7 4 .. P 8 6 4 t h ru P 8 6 7 B u ck P o n d s, W h it e B ir ch L ak e (1 2 0 3 -0 0 0 1 ) H am il to n L ak e F P A ci d /B as e (p H ) A tm o sp h er ic D ep . 4 a/ 2 0 0 6 H -2 4 0 -1 8 0 -8 7 -P 9 0 8 ,P 9 0 9 S p ru ce , B al sa m L ak es ( 1 2 0 3 -0 0 0 7 ) H am il to n L ak e F P A ci d /B as e (p H ) A tm o sp h er ic D ep . 4 a/ 2 0 0 6 H -2 4 0 -1 8 0 -9 1 -P 9 1 5 ,P 9 1 9 B ea ve r P d , P o o r L ak e (1 2 0 3 -0 0 0 3 ) H am il to n L ak e F P A ci d /B as e (p H ) A tm o sp h er ic D ep . 4 a/ 2 0 0 6 T h es e 9 w at er s h av e b ee n d el is te d d u e to t h e ap p ro va l of t h e A d ir on d ac k L ak es A ci d R ai n T M D L i n 2 0 0 6 . A D D 07 9 Im p a ir ed /D eL is te d W at er s N O T I n cl u d ed o n t h e 2 00 8 S ec ti o n 3 03 (d ) L is t W at er I n d ex N u m b er W at er b od y N am e (W I/ P W L I D ) C ou n ty T yp e C la ss C au se /P ol lu ta n t S ou rc e Ju st if ic at io n 57 2 0 0 8 W a te rb o d y /P o ll u ta n t D el is ti n g s (W at er s/ P ol lu ta n ts l is te d i n 2 00 6, b u t th at a re N O T i n cl u d ed i n t h e 20 08 S ec ti on 3 03 (d ) L is t) (c o n ’t ) L o w er H u d so n R iv er D ra in ag e B as in H - 3 1 -P 4 4 -1 4 -P 5 0 A m aw al k R es er vo ir ( 1 3 0 2 -0 0 4 4 ) W es tc h es te r L ak e( R ) A M er cu ry A tm o sp h er ic D ep . 4 a/ 2 0 0 7 H - 3 1 -P 4 4 -2 3 -P 6 7 W es t B ra n ch R es er vo ir ( 1 3 0 2 -0 0 2 2 ) P u tn am L ak e( R ) A A M er cu ry A tm o sp h er ic D ep . 4 a/ 2 0 0 7 H - 3 1 -P 4 4 -2 3 -P 7 6 B o yd C o rn er s R es er vo ir ( 1 3 0 2 -0 0 4 5 ) P u tn am L ak e( R ) A A M er cu ry A tm o sp h er ic D ep . 4 a/ 2 0 0 7 H - 3 1 -P 4 4 -2 4 -P 8 3 D iv er ti n g R es er vo ir ( 1 3 0 2 -0 0 4 6 ) P u tn am L ak e( R ) A A M er cu ry A tm o sp h er ic D ep . 4 a/ 2 0 0 7 H - 3 1 -P 4 4 -2 4 -P 8 6 B o g B ro o k R es er vo ir ( 1 3 0 2 -0 0 4 1 ) P u tn am L ak e( R ) A A M er cu ry A tm o sp h er ic D ep . 4 a/ 2 0 0 7 H - 3 1 -P 4 4 -2 4 -P 8 9 E as t B ra n ch R es er vo ir ( 1 3 0 2 -0 0 4 0 ) P u tn am L ak e( R ) A A M er cu ry A tm o sp h er ic D ep . 4 a/ 2 0 0 7 H - 3 1 -P 4 4 -2 6 -P 1 0 3 T it ic u s R es er vo ir ( 1 3 0 2 -0 0 3 5 ) W es tc h es te r L ak e( R ) A A M er cu ry A tm o sp h er ic D ep . 4 a/ 2 0 0 7 H - 3 1 -P 4 4 -3 5 -P 1 0 9 C ro ss R iv er R es er vo ir ( 1 3 0 2 -0 0 0 5 ) W es tc h es te r L ak e( R ) A A (T ) M er cu ry A tm o sp h er ic D ep . 4 a/ 2 0 0 7 H - 4 3 - 1 -1 1 - 9 -P 1 5 0 d B re ak n ec k P o n d ( 1 3 0 1 -0 1 2 3 ) R o ck la n d L ak e A A M er cu ry A tm o sp h er ic D ep . 4 a/ 2 0 0 7 H -1 2 8 -P 4 3 7 C h o d ik es P o n d ( 1 3 0 1 -0 2 0 8 ) U ls te r L ak e A M er cu ry A tm o sp h er ic D ep . 4 a/ 2 0 0 7 H -1 3 9 -1 4 -P 8 1 5 a R o n d o u t R es er vo ir ( 1 3 0 6 -0 0 0 3 ) U ls te r L ak e( R ) A A M er cu ry A tm o sp h er ic D ep . 4 a/ 2 0 0 7 H -1 7 1 -P 8 4 8 A sh o ka n R es er vo ir ( 1 3 0 7 -0 0 0 4 ) U ls te r L ak e( R ) A A (T ) M er cu ry A tm o sp h er ic D ep . 4 a/ 2 0 0 7 H -1 9 3 - 2 -P 9 2 1 S o u th L ak e, N o rt h L ak e (1 3 0 9 -0 0 1 7 ) G re en e L ak e B M er cu ry A tm o sp h er ic D ep . 4 a/ 2 0 0 7 H -2 3 6 -1 3 -P 4 2 5 D u n h am R es er vo ir ( 1 3 0 1 -0 2 6 2 ) R en ss el ae r L ak e( R ) A M er cu ry A tm o sp h er ic D ep . 4 a/ 2 0 0 7 T h es e 1 4 w at er s h av e b ee n d el is te d d u e to a p p ro va l of t h e N or th ea st R eg io n al M er cu ry T M D L i n 2 0 0 7 . D el aw ar e R iv er D ra in ag e B as in D -1 -P 5 8 b N ev er si n k R es er vo ir ( 1 4 0 2 -0 0 0 9 ) S u ll iv an L ak e( R ) A A (T ) M er cu ry A tm o sp h er ic D ep . 4 a/ 2 0 0 7 D - 1 -3 8 -P 5 1 L o ch S h el d ra ke /S h el d ra ke P o n d ( 1 4 0 2 -0 0 5 7 ) S u ll iv an L ak e B M er cu ry A tm o sp h er ic D ep . 4 a/ 2 0 0 7 D -1 0 ( p o rt io n 2 )/ P 7 9 a R io R es er vo ir ( 1 4 0 1 -0 0 7 4 ) S u ll iv an L ak e( R ) B (T ) M er cu ry A tm o sp h er ic D ep . 4 a/ 2 0 0 7 D -1 0 ( p o rt io n 5 )/ P 1 0 8 a S w in gi n g B ri d ge R es er vo ir ( 1 4 0 1 -0 0 0 2 ) S u ll iv an L ak e( R ) B M er cu ry A tm o sp h er ic D ep . 4 a/ 2 0 0 7 D -7 0 -P 3 5 8 a P ep ac to n R es er vo ir ( 1 4 0 3 -0 0 0 2 ) D el aw ar e L ak e (R A A (T ) M er cu ry A tm o sp h er ic D ep . 4 a/ 2 0 0 7 D -7 1 - P 4 0 2 a C an n o n sv il le R es er vo ir ( 1 4 0 4 -0 0 0 1 ) D el aw ar e L ak e( R ) A A (T ) M er cu ry A tm o sp h er ic D ep . 4 a/ 2 0 0 7 T h es e 6 w at er s h av e b ee n d el is te d d u e to a p p ro va l of t h e N or th ea st R eg io n al M er cu ry T M D L i n 2 0 0 7 . A tl an ti c O ce an /L o n g Is la n d S o u n d D ra in ag e B as in (M W 6 .1 e) G B ..F B ,F B -1 1 1 F la n d er s B ay , W es t/ L o w er S aw m il l C r (1 7 0 1 -0 2 5 4 ) S u ff o lk E st u ar y S C D .O ./ O xy ge n D em an d U rb /S to rm R u n o ff 4 a/ 2 0 0 7 (M W 6 .1 e) G B ..F B -1 1 0 M ee ti n gh o u se /T er ry s C re ek s an d t ri b s (1 7 0 1 -0 2 5 6 ) S u ff o lk E st u ar y S C D .O ./ O xy ge n D em an d A gr ic ( se d im n t b ed s) 4 a/ 2 0 0 7 (M W 6 .2 ) G B ..F B -1 1 2 ( p o rt io n 1 ) P ec o n ic R iv er , L o w er , an d t id al t ri b s (1 7 0 1 -0 2 5 9 ) S u ff o lk E st u ar y S C D .O ./ O xy ge n D em an d U rb /S to rm R u n o ff 4 a/ 2 0 0 7 T h es e 3 w at er s h av e b ee n d el is te d d u e to t h e ap p ro va l of t h e P ec on ic E st u ar y N it ro g en T M D L i n 2 0 0 7 . (M W 6 .1 b ) G B -S IS (- D H ) D er in g H ar b o r (1 7 0 1 -0 0 5 0 ) S u ff o lk E st u ar y S A P at h o ge n s U rb an /S to rm R u n o ff 4 a/ 2 0 0 6 (M W 6 .1 b ) G B -S IS - 7 8 S ti rl in g C re ek a n d B as in ( 1 7 0 1 -0 0 4 9 ) S u ff o lk E st u ar y S A P at h o ge n s U rb an /S to rm R u n o ff 4 a/ 2 0 0 6 (M W 6 .1 b ) G B -S IS - 8 0 c- P 4 1 8 a B u d d s P o n d ( 1 7 0 1 -0 2 3 4 ) S u ff o lk E st u ar y S A P at h o ge n s U rb an /S to rm R u n o ff 4 a/ 2 0 0 6 (M W 6 .1 b ) G B -S IS - 8 3 a, 8 3 b T o w n /J o ck ey C re ek s an d t id al t ri b s (1 7 0 1 -0 2 3 5 ) S u ff o lk E st u ar y S A P at h o ge n s U rb an /S to rm R u n o ff 4 a/ 2 0 0 6 (M W 6 .1 b ) G B -S IS - 8 4 -P 4 2 3 G o o se C re ek ( 1 7 0 1 -0 2 3 6 ) S u ff o lk E st u ar y S A P at h o ge n s U rb an /S to rm R u n o ff 4 a/ 2 0 0 6 (M W 6 .1 b ) G B -S IS -P 4 2 0 H as h am o m u ck P o n d ( 1 7 0 1 -0 1 6 2 ) S u ff o lk E st u ar y S A P at h o ge n s U rb an /S to rm R u n o ff 4 a/ 2 0 0 6 (M W 6 .1 c) G B ..L P B - 9 0 R ic h m o n d C re ek a n d t id al t ri b s (1 7 0 1 -0 2 4 5 ) S u ff o lk E st u ar y S A P at h o ge n s U rb an /S to rm R u n o ff 4 a/ 2 0 0 6 (M W 6 .1 d ) G B ..G P B - 9 7 t h ru 1 0 4 T id al T ri b s, G r P ec o n ic B ay , N o rt h sh r (1 7 0 1 -0 2 4 7 ) S u ff o lk E st u ar y S A P at h o ge n s U rb an /S to rm R u n o ff 4 a/ 2 0 0 6 (M W 6 .1 e) F B F la n d er s B ay , ea st /c en te r, a n d t ri b s (1 7 0 1 -0 0 3 0 ) S u ff o lk E st u ar y S A P at h o ge n s U rb /S to rm , M u n ic ip l 4 a/ 2 0 0 6 A D D 08 0 Im p a ir ed /D eL is te d W at er s N O T I n cl u d ed o n t h e 2 00 8 S ec ti o n 3 03 (d ) L is t W at er I n d ex N u m b er W at er b od y N am e (W I/ P W L I D ) C ou n ty T yp e C la ss C au se /P ol lu ta n t S ou rc e Ju st if ic at io n 58 2 0 0 8 W a te rb o d y /P o ll u ta n t D el is ti n g s (W at er s/ P ol lu ta n ts l is te d i n 2 00 6, b u t th at a re N O T i n cl u d ed i n t h e 20 08 S ec ti on 3 03 (d ) L is t) (c o n ’t ) A tl an ti c O ce an /L o n g Is la n d S o u n d D ra in ag e B as in ( co n ’t ) (M W 6 .3 a) G B ..F B -R B R ee ve s B ay a n d t id al t ri b s (1 7 0 1 -0 2 7 2 ) S u ff o lk E st u ar y S A P at h o ge n s U rb /S to rm , M u n ic ip l 4 a/ 2 0 0 6 (M W 6 .3 b ) G B ..G P B -1 2 2 -P 6 4 8 S eb o n ac C r/ B u ll h ea d B ay a n d t id al t ri b s (1 7 0 1 -0 0 5 1 ) S u ff o lk E st u ar y S A P at h o ge n s U rb an /S to rm R u n o ff 4 a/ 2 0 0 6 (M W 6 .3 b ) G B ..G P B -1 2 2 a- P 6 5 1 L it tl e S eb o n ac C re ek ( 1 7 0 1 -0 2 5 3 ) S u ff o lk E st u ar y S A P at h o ge n s U rb an /S to rm R u n o ff 4 a/ 2 0 0 6 (M W 6 .3 c) G B ..L P B -1 2 3 -P 6 5 9 N o rt h S ea H ar b o r an d t ri b s (1 7 0 1 -0 0 3 7 ) S u ff o lk E st u ar y S A P at h o ge n s U rb an /S to rm R u n o ff 4 a/ 2 0 0 6 (M W 6 .3 c) G B ..L P B -1 2 4 -P 6 6 5 W o o le y P o n d ( 1 7 0 1 -0 0 4 8 ) S u ff o lk E st u ar y S A P at h o ge n s U rb an /S to rm R u n o ff 4 a/ 2 0 0 6 (M W 6 .3 d ) G B -S IS -1 2 6 N o ya ck C re ek a n d t id al t ri b s (1 7 0 1 -0 2 3 7 ) S u ff o lk E st u ar y S A P at h o ge n s U rb an /S to rm R u n o ff 4 a/ 2 0 0 6 (M W 6 .3 d ) G B -S IS -S H B ,S H C S ag H ar b o r an d S ag H ar b o r C o ve ( 1 7 0 1 -0 0 3 5 ) S u ff o lk E st u ar y S A P at h o ge n s U rb an /S to rm R u n o ff 4 a/ 2 0 0 6 (M W 6 .3 e) G B -S IS -N H -1 3 6 N o rt h w es t C re ek a n d t id al t ri b s (1 7 0 1 -0 0 4 6 ) S u ff o lk E st u ar y S A P at h o ge n s U rb an /S to rm R u n o ff 4 a/ 2 0 0 6 (M W 6 .3 f) G B -A H A ca b o n ac k H ar b o r (1 7 0 1 -0 0 4 7 ) S u ff o lk E st u ar y S A P at h o ge n s U rb an /S to rm R u n o ff 4 a/ 2 0 0 6 (M W 6 .3 g) B IS .. P 7 6 1 L ak e M o n ta u k (1 7 0 1 -0 0 3 1 ) S u ff o lk E st u ar y S A P at h o ge n s U rb an /S to rm R u n o ff 4 a/ 2 0 0 6 T h es e 1 9 w at er s h av e b ee n d el is te d d u e to t h e ap p ro va l of t h e P ec on ic B a y P at h og en s T M D L i n 2 0 0 6 . (M W 4 .3 a) L IS -H H H em p st ea d H ar b o r, n o rt h , a n d t id al t ri b s (1 7 0 2 -0 0 2 2 ) N as sa u E st u ar y S A P at h o ge n s U rb an /S to rm R u n o ff 4 a/ 2 0 0 7 (M W 4 .4 b ) L IS -C S H C o ld S p ri n g H ar b o r, a n d t id al t ri b s (1 7 0 2 -0 0 1 8 ) N as sa u E st u ar y S A P at h o ge n s U rb an /S to rm R u n o ff 4 a/ 2 0 0 7 (M W 5 .2 a) L IS -H B -H H H u n ti n gt o n H ar b o r (1 7 0 2 -0 2 2 8 ) S u ff o lk E st u ar y S A P at h o ge n s U rb /S to rm , M u n ic ip l 4 a/ 2 0 0 7 (M W 5 .2 a) L IS -H B -N B -C H C en te rp o rt H ar b o r (1 7 0 2 -0 2 2 9 ) S u ff o lk E st u ar y S A P at h o ge n s U rb /S to rm , M u n ic ip l 4 a/ 2 0 0 7 (M W 5 .2 a) L IS -H B -N B -N H N o rt h p o rt H ar b o r (1 7 0 2 -0 2 3 0 ) S u ff o lk E st u ar y S A P at h o ge n s U rb /S to rm , M u n ic ip l 4 a/ 2 0 0 7 (M W 5 .4 a) L IS -S B -S B H S to n y B ro o k H ar b o r an d W es t M ea d o w C r (1 7 0 2 -0 0 4 7 ) S u ff o lk E st u ar y S A P at h o ge n s U rb an /S to rm R u n o ff 4 a/ 2 0 0 7 (M W 5 .4 c) L IS -P JH ( p o rt io n 1 ) P o rt J ef fe rs o n H ar b o r, N o rt h , a n d t ri b s (1 7 0 2 -0 0 1 5 ) S u ff o lk E st u ar y S A P at h o ge n s U rb /S to rm , M u n ic ip l 4 a/ 2 0 0 7 (M W 5 .4 c) L IS -P JH -C B C o n sc ie n ce B ay a n d t id al t ri b s (1 7 0 2 -0 0 9 1 ) S u ff o lk E st u ar y S A P at h o ge n s U rb /S to rm , M u n ic ip l 4 a/ 2 0 0 7 (M W 5 .4 c) L IS -P JH -S H S et au ke t H ar b o r (1 7 0 2 -0 2 4 2 ) S u ff o lk E st u ar y S A P at h o ge n s U rb /S to rm , M u n ic ip l 4 a/ 2 0 0 7 (M W 5 .4 d ) L IB -M S H M t S in ai H ar b o r an d t id al t ri b s (1 7 0 2 -0 0 1 9 ) S u ff o lk E st u ar y S A P at h o ge n s U rb an /S to rm R u n o ff 4 a/ 2 0 0 7 (M W 5 .4 e) L IS - 7 1 M at ti tu ck I n le t/ C r, L o w , an d t id al t ri b s (1 7 0 2 -0 0 2 0 ) S u ff o lk E st u ar y S A P at h o ge n s U rb an /S to rm R u n o ff 4 a/ 2 0 0 7 (M W 5 .4 e) L IS - 7 2 G o ld sm it h I n le t (1 7 0 2 -0 0 2 6 ) S u ff o lk E st u ar y S A P at h o ge n s U rb an /S to rm R u n o ff 4 a/ 2 0 0 7 (M W 5 .4 g) L IS -F I- W H W es t H ar b o r, F is h er s Is la n d ( 1 7 0 2 -0 0 4 6 ) S u ff o lk E st u ar y S A P at h o ge n s U rb an /S to rm R u n o ff 4 a/ 2 0 0 7 M W 6 .3 h ) A O -P 7 8 0 G eo rg ic a P o n d ( 1 7 0 1 -0 1 4 5 ) S u ff o lk E st u ar y S A P at h o ge n s A gr ic u lt u ra l 4 a/ 2 0 0 7 (M W 6 .3 h ) A O -P 7 8 6 S ag ap o n ac k P o n d ( 1 7 0 1 -0 1 4 6 ) S u ff o lk E st u ar y S A P at h o ge n s A gr ic u lt u ra l 4 a/ 2 0 0 7 (M W 6 .3 i) A O -P 7 9 0 M ec o x B ay a n d t ri b s (1 7 0 1 -0 0 3 4 ) S u ff o lk E st u ar y S A P at h o ge n s A gr ic u lt u ra l 4 a/ 2 0 0 7 (M W 6 .3 i) A O -S B -1 4 3 ,1 4 4 H ea d y an d T ay lo r C re ek s an d t ri b s (1 7 0 1 -0 2 9 4 ) S u ff o lk E st u ar y S A P at h o ge n s U rb an /S to rm R u n o ff 4 a/ 2 0 0 7 (M W 6 .3 i) A O -S B -1 4 8 ,1 5 0 P en n y P o n d a n d S m it h C re ek ( 1 7 0 1 -0 2 9 8 ) S u ff o lk E st u ar y S A P at h o ge n s U rb an /S to rm R u n o ff 4 a/ 2 0 0 7 (M W 6 .3 i) A O -S B -1 5 3 W ee su ck C re ek a n d t id al t ri b s (1 7 0 1 -0 1 1 1 ) S u ff o lk E st u ar y S A P at h o ge n s U rb an /S to rm R u n o ff 4 a/ 2 0 0 7 (M W 6 .3 i) A O -S B -1 5 6 P en n im an C re ek a n d t id al t ri b s (1 7 0 1 -0 3 0 0 ) S u ff o lk E st u ar y S A P at h o ge n s U rb an /S to rm R u n o ff 4 a/ 2 0 0 7 (M W 6 .3 i) A O -S B -Q gC -P 8 3 4 O gd en P o n d ( 1 7 0 1 -0 3 0 2 ) S u ff o lk E st u ar y S A P at h o ge n s U rb an /S to rm R u n o ff 4 a/ 2 0 0 7 (M W 6 .3 j) A O -Q B Q u an tu ck B ay ( 1 7 0 1 -0 0 4 2 ) S u ff o lk E st u ar y S A P at h o ge n s U rb an /S to rm R u n o ff 4 a/ 2 0 0 7 (M W 6 .3 j) A O -S B -Q B -Q tC Q u an tu ck C an al /M o n ey b o gu e B ay ( 1 7 0 1 -0 3 7 1 ) S u ff o lk E st u ar y S A P at h o ge n s U rb an /S to rm R u n o ff 4 a/ 2 0 0 7 (M W 7 .2 a) A O -M B ( p o rt io n 3 ) T u th il l, H ar ts , S ea tu ck C o ve s (1 7 0 1 -0 3 0 9 ) S u ff o lk E st u ar y S A P at h o ge n s U rb an /S to rm , A gr ic . 4 a/ 2 0 0 7 (M W 7 .2 b ) A O -M B -N B N ar ro w B ay ( 1 7 0 1 -0 3 1 8 ) S u ff o lk E st u ar y S A P at h o ge n s U rb an /S to rm , A gr ic . 4 a/ 2 0 0 7 (M W 7 .3 ) A O -G S B ( p o rt io n 4 ) B el lp o rt B ay ( 1 7 0 1 -0 3 2 0 ) S u ff o lk E st u ar y S A P at h o ge n s U rb an /S to rm R u n o ff 4 a/ 2 0 0 7 (M W 7 .3 ) A O -G S B ( p o rt io n 5 ) P at ch o gu e B ay ( 1 7 0 1 -0 3 2 6 ) S u ff o lk E st u ar y S A P at h o ge n s U rb an /S to rm R u n o ff 4 a/ 2 0 0 7 T h es e 2 7 w at er s h av e b ee n d el is te d d u e to t h e ap p ro va l of t h e L on g I sl an d W at er s P at h og en s (S h el lf is h in g ) T M D L i n 2 0 0 7 . A D D 08 1 The FINAL New York State June 2010 2010 Section 303(d) List of Impaired Waters Requiring a TMDL/Other Strategy Presented here is the Final New York State 2010 Section 303(d) List of Impaired/ TMDL Waters. The list identifies those waters that do not support appropriate uses and that require development of a Total Maximum Daily Load (TMDL) or other restoration strategy. A Response Summary for public comments received concerning the previously issued Draft List is also available. The Federal Clean Water Act requires states to periodically assess and report on the quality of waters in their state. Section 303(d) of the Act also requires states to identify Impaired Waters, where specific designated uses are not fully supported. For these Impaired Waters, states must consider the development of a Total Maximum Daily Load (TMDL) or other strategy to reduce the input of the specific pollutant(s) that restrict waterbody uses, in order to restore and protect such uses. An outline of the process used to monitor and assess the quality of New York State waters is contained in the New York State Consolidated Assessment and Listing Methodology (CALM). The CALM describes the water quality assessment and Section 303(d) listing process in order to improve the consistency of assessment and listing decisions. The waterbody listings in the New York State Section 303(d) List are grouped into a number of categories. The various categories, or Parts, of the list are outlined below. Final 2010 Section 303(d) List of Impaired Waters Requiring a TMDL Part 1 Individual Waterbody Segments with Impairments Requiring TMDL Development These are waters with verified impairments that are expected to be addressed by a segment/pollutant-specific TMDL. Part 2 Multiple Segment/Categorical Waterbody Impairments Requiring TMDL Development These are groups of waters affected by similar causes/sources where a single TMDL may be able to address multiple waters with the same issue. Part 2 is subdivided into: a) Waters Impaired by Atmospheric Deposition (acid rain) b) Waters Impaired by Fish Consumption Advisories c) Waters Impaired by Shellfishing Restrictions Part 3 Waterbodies Requiring Verification of Impairment or Cause/Pollutant These are waters where scheduling of TMDL development may be deferred pending verification of either the suspected impairment or the cause/pollutant related to the impairment. Part 3 is subdivided into: a) Waterbody Impairments Requiring Verification b) Verified Waterbody Impairments Requiring Verification of Cause/Pollutants c) Waterbody Segments Being Address Through Other Restoration Measures Appendix A - Smaller Lakes Impaired by Atmospheric Deposition (Acid Rain) Appendix B - Listed Waterbodies Not Meeting Dissolved Oxygen Standards ADD082 Impaired/Delisted Waters NOT Included on the NYS 2010 Section 303(d) List Not all impaired waters of the state are included on the Section 303(d) List. By definition, the List is to be comprised of impaired waters that require development of a Total Maximum Daily Load (TMDL) plan. Although separate from the NYS 2010 Section 303(d) List, a compilation of waterbody/pollutants representing those impairments that are not included on the List provides additional information toward understanding listing decisions and clarifies how impairments are considered. Waterbody Segments Not Listed Because TMDL is Not Necessary (separate list) A list of Other Impaired Waterbody Segments Not Listed (on 303(d) List) Because Development of a TMDL is Not Necessary is available to facilitate the review of Section 303(d) List. The purpose of this supplement is to provide a more comprehensive inventory of waters of the state that do not fully support designated uses and that are considered to be impaired. Section 303(d) of the Clean Water Act stipulates that impaired waters that do not require a TMDL are not to be included on the Section 303(d) List. There are three (3) justifications for not including an impaired water on the Section 303(d) List: Category 4a Waters - TMDL development is not necessary because a TMDL has already been established for the segment/pollutant. Category 4b Waters - TMDL is not necessary because other required control measures are expected to result in restoration in a reasonable period of time. Category 4c Waters - TMDL is not appropriate because the impairment is the result of pollution, rather than a pollutant that can be allocated through a TMDL. 2010 Waterbody/Pollutant Delistings (separate list) A separate list of water/pollutant combinations that were included on the previous (2008) Section 303(d) List, but that are NOT included on the 2010 List is also available. This listing provides some linkage and continuity between the previous and proposed new Lists. The specific reason why a waterbody/pollutant no longer appears on the List (i.e., delisting action, reassessment, re- segmentation, etc.) is included in this document. Some of these waters (those that have been delisted but that remain Impaired) also appear on the list of Other Impaired Waterbody Segments Not Listed Because Development of a TMDL is Not Necessary. ADD083 N ew Y or k S ta te F in a l 20 10 S ec ti on 3 03 (d ) L is t Ju n e 20 10 W at er I n d ex N u m b er W at er b od y N am e (W I/ P W L I D ) C ou n ty T yp e C la ss C au se /P ol lu ta n t S ou rc e Y ea r Im p ai rm en ts t o C h au ta u q u a L ak e h av e b ee n v er if ie d . C o n se q u en tl y th is l is ti n g h as b ee n m o ve d t o P ar t 1 f ro m P ar t 3 a. 12 0 1 0 S ec ti o n 3 0 3 d L is t o f Im p a ir ed W a te rs S e g m en ts a n d /o r p o ll u ta n ts l is te d i n B o ld T y p e ar e n e w l is ti n g s; i .e ., t h ey w er e n o t in cl u d ed i n t h e p re v io u s (2 0 0 8 ) S ec ti o n 3 0 3 (d ) L is t. * D en o te s H ig h P ri o ri ty W at er s, s ch ed u le d f o r T M D L /r es to ra ti o n s tr at eg y d ev el o p m en t an d s u b m is si o n f o r ap p ro v al t o U S E P A w it h in t h e n e x t tw o y ea rs . P ar t 1 - In d iv id u al W at er b od y S eg m en ts w it h I m p ai rm en t R eq u ir in g T M D L D ev el op m en t N ia ga ra R iv er /L ak e E ri e D ra in ag e B as in O n t 1 5 8 - 6 G il l C re ek a n d t ri b s (0 1 0 1 -0 0 0 2 ) N ia ga ra R iv er C A q u at ic T o xi ci ty U rb an R u n o ff , C o n ta m . S ed 2 0 0 4 O n t 1 5 8 - 8 -1 B er gh o lt z C re ek a n d t ri b s (0 1 0 1 -0 0 0 4 ) N ia ga ra R iv er C P h o sp h o ru s U rb an R u n o ff 2 0 0 4 P at h o ge n s U rb an R u n o ff 2 0 0 4 O n t 1 5 8 -1 2 - 6 R an so m C re ek , L o w er , an d t ri b s (0 1 0 2 -0 0 0 4 ) E ri e R iv er C D .O ./ O xy ge n D em an d O n si te W T S 2 0 0 4 P at h o ge n s O n si te W T S 2 0 0 4 O n t 1 5 8 -1 2 - 6 R an so m C re ek , U p p er , an d t ri b s (0 1 0 2 -0 0 2 7 ) E ri e R iv er C (T ) D .O ./ O xy ge n D em an d O n si te W T S 2 0 0 4 P at h o ge n s O n si te W T S 2 0 0 4 O n t 1 5 8 -1 3 T w o M il e C re ek a n d t ri b s (0 1 0 1 -0 0 0 5 ) E ri e R iv er B F lo at ab le s C S O s 2 0 0 4 D .O ./ O xy ge n D em an d C S O s, M u n ic ip al 2 0 0 4 P at h o ge n s C S O s, M u n ic ip al 2 0 0 4 O n t 1 5 8 -1 5 S ca ja q u ad a C re ek , L o w er , an d t ri b s (0 1 0 1 -0 0 2 3 ) E ri e R iv er B F lo at ab le s C S O s, U rb an R u n o ff 2 0 0 4 D .O ./ O xy ge n D em an d C S O s, U rb an R u n o ff 2 0 0 4 P h os p h or u s C S O s, U rb an R u n of f 2 0 1 0 P at h o ge n s C S O s, U rb an R u n o ff 2 0 0 4 O n t 1 5 8 -1 5 S ca ja q u ad a C re ek , M id d le , an d t ri b s (0 1 0 1 -0 0 3 3 ) E ri e R iv er C F lo at ab le s C S O s, U rb an R u n of f 2 0 1 0 D .O ./ O x y g en D em an d C S O s, U rb an R u n of f 2 0 1 0 P h os p h or u s C S O s, U rb an R u n of f 2 0 1 0 P at h og en s C S O s, U rb an R u n of f 2 0 1 0 O n t 1 5 8 -1 5 S ca ja q u ad a C re ek , U p p er , an d t ri b s (0 1 0 1 -0 0 3 4 ) E ri e R iv er B D .O ./ O x y g en D em an d C S O s, U rb an R u n of f 2 0 1 0 P h os p h or u s C S O s, U rb an R u n of f 2 0 1 0 P at h og en s C S O s, U rb an R u n of f 2 0 1 0 O n t 1 5 8 -E ( p or ti on 5 ) L ak e E ri e (N or th ea st S h or el in e) ( 0 1 0 4 -0 0 3 6 ) E ri e G .L ak es B P at h og en s U rb an /S to rm R u n of f 2 0 1 0 O n t 1 5 8 -E ( p or ti on 6 ) L ak e E ri e (M ai n L ak e, N or th ) (0 1 0 4 -0 0 3 7 ) E ri e G .L ak es A -S p cl P at h og en s U rb an /S to rm R u n of f 2 0 1 0 O n t 1 5 8 -E ( p or ti on 7 ) L ak e E ri e (M ai n L ak e, S ou th ) (0 1 0 5 -0 0 3 3 ) C h au ta q a G .L ak es A -S p cl P at h og en s U rb an /S to rm R u n of f 2 0 1 0 O n t 1 5 8 -E ( p o rt io n 7 a) L ak e E ri e, D u n ki rk H ar b o r ( 0 1 0 5 -0 0 0 9 ) C h au ta u q u a G .L ak es B P at h o ge n s U rb an /S to rm R u n o ff 2 0 0 4 O n t 1 5 8 .. E - 2 - 1 -P 8 1 b G re en L ak e (0 1 0 1 -0 0 3 8 ) E ri e L ak e B P h os p h or u s U rb an R u n of f 2 0 1 0 O n t 1 5 8 .. E - 3 R u sh C re ek a n d t ri b s (0 1 0 4 -0 0 1 8 ) E ri e R iv er C P at h o ge n s C S O s, U rb an R u n o ff , M u n ic 2 0 0 4 P h o sp h o ru s C S O s, U rb an R u n o ff , M u n ic 2 0 0 4 O n t 1 5 8 .. E -2 3 -P 1 5 2 Ja va L ak e (0 1 0 4 -0 0 0 4 ) W yo m in g L ak e B P h o sp h o ru s O n si te W T S 2 0 0 4 A ll eg h en y R iv er D ra in ag e B as in P a- 6 3 -1 3 - 4 * C h ad ak o in R iv er a n d t ri b s (0 2 0 2 -0 0 1 8 ) C h au ta u q u a R iv er C P h o sp h o ru s M u n ic /I n d , U rb R u n o ff 2 0 0 8 P a- 6 3 -1 3 - 4 -P 1 2 2 * C h au ta u q u a L ak e, S o u th ( 0 2 0 2 -0 0 2 0 ) C h au ta u q u a L ak e A P h o sp h o ru s A gr ic u lt u re 2 0 0 4 1 P a- 6 3 -1 3 - 4 -P 1 2 2 * C h au ta u q u a L ak e, N o rt h ( 0 2 0 2 -0 0 7 2 ) C h au ta u q u a L ak e A P h o sp h o ru s A gr ic u lt u re 2 0 0 4 1 A D D 08 4 N ew Y or k S ta te F in a l 20 10 S ec ti on 3 03 (d ) L is t Ju n e 20 10 W at er I n d ex N u m b er W at er b od y N am e (W I/ P W L I D ) C ou n ty T yp e C la ss C au se /P ol lu ta n t S ou rc e Y ea r T h is l is ti n g re p la ce s/ co rr ec ts t h e p re vi o u s li st in g fo r U n ad il la R iv er , U p p er , M ai n S te m ( 0 6 0 1 -0 0 3 7 ). T h e w at er q u al it y p ro b le m s ci te d i n t h e p re vi o u s li st in g ar e li m it ed t o N o rt h W in fi el d 2 C re ek ; co n se q u en tl y, t h is i s a m o re a p p ro p ri at e li st in g fo r th is i m p ai rm en t. 2 P ar t 1 - In d iv id u al W at er b od y S eg m en ts w it h I m p ai rm en t R eq u ir in g T M D L D ev el op m en t ( co n ’t ) L ak e O n ta ri o ( M in o r T ri b s) D ra in ag e B as in O n t (p or ti on 1 4 ) L ak e O n ta ri o S h or el in e, C en tr al ( 0 3 0 2 -0 0 4 4 ) W ay n e G .L ak es A P at h og en s U rb an /S to rm R u n of f 2 0 1 0 O n t (p or ti on 1 6 ) R oc h es te r E m b ay m en t - E as t (0 3 0 2 -0 0 0 2 ) M o n ro e G .L ak es A P at h og en s U rb an /S to rm R u n of f 2 0 1 0 O n t (p o rt io n 1 7 ) R o ch es te r E m b ay m en t - W es t (0 3 0 1 -0 0 6 8 ) M o n ro e G .L ak es A P at h o ge n s U rb an /S to rm R u n o ff 2 0 0 8 O n t 8 0 /P 8 9 * P o rt B ay ( 0 3 0 2 -0 0 1 2 ) W ay n e L ak e B P h o sp h o ru s A gr ic , M u n ic ip al 2 0 0 2 O n t 1 2 2 -P 1 5 3 * B u ck P o n d ( 0 3 0 1 -0 0 1 7 ) M o n ro e L ak e B P h o sp h o ru s U rb an /S to rm R u n o ff 2 0 0 2 O n t 1 2 3 -P 1 5 4 * L o n g P o n d ( 0 3 0 1 -0 0 1 5 ) M o n ro e L ak e B P h o sp h o ru s U rb an /S to rm R u n o ff 2 0 0 2 O n t 1 2 3 -P 1 5 4 - 2 -P 1 5 5 * C ra n b er ry P o n d ( 0 3 0 1 -0 0 1 6 ) M o n ro e L ak e B P h o sp h o ru s U rb an /S to rm R u n o ff 2 0 0 2 G en es ee R iv er D ra in ag e B as in O n t 1 1 7 ( p o rt io n 1 ) * G en es ee R iv er , L o w er , M ai n S te m ( 0 4 0 1 -0 0 0 1 ) M o n ro e R iv er B P h o sp h o ru s va ri o u s, m u lt ip le s o u rc es 2 0 0 4 P at h o ge n s va ri o u s, m u lt ip le s o u rc es 2 0 0 4 S il t/ S ed im en t va ri o u s, m u lt ip le s o u rc es 2 0 0 4 O n t 1 1 7 ( p o rt io n 2 ) * G en es ee R iv er , M id d le , M ai n S te m ( 0 4 0 1 -0 0 0 3 ) M o n ro e R iv er B D .O ./ O xy ge n D em an d A gr ic u lt u re 2 0 0 4 P h o sp h o ru s A gr ic u lt u re 2 0 0 4 O n t 1 1 7 - 1 9 * B la ck C re ek , L o w er , an d m in o r tr ib s (0 4 0 2 -0 0 3 3 ) M o n ro e R iv er C P h o sp h o ru s A gr ic , M u n ic ip al 2 0 0 4 O n t 1 1 7 - 1 9 * B la ck C re ek , U p p er , an d m in o r tr ib s (0 4 0 2 -0 0 4 8 ) G en es ee R iv er C P h o sp h o ru s A gr ic , M u n ic ip al 2 0 0 4 O n t 1 1 7 - 2 7 -P 5 7 H o n eo ye L ak e (0 4 0 2 -0 0 3 2 ) O n ta ri o L ak e A A P h o sp h o ru s A gr ic , O n si te W T S 2 0 0 2 D .O ./ O xy ge n D em an d A gr ic , O n si te W T S 2 0 0 2 O n t 1 1 7 - 4 0 -P 6 7 C o n es u s L ak e (0 4 0 2 -0 0 0 4 ) L iv in gs to n L ak e A A P h o sp h o ru s A gr ic u lt u re 2 0 0 6 D .O ./ O xy ge n D em an d A gr ic u lt u re 2 0 0 2 O n t 1 1 7 - 6 6 - 8 - 2 B ra d n er C re ek a n d t ri b s (0 4 0 4 -0 0 2 0 ) L iv in g st on R iv er C P h os p h or u s A g ri cu lt u re 2 0 1 0 O n t 1 1 7 - 7 0 -P 1 1 5 * S il ve r L ak e (0 4 0 3 -0 0 0 2 ) W yo m in g L ak e A P h o sp h o ru s A gr ic u lt u re 1 9 9 8 C h em u n g R iv er D ra in ag e B as in P a 3 -5 8 -3 1 - 7 -P 6 6 S m it h P o n d ( 0 5 0 2 -0 0 1 2 ) S te u b en L ak e B P h o sp h o ru s O n si te W T S 2 0 0 8 S u sq u eh an n a R iv er D ra in ag e B as in S R - 4 4 -1 4 -2 7 -P 3 5 a * W h it n ey P o in t L ak e/ R es er vo ir ( 0 6 0 2 -0 0 0 4 ) B ro o m e L ak e C P h o sp h o ru s A gr ic u lt u re 2 0 0 2 S R -1 4 6 - 6 9 N or th W in fi el d C re ek a n d t ri b s (0 6 0 1 -0 0 3 5 ) H er k im er R iv er C (T ) P at h og en s O n si te W T S , 2 0 1 0 2 O sw eg o R iv er ( F in ge r L ak es ) D ra in ag e B as in O n t 6 6 - 3 -P 9 L ak e N ea ta h w an ta ( 0 7 0 1 -0 0 1 8 ) O sw eg o L ak e B N u tr ie n ts ( p h o sp h o ru s) U rb an /S to rm R u n o ff 1 9 9 8 O n t 6 6 -1 1 -P 2 6 -3 3 - 5 C an as to ta C re ek , L o w er , an d t ri b s (0 7 0 3 -0 0 0 2 ) M ad is o n R iv er C D .O ./ O xy ge n D em an d M u n ic ip al , C S O s 2 0 0 8 P at h o ge n s M u n ic ip al , C S O s 2 0 0 8 O n t 6 6 -1 1 -P 2 6 -3 7 - 6 - 2 L im es to n e C re ek , L o w er , an d m in o r tr ib s (0 7 0 3 -0 0 0 8 ) O n o n d ag a R iv er C D .O ./ O xy ge n D em an d M u n ic ip al 2 0 0 8 P at h o ge n s M u n ic ip al 2 0 0 8 A D D 08 5 N ew Y or k S ta te F in a l 20 10 S ec ti on 3 03 (d ) L is t Ju n e 20 10 W at er I n d ex N u m b er W at er b od y N am e (W I/ P W L I D ) C ou n ty T yp e C la ss C au se /P ol lu ta n t S ou rc e Y ea r Im p ai rm en ts i n B la ck L ak e h av e b ee n v er if ie d . C o n se q u en tl y th is l is ti n g h as b ee n m o ve d t o P ar t 1 f ro m P ar t 3 a. S eg m en t w as p re vi o u sl y li st ed a s B la ck L ak e. 3 T he R es to ra ti on S tr at eg y/ T M D L e ff or t to a dd re ss s il t/ se di m en t lo ad s to L ak e G eo rg e w il l be a c om pr eh en si ve , la ke -w id e w at er sh ed e ff or t an d w il l co n si de r ad di ti on al l ak e tr ib ut ar ie s th at 4 p ro vi d e si gn if ic an t si lt /s ed im en t lo ad s to t h e la ke . T h e in it ia l st ra te gy f o cu se d o n F in kl e B ro o k an d w as p u b li c n o ti ce d f o r co m m en t in 2 0 0 5 . T h e sp ec if ic al ly i d en ti fi ed i m p ai re d w at er (s ) in t h is s eg m en t in cl u d e F o st er B ro o k (- 1 1 ). 5 T h e sp ec if ic al ly i d en ti fi ed i m p ai re d w at er (s ) in t h is s eg m en ts i n cl u d e E as t B ro o k (- 3 7 ), W es t B ro o k (- 3 8 ), P ro sp ec t M o u n ta in B ro o k (- 3 9 ), E n gl is h B ro o k (- 4 1 ). 6 T h e sp ec if ic al ly i d en ti fi ed i m p ai re d w at er (s ) in t h is s eg m en t in cl u d e F in kl e B ro o k (- 5 6 ). 7 3 P ar t 1 - In d iv id u al W at er b od y S eg m en ts w it h I m p ai rm en t R eq u ir in g T M D L D ev el op m en t (c on ’t ) O sw eg o R iv er ( F in ge r L ak es ) D ra in ag e B as in ( co n ’t ) O n t 6 6 -1 2 -4 3 -P 2 1 2 O w as co L ak e (0 7 0 6 -0 0 0 9 ) C ay u ga L ak e A A (T ) P at h o ge n s W il d li fe /O th er S o u rc es 1 9 9 8 O n t 6 6 -1 2 -4 3 -P 2 1 2 -2 8 * O w as co I n le t, U p p er , an d t ri b s (0 7 0 6 -0 0 1 4 ) C ay u ga R iv er C (T ) N u tr ie n ts M u n ic ip al /A gr ic 2 0 0 8 O n t 6 6 -1 2 -P 2 9 6 ( p o rt io n 4 ) * C ay u ga L ak e, S o u th er n E n d ( 0 7 0 5 -0 0 4 0 ) T o m p ki n s L ak e A P h o sp h o ru s M u n ic ip al , N P S 2 0 0 2 S il t/ S ed im en t M u n ic ip al , N P S 2 0 0 2 P at h o ge n s M u n ic ip al , N P S 2 0 0 8 B la ck R iv er D ra in ag e B as in O n t 1 9 - 5 1 M il l C re ek /S o u th B ra n ch , an d t ri b s (0 8 0 1 -0 2 0 0 ) L ew is R iv er C N u tr ie n ts A gr ic u lt u re 2 0 0 8 P at h o ge n s A gr ic u lt u re 2 0 0 8 S ai n t L aw re n ce R iv er D ra in ag e B as in S L - 1 ( p or ti on 1 ) R aq u et te R iv er , L ow er , an d m in or t ri b s (0 9 0 3 -0 0 5 9 ) S t. L a w re n ce R iv er B P at h og en s O n si te W T S 2 0 1 0 S L -2 5 - 7 - P 1 * B la ck L ak e O u tl et , B la ck L ak e (0 9 0 6 -0 0 0 1 ) S t. L aw re n ce L ak e B N u tr ie n ts ( p h o s) A gr ic u lt u re 1 9 9 8 3 S L -2 5 - 7 /P 1 - 2 F is h C re ek a n d m in or t ri b s (0 9 0 6 -0 0 2 6 ) S t. L a w re n ce R iv er C N u tr ie n ts ( p h os ) O W T S /S an D is ch ar g e 2 0 1 0 S L -2 5 -1 0 1 L it tl e R iv er a n d t ri b s (0 9 0 5 -0 0 9 0 ) S t. L a w re n ce R iv er C (T ) P ri or it y O rg an ic s In d u st /L an d fi ll 2 0 1 0 L ak e C h am p la in D ra in ag e B as in C C u m b er la n d B ay ( 1 0 0 1 -0 0 0 1 ) C li n to n B ay B D .O ./ O xy ge n D em an d In d u st r, C o n ta m .S ed . 2 0 0 2 C - 3 ( p o rt io n 2 ) G re at C h az y R iv er , L o w er , M ai n S te m ( 1 0 0 2 -0 0 0 1 ) C li n to n R iv er A S il t/ S ed im en t A gr ic , E ro si o n 2 0 0 2 C -1 0 1 -P 3 6 7 L ak e G eo rg e (1 0 0 6 -0 0 1 6 ) an d t ri b s W ar re n L ak e A A sp cl S il t/ S ed im en t U rb /S to rm , E ro si o n 2 0 0 2 4 C -1 0 1 -P 3 6 7 -1 t h ru 2 6 T ri b s to L ak e G eo rg e, E as t S h o re ( 1 0 0 6 -0 0 2 0 ) W ar re n R iv er A A sp cl S il t/ S ed im en t U rb /S to rm , E ro si o n 2 0 0 2 4 , 5 C -1 0 1 -P 3 6 7 -3 2 t h ru 4 1 T ri b s to L ak e G eo rg e, L k. G eo rg e V il la ge ( 1 0 0 6 -0 0 0 8 ) W ar re n R iv er A A sp cl S il t/ S ed im en t U rb /S to rm , E ro si o n 2 0 0 2 4 , 6 C -1 0 1 -P 3 6 7 -5 3 ,5 6 H u d d le /F in kl e B ro o ks a n d t ri b s (1 0 0 6 -0 0 0 3 ) W ar re n R iv er A A sp cl S il t/ S ed im en t U rb /S to rm , E ro si o n 2 0 0 2 4 , 7 C -1 0 1 -P 3 6 7 -5 9 In d ia n B ro o k an d t ri b s (1 0 0 6 -0 0 0 2 ) W ar re n R iv er A A sp cl S il t/ S ed im en t U rb /S to rm , E ro si o n 2 0 0 2 4 C -1 0 1 -P 3 6 7 -8 6 H ag u e B ro o k an d t ri b s (1 0 0 6 -0 0 0 6 ) W ar re n R iv er A A sp cl S il t/ S ed im en t U rb /S to rm , E ro si o n 2 0 0 2 4 C -1 3 4 - 4 W oo d C r/ C h am p la in C an al a n d t ri b s (1 0 0 5 -0 0 3 6 ) W as h in g to n R iv er C D .O ./ O x y g en D em an d M u n ic ip al , S S O s 2 0 1 0 P h os p h or u s M u n ic ip al , S S O s 2 0 1 0 P at h og en s M u n ic ip al , S S O s 2 0 1 0 A D D 08 6 N ew Y or k S ta te F in a l 20 10 S ec ti on 3 03 (d ) L is t Ju n e 20 10 W at er I n d ex N u m b er W at er b od y N am e (W I/ P W L I D ) C ou n ty T yp e C la ss C au se /P ol lu ta n t S ou rc e Y ea r In p re vi o u s L is ts , th is l is ti n g h ad i n cl u d ed t h e n o te t h at t h e se gm en t in cl u d ed t h e lo w er h al f- m il e o f S ta rc h F ac to ry C re ek ( 1 2 0 1 -0 0 6 7 ) d u e to i m p ai rm en ts f ro m a C S O d is ch ar ge t o t h e cr ee k. 8 H o w ev er t h is C S O h as s in ce b ee n e li m in at ed a n d a s a re su lt i t is n o l o n ge r n ec es sa ry t o i n cl u d e th is p o rt io n o f th e cr ee k w it h t h is l is ti n g. 4 P ar t 1 - In d iv id u al W at er b od y S eg m en ts w it h I m p ai rm en t R eq u ir in g T M D L D ev el op m en t (c on ’t ) U p p er H u d so n R iv er D ra in ag e B as in H -2 6 0 - 6 D w aa s K il l an d t ri b s (1 1 0 1 -0 0 0 7 ) S ar at o ga R iv er C (T ) P h o sp h o ru s U rb an R u n o ff , C o n st r. 2 0 0 6 S il t/ S ed im en t U rb an R u n o ff , C o n st r. 2 0 0 6 H -2 6 5 S ch u yl er C re ek a n d t ri b s (1 1 0 1 -0 0 9 3 ) S ar at o ga R iv er C (T ) P h o sp h o ru s S an it ar y D is ch ar ge 2 0 0 8 D .O ./ O xy ge n D em an d S an it ar y D is ch ar ge 2 0 0 8 P at h o ge n s S an it ar y D is ch ar ge 2 0 0 8 H -2 9 9 -P 2 7 -1 3 - 1 -P 3 0 - T ri b s to L ak e L o n el y (1 1 0 1 -0 0 0 1 ) S ar at o ga R iv er C P h o sp h o ru s M u n ic ip al , U rb /S to rm 2 0 0 6 D .O ./ O xy ge n D em an d M u n ic ip al , U rb /S to rm 2 0 0 6 P at h o ge n s M u n ic ip al , U rb /S to rm 2 0 0 6 M o h aw k R iv er D ra in ag e B as in H -2 4 0 ( p o rt io n 1 2 ) M o h aw k R iv er , M ai n S te m ( 1 2 0 1 -0 0 9 3 ) H er ki m er R iv er C F lo at ab le s C S O s, U rb an , In d /M u n ic 2 0 0 4 8 P at h o ge n s C S O s, U rb an , In d /M u n ic 2 0 0 4 D .O ./ O xy ge n D em an d C S O s, U rb an , In d /M u n ic 2 0 0 4 H -2 4 0 ( p o rt io n 1 2 b ) U ti ca H ar b o r (1 2 0 1 -0 2 2 8 ) O n ei d a B ay C F lo at ab le s C S O s, U rb an , In d /M u n ic 2 0 0 4 P at h o ge n s C S O s, U rb an , In d /M u n ic 2 0 0 4 D .O ./ O xy ge n D em an d C S O s, U rb an , In d /M u n ic 2 0 0 4 H -2 4 0 ( p o rt io n 1 3 ) M o h aw k R iv er , M ai n S te m ( 1 2 0 1 -0 0 1 0 ) O n ei d a R iv er B F lo at ab le s C S O s, U rb an , In d /M u n ic 2 0 0 4 P at h o ge n s C S O s, U rb an , In d /M u n ic 2 0 0 4 D .O ./ O xy ge n D em an d C S O s, U rb an , In d /M u n ic 2 0 0 4 H -2 4 0 - 1 1 -P 4 9 6 /P 4 9 8 * A n n L ee ( S h ak er s) P o n d , S tu m p P o n d ( 1 2 0 1 -0 0 9 6 ) A lb an y L ak e C P h o sp h o ru s U rb an R u n o ff 1 9 9 8 H -2 4 0 - 2 2 -P 5 1 9 C o ll in s L ak e (1 2 0 1 -0 0 7 7 ) S ch en ec ta d y L ak e B P h o sp h o ru s U rb an R u n o ff 2 0 0 4 H -2 4 0 - 8 2 -P 6 3 8 a S ch o h ar ie R es er vo ir ( 1 2 0 2 -0 0 1 2 ) G re en e L ak e( R ) A A (T S ) S il t/ S ed im en t S tr ea m b an k E ro si o n 1 9 9 8 H -2 4 0 - 8 2 - 6 3 C o b le sk il l C re ek , L o w er , an d t ri b s (1 2 0 2 -0 0 1 9 ) S ch o h ar ie R iv er C P at h o ge n s O n si te W T S 2 0 0 4 H -2 4 0 - 8 2 - 6 3 -1 9 -9 -P 5 8 9 E n gl ev il le P o n d ( 1 2 0 2 -0 0 0 9 ) S ch o h ar ie L ak e A P h o sp h o ru s A gr ic u lt u re 2 0 0 4 H -2 4 0 -1 8 7 - S te el e C re ek t ri b s (1 2 0 1 -0 1 9 7 ) H er ki m er R iv er A (T S ) P h o sp h o ru s A gr ic , S tr ea m E ro si o n 2 0 0 4 S il t/ S ed im en t A gr ic , S tr ea m E ro si o n 2 0 0 4 H -2 4 0 -2 1 1 ,2 1 4 B al lo u , N ai l C re ek s (1 2 0 1 -0 2 0 3 ) O n ei d a R iv er C D .O ./ O xy ge n D em an d C S O s, U rb an R u n o ff 2 0 0 4 P h o sp h o ru s C S O s, U rb an R u n o ff 2 0 0 4 H -2 4 0 -2 2 7 * N in em il e C re ek , L o w er , an d t ri b s (1 2 0 1 -0 0 1 4 ) O n ei d a R iv er B (T ) P at h o ge n s O n si te W T S 2 0 0 4 A D D 08 7 N ew Y or k S ta te F in a l 20 10 S ec ti on 3 03 (d ) L is t Ju n e 20 10 W at er I n d ex N u m b er W at er b od y N am e (W I/ P W L I D ) C ou n ty T yp e C la ss C au se /P ol lu ta n t S ou rc e Y ea r T h e n ew a d d it io n al S aw M il l R iv er s eg m en ts a re t h e re su lt o f re -s eg m en ti n g th e p re vi o u sl y li st ed S aw M il l R iv er s eg m en t (1 3 0 1 -0 0 0 7 ) in to t h re e se p ar at e se gm en ts . 9 Im p ai rm en ts i n L ak e L in co ln d al e h av e b ee n v er if ie d . C o n se q u en tl y th is l is ti n g h as b ee n m o ve d t o P ar t 1 f ro m P ar t 3 a. 1 0 Im p ai rm en ts i n L ak e C ar m el h av e b ee n v er if ie d . C o n se q u en tl y th is l is ti n g h as b ee n m o ve d t o P ar t 1 f ro m P ar t 3 a. 1 1 Im pa ir m en ts i n L ak e M ea ha gh h av e be en v er if ie d. C on se qu en tl y th is l is ti n g ha s be en m ov ed t o P ar t 1 fr om P ar t 3a . 1 2 Im pa ir m en ts i n W ap pi n ge rs L ak e ha ve b ee n ve ri fi ed . C on se qu en tl y th is l is ti n g ha s be en m ov ed t o P ar t 1 fr om P ar t 3a . 1 3 Im pa ir m en ts i n F al lk il l C re ek h av e be en v er if ie d. C on se qu en tl y th is l is ti n g ha s be en m ov ed t o P ar t 1 fr om P ar t 3a . 1 4 5 P ar t 1 - In d iv id u al W at er b od y S eg m en ts w it h I m p ai rm en t R eq u ir in g T M D L D ev el op m en t (c on ’t ) L o w er H u d so n R iv er D ra in ag e B as in H - 4 S aw M il l R iv er ( 1 3 0 1 -0 0 0 7 ) W es tc h es te r R iv er va ri o u s F lo at ab le s U rb an R u n o ff 1 9 9 8 D .O ./ O x y g en D em an d U rb an /S to rm , S an .D sc h g s 2 0 1 0 P h os p h or u s U rb an /S to rm , S an .D sc h g s 2 0 1 0 P at h og en s U rb an /S to rm , S an .D sc h g s 2 0 1 0 H - 4 S aw M il l R iv er , M id d le , an d t ri b s ( 1 3 0 1 -0 1 0 0 ) W es tc h es te r R iv er va ri ou s D .O ./ O x y g en D em an d U rb an /S to rm , S an .D sc h g s 2 0 1 0 9 P h os p h or u s U rb an /S to rm , S an .D sc h g s 2 0 1 0 P at h og en s U rb an /S to rm , S an .D sc h g s 2 0 1 0 H - 1 3 S p ar k il l C re ek , L ow er ( 1 3 0 1 -0 0 8 8 ) R oc k la n d R iv er C D .O ./ O x y g en D em an d U rb an /S to rm R u n of f 2 0 1 0 P at h og en s U rb an /S to rm R u n of f 2 0 1 0 H - 3 1 -P 4 4 -1 4 -P 5 0 - 2 -P 5 0 a L ak e S h en or oc k ( 1 3 0 2 -0 0 8 3 ) W es tc h es te r L ak e B P h os p h or u s U rb an /S to rm R u n of f 2 0 1 0 H - 3 1 -P 4 4 -1 7 -5 -P 5 7 a L ak e L in co ln d al e (1 3 0 2 -0 0 8 9 ) W es tc h es te r L ak e B P h o sp h o ru s O n si te W T S , U rb an 2 0 0 2 1 0 H - 3 1 -P 4 4 -2 3 -P 5 9 - 6 -P 6 2 a L ak e C ar m el ( 1 3 0 2 -0 0 0 6 ) P u tn am L ak e B P h o sp h o ru s O n si te W T S 2 0 0 2 1 1 H - 3 1 -P 4 4 -3 5 -P 1 0 9 - 6 -1 3 -P 1 1 5 a T ru es d al e L ak e (1 3 0 2 -0 0 5 4 ) W es tc h es te r L ak e B P h os p h or u s U rb an /S to rm R u n of f 2 0 1 0 H - 3 1 -P 4 4 -5 4 -P 1 2 8 a T ea to w n L ak e (1 3 0 2 -0 1 5 0 ) W es tc h es te r L ak e B P h os p h or u s U rb an /S to rm R u n of f 2 0 1 0 H - 4 9 a- P 1 6 0 L ak e M ea h ag h ( 1 3 0 1 -0 0 5 3 ) 1 2 W es tc h es te r L ak e C P h o sp h o ru s O n si te W T S , U rb an 2 0 0 2 H - 5 5 - 1 -P 1 6 5 W al la ce P on d ( 1 3 0 1 -0 1 4 0 ) W es tc h es te r L ak e B P h os p h or u s U rb an /S to rm R u n of f 2 0 1 0 H - 5 5 -1 1 -P 1 7 9 L ak e M o h eg an ( 1 3 0 1 -0 1 4 9 ) W es tc h es te r L ak e B P h os p h or u s U rb an /S to rm R u n of f 2 0 1 0 H - 9 4 - 6 -P 3 4 0 O ra n g e L ak e (1 3 0 1 -0 0 0 8 ) O ra n g e L ak e B P h os p h or u s O n si te W T S , U rb an 2 0 1 0 H - 9 5 -1 0 -P 3 4 5 g H il ls id e L ak e (1 3 0 4 -0 0 0 1 ) D u tc h es s L ak e B P h o sp h o ru s O n si te W T S 2 0 0 2 H -1 0 1 -P 3 6 5 * W ap p in ge rs L ak e (1 3 0 5 -0 0 0 1 ) D u tc h es s L ak e B P h o sp h o ru s U rb an /S to rm R u n o ff 1 9 9 8 1 3 S il t/ S ed im en t U rb an /S to rm R u n o ff 2 0 0 2 H -1 1 4 F al lk il l C re ek ( 1 3 0 1 -0 0 8 7 ) D u tc h es s R iv er C P h o sp h o ru s U rb an /S to rm R u n o ff 2 0 0 2 1 4 H -1 3 9 -1 3 -5 2 M o n h ag en B ro ok a n d t ri b s (1 3 0 6 -0 0 7 4 ) O ra n g e R iv er C P h os p h or u s U rb an /S to rm R u n of f 2 0 1 0 A D D 08 8 N ew Y or k S ta te F in a l 20 10 S ec ti on 3 03 (d ) L is t Ju n e 20 10 W at er I n d ex N u m b er W at er b od y N am e (W I/ P W L I D ) C ou n ty T yp e C la ss C au se /P ol lu ta n t S ou rc e Y ea r A r es to ra ti o n s tr at eg y/ T M D L f o r th is s eg m en t w il l b e d ev el o p ed i n c o n ju n ct io n w it h t h e S ch o h ar ie R es er vo ir s tr at eg y/ T M D L . 1 5 Im pa ir m en ts i n R ob in so n P on d ha ve b ee n ve ri fi ed . C on se qu en tl y th is l is ti n g ha s be en m ov ed t o P ar t 1 fr om P ar t 3a . 1 6 Im pa ir m en ts i n B as ic C re ek R es er vo ir h av e be en v er if ie d. C on se qu en tl y th is l is ti n g ha s be en m ov ed t o P ar t 1 fr om P ar t 3a . 1 7 Im pa ir m en ts i n K ru m ki ll C re ek h av e be en v er if ie d. C on se qu en tl y th is l is ti n g ha s be en m ov ed t o P ar t 1 fr om P ar t 3a . 1 8 Im pa ir m en ts i n P at ro o n C re ek h av e be en v er if ie d. C on se qu en tl y th is l is ti n g ha s be en m ov ed t o P ar t 1 fr om P ar t 3a . 1 9 F o rm er ly l is te d a s K ro m m a K il l (1 3 0 1 -0 0 2 7 ). T h e sp ec if ic al ly i d en ti fi ed i m p ai re d w at er (s ) in t h is s eg m en t in cl u d e K ro m m a K il l (- 2 3 4 ). 2 0 Im pa ir m en ts i n K ro m m a K il l ha ve b ee n ve ri fi ed . C on se qu en tl y th is l is ti n g ha s be en m ov ed t o P ar t 1 fr om P ar t 3a . 2 1 6 P ar t 1 - In d iv id u al W at er b od y S eg m en ts w it h I m p ai rm en t R eq u ir in g T M D L D ev el op m en t (c on ’t ) L o w er H u d so n D ra in ag e B as in ( co n ’t ) H -1 7 1 -P 8 4 8 A sh o ka n R es er vo ir ( 1 3 0 7 -0 0 0 4 ) U ls te r L ak e( R ) A A (T ) S il t/ S ed im en t S tr ea m b an k E ro si o n 2 0 0 2 H -1 7 1 -P 8 4 8 - E so p u s C re ek , U p p er , an d m in o r tr ib s ( 1 3 0 7 -0 0 0 7 ) U ls te r R iv er A (T ) S il t/ S ed im en t S tr ea m b an k E ro si o n 1 9 9 8 1 5 H -1 8 8 -P 9 0 2 R o b in so n P o n d ( 1 3 0 8 -0 0 0 3 ) C o lu m b ia L ak e B (T ) P h o sp h o ru s A gr ic u lt u re 1 9 9 8 1 6 H -1 9 3 -2 9 -P 9 5 0 a * B as ic C re ek R es er vo ir ( 1 3 0 9 -0 0 0 1 ) A lb an y L ak e( R ) A P h o sp h o ru s A gr ic u lt u re 2 0 0 2 1 7 H -2 0 2 -P 8 f S le ep y H o ll o w L ak e (1 3 0 1 -0 0 5 9 ) G re en e L ak e A S il t/ S ed im en t S tr ea m b an k E ro si o n 2 0 0 2 H -2 0 4 - 2 - 7 -P 2 4 * K in d er h o o k L ak e (1 3 1 0 -0 0 0 2 ) C o lu m b ia L ak e B P h o sp h o ru s A gr ic , O n -s it e W T S 2 0 0 2 H -2 0 4 - 2 - 7 -P 3 4 N as sa u L ak e (1 3 1 0 -0 0 0 1 ) R en ss el ae r L ak e B P h os p h or u s O n si te W T S , U rb an 2 0 1 0 H -2 2 1 - 4 - 3 K ru m ki ll C re ek , U p p er , an d t ri b s (1 3 1 1 -0 0 0 4 ) A lb an y R iv er A A q u at ic T o xi ci ty U rb an R u n o ff /C S O s 2 0 0 2 1 8 H -2 2 1 - 4 -P 2 7 0 - 1 - 9 -P 2 7 6 a D u an e L ak e (1 3 1 1 -0 0 0 6 ) S ch en ec ta d y L ak e B P h os p h or u s O n si te W T S , U rb an 2 0 1 0 H -2 2 6 P at ro o n C re ek a n d t ri b s ( 1 3 0 1 -0 0 3 0 ) A lb an y R iv er C D .O ./ O xy ge n D em an d U rb an /S to rm /C S O s 2 0 0 2 1 9 H -2 2 2 8 a th ru 2 3 7 M in o r T ri b s to W es t o f H u d so n ( 1 3 0 1 -0 0 2 7 ) A lb an y R iv er D > C A q u at ic T o xi ci ty In d u st ri al 2 0 0 2 2 0 , 2 1 H -2 3 5 -1 1 -P 3 7 7 S n yd er s L ak e (1 3 0 1 -0 0 4 3 ) R en ss el ae r L ak e B P h o sp h o ru s O xy ge n D em an d S ed . 2 0 0 2 D el aw ar e R iv er D ra in ag e B as in D -7 1 -1 0 - 6 -P 3 8 8 ,P 3 8 9 F ly P on d , D ee r L ak e (1 4 0 4 -0 0 3 8 ) B ro om e L ak e B P h os p h or u s O n si te W T S 2 0 1 0 R am ap o /H ac ke n sa ck R iv er B as in N J - 1 /P 9 7 7 a- 1 3 -P 9 8 4 ,P 9 8 4 a C on g er s L ak e, S w ar to u t L ak e (1 5 0 1 -0 0 1 9 ) R oc k la n d L ak e B P h os p h or u s U rb an /S to rm R u n of f 2 0 1 0 A D D 08 9 N ew Y or k S ta te F in a l 20 10 S ec ti on 3 03 (d ) L is t Ju n e 20 10 W at er I n d ex N u m b er W at er b od y N am e (W I/ P W L I D ) C ou n ty T yp e C la ss C au se /P ol lu ta n t S ou rc e Y ea r A N ew Y or k C it y C S O A ba te m en t P ro gr am a nd N Y C D E P C at ch B as in H oo di n g P ro gr am a re i n p la ce . S im il ar e ff or ts t o a dd re ss f lo at ab le s fr om N ew J er se y ar e ne ce ss ar y to r es to re w at er u se s. 2 2 T h is l is ti n g h ad b ee n i n cl u d ed i n P ar t 3 c o f th e 2 0 0 8 L is t. T h e li st in g h as b ee n m o ve d t o P ar t 1 s in ce i t w as s u b se q u en tl y d et er m in ed t h at a ct io n s in cl u d ed i n t h e 2 0 0 5 N Y C C S O O rd er w il l n o t 2 3 fu ll y ad d re ss t h is p ar ti cu la r im p ai rm en t. 7 P ar t 1 - In d iv id u al W at er b od y S eg m en ts w it h I m p ai rm en t R eq u ir in g T M D L D ev el op m en t (c on ’t ) A tl an ti c O ce an /L o n g Is la n d S o u n d D ra in ag e B as in (M W 1 .2 ) S I (p o rt io n 1 ) * A rt h u r K il l, C la ss I , an d m in o r tr ib s (1 7 0 1 -0 0 1 0 ) R ic h m o n d E st u ar y I F lo at ab le s U rb an /S to rm /C S O 2 0 0 2 2 2 (M W 1 .2 ) S I (p o rt io n 3 ) * N ew ar k B ay ( 1 7 0 1 -0 1 8 3 ) R ic h m o n d E st u ar y S D F lo at ab le s U rb an /S to rm /C S O 2 0 0 2 2 2 (M W 1 .2 ) S I (p o rt io n 4 ) * K il l V an K u ll ( 1 7 0 1 -0 1 8 4 ) R ic h m o n d E st u ar y S D F lo at ab le s U rb an /S to rm /C S O 2 0 0 2 2 2 (M W 1 .2 ) S I. .P 1 0 3 9 ,P 1 0 5 1 ,P 1 0 5 3 G ra ss m er e, A rb u tu s an d W o lf es L ak es ( 1 7 0 1 -0 3 5 7 ) R ic h m o n d L ak e B P h o sp h o ru s O n si te W T S , U rb an 2 0 0 2 (M W 2 .3 ) E R -1 -5 -P 1 0 4 3 V an C o rt la n d t L ak e (1 7 0 2 -0 0 0 8 ) B ro n x L ak e B P h o sp h o ru s U rb an R u n o ff 2 0 0 2 (M W 2 .4 ) E R -3 B ro n x R iv er , U p p er , an d t ri b s (1 7 0 2 -0 1 0 7 ) W es tc h es te r R iv er C D .O ./ O xy ge n D em an d U rb /S to rm R u n o ff 2 0 0 2 P at h o ge n s U rb /S to rm R u n o ff 2 0 0 4 (M W 2 .5 ) E R /L IS -L N B L it tl e N ec k B ay ( 1 7 0 2 -0 0 2 9 ) Q u ee n s E st u ar y S B P at h o ge n s U rb an /S to rm /C S O 1 9 9 8 2 3 (M W 3 .1 ) L IS ( p o rt io n 2 a) * L ar ch m o n t H ar b o r (1 7 0 2 -0 1 1 6 ) W es tc h es te r E st u ar y S B F lo at ab le s U rb /S to rm , M u n ic ip l 2 0 0 2 P at h o ge n s U rb /S to rm , M u n ic ip l 2 0 0 2 (M W 3 .2 ) L IS - 2 H u tc h in so n R iv er , M id d le , an d t ri b s (1 7 0 2 -0 0 7 4 ) W es tc h es te r R iv er B O il /G re as e U rb /S to rm , In d u st r 2 0 0 2 D .O ./ O xy ge n D em an d U rb /S to rm , In d u st r 2 0 0 2 P at h o ge n s U rb /S to rm , In d u st r 2 0 0 2 (M W 3 .3 ) L IS ( p o rt io n 2 b ) * M am ar o n ec k H ar b o r (1 7 0 2 -0 1 2 5 ) W es tc h es te r E st u ar y S B F lo at ab le s U rb /S to rm , M u n ic ip l 2 0 0 2 P at h o ge n s U rb /S to rm , M u n ic ip l 2 0 0 2 (M W 3 .3 ) L IS - 8 M am ar o n ec k R iv er , L o w er ( 1 7 0 2 -0 0 7 1 ) W es tc h es te r R iv er S C D .O ./ O xy ge n D em an d U rb /S to rm R u n o ff 2 0 0 2 S il t/ S ed im en t U rb /S to rm R u n o ff 2 0 0 2 (M W 3 .3 ) L IS - 8 M am ar o n ec k R iv er , U p p , & m in o r tr ib s (1 7 0 2 -0 1 2 3 ) W es tc h es te r R iv er C D .O ./ O xy ge n D em an d U rb /S to rm R u n o ff 2 0 0 2 S il t/ S ed im en t U rb /S to rm R u n o ff 2 0 0 2 (M W 3 .3 ) L IS - 8 - 1 S h el d ra ke R iv er ( 1 7 0 2 -0 0 6 9 ) W es tc h es te r R iv er C P h o sp h o ru s U rb /S to rm R u n o ff 2 0 0 2 S il t/ S ed im n t U rb /S to rm R u n o ff 2 0 0 2 (M W 3 .4 ) L IS ( p o rt io n 2 c) * M il to n H ar b o r (1 7 0 2 -0 0 6 3 ) W es tc h es te r E st u ar y S B F lo at ab le s U rb /S to rm , M u n ic ip l 2 0 0 2 P at h o ge n s U rb /S to rm , M u n ic ip l 2 0 0 2 (M W 3 .4 ) L IS -1 1 B li n d B ro o k, L o w er ( 1 7 0 2 -0 0 6 2 ) W es tc h es te r R iv er S C S il t/ S ed im en t U rb /S to rm R u n o ff 2 0 0 2 (M W 3 .4 ) L IS -1 1 B li n d B ro o k, U p p er , an d t ri b s (1 7 0 2 -0 1 3 0 ) W es tc h es te r R iv er C S il t/ S ed im en t U rb /S to rm R u n o ff 2 0 0 2 (M W 3 .6 ) L IS ( p o rt io n 2 d ) * P o rt C h es te r H ar b o r (1 7 0 2 -0 2 6 0 ) W es tc h es te r E st u ar y S B F lo at ab le s U rb /S to rm , M u n ic ip l 2 0 0 2 P at h o ge n s U rb /S to rm , M u n ic ip l 2 0 0 2 (M W 4 .2 b ) L IS -M B ( p o rt io n 2 ) M an h as se t B ay , an d t id al t ri b s (1 7 0 2 -0 1 4 1 ) N as sa u E st u ar y S B P at h o ge n s U rb /S to rm R u n o ff 2 0 0 2 (M W 4 .3 a) L IS -H H H em p st ea d H ar b o r, s o u th , & t id al t ri b s (1 7 0 2 -0 2 6 3 ) N as sa u E st u ar y S B P at h o ge n s U rb /S to rm R u n o ff 2 0 0 2 (M W 4 .3 a) L IS -H H -3 8 G le n C o ve C re ek , L o w er , an d t ri b s (1 7 0 2 -0 1 4 6 ) N as sa u E st u ar y S C P at h o ge n s U rb /S to rm , M u n /I n d 2 0 0 2 S il t/ S ed im en t U rb /S to rm , M u n /I n d 2 0 0 2 A D D 09 0 N ew Y or k S ta te F in a l 20 10 S ec ti on 3 03 (d ) L is t Ju n e 20 10 W at er I n d ex N u m b er W at er b od y N am e (W I/ P W L I D ) C ou n ty T yp e C la ss C au se /P ol lu ta n t S ou rc e Y ea r In cl u d es U p p er F o rg e R iv er , w h ic h i s th e tr ib o f p ri m ar y co n ce rn . T h e L o w er F o rg e R iv er i s in cl u d ed i n P ar t 2 c - Sh el lf is h in g W at er s p o rt io n o f th e li st . 2 4 8 P ar t 1 - In d iv id u al W at er b od y S eg m en ts w it h I m p ai rm en t R eq u ir in g T M D L D ev el op m en t (c on ’t ) A tl an ti c O ce an /L o n g Is la n d S o u n d D ra in ag e B as in ( co n ’t ) (M W 5 .3 ) L IS -6 2 -P 2 9 6 M il le rs P o n d ( 1 7 0 2 -0 0 1 3 ) S u ff o lk L ak e C D .O ./ O xy ge n D em an d U rb an /S to rm R u n o ff 2 0 0 2 P h o sp h o ru s U rb an /S to rm R u n o ff 2 0 0 2 (M W 6 .1 d ) G B ..G P B -P 4 9 5 M at ti tu ck o r M ar ra to o ka P o n d ( 1 7 0 1 -0 1 2 9 ) S u ff o lk L ak e A M et al s U rb /S to rm R u n o ff 2 0 0 2 D .O ./ O xy ge n D em an d U rb /S to rm R u n o ff 2 0 0 2 P at h o ge n s U rb /S to rm R u n o ff 2 0 0 2 P h o sp h o ru s U rb /S to rm R u n o ff 2 0 0 2 (M W 7 .2 a) A O -M B -1 6 8 a th ru 1 7 5 T id al T ri b s to W es t M o ri ch es B ay ( 1 7 0 1 -0 3 1 2 ) S u ff o lk E st u ar y S C P at h o ge n s U rb /S to rm , A gr ic ,O W T S 2 0 0 6 2 4 N it ro ge n U rb /S to rm , A gr ic ,O W T S 2 0 0 6 D .O ./ O xy ge n D em an d U rb /S to rm , A gr ic ,O W T S 2 0 0 6 (M W 7 .5 ) A O -G S B -1 8 5 -P 8 8 9 C an aa n L ak e (1 7 0 1 -0 0 1 8 ) S u ff o lk L ak e B (T ) P h o sp h o ru s U rb /S to rm R u n o ff 2 0 0 2 S il t/ S ed im en t U rb /S to rm R u n o ff 2 0 0 2 (M W 7 .7 ) A O -G S B -1 9 3 .. P 3 0 4 L ak e R o n ko n ko m a (1 7 0 1 -0 0 2 0 ) S u ff o lk L ak e B P at h o ge n s U rb /S to rm R u n o ff 2 0 0 2 P h o sp h o ru s U rb /S to rm R u n o ff 2 0 0 2 (M W 7 .8 ) A O -G S B -1 9 4 C h am p li n C re ek , U p p er , an d t ri b s (1 7 0 1 -0 0 1 9 ) S u ff o lk R iv er C (T S ) T h er m al C h an ge s U rb /S to rm R u n o ff 2 0 0 2 (M W 8 .2 a) E B -2 2 4 t h ru 2 2 7 L I T ri b s, f re sh t o E as t B ay ( 1 7 0 1 -0 2 0 4 ) N as sa u R iv er C S il t/ S ed im en t U rb /S to rm R u n o ff 2 0 0 2 P h o sp h o ru s U rb /S to rm R u n o ff 2 0 0 2 (M W 8 .3 a) M D B -2 2 8 E as t M ea d o w B ro o k, U p p er , an d t ri b s (1 7 0 1 -0 2 1 1 ) N as sa u R iv er C S il t/ S ed im en t U rb /S to rm R u n o ff 2 0 0 2 (M W 8 .4 ) H B H em p st ea d B ay ( 1 7 0 1 -0 0 3 2 ) N as sa u E st u ar y S A N it ro ge n M u n ic p l, U rb /S to rm R u n o ff 2 0 0 6 (M W 8 .4 a) H B -2 3 3 -P 1 0 0 5 .. P 1 0 1 2 H em p st ea d L ak e (1 7 0 1 -0 0 1 5 ) N as sa u L ak e C P h o sp h o ru s U rb an /S to rm R u n o ff 2 0 0 2 (M W 8 .4 a) H B -2 3 5 -P 1 0 1 7 a G ra n t P ar k P o n d ( 1 7 0 1 -0 0 5 4 ) N as sa u L ak e C P h o sp h o ru s U rb an /S to rm R u n o ff 1 9 9 8 (M W 8 .5 b ) JB Ja m ai ca B ay , E as te rn , an d t ri b s, Q u ee n s (1 7 0 1 -0 0 0 5 ) Q u ee n s E st u ar y S B N it ro ge n U rb an /C S O ,M u n ic ip l 2 0 0 2 D .O ./ O xy ge n D em an d U rb an /C S O ,M u n ic ip l 2 0 0 2 (M W 8 .5 b ) JB -2 4 7 B er ge n B as in ( 1 7 0 1 -0 0 0 9 ) Q u ee n s E st u ar y I N it ro ge n U rb an /C S O ,M u n ic ip l 2 0 0 6 D .O ./ O xy ge n D em an d U rb an /C S O ,M u n ic ip l 2 0 0 2 (M W 8 .6 ) J B -2 4 9 a H en d ri x C re ek ( 1 7 0 1 -0 0 0 6 ) K in gs E st u ar y I N it ro ge n U rb an /C S O /M u n ic ip l 1 9 9 8 D .O ./ O xy ge n D em an d U rb an /C S O /M u n ic ip l 1 9 9 8 A D D 09 1 N ew Y or k S ta te F in a l 20 10 S ec ti on 3 03 (d ) L is t Ju n e 20 10 W at er I n d ex N u m b er W at er b od y N am e (W I/ P W L I D ) C ou n ty T yp e C la ss C au se /P ol lu ta n t S ou rc e Y ea r T h e sp ec if ic al ly i d en ti fi ed i m p ai re d w at er (s ) in t h is s eg m en t al so i n cl u d e u n n am ed p o n d ( P 4 3 2 ). 2 5 T h e sp ec if ic al ly i d en ti fi ed i m p ai re d w at er (s ) in t h is s eg m en t in cl u d e S u n d ay C re ek ( -2 0 ); t h e B ea ve r R iv er i s n o t co n si d er ed t o b e im p ai re d . 2 6 T h e sp ec if ic al ly i d en ti fi ed i m p ai re d w at er (s ) in t h is s eg m en t al so i n cl u d e Ik ei s P o n d ( P 4 3 8 ). 2 7 T h e sp ec if ic al ly i d en ti fi ed i m p ai re d w at er (s ) in t h is s eg m en t in cl u d e L o w er S p ri n g P o n d ( P 4 4 4 ). 2 8 T h e sp ec if ic al ly i d en ti fi ed i m p ai re d w at er (s ) in t h is s eg m en t in cl u d e u n n am ed p o n d ( P 4 5 6 a) , u n n am ed p o n d ( P 4 5 7 ) an d B ea r P o n d ( P 4 5 9 ). 2 9 T h e sp ec if ic al ly i d en ti fi ed i m p ai re d w at er (s ) in t h is s eg m en t al so i n cl u d e u n n am ed p o n d ( P 4 7 4 b ) an d u n n am ed p o n d ( P 4 7 6 ). 3 0 T he s pe ci fi ca ll y id en ti fi ed i m pa ir ed w at er (s ) in t hi s se gm en t in cl u de C ro p se y P on d (P 48 0) , u nn am ed p o nd ( P 48 4a ), D ee r P o nd ( P 48 5) , u nn am ed p o nd ( P 48 8) , u nn am ed p o nd ( P 49 0) a nd U pp er 3 1 M o sh ie r P o n d ( P 4 9 1 ). T h e sp ec if ic al ly i d en ti fi ed i m p ai re d w at er (s ) in t h is s eg m en t al so i n cl u d e u n n am ed p o n d ( P 4 9 7 ). 3 2 T h e sp ec if ic al ly i d en ti fi ed i m p ai re d w at er (s ) in t h is s eg m en t al so i n cl u d e u n n am ed p o n d ( P 5 0 1 ). 3 3 9 P ar t 2a - M u lt ip le S eg m en t/ C at eg or ic al I m p ai re d W at er b od y S eg m en ts ( at m os p h er ic d ep os it io n ) M ig h t b e ad d re ss ed b y a w at er b o d y s p ec if ic T M D L o r a p o ll u ta n t/ so u rc e sp ec if ic T M D L o r ot he r st ra te gy t o at ta in w at er q ua li ty s ta nd ar ds . B la ck R iv er D ra in ag e B as in O n t 1 9 - 4 0 ( p o rt io n 7 )/ P 4 3 1 ,P 4 3 4 S o ft M ap le P o n d , S o ft M ap le R es er vo ir ( 0 8 0 1 -0 1 7 3 ) L ew is L ak e C (T ) A ci d /B as e (p H ) A tm o sp h er ic D ep . 1 9 9 8 2 5 O n t 1 9 - 4 0 ( p o rt io n 1 0 ) B ea ve r R iv er , U p p er , an d t ri b s (0 8 0 1 -0 2 1 0 ) H er ki m er R iv er C (T ) A ci d /B as e (p H ) A tm o sp h er ic D ep . 2 0 0 2 2 6 O n t 1 9 - 4 0 - 7 -P 4 1 6 ,P 4 1 7 L o w er , U p p er W es t P o n d ( 0 8 0 1 -0 2 8 4 ) L ew is L ak e C (T ) A ci d /B as e (p H ) A tm o sp h er ic D ep . 1 9 9 8 O n t 1 9 - 4 0 -1 0 -4 -P 4 1 9 ,P 2 8 6 G o o se P o n d , M ei st er P o n d ( 0 8 0 1 -0 2 8 6 ) L ew is L ak e C (T ) A ci d /B as e (p H ) A tm o sp h er ic D ep . 1 9 9 8 O n t 1 9 - 4 0 -1 5 -4 -P 4 3 6 * S an d P o n d ( 0 8 0 1 -0 0 5 5 ) L ew is L ak e C (T ) A ci d /B as e (p H ) A tm o sp h er ic D ep . 1 9 9 8 O n t 1 9 - 4 0 -1 8 -3 -P 4 4 1 ,P 4 4 2 * C ro o ke d L ak e, M cC ab e P o n d ( 0 8 0 1 -0 1 4 4 ) H er ki m er L ak e D A ci d /B as e (p H ) A tm o sp h er ic D ep . 1 9 9 8 2 7 O n t 1 9 - 4 0 -1 8 .. P 4 4 3 t h ru P 4 4 8 * P ep p er b o x P o n d , S p ri n g P o n d s, T ie d L ak e ( 0 8 0 1 -0 0 7 6 ) H er ki m er L ak e D A ci d /B as e (p H ) A tm o sp h er ic D ep . 1 9 9 8 2 8 O n t 1 9 - 4 0 -1 9 -P 4 5 6 t h ru P 4 5 9 * M in o r L ak es T ri b t o T h re e M il e C r W sh ed ( 0 8 0 1 -0 4 5 3 ) H er ki m er L ak e C A ci d /B as e (p H ) A tm o sp h er ic D ep . 1 9 9 8 2 9 O n t 1 9 -4 0 -2 0 -P 4 7 3 ,P 4 7 4 * S u n d ay L ak e, S u n d ay C re ek R es er vo ir ( 0 8 0 1 -0 1 9 5 ) H er ki m er L ak e C (T ) A ci d /B as e (p H ) A tm o sp h er ic D ep . 2 0 0 8 3 0 O n t 1 9 -4 0 -2 2 -P 4 7 9 t h ru P 4 9 2 * M in o r L ak es T ri b t o M o sh ie r C re ek ( 0 8 0 1 -0 0 3 9 ) H er ki m er L ak e C A ci d /B as e (p H ) A tm o sp h er ic D ep . 1 9 9 8 3 1 O n t 1 9 - 4 0 -P 4 9 3 - 2 -P 4 9 4 ,P 4 9 6 * S h al lo w P o n d , R av en L ak e (0 8 0 1 -0 1 0 7 ) H er ki m er L ak e D A ci d /B as e (p H ) A tm o sp h er ic D ep . 1 9 9 8 O n t 1 9 - 4 0 -P 4 9 3 - 2 -P 4 9 8 * L yo n s L ak e (0 8 0 1 -0 1 0 9 ) H er ki m er L ak e C A ci d /B as e (p H ) A tm o sp h er ic D ep . 1 9 9 8 3 2 O n t 1 9 - 4 0 -P 4 9 3 - 3 -P 4 9 9 * S li m P o n d ( 0 8 0 1 -0 1 2 5 ) H er ki m er L ak e C (T ) A ci d /B as e (p H ) A tm o sp h er ic D ep . 1 9 9 8 O n t 1 9 - 4 0 -P 4 9 3 - 4 -P 5 0 0 * E ve rg re en L ak e (0 8 0 1 -0 1 1 0 ) H er ki m er L ak e C (T ) A ci d /B as e (p H ) A tm o sp h er ic D ep . 1 9 9 8 3 3 A D D 09 2 N ew Y or k S ta te F in a l 20 10 S ec ti on 3 03 (d ) L is t Ju n e 20 10 W at er I n d ex N u m b er W at er b od y N am e (W I/ P W L I D ) C ou n ty T yp e C la ss C au se /P ol lu ta n t S ou rc e Y ea r T h e sp ec if ic al ly i d en ti fi ed i m p ai re d w at er (s ) in t h is s eg m en t al so i n cl u d e u n n am ed p o n d ( P 5 0 6 ). 3 4 T h e sp ec if ic al ly i d en ti fi ed i m p ai re d w at er (s ) in t h is s eg m en t al so i n cl u d e u n n am ed p o n d ( P 5 1 0 ). 3 5 T h e sp ec if ic al ly i d en ti fi ed i m p ai re d w at er (s ) in t h is s eg m en t al so i n cl u d e u n n am ed p o n d s (P 5 1 2 , P 5 1 3 , P 5 1 6 ). 3 6 T h e sp ec if ic al ly i d en ti fi ed i m p ai re d w at er (s ) in t h is s eg m en t in cl u d e E as t H ig b y T w in s P o n d ( P 5 2 2 ), W es t H ig b y T w in s P o n d ( P 5 2 3 ), M u d P o n d ( P 5 2 4 ), u n n am ed p o n d ( P 5 2 6 ), S u m m it P o n d 3 7 (P 5 2 7 ) an d W il d er P o n d ( P 5 3 1 ). T h e sp ec if ic al ly i d en ti fi ed i m p ai re d w at er (s ) in t h is s eg m en t in cl u d e F ly P o n d W es t (P 5 5 8 ). 3 8 T h e sp ec if ic al ly i d en ti fi ed i m p ai re d w at er (s ) in t h is s eg m en t in cl u d e u n n am ed p o n d ( P 5 6 9 ); R o se P o n d i s n o t co n si d er ed t o b e im p ai re d . 3 9 T h e sp ec if ic al ly i d en ti fi ed i m p ai re d w at er (s ) in t h is s eg m en t in cl u d e P o ck et P o n d ( P 5 8 1 ). 4 0 T h e sp ec if ic al ly i d en ti fi ed i m p ai re d w at er (s ) in t h is s eg m en t in cl u d e C o rk P o n d ( P 6 0 7 ), S p ec ta cl e P o n d W es t (P 6 1 1 ), S p ec ta cl e P o n d E as t (P 6 1 2 ) an d M ah an P o n d ( P 6 1 3 ); E vi es P o n d , L o n g 4 1 L ak e, F is h P o n d a re n o t co n si d er ed t o b e im p ai re d .. T h e sp ec if ic al ly i d en ti fi ed i m p ai re d w at er (s ) in t h is s eg m en t al so i n cl u d e S te w ar t P o n d ( P 6 2 7 ). 4 2 10 P ar t 2a - M u lt ip le S eg m en t/ C at eg or ic al I m p ai re d W at er b od y S eg m en ts ( at m os p h er ic d ep os it io n ) (c on ’t ) B la ck R iv er D ra in ag e B as in ( co n ’t ) O n t 1 9 - 4 0 -P 4 9 3 - 5 -P 5 0 2 /6 -P 5 0 5 * P ea ke d M tn . L ak e, H id d en L ak e (0 8 0 1 -0 1 1 1 ) H er ki m er L ak e C (T ) A ci d /B as e (p H ) A tm o sp h er ic D ep . 1 9 9 8 3 4 O n t 1 9 - 4 0 -P 4 9 3 - 6 .. P 5 0 8 .P 5 1 1 * G in ge r P o n d , S o d a P o n d ( 0 8 0 1 -0 1 2 6 ) H er ki m er L ak e D A ci d /B as e (p H ) A tm o sp h er ic D ep . 1 9 9 8 3 5 O n t 1 9 - 4 0 -P 4 9 3 - 6 -P 5 1 5 * D is m al P o n d ( 0 8 0 1 -0 0 6 5 ) H er ki m er L ak e D A ci d /B as e (p H ) A tm o sp h er ic D ep . 1 9 9 8 3 6 O n t 1 9 - 4 0 -P 4 9 3 .. P 5 2 2 t h ru P 5 3 5 * M in o r L ak es T ri b t o R ed H o rs e C re ek ( 0 8 0 1 -0 0 6 8 ) H er ki m er L ak e C (T ) A ci d /B as e (p H ) A tm o sp h er ic D ep . 1 9 9 8 3 7 O n t 1 9 - 4 0 -P 4 9 3 -1 9 -P 5 4 7 t h ru P 5 6 5 M in o r L ak es T ri b t o S h in gl e S h an ty B ro o k (0 8 0 1 -0 1 4 9 ) H am il to n L ak e C (T ) A ci d /B as e (p H ) A tm o sp h er ic D ep . 1 9 9 8 3 8 O n t 1 9 - 4 0 -P 4 9 3 -2 1 - 1 -P 5 6 8 R o se P o n d ( 0 8 0 1 -0 3 0 8 ) H am il to n L ak e C (T ) A ci d /B as e (p H ) A tm o sp h er ic D ep . 1 9 9 8 3 9 O n t 1 9 - 4 0 -P 4 9 3 -2 1 -1 -P 5 7 0 * T er ro r L ak e (0 8 0 1 -0 0 1 8 ) H am il to n L ak e C (T ) A ci d /B as e (p H ) A tm o sp h er ic D ep . 1 9 9 8 O n t 1 9 - 4 0 -P 4 9 3 -2 1 -P 5 7 1 * E as t P o n d ( 0 8 0 1 -0 0 6 6 ) H er ki m er L ak e C (T ) A ci d /B as e (p H ) A tm o sp h er ic D ep . 1 9 9 8 O n t 1 9 - 4 0 -P 4 9 3 -3 2 T w it ch el l C re ek a n d t ri b s (0 8 0 1 -0 2 1 1 ) H er ki m er R iv er C (T ) A ci d /B as e (p H ) A tm o sp h er ic D ep . 2 0 0 2 O n t 1 9 - 4 0 -P 4 9 3 -3 2 -P 5 7 8 t h ru 5 8 7 * M in o r L ak es T ri b t o T w it ch el l C re ek ( 0 8 0 1 -0 0 7 7 ) H er ki m er L ak e C (T ) A ci d /B as e (p H ) A tm o sp h er ic D ep . 1 9 9 8 4 0 O n t 1 9 - 4 0 -P 4 9 3 -3 2 -1 5 -P 5 8 0 S il ve r L ak e (0 8 0 1 -0 1 5 0 ) H am il to n L ak e C (T ) A ci d /B as e (p H ) A tm o sp h er ic D ep . 1 9 9 8 O n t 1 9 - 4 0 -P 4 9 3 -3 2 -P 5 8 4 T w it ch el l L ak e (0 8 0 1 -0 1 6 5 ) H er ki m er L ak e A (T ) A ci d /B as e (p H ) A tm o sp h er ic D ep . 1 9 9 8 O n t 1 9 - 5 7 - 5 -P 6 0 8 ,P 6 1 0 ,P 6 1 5 * E vi es P o n d , L o n g L ak e, F is h P o n d ( 0 8 0 1 -0 3 2 3 ) L ew is L ak e C A ci d /B as e (p H ) A tm o sp h er ic D ep . 1 9 9 8 4 1 O n t 1 9 - 5 7 - 7 -P 6 2 8 ,P 6 3 0 * T ro u t P o n d , B il l's P o n d ( 0 8 0 1 -0 1 2 7 ) L ew is L ak e D A ci d /B as e (p H ) A tm o sp h er ic D ep . 1 9 9 8 4 2 A D D 09 3 N ew Y or k S ta te F in a l 20 10 S ec ti on 3 03 (d ) L is t Ju n e 20 10 W at er I n d ex N u m b er W at er b od y N am e (W I/ P W L I D ) C ou n ty T yp e C la ss C au se /P ol lu ta n t S ou rc e Y ea r T h e sp ec if ic al ly i d en ti fi ed i m p ai re d w at er (s ) in t h is s eg m en t al so i n cl u d e M ik es P o n d ( P 6 3 1 ), u n n am ed p o n d ( P 6 3 6 ), u n n am ed p o n d ( P 6 3 8 ) an d B lu e P o n d ( P 6 4 0 ). 4 3 T h e sp ec if ic al ly i d en ti fi ed i m p ai re d w at er (s ) in t h is s eg m en t in cl u d e u n n am ed p o n d ( P 6 4 5 ) an d u n n am ed p o n d ( P 6 4 6 ); I n d ep en d en ce L ak e is n o t co n si d er ed t o b e im p ai re d . 4 4 T h e sp ec if ic al ly i d en ti fi ed i m p ai re d w at er (s ) in t h is s eg m en t in cl u d e W es t P o n d ( P 6 7 5 ), E as t P o n d ( P 6 8 7 ), B la ck F o o t P o n d ( P 6 8 1 ) an d u n n am ed p o n d ( P 6 7 9 ). 4 5 T h e sp ec if ic al ly i d en ti fi ed i m p ai re d w at er (s ) in t h is s eg m en t in cl u d e B ra d le y B ro o k an d C el la r B ro o k; t h e S o u th B ra n ch M o o se R iv er i s n o t co n si d er ed t o b e im p ai re d . 4 6 T h e sp ec if ic al ly i d en ti fi ed i m p ai re d w at er (s ) in t h is s eg m en t in cl u d e L o st L ak e (P 7 0 2 ). 4 7 T h e sp ec if ic al ly i d en ti fi ed i m p ai re d w at er (s ) in t h is s eg m en t in cl u d e B al d M o u n ta in B ro o k (- P 7 3 9 -3 ); t h e N o rt h B ra n ch M o o se R iv er i s n o t co n si d er ed t o b e im p ai re d . 4 8 T h e sp ec if ic al ly i d en ti fi ed i m p ai re d w at er (s ) in t h is s eg m en t in cl u d e a n u m b er o f sm al le r p o n d s, i n cl u d in g u n n am ed p o n d ( P 7 3 7 ); T h ir st y P o n d i s n o t co n si d er ed t o b e im p ai re d . 4 9 T h e sp ec if ic al ly i d en ti fi ed i m p ai re d w at er (s ) in t h is s eg m en t in cl u d e C o n st ab le C re ek , W es t P o n d O u tl et a n d S q u as h P o n d O u tl et . 5 0 T h e sp ec if ic al ly i d en ti fi ed i m p ai re d w at er (s ) in t h is s eg m en t in cl u d e S q u as h P o n d ( P 7 5 4 ), S il ve r D o ll ar P o n d ( P 7 5 5 ), M er ri am L ak e (P 7 5 6 ), G u ll L ak e S o u th ( P 7 5 8 ), u n n am ed p o n d ( P 7 5 9 ), 5 1 G u ll L ak e N o rt h ( P 7 6 2 ), u n n am ed p o n d ( P 7 6 5 ) an d u n n am ed p o n d ( P 7 6 6 ) . T h e sp ec if ic al ly i d en ti fi ed i m p ai re d w at er (s ) in t h is s eg m en t al so i n cl u d e u n n am ed p o n d ( P 7 7 1 ) an d u n n am ed p o n d ( P 7 7 3 ). 5 2 11 P ar t 2a - M u lt ip le S eg m en t/ C at eg or ic al I m p ai re d W at er b od y S eg m en ts ( at m os p h er ic d ep os it io n ) (c on ’t ) B la ck R iv er D ra in ag e B as in ( co n ’t ) O n t 1 9 - 5 7 - 9 -2 -P 6 3 2 ,P 6 3 5 ,P 6 3 8 * P an th er , F if th C re ek , L en n o n P o n d s (0 8 0 1 -0 0 7 5 ) L ew is L ak e C (T ) A ci d /B as e (p H ) A tm o sp h er ic D ep . 1 9 9 8 4 3 O n t 1 9 - 5 7 -2 3 -P 6 4 7 * In d ep en d en ce L ak e (0 8 0 1 -0 3 2 7 ) H er ki m er L ak e C (T ) A ci d /B as e (p H ) A tm o sp h er ic D ep . 1 9 9 8 4 4 O n t 1 9 - 5 7 -P 6 5 1 * L it tl e D ia m o n d P o n d ( 0 8 0 1 -0 1 5 3 ) H am il to n L ak e C (T ) A ci d /B as e (p H ) A tm o sp h er ic D ep . 1 9 9 8 O n t 1 9 - 6 0 -P 6 7 4 t h ru P 6 8 4 * M in o r L ak es T ri b t o U p p er O tt er C re ek ( 0 8 0 1 -0 0 4 1 ) H er ki m er L ak e C (T ) A ci d /B as e (p H ) A tm o sp h er ic D ep . 1 9 9 8 4 5 O n t 1 9 - 8 1 S o u th B r. M o o se R iv er , U p p er , an d t ri b s (0 8 0 1 -0 3 4 6 ) H am il to n R iv er C (T ) A ci d /B as e (p H ) A tm o sp h er ic D ep . 1 9 9 8 4 6 O n t 1 9 - 8 1 - 7 - 1 .. P 7 0 2 t h ru P 7 0 8 * M in o r L ak es T ri b t o U p p er P in e C re ek ( 0 8 0 1 -0 0 7 2 ) L ew is L ak e C (T ) A ci d /B as e (p H ) A tm o sp h er ic D ep . 1 9 9 8 4 7 O n t 1 9 - 8 1 -1 8 -1 7 N o rt h B ra n ch M o o se R iv er a n d t ri b s (0 8 0 1 -0 2 1 2 ) H er ki m er R iv er C (T ) A ci d /B as e (p H ) A tm o sp h er ic D ep . 2 0 0 2 4 8 O n t 1 9 - 8 1 -1 8 -1 7 -1 4 -P 7 3 6 .. P 7 3 8 T h ir st y P o n d ( 0 8 0 1 -0 1 5 4 ) H am il to n L ak e C (T ) A ci d /B as e (p H ) A tm o sp h er ic D ep . 1 9 9 8 4 9 O n t 1 9 - 8 1 -1 8 -1 7 -P 7 5 2 B ig M o o se L ak e (0 8 0 1 -0 0 3 5 ) H er ki m er L ak e A (T ) A ci d /B as e (p H ) A tm o sp h er ic D ep . 2 0 0 2 O n t 1 9 - 8 1 -1 8 -1 7 -P 7 5 2 - T ri b s to B ig M o o se L ak e (0 8 0 1 -0 2 1 3 ) H er ki m er R iv er C (T ) A ci d /B as e (p H ) A tm o sp h er ic D ep . 2 0 0 2 5 0 O n t 1 9 - 8 1 -1 8 -1 7 .. P 7 5 3 t o P 7 6 7 * M in o r L ak es T ri b t o B ig M o o se L ak e, N W ( 0 8 0 1 -0 0 5 0 ) H am il to n L ak e A A A ci d /B as e (p H ) A tm o sp h er ic D ep . 1 9 9 8 5 1 O n t 1 9 - 8 1 -1 8 -1 7 -P 7 5 2 .. P 7 6 0 * O tt er P o n d ( 0 8 0 1 -0 0 1 6 ) H am il to n L ak e C (T ) A ci d /B as e (p H ) A tm o sp h er ic D ep . 1 9 9 8 O n t 1 9 - 8 1 -1 8 -1 7 -P 7 5 2 .. P 7 6 8 ,P 7 6 9 * L o w er , U p p er S is te r L ak es ( 0 8 0 1 -0 0 0 4 ) H am il to n L ak e C (T ) A ci d /B as e (p H ) A tm o sp h er ic D ep . 1 9 9 8 O n t 1 9 - 8 1 -1 8 -1 7 -P 7 5 2 .. P 7 7 2 S o u th P o n d ( 0 8 0 1 -0 0 5 7 ) H er ki m er L ak e C (T ) A ci d /B as e (p H ) A tm o sp h er ic D ep . 1 9 9 8 5 2 A D D 09 4 N ew Y or k S ta te F in a l 20 10 S ec ti on 3 03 (d ) L is t Ju n e 20 10 W at er I n d ex N u m b er W at er b od y N am e (W I/ P W L I D ) C ou n ty T yp e C la ss C au se /P ol lu ta n t S ou rc e Y ea r T h e sp ec if ic al ly i d en ti fi ed i m p ai re d w at er (s ) in t h is s eg m en t in cl u d e P u g H o le ( M ay s) P o n d ( P 7 7 5 ) an d P ig eo n L ak e (P 7 7 9 ). 5 3 T h e sp ec if ic al ly i d en ti fi ed i m p ai re d w at er (s ) in t h is s eg m en t in cl u d e S ev en th L ak e In le t (- 2 ), B u ck C re ek a n d W h ee le r C re ek . 5 4 T h e sp ec if ic al ly i d en ti fi ed i m p ai re d w at er (s ) in t h is s eg m en t al so i n cl u d e u n n am ed p o n d ( P 7 9 2 ). 5 5 T h e sp ec if ic al ly i d en ti fi ed i m p ai re d w at er (s ) in t h is s eg m en t al so i n cl u d e u n n am ed p o n d ( P 8 4 0 ) an d u n n am ed p o n d ( P 8 4 6 ). 5 6 T h e sp ec if ic al ly i d en ti fi ed i m p ai re d w at er (s ) in t h is s eg m en t al so i n cl u d e u n n am ed p o n d ( P 8 5 1 ) an d M u sk ra t P o n d ( P 8 5 3 ). 5 7 T he s pe ci fi ca ll y id en ti fi ed i m pa ir ed w at er (s ) in t hi s se gm en t al so i nc lu de u n na m ed p o nd ( P 85 6) , u nn am ed p o nd ( P 86 7a ), u n na m ed p o nd ( P 85 8) , T w in L ak e L ow er ( P 85 9) , T w in L ak e U pp er 5 8 (P 8 6 0 ), L it tl e D ee r L ak e (P 8 6 1 ) an d u n n am ed p o n d ( P 8 6 3 ). T h e sp ec if ic al ly i d en ti fi ed i m p ai re d w at er (s ) in t h is s eg m en t in cl u d e u n n am ed p o n d ( P 8 6 4 a) , D ee p L ak e (P 8 6 6 ), T w in L ak e W es t (P 8 6 9 ), T w in L ak e E as t (P 8 7 0 ), u n n am ed p o n d ( P 8 7 1 ), 5 9 u n n am ed p o n d ( P 8 7 2 ), W o lf L ak e (P 8 7 3 ) an d N o rt h ru p L ak e (P 8 7 5 ). T h e sp ec if ic al ly i d en ti fi ed i m p ai re d w at er (s ) in t h is s eg m en t in cl u d e B ea r P o n d ( P 8 8 0 ). 6 0 T h e sp ec if ic al ly i d en ti fi ed i m p ai re d w at er (s ) in t h is s eg m en t in cl u d e sm al le r Ji m m y P o n d ( P 8 8 6 ); F al ls P o n d i s n o t co n si d er ed t o b e im p ai re d . 6 1 12 P ar t 2a - M u lt ip le S eg m en t/ C at eg or ic al I m p ai re d W at er b od y S eg m en ts ( at m os p h er ic d ep os it io n ) (c on ’t ) B la ck R iv er D ra in ag e B as in ( co n ’t ) O n t 1 9 - 8 1 -1 8 -1 7 -P 7 7 5 t o P 7 7 9 * M in o r L ak es T ri b t o B ig M o o se L ak e, S E ( 0 8 0 1 -0 0 1 7 ) H am il to n L ak e C (T ) A ci d /B as e (p H ) A tm o sp h er ic D ep . 1 9 9 8 5 3 O n t 1 9 - 8 1 -1 8 -1 7 -P 7 5 2 -9 -P 7 7 7 * C o n st ab le P o n d ( 0 8 0 1 -0 2 1 4 ) H er ki m er R iv er C (T ) A ci d /B as e (p H ) A tm o sp h er ic D ep . 2 0 0 2 O n t 1 9 - 8 1 -1 8 -P 7 9 2 d .. P 7 8 7 a- 2 T ri b s to F u lt o n C h ai n L ak es ( 0 8 0 1 -0 2 0 7 ) H am il to n R iv er C (T ) A ci d /B as e (p H ) A tm o sp h er ic D ep . 2 0 0 2 5 4 O n t 1 9 - 8 1 -1 8 -P 7 8 2 d .. .P 7 8 8 * E ag le s N es t L ak e (0 8 0 1 -0 0 1 1 ) H am il to n L ak e C (T ) A ci d /B as e (p H ) A tm o sp h er ic D ep . 1 9 9 8 5 5 O n t 1 9 - 8 1 -5 1 - 2 -P 8 3 6 ,P 8 3 7 * S ti n k L ak e, B al sa m L ak e (0 8 0 1 -0 0 3 4 ) H er ki m er L ak e C (T ) A ci d /B as e (p H ) A tm o sp h er ic D ep . 1 9 9 8 O n t 1 9 - 8 1 -5 2 -P 8 4 1 * K et tl e P o n d ( 0 8 0 1 -0 1 3 1 ) H er ki m er L ak e C (T ) A ci d /B as e (p H ) A tm o sp h er ic D ep . 1 9 9 8 5 6 O n t 1 9 - 8 1 -5 8 -5 -P 8 5 2 In d ia n L ak e (0 8 0 1 -0 0 0 2 ) H am il to n L ak e C (T ) A ci d /B as e (p H ) A tm o sp h er ic D ep . 1 9 9 8 5 7 O n t 1 9 - 8 1 -5 8 -1 2 -P 8 5 4 ,P 8 5 5 * H o rn L ak e, M o u n ta in L ak e (0 8 0 1 -0 0 5 2 ) H er ki m er L ak e C (T ) A ci d /B as e (p H ) A tm o sp h er ic D ep . 1 9 9 8 5 8 O n t 1 9 - 8 1 -5 8 -2 2 -2 -3 -P 8 6 2 t o P 8 7 5 * M in o r L ak es T ri b t o I n d ia n R iv er ( 0 8 0 1 -0 0 1 0 ) H am il to n L ak e C (T ) A ci d /B as e (p H ) A tm o sp h er ic D ep . 1 9 9 8 5 9 O n t 1 9 - 8 1 -5 8 -2 5 -P 8 7 4 * B ro o k T ro u t L ak e (0 8 0 1 -0 0 0 9 ) H am il to n L ak e C (T ) A ci d /B as e (p H ) A tm o sp h er ic D ep . 1 9 9 8 O n t 1 9 - 8 1 -6 0 .. P 8 7 6 t h ru P 8 8 0 * M in o r L ak es T ri b t o B en ed ic t C re ek ( 0 8 0 1 -0 0 2 9 ) H am il to n L ak e C (T ) A ci d /B as e (p H ) A tm o sp h er ic D ep . 1 9 9 8 6 0 O n t 1 9 - 8 1 -6 1 - 4 -P 8 8 5 * F al ls P o n d ( 0 8 0 1 -0 3 9 9 ) H am il to n L ak e C (T ) A ci d /B as e (p H ) A tm o sp h er ic D ep . 1 9 9 8 6 1 O n t 1 9 - 8 1 -6 9 -P 8 8 8 * S ly P o n d ( 0 8 0 1 -0 0 0 7 ) H am il to n L ak e C A ci d /B as e (p H ) A tm o sp h er ic D ep . 1 9 9 8 O n t 1 9 - 8 1 -7 1 - 2 -1 -P 8 8 9 * C el la r P o n d ( 0 8 0 1 -0 0 0 1 ) H am il to n L ak e C (T ) A ci d /B as e (p H ) A tm o sp h er ic D ep . 1 9 9 8 O n t 1 9 - 8 8 -P 9 0 5 B ar n es L ak e (0 8 0 1 -0 1 3 4 ) L ew is L ak e C (T ) A ci d /B as e (p H ) A tm o sp h er ic D ep . 1 9 9 8 A D D 09 5 N ew Y or k S ta te F in a l 20 10 S ec ti on 3 03 (d ) L is t Ju n e 20 10 W at er I n d ex N u m b er W at er b od y N am e (W I/ P W L I D ) C ou n ty T yp e C la ss C au se /P ol lu ta n t S ou rc e Y ea r T h e sp ec if ic al ly i d en ti fi ed i m p ai re d w at er (s ) in t h is s eg m en t in cl u d e sm al le r u n n am ed p o n d ( P 9 0 6 ); R o u n d P o n d i s n o t co n si d er ed t o b e im p ai re d . 6 2 T h e sp ec if ic al ly i d en ti fi ed i m p ai re d w at er (s ) in t h is s eg m en t in cl u d e sm al le r u n n am ed p o n d ( P 9 4 6 ); D ea d L ak e is n o t co n si d er ed t o b e im p ai re d . 6 3 T h e sp ec if ic al ly i d en ti fi ed i m p ai re d w at er (s ) in t h is s eg m en t al so i n cl u d e C o tt o n L ak e (P 9 9 4 ). 6 4 T h e sp ec if ic al ly i d en ti fi ed i m p ai re d w at er (s ) in t h is s eg m en t in cl u d e S n yd er L ak e (P 1 0 1 1 ) an d u n n am ed p o n d ( P 1 0 1 6 ). 6 5 P re vi o u sl y li st ed i n e rr o r w it h L ak e C h am p la in B as in s eg m en ts a s 1 0 0 3 -0 0 0 2 i n A p p en d ix A a s S m al le r L ak e Im p ai re d b y A ci d R ai n . 6 6 P re vi o u sl y li st ed a s L o w er T w in P o n d ( 0 9 0 2 -0 0 4 5 ). 6 7 P re vi o u sl y li st ed a s B en z P o n d ( 0 9 0 2 -0 0 2 1 ). 6 8 P re vi o u sl y li st ed a s S p ri n g P o n d ( 0 9 0 3 -0 0 4 1 ). 6 9 13 P ar t 2a - M u lt ip le S eg m en t/ C at eg or ic al I m p ai re d W at er b od y S eg m en ts ( at m os p h er ic d ep os it io n ) (c on ’t ) B la ck R iv er D ra in ag e B as in ( co n ’t ) O n t 1 9 - 8 8 -P 9 0 7 R o u n d P o n d ( 0 8 0 1 -0 4 0 7 ) L ew is L ak e C (T ) A ci d /B as e (p H ) A tm o sp h er ic D ep . 1 9 9 8 6 2 O n t 1 9 -1 0 4 - 2 - 5 -P 9 4 8 D ea d L ak e (0 8 0 1 -0 4 2 7 ) H er ki m er L ak e C A ci d /B as e (p H ) A tm o sp h er ic D ep . 1 9 9 8 6 3 O n t 1 9 -1 0 4 -2 -P 9 5 1 ,- 1 -P 9 5 2 * L it tl e W o o d h u ll L ak e, L il y L ak e (0 8 0 1 -0 0 7 0 ) H er ki m er L ak e C (T ) A ci d /B as e (p H ) A tm o sp h er ic D ep . 1 9 9 8 O n t 1 9 -1 1 4 -P 9 9 5 ,P 9 9 6 * B u rp L ak e, B la ck C re ek L ak e (0 8 0 1 -0 1 3 9 ) H er ki m er L ak e C (T ) A ci d /B as e (p H ) A tm o sp h er ic D ep . 1 9 9 8 6 4 O n t 1 9 -1 2 8 -6 -P 1 0 0 3 * L it tl e S al m o n L k. ( 0 8 0 1 -0 1 4 0 ) H er ki m er L ak e C (T ) A ci d /B as e (p H ) A tm o sp h er ic D ep . 1 9 9 8 O n t 1 9 -P 1 0 0 7 -1 0 -3 -P 1 0 0 8 t o P 1 0 1 6 M in o r L ak es T ri b t o N o rt h L ak e (0 8 0 1 -0 0 8 0 ) H er ki m er L ak e C (T ) A ci d /B as e (p H ) A tm o sp h er ic D ep . 1 9 9 8 6 5 S ai n t L aw re n ce R iv er D ra in ag e B as in S L C -2 9 -P 6 5 W o lf P o n d ( 0 9 0 2 -0 0 0 6 ) F ra n kl in L ak e B A ci d /B as e (p H ) A tm o sp h er ic D ep . 1 9 9 8 S L C -2 9 -P 6 8 C at am o u n t P o n d ( 0 9 0 2 -0 0 9 2 ) F ra n kl in L ak e C (T ) A ci d /B as e (p H ) A tm o sp h er ic D ep . 1 9 9 8 6 6 S L C -3 2 - 6 -P 7 3 -2 6 -P 0 7 9 D ia m o n d L ak e (0 9 0 2 -0 0 1 1 ) F ra n kl in L ak e D A ci d /B as e (p H ) A tm o sp h er ic D ep . 1 9 9 8 S L C -3 2 -2 0 -4 1 -P 1 0 1 ,P 1 0 2 L o w er , U p p er T w in P o n d s, m o re ( 0 9 0 2 -0 0 4 5 ) S t. L aw re n ce L ak e C (T ) A ci d /B as e (p H ) A tm o sp h er ic D ep . 1 9 9 8 6 7 S L C -3 2 -6 6 -P 2 1 7 ,- 6 7 -P 2 2 1 * D u ck P o n d , B en z P o n d ( 0 9 0 2 -0 0 2 1 ) S t. L aw re n ce L ak e D A ci d /B as e (p H ) A tm o sp h er ic D ep . 1 9 9 8 6 8 S L - 1 -4 6 -P 3 1 Jo e In d ia n L ak e (0 9 0 3 -0 0 6 0 ) S t. L aw re n ce L ak e C (T ) A ci d /B as e (p H ) A tm o sp h er ic D ep . 1 9 9 8 S L - 1 -P 1 0 9 -1 1 -2 -4 -P 1 1 6 L o st P o n d ( 0 9 0 3 -0 0 5 7 ) H am il to n L ak e D A ci d /B as e (p H ) A tm o sp h er ic D ep . 1 9 9 8 S L - 1 -P 1 0 9 -1 1 -2 -P 1 2 0 .. .P 1 2 9 * R o ck P o n d ( 0 9 0 3 -0 0 0 3 ) H am il to n L ak e B (T ) A ci d /B as e (p H ) A tm o sp h er ic D ep . 1 9 9 8 S L - 1 -P 1 0 9 -1 1 -P 1 4 4 .. .P 1 4 7 * H ig h P o n d ( 0 9 0 3 -0 0 0 1 ) H am il to n L ak e C (T ) A ci d /B as e (p H ) A tm o sp h er ic D ep . 1 9 9 8 S L - 1 -P 1 0 9 -1 1 -P 1 4 4 .. .P 1 4 8 * L it tl e P in e P o n d ( 0 9 0 3 -0 0 2 8 ) S t. L aw re n ce L ak e D A ci d /B as e (p H ) A tm o sp h er ic D ep . 1 9 9 8 S L - 1 -P 1 0 9 -1 1 -P 1 5 6 .. P 1 6 0 ,P 1 6 1 ,P 1 6 2 S p ru ce G ro u se , S p ri n g, G ra ve s P o n d s (0 9 0 3 -0 0 4 1 ) S t. L aw re n ce L ak e C (T ) A ci d /B as e (p H ) A tm o sp h er ic D ep . 1 9 9 8 6 9A D D 09 6 N ew Y or k S ta te F in a l 20 10 S ec ti on 3 03 (d ) L is t Ju n e 20 10 W at er I n d ex N u m b er W at er b od y N am e (W I/ P W L I D ) C ou n ty T yp e C la ss C au se /P ol lu ta n t S ou rc e Y ea r P re vi o u sl y li st ed i n A p p en d ix A a s L o n e P o n d ( 0 9 0 3 -0 0 0 8 ); s eg m en t al so i n cl u d es p re vi o u sl y li st ed U n n am ed P o n d # 6 -3 2 3 . 7 0 P re vi o u sl y li st ed a s W o lf P o n d ( 0 9 0 4 -0 0 0 2 ). 7 1 P re vi o u sl y li st ed a s G re en P o n d ( 0 9 0 5 -0 0 3 5 ); s eg m en t al so i n cl u d es p re vi o u sl y li st ed L o o n H o ll o w P o n d ( 0 9 0 5 -0 1 0 5 ) an d t h e sm al le r la ke s K el ly P o n d ( 0 9 0 5 -0 0 7 3 ) an d u n n am ed p o n d # 4 -1 8 0 7 2 (0 9 0 5 -0 0 7 5 ). T h e sp ec if ic al ly i d en ti fi ed i m p ai re d w at er (s ) in t h is s eg m en t al so i n cl u d e p re vi o u sl y li st ed u n n am ed p o n d # 4 -1 9 4 ( 0 9 0 5 -0 0 6 0 ). 7 3 P re vi o u sl y li st ed a s B ea r P o n d ( 0 9 0 5 -0 0 6 2 ); s eg m en t al so i n cl u d es p re vi o u sl y li st ed D ia n a P o n d ( 0 9 0 5 -0 0 6 3 ). 7 4 P re vi o u sl y li st ed a s U p p er S o u th P o n d ( 0 9 0 5 -0 0 5 7 ). 7 5 P re vi o u sl y li st ed a s Ja ke s P o n d ( 0 9 0 5 -0 0 3 8 ). 7 6 T h e sp ec if ic al ly i d en ti fi ed i m p ai re d w at er (s ) in t h is s eg m en t al so i n cl u d e p re vi o u sl y li st ed U n n am ed P o n d # 4 -2 8 8 e (0 9 0 5 -0 0 7 8 ). 7 7 14 P ar t 2a - M u lt ip le S eg m en t/ C at eg or ic al I m p ai re d W at er b od y S eg m en ts ( at m os p h er ic d ep os it io n ) (c on ’t ) S ai n t L aw re n ce R iv er D ra in ag e B as in ( co n ’t ) S L - 1 -P 1 0 9 -1 1 -P 1 5 6 .. P 1 6 8 .. P 1 7 0 * H al fm o o n P o n d ( 0 9 0 3 -0 0 3 2 ) S t. L aw re n ce L ak e C (T ) A ci d /B as e (p H ) A tm o sp h er ic D ep . 1 9 9 8 S L - 1 -P 3 0 9 .. P 2 4 1 -2 2 -P 2 4 5 S o u th P o n d ( 0 9 0 3 -0 0 0 5 ) H am il to n L ak e C (T ) A ci d /B as e (p H ) A tm o sp h er ic D ep . 1 9 9 8 S L - 1 -P 3 0 9 .. P 2 4 1 -2 2 -P 2 4 5 -2 -P 2 4 7 S al m o n P o n d ( 0 9 0 3 -0 0 0 4 ) H am il to n L ak e C (T ) A ci d /B as e (p H ) A tm o sp h er ic D ep . 1 9 9 8 S L - 1 -P 3 0 9 .. P 2 4 1 .. P 2 7 6 .. P 2 7 8 P il gr im P o n d ( 0 9 0 3 -0 0 4 3 ) H am il to n L ak e D A ci d /B as e (p H ) A tm o sp h er ic D ep . 1 9 9 8 S L - 1 -P 2 9 3 -1 4 -1 -P 3 2 1 ,P 3 2 2 ,P 3 3 1 H ay m ar sh P o n d s, L o n e P o n d ( 0 9 0 3 -0 0 1 7 ) H am il to n L ak e D A ci d /B as e (p H ) A tm o sp h er ic D ep . 1 9 9 8 7 0 S L - 2 -5 9 -3 2 .. P 3 5 9 ,P 2 6 1 ,P 3 6 2 L en , W o lf , B ea ve r P o n d s (0 9 0 4 -0 0 0 2 ) S t. L aw re n ce L ak e C (T ) A ci d /B as e (p H ) A tm o sp h er ic D ep . 1 9 9 8 7 1 S L -2 5 -7 3 W .B r. O sw eg at ch ie ( 0 9 0 5 -0 0 0 3 ) L ew is R iv er F P A ci d /B as e (p H ) A tm o sp h er ic D ep . 1 9 9 8 S L -2 5 -7 3 -1 9 -5 -3 -P 1 3 6 D ry T im b er L ak e (0 9 0 5 -0 0 3 2 ) S t. L aw re n ce L ak e C (T ) A ci d /B as e (p H ) A tm o sp h er ic D ep . 1 9 9 8 S L -2 5 -7 3 -2 6 -3 8 -P 1 7 9 t h ru P 1 8 6 * G re gg L k, G re en , T w in , L o o n H o ll o w P d s (0 9 0 5 -0 0 3 5 ) H er ki m er L ak e D A ci d /B as e (p H ) A tm o sp h er ic D ep . 1 9 9 8 7 2 S L -2 5 -7 3 -2 6 -4 2 -1 -P 1 9 5 * M u sk ra t P o n d ( 0 9 0 5 -0 0 6 1 ) H er ki m er L ak e D A ci d /B as e (p H ) A tm o sp h er ic D ep . 1 9 9 8 7 3 S L -2 5 -7 3 -2 6 -4 2 -P 1 9 6 ,P 1 9 7 * B ea r P o n d , D ia n a P o n d ( 0 9 0 5 -0 0 6 2 ) H er ki m er L ak e D A ci d /B as e (p H ) A tm o sp h er ic D ep . 1 9 9 8 7 4 S L -2 5 -7 3 -2 6 -4 3 -P 1 9 8 ,P 1 9 9 ,P 2 0 0 * L o w er , M id d le , U p p er S o u th P o n d ( 0 9 0 5 -0 0 5 7 ) H er ki m er L ak e D A ci d /B as e (p H ) A tm o sp h er ic D ep . 1 9 9 8 7 5 S L -2 5 -7 3 .. P 2 4 0 t h ru P 2 4 7 * D es er t, J ak es , B u ck , H o g P o n d s (0 9 0 5 -0 0 3 8 ) H er ki m er L ak e C (T ) A ci d /B as e (p H ) A tm o sp h er ic D ep . 1 9 9 8 7 6 S L -2 5 -1 0 1 .. P 2 8 9 * C ry st al L ak e (0 9 0 5 -0 0 3 0 ) S t. L aw re n ce L ak e C (T ) A ci d /B as e (p H ) A tm o sp h er ic D ep . 1 9 9 8 7 7 A D D 09 7 N ew Y or k S ta te F in a l 20 10 S ec ti on 3 03 (d ) L is t Ju n e 20 10 W at er I n d ex N u m b er W at er b od y N am e (W I/ P W L I D ) C ou n ty T yp e C la ss C au se /P ol lu ta n t S ou rc e Y ea r T h e sp ec if ic al ly i d en ti fi ed i m p ai re d w at er (s ) in t h is s eg m en t in cl u d e p re vi o u sl y li st ed O ve n L ak e (0 9 0 5 -0 0 4 2 ), G ra ss y P o n d ( 0 9 0 5 -0 0 3 4 ), H yd e P o n d ( 0 9 0 5 -0 0 7 1 ), H it ch en s P o n d ( 0 9 0 5 -0 0 3 6 ) 7 8 an d s m al le r L it tl e D u ck P o n d ( 0 9 0 5 -0 0 8 9 ) an d J en ki n s P o n d ( 0 9 0 5 -0 0 6 9 ). T h is l is ti n g w as p re vi o u sl y li st ed a s M in o r L ak e T ri b t o U p p er S ar an ac L ak e (1 0 0 3 -0 0 8 6 ). H o w ev er t h e M in o r L ak e T ri b t o U p p er S ar an ac L ak e se gm en t h as b ee n d is co n ti n u ed a n d l ak es i n 7 9 th at w at er sh ed h av e b ee n r ea ss ig n ed t o m u lt ip le o th er m o re a p p ro p ri at e sm al le r la ke w at er sh ed s eg m en ts . w h ic h i n cl u d es S ai n t G er m ai n P o n d ( P 2 0 1 ) T h e sp ec if ic al ly i d en ti fi ed i m p ai re d w at er (s ) in t h is s eg m en t in cl u d e S ai n t G er m ai n P o n d ( P 2 0 1 ); L ak e C le ar i s n o t co n si d er ed t o b e im p ai re d . 8 0 T h e sp ec if ic al ly i d en ti fi ed i m p ai re d w at er (s ) in t h is s eg m en t in cl u d e L it tl e M o o se P o n d ( P 6 0 7 ). 8 1 T h e sp ec if ic al ly i d en ti fi ed i m p ai re d w at er (s ) in t h is s eg m en t in cl u d e S o u th P in e L ak e an d C ar ry P o n d ( P 6 6 9 ). 8 2 T h e sp ec if ic al ly i d en ti fi ed i m p ai re d w at er (s ) in t h is s eg m en t in cl u d e D ia m o n d L ak e (P 8 2 2 ). 8 3 15 P ar t 2a - M u lt ip le S eg m en t/ C at eg or ic al I m p ai re d W at er b od y S eg m en ts ( at m os p h er ic d ep os it io n ) (c on ’t ) S ai n t L aw re n ce R iv er D ra in ag e B as in ( co n ’t ) S L -2 5 -P 3 0 9 .. P 3 6 4 t h ru P 3 8 1 * M in o r L ak e T ri b t o U p p er O sw eg at ch ie ( 0 9 0 5 -0 0 0 5 ) H er ki m er L ak e C (T ) A ci d /B as e (p H ) A tm o sp h er ic D ep . 1 9 9 8 7 8 S L -2 5 -P 3 0 9 .. 1 4 0 -P 3 7 7 G u ll L ak e (0 9 0 5 -0 0 7 2 ) H er ki m er L ak e C (T ) A ci d /B as e (p H ) A tm o sp h er ic D ep . 1 9 9 8 L ak e C h am p la in D ra in ag e B as in C -1 5 -P 1 1 4 .. P 1 1 9 * L ak e C le ar ( 1 0 0 3 -0 1 0 9 ) F ra n kl in L ak e A A (T ) A ci d /B as e (p H ) A tm o sp h er ic D ep . 1 9 9 8 7 9 , 8 0 U p p er H u d so n R iv er D ra in ag e B as in H -3 6 3 -P 1 1 9 B u ll h ea d P o n d ( 1 1 0 1 -0 0 3 3 ) S ar at o ga L ak e C A ci d /B as e (p H ) A tm o sp h er ic D ep . 1 9 9 8 H -4 6 1 .. P 5 8 2 t h ru P 6 1 2 * M in o r L ak es T ri b t o I n d ia n R iv er /L ak e (1 1 0 4 -0 0 0 8 ) H am il to n L ak e C A ci d /B as e (p H ) A tm o sp h er ic D ep . 1 9 9 8 8 1 H -4 6 9 .. P 6 2 4 t h ru P 6 6 9 M in o r L ak es T ri b t o C ed ar R iv er ( 1 1 0 4 -0 0 0 3 ) H am il to n L ak e C A ci d /B as e (p H ) A tm o sp h er ic D ep . 1 9 9 8 8 2 H -5 0 3 -P 6 8 0 /P 6 8 2 - 6 .. P 6 8 7 * R o u n d P o n d ( 1 1 0 4 -0 0 7 3 ) H am il to n L ak e F P A ci d /B as e (p H ) A tm o sp h er ic D ep . 1 9 9 8 M o h aw k R iv er D ra in ag e B as in H -2 4 0 -1 4 4 -1 3 .. P 7 2 7 ,P 7 2 9 ,P 7 3 0 G re en , O tt er , S te w ar t L ak es (1 2 0 1 -0 0 0 9 ) F u lt o n L ak e B A ci d /B as e (p H ) A tm o sp h er ic D ep . 1 9 9 8 H -2 4 0 -1 4 4 -1 3 .. P 7 3 2 Ir vi n g P o n d ( 1 2 0 1 -0 2 3 0 ) F u lt o n L ak e B A ci d /B as e (p H ) A tm o sp h er ic D ep . 1 9 9 8 H -2 4 0 -1 4 4 -4 3 -P 7 8 6 M o re h o u se L ak e (1 2 0 1 -0 0 8 0 ) H am il to n L ak e B (T ) A ci d /B as e (p H ) A tm o sp h er ic D ep . 1 9 9 8 H -2 4 0 -1 4 4 -4 4 -P 7 9 0 ,P 7 9 0 a * B ig A ld er b ed P d , B li n d M an s V ly ( 1 2 0 1 -0 0 0 2 ) H am il to n L ak e C (T ) A ci d /B as e (p H ) A tm o sp h er ic D ep . 1 9 9 8 H -2 4 0 -1 8 0 ( p o rt io n 5 ) W es t C an ad a C re ek , U p p , an d t ri b s (1 2 0 3 -0 0 0 8 ) H er ki m er R iv er A (T )/ F P A ci d /B as e (p H ) A tm o sp h er ic D ep . 1 9 9 8 H -2 4 0 -1 8 0 ( p o rt io n 6 ) W es t C an ad a C re ek , U p p , an d t ri b s (1 2 0 3 -0 0 2 5 ) H er ki m er R iv er C (T )/ F P A ci d /B as e (p H ) A tm o sp h er ic D ep . 2 0 0 4 H -2 4 0 -1 8 0 - P 7 9 9 -1 9 .. P 8 1 8 t o P 8 2 2 L ak es T ri b t o J er se yf ie ld L ak e (1 2 0 3 -0 0 0 2 ) H er ki m er L ak e C A ci d /B as e (p H ) A tm o sp h er ic D ep . 1 9 9 8 8 3 A D D 09 8 N ew Y or k S ta te F in a l 20 10 S ec ti on 3 03 (d ) L is t Ju n e 20 10 W at er I n d ex N u m b er W at er b od y N am e (W I/ P W L I D ) C ou n ty T yp e C la ss C au se /P ol lu ta n t S ou rc e Y ea r 16 P ar t 2a - M u lt ip le S eg m en t/ C at eg or ic al I m p ai re d W at er b od y S eg m en ts ( at m os p h er ic d ep os it io n ) (c on ’t ) D el aw ar e R iv er D ra in ag e B as in D - 1 -P 5 8 b -8 2 E as t B ra n ch N ev er si n k R iv er a n d t ri b s (1 4 0 2 -0 0 0 7 ) U ls te r R iv er C (T ) A ci d /B as e (p H ) A tm o sp h er ic D ep . 2 0 0 4 D - 1 -3 3 -P 3 7 W o lf R es er vo ir ( 1 4 0 2 -0 0 4 5 ) S u ll iv an L ak e( R ) B A ci d /B as e (p H ) A tm o sp h er ic D ep . 2 0 0 4 O th er /S m al le r L ak es I m pa ir ed b y A tm os p h er ic D ep o si ti o n ( A ci d R ai n ). .. S ee A pp en d ix A P re vi o u s S ec ti o n 3 0 3 (d ) L is ts i n cl u d ed a d d it io n al s m al l la ke w at er b o d ie s im p ac te d b y at m os p h er ic d ep o si ti o n . B ec au se s u b se q u en t d ev el o p m en t o f a co m pr eh en si ve m on it or in g st ra te gy r eq ui re d l im it in g th e W I/ P W L d at ab as e to l ak es 6 .4 a cr es o r la rg er , th es e sm al le r la ke s ar e no l o ng er t ra ck ed a s in di vi du al w at er bo d ie s in t he d at ab as e. T he se l ak es h av e be en j oi n ed w it h o th er l ak es i n th e sa m e w at er sh ed a s in gl e se gm en t. In o rd er t o ac co m m od at e th es e ch an ge s re ga rd in g th e tr ac ki n g o f w at er b o d ie s w it h in t h e W I/ P W L d at ab as e an d t o p ro vi d e co n ti n u it y b et w ee n t h is l is ti n g an d p re vi o u s li st s th at i n cl u d ed t h e tr ac ki n g o f th e sm al le r la ke a s in d iv id u al w at er b o d ie s, a l is t of O th er /S m a ll er L a ke s Im p a ir ed b y A tm o sp h er ic D ep o si ti o n ( cu rr en tl y re p re se n ti n g 7 2 l ak es /p o n d s) i s in cl u d ed i n t h e 2 0 1 0 S ec ti o n 3 0 3 (d ) L is t an d i s at ta ch ed a s A p p en d ix A . T h is a p p en d ix l is ts t h e sm al le r la ke s th at a p p ea re d o n p re vi o u s S ec ti o n 3 0 3 (d ) L is ts w it h a n o te i n d ic at in g th e W I/ P W L s eg m en t in to w h ic h t h e la ke h as b ee n c o n so li d at ed . N O T E : T h e 2 0 0 8 S ec ti o n 3 0 3 (d ) L is t in cl u d ed 8 0 s m al le r la ke s in A p p en d ix A . T h e re d u ct io n i n t h e n u m b er o f sm al le r la ke s in t h e 2 0 1 0 L is t is a r es u lt o f so m e o f th e sm al le r la ke s b ei n g co n so li d at ed i n to W I/ P W L s eg m en ts th at a re i n cl u d ed i n P ar t 2 a o f th e L is t. A D D 09 9 N ew Y or k S ta te F in a l 20 10 S ec ti on 3 03 (d ) L is t Ju n e 20 10 W at er I n d ex N u m b er W at er b od y N am e (W I/ P W L I D ) C ou n ty T yp e C la ss C au se /P ol lu ta n t S ou rc e Y ea r F is h c o n su m p ti o n a d vi so ry f o r C ay u ga C re ek i n cl u d es l o w er B er gh ol tz C re ek t o t h e fi rs t im p as si b le b ar ri er . P re vi o u sl y B er gh o lt z C re ek w as l is te d s ep ar at el y, b u t si n ce t h er e is n o w at er b o d y- 8 4 sp ec if ic h ea lt h a d vi so ry f o r B er gh o lt z C re ek , th e im p ai rm en t in t h e lo w er c re ek i s m o re a p p ro p ri at el y ca p tu re d i n t h e n o te a t th e b eg in n in g o f P ar t 2 b . F or L ak e E ri e an d L ak e O nt ar io S h or el in e se gm en ts i nc lu de d o n th e S ec ti on 3 03 (d ) L is t du e to f is h co n su m pt io n re st ri ct io n s, t he p ri m ar y so ur ce o f co nt am in at io n is t he o p en l ak e ra th er t ha n 8 5 th e n ea r- sh o re w at er s. D u e to f is h m ig ra ti o n , th e ad vi so ri es a p p ly t o t ri b u ta ry w at er s u p t o t h e fi rs t im p as sa b le b ar ri er . 17 P a rt 2 b - M u lt ip le S eg m en t/ C a te g or ic a l Im p a ir ed W at er b o d y S eg m en ts ( fi sh c o n su m p ti o n ) M ig h t b e ad d re ss e d b y a w at er b o d y s p ec if ic T M D L o r a p o ll u ta n t/ so u rc e sp ec if ic T M D L o r o th e r st ra te g y t o a tt ai n w at er q u al it y s ta n d ar d s. N O T E : F is h c o n su m p ti o n a d vi so ri es /i m p ai rm en ts f o r al l w at er s li st ed b el o w e xt en d i n to a n d i n cl u d e tr ib u ta ry ( an d d o w n st re am ) w at er s to t h e fi rs t im p as sa b le b ar ri er . N ia ga ra R iv er /L ak e E ri e D ra in ag e B as in O n t 1 5 8 ( p o rt io n 1 ) N ia ga ra R iv er , L o w er , M ai n S te m (0 1 0 1 -0 0 2 7 ) N ia ga ra R iv er A -S p cl D io xi n C o n t. S ed , L an d .D is p . 1 9 9 8 M ir ex C o n t. S ed , L an d .D is p . 1 9 9 8 P C B s C o n t. S ed , L an d .D is p . 1 9 9 8 O n t 1 5 8 ( p o rt io n 2 ) N ia ga ra R iv er , U p p er , M ai n S te m (0 1 0 1 -0 0 0 6 ) N ia ga ra R iv er A -S p cl P C B s C o n t. S ed , L an d .D is p . 1 9 9 8 O n t 1 5 8 ( p o rt io n 3 ) C h ip p ew a (W es t) C h an n el ( 0 1 0 1 -0 0 2 8 ) N ia ga ra R iv er A -S p cl P C B s C o n t. S ed , L an d .D is p . 1 9 9 8 O n t 1 5 8 ( p o rt io n 4 ) B la ck R o ck C h an n el ( 0 1 0 1 -0 0 2 5 ) N ia ga ra R iv er A -S p cl P C B s C o n t. S ed , L an d .D is p . 1 9 9 8 O n t 1 5 8 - 8 C ay u ga C re ek a n d m in o r tr ib s (0 1 0 1 -0 0 0 1 ) N ia ga ra R iv er C D io xi n C o n ta m in at ed S ed . 1 9 9 8 8 4 O n t 1 5 8 -1 2 ( p o rt io n 1 ) T o n aw an d a C re ek , L o w er , M ai n S te m (0 1 0 2 -0 0 2 2 ) N ia ga ra R iv er C P C B s C o n ta m in at ed S ed . 1 9 9 8 O n t 1 5 8 -1 5 -P 2 5 D el aw ar e P ar k L ak e (0 1 0 1 -0 0 2 6 ) E ri e L ak e B P C B s C o n t. S ed , L an d .D is p . 1 9 9 8 O n t 1 5 8 -E ( p o rt io n 1 ) L ak e E ri e, E ri e B as in (0 1 0 4 -0 0 3 2 ) E ri e G .L ak es C P C B s C o n ta m in at ed S ed . 2 0 0 2 8 5 O n t 1 5 8 -E ( p o rt io n 2 ) L ak e E ri e, O u te r H ar b o r N o rt h ( 0 1 0 4 -0 0 3 3 ) E ri e G .L ak es B P C B s C o n ta m in at ed S ed . 2 0 0 2 8 5 O n t 1 5 8 -E ( p o rt io n 3 ) L ak e E ri e, O u te r H ar b o r S o u th (0 1 0 4 -0 0 3 4 ) E ri e G .L ak es C P C B s C o n ta m in at ed S ed . 2 0 0 2 8 5 O n t 1 5 8 -E ( p o rt io n 4 ) L ak e E ri e, N o rt h ea st S h o re li n e ( 0 1 0 4 -0 0 3 5 ) E ri e G .L ak es C P C B s C o n ta m in at ed S ed . 2 0 0 2 8 5 O n t 1 5 8 -E ( p o rt io n 5 ) L ak e E ri e, N o rt h ea st S h o re li n e ( 0 1 0 4 -0 0 3 6 ) E ri e G .L ak es B P C B s C o n ta m in at ed S ed . 2 0 0 2 8 5 O n t 1 5 8 -E ( p o rt io n 6 ) L ak e E ri e, M ai n L ak e, N o rt h ( 0 1 0 4 -0 0 3 7 ) E ri e G .L ak es A -S p cl P C B s C o n ta m in at ed S ed . 2 0 0 2 8 5 O n t 1 5 8 -E ( p o rt io n 7 ) L ak e E ri e, M ai n L ak e, S o u th ( 0 1 0 5 -0 0 3 3 ) C h au ta u q u a G .L ak es A -S p cl P C B s C o n ta m in at ed S ed . 2 0 0 2 8 5 O n t 1 5 8 -E ( p o rt io n 7 a) L ak e E ri e, D u n ki rk H ar b o r ( 0 1 0 5 -0 0 0 9 ) C h au ta u q u a G .L ak es B P C B s C o n ta m in at ed S ed . 2 0 0 2 8 5 O n t 1 5 8 -E ( p o rt io n 7 b ) L ak e E ri e, B ar ce lo n a H ar b o r (0 1 0 5 -0 0 1 1 ) C h au ta u q u a G .L ak es B P C B s C o n ta m in at ed S ed . 2 0 0 2 8 5 O n t 1 5 8 .. E - 1 B u ff al o R iv er ( 0 1 0 3 -0 0 0 1 ) E ri e R iv er C P C B s C o n ta m in at ed S ed . 1 9 9 8 8 5 L ak e O n ta ri o ( M in o r T ri b s) D ra in ag e B as in O n t (p o rt io n 1 ) * L ak e O n ta ri o S h o re li n e, E as te rn ( 0 3 0 3 -0 0 2 3 ) Je ff er so n G .L ak es A P C B s C o n ta m in at ed S ed . 1 9 9 8 8 5 M ir ex C o n ta m in at ed S ed . 1 9 9 8 8 5 D io xi n C o n ta m in at ed S ed . 1 9 9 8 8 5 O n t (p o rt io n 2 ) * L ak e O n ta ri o S h o re li n e, E as te rn ( 0 3 0 3 -0 0 2 4 ) Je ff er so n G .L ak es A P C B s C o n ta m in at ed S ed . 1 9 9 8 8 5 1 9 9 8 M ir ex C o n ta m in at ed S ed . 8 5 D io xi n C o n ta m in at ed S ed . 1 9 9 8 8 5 A D D 10 0 N ew Y or k S ta te F in a l 20 10 S ec ti on 3 03 (d ) L is t Ju n e 20 10 W at er I n d ex N u m b er W at er b od y N am e (W I/ P W L I D ) C ou n ty T yp e C la ss C au se /P ol lu ta n t S ou rc e Y ea r 18 P ar t 2b - M u lt ip le S eg m en t/ C at eg or ic al I m p ai re d W at er b od y S eg m en ts ( fi sh c on su m p ti on ) ( co n ’t ) L ak e O n ta ri o ( M in o r T ri b s) D ra in ag e B as in ( co n ’t ) O nt ( po rt io n 2a ) * C h au m o n t B ay ( 0 3 0 3 -0 0 1 1 ) Je ff er so n G .L ak es A P C B s C o n ta m in at ed S ed . 1 9 9 8 8 5 M ir ex C o n ta m in at ed S ed . 1 9 9 8 8 5 D io xi n C o n ta m in at ed S ed . 1 9 9 8 8 5 O n t (p o rt io n 2 b ) * G u ff in B ay ( 0 3 0 3 -0 0 2 5 ) Je ff er so n G .L ak es A P C B s C o n ta m in at ed S ed . 1 9 9 8 8 5 M ir ex C o n ta m in at ed S ed . 1 9 9 8 8 5 D io xi n C o n ta m in at ed S ed . 1 9 9 8 8 5 O n t (p o rt io n 3 ) * L ak e O n ta ri o S h o re li n e, E as te rn ( 0 3 0 3 -0 0 2 6 ) Je ff er so n G .L ak es A P C B s C o n ta m in at ed S ed . 1 9 9 8 8 5 M ir ex C o n ta m in at ed S ed . 1 9 9 8 8 5 D io xi n C o n ta m in at ed S ed . 1 9 9 8 8 5 O nt ( po rt io n 3a ) * B la ck R iv er B ay ( 0 3 0 3 -0 1 0 2 ) Je ff er so n B ay C P C B s C o n ta m in at ed S ed . 1 9 9 8 8 5 M ir ex C o n ta m in at ed S ed . 1 9 9 8 8 5 D io xi n C o n ta m in at ed S ed . 1 9 9 8 8 5 O n t (p o rt io n 4 ) * L ak e O n ta ri o S h o re li n e, E as te rn ( 0 3 0 3 -0 0 2 7 ) Je ff er so n G .L ak es A P C B s C o n ta m in at ed S ed . 1 9 9 8 8 5 M ir ex C o n ta m in at ed S ed . 1 9 9 8 8 5 D io xi n C o n ta m in at ed S ed . 1 9 9 8 8 5 O nt ( po rt io n 4a ) * H en d er so n B ay ( 0 3 0 3 -0 0 2 2 ) Je ff er so n G .L ak es A P C B s C o n ta m in at ed S ed . 1 9 9 8 8 5 M ir ex C o n ta m in at ed S ed . 1 9 9 8 8 5 D io xi n C o n ta m in at ed S ed . 1 9 9 8 8 5 O n t (p o rt io n 5 ) * L ak e O n ta ri o S h o re li n e, E as te rn ( 0 3 0 3 -0 0 2 8 ) Je ff er so n G .L ak es A P C B s C o n ta m in at ed S ed . 1 9 9 8 8 5 M ir ex C o n ta m in at ed S ed . 1 9 9 8 8 5 D io xi n C o n ta m in at ed S ed . 1 9 9 8 8 5 O n t (p o rt io n 6 ) * L ak e O n ta ri o S h o re li n e, E as te rn ( 0 3 0 3 -0 0 2 9 ) Je ff er so n G .L ak es A P C B s C o n ta m in at ed S ed . 1 9 9 8 8 5 M ir ex C o n ta m in at ed S ed . 1 9 9 8 8 5 D io xi n C o n ta m in at ed S ed . 1 9 9 8 8 5 O n t (p o rt io n 7 ) * L ak e O n ta ri o S h o re li n e, E as te rn ( 0 3 0 3 -0 0 3 0 ) O sw eg o G .L ak es A P C B s C o n ta m in at ed S ed . 1 9 9 8 8 5 M ir ex C o n ta m in at ed S ed . 1 9 9 8 8 5 D io xi n C o n ta m in at ed S ed . 1 9 9 8 8 5 O n t (p o rt io n 8 ) * L ak e O n ta ri o S h o re li n e, E as te rn ( 0 3 0 3 -0 0 3 1 ) O sw eg o G .L ak es A P C B s C o n ta m in at ed S ed . 1 9 9 8 8 5 M ir ex C o n ta m in at ed S ed . 1 9 9 8 8 5 D io xi n C o n ta m in at ed S ed . 1 9 9 8 8 5 O n t (p o rt io n 9 ) * L ak e O n ta ri o S h o re li n e, E as te rn ( 0 3 0 3 -0 0 1 7 ) O sw eg o G .L ak es A P C B s C o n ta m in at ed S ed . 1 9 9 8 8 5 M ir ex C o n ta m in at ed S ed . 1 9 9 8 8 5 D io xi n C o n ta m in at ed S ed . 1 9 9 8 8 5 O n t (p o rt io n 1 0 ) * L ak e O n ta ri o S h o re li n e, O sw eg o ( 0 3 0 2 -0 0 4 0 ) O sw eg o G .L ak es A P C B s C o n ta m in at ed S ed . 1 9 9 8 8 5 M ir ex C o n ta m in at ed S ed . 1 9 9 8 8 5 D io xi n C o n ta m in at ed S ed . 1 9 9 8 8 5 O n t (p o rt io n 1 1 ) * L ak e O n ta ri o S h o re li n e, C en tr al ( 0 3 0 2 -0 0 4 1 ) O sw eg o G .L ak es A P C B s C o n ta m in at ed S ed . 1 9 9 8 8 5 M ir ex C o n ta m in at ed S ed . 1 9 9 8 8 5 D io xi n C o n ta m in at ed S ed . 1 9 9 8 8 5 A D D 10 1 N ew Y or k S ta te F in a l 20 10 S ec ti on 3 03 (d ) L is t Ju n e 20 10 W at er I n d ex N u m b er W at er b od y N am e (W I/ P W L I D ) C ou n ty T yp e C la ss C au se /P ol lu ta n t S ou rc e Y ea r 19 P ar t 2b - M u lt ip le S eg m en t/ C at eg or ic al I m p ai re d W at er b od y S eg m en ts ( fi sh c on su m p ti on ) ( co n ’t ) L ak e O n ta ri o ( M in o r T ri b s) D ra in ag e B as in ( co n ’t ) O n t (p o rt io n 1 2 ) * L ak e O n ta ri o S h o re li n e, C en tr al ( 0 3 0 2 -0 0 4 2 ) C ay u ga G .L ak es A P C B s C o n ta m in at ed S ed . 1 9 9 8 8 5 M ir ex C o n ta m in at ed S ed . 1 9 9 8 8 5 D io xi n C o n ta m in at ed S ed . 1 9 9 8 8 5 O n t (p o rt io n 1 3 ) * L ak e O n ta ri o S h o re li n e, C en tr al ( 0 3 0 2 -0 0 4 3 ) W ay n e G .L ak es A P C B s C o n ta m in at ed S ed . 1 9 9 8 8 5 M ir ex C o n ta m in at ed S ed . 1 9 9 8 8 5 D io xi n C o n ta m in at ed S ed . 1 9 9 8 8 5 O n t (p o rt io n 1 4 ) * L ak e O n ta ri o S h o re li n e, C en tr al ( 0 3 0 2 -0 0 4 4 ) W ay n e G .L ak es A P C B s C o n ta m in at ed S ed . 1 9 9 8 8 5 M ir ex C o n ta m in at ed S ed . 1 9 9 8 8 5 D io xi n C o n ta m in at ed S ed . 1 9 9 8 8 5 O n t (p o rt io n 1 5 ) * L ak e O n ta ri o S h o re li n e, C en tr al ( 0 3 0 2 -0 0 4 5 ) W ay n e G .L ak es A P C B s C o n ta m in at ed S ed . 1 9 9 8 8 5 M ir ex C o n ta m in at ed S ed . 1 9 9 8 8 5 D io xi n C o n ta m in at ed S ed . 1 9 9 8 8 5 O n t (p o rt io n 1 6 ) * R o ch es te r E m b ay m en t - E as t (0 3 0 2 -0 0 0 2 ) M o n ro e G .L ak es A P C B s C o n ta m in at ed S ed . 1 9 9 8 8 5 M ir ex C o n ta m in at ed S ed . 1 9 9 8 8 5 D io xi n C o n ta m in at ed S ed . 1 9 9 8 8 5 O n t (p o rt io n 1 7 ) * R o ch es te r E m b ay m en t - W es t (0 3 0 1 -0 0 6 8 ) M o n ro e G .L ak es A P C B s C o n ta m in at ed S ed . 1 9 9 8 8 5 M ir ex C o n ta m in at ed S ed . 1 9 9 8 8 5 D io xi n C o n ta m in at ed S ed . 1 9 9 8 8 5 O n t (p o rt io n 1 8 ) * L ak e O n ta ri o S h o re li n e, W es te rn ( 0 3 0 1 -0 0 6 9 ) M o n ro e G .L ak es A P C B s C o n ta m in at ed S ed . 1 9 9 8 8 5 M ir ex C o n ta m in at ed S ed . 1 9 9 8 8 5 D io xi n C o n ta m in at ed S ed . 1 9 9 8 8 5 O n t (p o rt io n 1 9 ) * L ak e O n ta ri o S h o re li n e, W es te rn ( 0 3 0 1 -0 0 7 0 ) O rl ea n s G .L ak es A P C B s C o n ta m in at ed S ed . 1 9 9 8 8 5 M ir ex C o n ta m in at ed S ed . 1 9 9 8 8 5 D io xi n C o n ta m in at ed S ed . 1 9 9 8 8 5 O n t (p o rt io n 2 0 ) * L ak e O n ta ri o S h o re li n e, W es te rn ( 0 3 0 1 -0 0 7 1 ) O rl ea n s G .L ak es A P C B s C o n ta m in at ed S ed . 1 9 9 8 8 5 M ir ex C o n ta m in at ed S ed . 1 9 9 8 8 5 D io xi n C o n ta m in at ed S ed . 1 9 9 8 8 5 O n t (p o rt io n 2 1 ) * L ak e O n ta ri o S h o re li n e, W es te rn ( 0 3 0 1 -0 0 7 2 ) N ia ga ra G .L ak es A P C B s C o n ta m in at ed S ed . 1 9 9 8 8 5 M ir ex C o n ta m in at ed S ed . 1 9 9 8 8 5 D io xi n C o n ta m in at ed S ed . 1 9 9 8 8 5 O n t (p o rt io n 2 2 ) * L ak e O n ta ri o S h o re li n e, W es te rn ( 2 3 0 1 -0 0 5 3 ) N ia ga ra G .L ak es A P C B s C o n ta m in at ed S ed . 1 9 9 8 8 5 M ir ex C o n ta m in at ed S ed . 1 9 9 8 8 5 D io xi n C o n ta m in at ed S ed . 1 9 9 8 8 5 O n t 5 3 ( p o rt io n 1 ) S al m o n R iv er , L o w er , an d m in o r tr ib s (0 3 0 3 -0 0 1 6 ) O sw eg o R iv er C (T ) P C B s C o n ta m in at ed S ed . 1 9 9 8 M ir ex C o n ta m in at ed S ed . 1 9 9 8 O n t 5 3 ( p o rt io n 2 )/ P 1 8 a L o w er S al m o n R iv er R es er vo ir ( 0 3 0 3 -0 0 6 7 ) O sw eg o L ak e( R ) C (T ) P C B s C o n ta m in at ed S ed . 1 9 9 8 M ir ex C o n ta m in at ed S ed . 1 9 9 8 O n t 5 3 ( p o rt io n 3 ) S al m o n R iv er , M id d le , an d t ri b s (0 3 0 3 -0 0 6 8 ) O sw eg o R iv er C (T ) P C B s C o n ta m in at ed S ed . 1 9 9 8 M ir ex C o n ta m in at ed S ed . 1 9 9 8 O n t 1 0 8 /P 1 1 3 Ir o n d eq u o it B ay ( 0 3 0 2 -0 0 0 1 ) M o n ro e L ak e B M ir ex C o n ta m in at ed S ed . 1 9 9 8 P C B s C o n ta m in at ed S ed . 1 9 9 8 A D D 10 2 N ew Y or k S ta te F in a l 20 10 S ec ti on 3 03 (d ) L is t Ju n e 20 10 W at er I n d ex N u m b er W at er b od y N am e (W I/ P W L I D ) C ou n ty T yp e C la ss C au se /P ol lu ta n t S ou rc e Y ea r A s n o te d a t th e b eg in n in g o f P ar t 2 b , fi sh c o n su m p ti o n a d vi so ri es /i m p ai rm en ts f o r P ar t 2 b w at er s ex te n d i n to a n d i n cl u d e tr ib u ta ry ( an d d o w n st re am ) w at er s to t h e fi rs t im p as sa b le b ar ri er . 8 6 T h er e is s o m e ev id en ce t h at c o n ta m in at io n o f fi sh i n L ey C re ek e xt en d s b ey o n d t h is b ar ri er , th o u gh t h er e is n o s ep ar at e w at er b o d y- sp ec if ic h ea lt h a d vi so ry f o r th e cr ee k. C o n se q u en tl y, t h is li st in g sh o u ld b e co n si d er ed a s in cl u d in g al l o f L ey C re ek . P re vi ou sl y th e se gm en t T ri bs t o F ul to n C ha in L ak es ( 08 01 -0 0 98 ) w hi ch i nc lu d es G ra y L ak e O ut le t, w hi ch i s su sp ec te d so ur ce o f D D T c on ta m in at io n/ fi sh c on su m pt io n ad vi so ry i n F o ur th L ak e, 8 7 w as l is te d fo r th is i m pa ir m en t. B ut s in ce t he h ea lt h ad vi so ry a pp li es t o th e la ke i t is m or e ap pr o pr ia te t o li st t h e se gm en t w hi ch i nc lu d es F ou rt h L ak e (0 80 1- 0 37 3) w it h th e un d er st an di n g th at fo r th e p u rp o se s o f S ec ti o n 3 0 3 (d ) li st in g, t h is s eg m en t in cl u d es t h e lo w er p o rt io n o f G ra y L ak e O u tl et . 20 P ar t 2b - M u lt ip le S eg m en t/ C at eg or ic al I m p ai re d W at er b od y S eg m en ts ( fi sh c on su m p ti on ) ( co n ’t ) L ak e O n ta ri o ( M in o r R ib s) D ra in ag e B as in ( co n ’t ) O n t 1 4 8 E ig h te en m il e C re ek , L o w er , an d t ri b s ( 0 3 0 1 -0 0 0 2 ) N ia ga ra R iv er B ,C ,D P C B s C o n ta m in at ed S ed . 1 9 9 8 O n t 1 4 8 E ig h te en m il e C re ek , M id d le , an d t ri b s (0 3 0 1 -0 0 5 4 ) N ia ga ra R iv er C P C B s C o n ta m in at ed S ed . 1 9 9 8 O n t 1 4 8 E ig h te en m il e C re ek , U p p , an d m n r tr ib s (0 3 0 1 -0 0 5 5 ) N ia ga ra R iv er D P C B s C o n ta m in at ed S ed . 1 9 9 8 G en es ee R iv er D ra in ag e B as in O n t 1 1 7 ( p o rt io n 1 ) G en es ee R iv er , L o w er , M ai n S te m ( 0 4 0 1 -0 0 0 1 ) M o n ro e R iv er B P C B s C o n ta m .S ed . 2 0 0 4 M ir ex C o n ta m .S ed . 2 0 0 4 D io xi n C o n ta m .S ed . 2 0 0 4 O n t 1 1 7 - 2 7 -3 4 -1 1 -P 4 3 * C an ad ic e L ak e (0 4 0 2 -0 0 0 2 ) O n ta ri o L ak e A A (T S ) P C B s C o n t. S ed , L an d .D is p . 1 9 9 8 C h em u n g R iv er D ra in ag e B as in P A 3 -2 8 - 6 - 1 - 3 -1 3 a * K o p p er s P o n d ( 0 5 0 1 -0 0 1 2 ) C h em u n g L ak e C P C B s C o n t. S ed , L an d .D is p . 1 9 9 8 O sw eg o R iv er ( F in ge r L ak es ) D ra in ag e B as in O n t 6 6 ( p o rt io n 2 ) O sw eg o R iv er ( 0 7 0 1 -0 0 0 6 ) O sw eg o R iv er B P C B s C o n ta m in at ed S ed . 1 9 9 8 O n t 6 6 -1 2 -1 2 -P 1 5 4 ( p o rt io n 1 ) O n o n d ag a L ak e, n o rt h er n e n d ( 0 7 0 2 -0 0 0 3 ) O n o n d ag a L ak e B D io xi n C o n ta m in at ed S ed . 1 9 9 8 M er cu ry C o n ta m in at ed S ed . 1 9 9 8 P C B s, o th er t o xi cs C o n ta m in at ed S ed . 1 9 9 8 O n t 6 6 -1 2 -1 2 -P 1 5 4 ( p o rt io n 2 ) O n o n d ag a L ak e, s o u th er n e n d ( 0 7 0 2 -0 0 2 1 ) 8 6 O n o n d ag a L ak e C D io xi n C o n ta m in at ed S ed . 1 9 9 8 M er cu ry C o n ta m in at ed S ed . 1 9 9 8 P C B s, o th er t o xi cs C o n ta m in at ed S ed . 1 9 9 8 O n t 6 6 -1 2 -P 3 6 9 -1 1 5 -P 3 8 8 K eu ka L ak e (0 7 0 5 -0 0 0 3 ) Y at es L ak e A A (T S ) D D T C o n ta m in at ed S ed . 1 9 9 8 B la ck R iv er D ra in ag e B as in O n t 1 9 - 8 1 -1 8 -P 7 8 2 a th ru d * F u lt o n C h ai n L ak es , F ir st t h ru F o u rt h L ak e (0 8 0 1 -0 3 7 3 ) H er ki m er L ak e A D D T C o n t. S ed ., L an d D is p 1 9 9 8 8 7 A D D 10 3 N ew Y or k S ta te F in a l 20 10 S ec ti on 3 03 (d ) L is t Ju n e 20 10 W at er I n d ex N u m b er W at er b od y N am e (W I/ P W L I D ) C ou n ty T yp e C la ss C au se /P ol lu ta n t S ou rc e Y ea r T h es e n ew l is ti n gs a re t h e re su lt o f th e re -s eg m en ti n g o f th e S ai n t L aw re n ce R iv er i n to f o u r (4 ) se gm en ts ; p re vi o u sl y th er e w er e o n ly t w o ( 2 ) S ai n t L aw re n ce s eg m en ts ( 0 9 0 1 -0 0 0 1 , 0 9 0 1 -0 0 0 2 ). 8 8 T h is n ew l is ti n g is t h e re su lt o f th e re co gn it io n t h at t h e L ak e C h am p la in h ea lt h a d vi so ry f o r P C B s ex te n d s in to t h is b ay o f th e la ke . 8 9 T h is s eg m en t w as m is -i d en ti fi ed a s se gm en t 1 1 0 4 -0 0 4 5 i n t h e 2 0 0 8 S ec ti o n 3 0 3 (d ) L is t. 9 0 T h is n ew l is ti n g is t h e re su lt o f th e re -s eg m en ti n g o f th e U p p er H u d so n i n to a n a d d it io n al s eg m en t. 9 1P ar t 2b - M u lt ip le S eg m en t/ C at eg or ic al I m p ai re d W at er b od y S eg m en ts ( fi sh c o n su m p ti o n ) ( co n ’t ) S ai n t L aw re n ce D ra in ag e B as in S L ( p o rt io n 1 ) S t. L aw re n ce R iv er ( 0 9 0 1 -0 0 0 1 ) S t. L aw re n ce R iv er A D io xi n C o n ta m in at ed S ed . 1 9 9 8 M ir ex C o n ta m in at ed S ed . 1 9 9 8 P C B s C o n ta m in at ed S ed . 1 9 9 8 S L (p o rt io n 2 ) S t. L aw re n ce R iv er ( 0 9 0 1 -0 0 0 2 ) S t. L aw re n ce R iv er A D io xi n In d u st r, C o n ta m .S ed . 1 9 9 8 M ir ex In d u st r, C o n ta m .S ed . 1 9 9 8 P C B s In d u st r, C o n ta m .S ed . 1 9 9 8 S L (p o rt io n 3 ) S t. L aw re n ce R iv er ( 0 9 0 1 -0 0 1 5 ) S t. L aw re n ce R iv er A D io xi n In d u st r, C o n ta m .S ed . 2 0 1 0 8 8 M ir ex In d u st r, C o n ta m .S ed . 2 0 1 0 P C B s In d u st r, C o n ta m .S ed . 2 0 1 0 S L (p o rt io n 4 ) S t. L aw re n ce R iv er ( 0 9 0 1 -0 0 0 4 ) S t. L aw re n ce R iv er A D io xi n In d u st r, C o n ta m .S ed . 2 0 1 0 8 8 M ir ex In d u st r, C o n ta m .S ed . 2 0 1 0 P C B s In d u st r, C o n ta m .S ed . 2 0 1 0 S L - 2 G ra ss R iv er ( 0 9 0 4 -0 0 0 9 ) S t. L aw re n ce R iv er B P C B s In d u st r, C o n ta m .S ed . 1 9 9 8 S L - 2 - M as se n a P o w er C an al ( 0 9 0 4 -0 0 1 2 ) S t. L aw re n ce R iv er D P C B s In d u st r, C o n ta m .S ed . 1 9 9 8 L ak e C h am p la in D ra in ag e B as in C ( p o rt io n 1 ) L ak e C h am p la in , M ai n L ak e, N o rt h ( 1 0 0 0 -0 0 0 1 ) C li n to n L ak e A P C B s C o n ta m . S ed ., A tm . 1 9 9 8 C ( p o rt io n 2 ) L ak e C h am p la in , M ai n L ak e, M id d le ( 1 0 0 0 -0 0 0 2 ) C li n to n L ak e A P C B s C o n ta m . S ed ., A tm . 1 9 9 8 C ( p o rt io n 2 a) C u m b er la n d B ay ( 1 0 0 1 -0 0 0 1 ) C li n to n B ay B P C B s C o n ta m . S ed ., A tm . 1 9 9 8 C ( p o rt io n 2 b ) W il ls b o ro B ay ( 1 0 0 1 -0 0 1 5 ) E ss ex B ay B P C B s C o n ta m . S ed ., A tm . 2 0 1 0 8 9 C ( p o rt io n 3 ) L ak e C h am p la in , M ai n L ak e, S o u th ( 1 0 0 0 -0 0 0 3 ) E ss ex L ak e A P C B s C o n ta m . S ed ., A tm . 1 9 9 8 C ( p o rt io n 4 ) L ak e C h am p la in , S o u th L ak e (1 0 0 0 -0 0 0 4 ) E ss ex L ak e B P C B s C o n ta m . S ed ., A tm . 1 9 9 8 U p p er H u d so n R iv er D ra in ag e B as in H ( p o rt io n 6 ) U p p er H u d so n R iv er , M ai n S te m ( 1 1 0 1 -0 0 4 5 ) S ar at o ga R iv er C M er cu ry C o n ta m in at ed S ed . 2 0 0 2 9 0 H ( p o rt io n 7 ) U p p er H u d so n R iv er , M ai n S te m ( 1 1 0 1 -0 0 4 6 ) S ar at o ga R iv er C M er cu ry C o n ta m in at ed S ed . 2 0 1 0 9 1 H -2 6 4 ( p o rt io n 1 ) H o o si c R iv er , L o w er , M ai n S te m ( 1 1 0 2 -0 0 0 2 ) R en ss el ae r R iv er C P C B s C o n ta m in at ed S ed . 1 9 9 8 H -2 6 4 ( p o rt io n 1 b )/ P 1 1 1 5 S ch ag h ti co ke R es er vo ir ( 1 1 0 2 -0 0 1 5 ) R en ss el ae r L ak e (R ) C P C B s C o n ta m in at ed S ed . 2 0 0 6 H -2 6 4 ( p o rt io n 2 ) H o o si c R iv er , M id d le , M ai n S te m ( 1 1 0 2 -0 0 0 3 ) R en ss el ae r R iv er B P C B s C o n ta m in at ed S ed . 1 9 9 8 H -2 6 4 ( p o rt io n 3 ) H o o si c R iv er , M id d le , M ai n S te m ( 1 1 0 2 -0 0 1 6 ) R en ss el ae r R iv er C (T ) P C B s C o n ta m in at ed S ed . 2 0 0 8 H -2 6 4 ( p o rt io n 4 ) H o o si c R iv er , U p p er , an d t ri b s (1 1 0 2 -0 0 1 7 ) R en ss el ae r R iv er B (T ) P C B s C o n ta m in at ed S ed . 2 0 0 8 H -2 6 4 ( p o rt io n 5 ) H o o si c R iv er , U p p er , an d m in o r tr ib s (1 1 0 2 -0 0 1 8 ) R en ss el ae r R iv er C (T ) P C B s C o n ta m in at ed S ed . 2 0 0 8 H -3 9 1 ( p o rt io n 3 )/ P 3 7 4 S ch ro o n L ak e (1 1 0 4 -0 0 0 2 ) E ss ex L ak e A A P C B s A tm o sp h , U n kn o w n 1 9 9 8 A D D 10 4 N ew Y or k S ta te F in a l 20 10 S ec ti on 3 03 (d ) L is t Ju n e 20 10 W at er I n d ex N u m b er W at er b od y N am e (W I/ P W L I D ) C ou n ty T yp e C la ss C au se /P ol lu ta n t S ou rc e Y ea r In a d d it io n t o t h e co n ta m in an ts f o r w h ic h t h er e ar e sp ec if ic H ea lt h A d vi so ri es f o r th e co n su m p ti o n o f fi sh , o th er c o n ta m in an ts h av e al so b ee n i d en ti fi ed a s co n tr ib u ti n g to t h e fi sh c o n su m p ti o n 9 2 im p ai rm en t. T h es e su b st an ce s m ay i n cl u d e m er cu ry , d io xi n s/ fu ra n s, P A H s, p es ti ci d es a n d o th er h ea vy m et al s. T h es e n ew l is ti n gs a re t h e re su lt o f th e re -s eg m en ti n g o f th e S aw M il l R iv er i n to t h re e (3 ) se gm en ts ; p re vi o u sl y th er e w as o n ly o n e S aw M il l R iv er s eg m en t (1 3 0 1 -0 0 0 7 ). 9 3 T h is n ew l is ti n g is t h e re su lt o f th e re -s eg m en ti n g o f th e V al at ie K il l in to t h re e (3 ) se gm en ts ; p re vi o u sl y th er e w as o n ly o n e V al at ie K il l se gm en t (1 3 1 0 -0 0 0 3 ). T h e H ea lt h A d vi so ry f o r th e 9 4 co n su m p ti o n o f fi sh f ro m t h e V al at ie K il l d o es n o t ex te n d t o t h e lo w er s eg m en t. In cl u d es H er ri ck H o ll o w C re ek f o r w h ic h a f is h c o n su m p ti o n a d vi so ry i s in p la ce . 9 5 22 P ar t 2b - M u lt ip le S eg m en t/ C at eg or ic al I m p ai re d W at er b od y S eg m en ts ( fi sh c on su m p ti on ) ( co n ’t ) M o h aw k R iv er D ra in ag e B as in H -2 4 0 ( p o rt io n 1 1 ) M o h aw k R /N Y S B ar ge C an al , M ai n S te m ( 1 2 0 1 -0 0 9 2 ) H er ki m er R iv er B P C B s C o n ta m . S ed im en t 1 9 9 8 H -2 4 0 ( p o rt io n 1 2 ) M o h aw k R iv er , M ai n S te m ( 1 2 0 1 -0 0 9 3 ) H er ki m er R iv er C P C B s C o n ta m . S ed im en t 1 9 9 8 H -2 4 0 ( p o rt io n 1 2 b ) U ti ca H ar b o r (1 2 0 1 -0 2 2 8 ) O n ei d a B ay C P C B s C o n ta m . S ed im en t 1 9 9 8 H -2 4 0 ( p o rt io n 1 3 ) M o h aw k R iv er , M ai n S te m ( 1 2 0 1 -0 0 1 0 ) O n ei d a R iv er B P C B s U n kn o w n 1 9 9 8 H -2 4 0 -2 1 9 S au q u o it C re ek , L o w er , an d t ri b s (1 2 0 1 -0 0 6 9 ) O n ei d a R iv er C (T ) P C B s In d u st ri al , L ea k/ S p il l 2 0 0 2 H -2 4 0 -2 1 9 S au q u o it C re ek , M id d le , an d t ri b s (1 2 0 1 -0 2 0 7 ) O n ei d a R iv er C (T ) P C B s C o n ta m . S ed im en t 2 0 0 2 H -2 4 0 -2 3 4 T h re em il e C re ek a n d t ri b s (1 2 0 1 -0 2 2 3 ) O n ei d a R iv er C P C B s C o n ta m . S ed im en t 1 9 9 8 L o w er H u d so n R iv er D ra in ag e B as in H ( p o rt io n 1 ) H u d so n R iv er , C la ss I , (1 3 0 1 -0 0 0 6 ) N ew Y o rk E st u ar y I P C B s, o th er t o xi cs C o n ta m in at ed S ed . 1 9 9 8 9 2 H ( p o rt io n 2 a) H u d so n R iv er , C la ss S B , p o rt io n ( 1 3 0 1 -0 0 0 5 ) B ro n x E st u ar y S B P C B s, o th er t o xi cs C o n ta m in at ed S ed . 1 9 9 8 9 2 H ( p o rt io n 2 b ) H u d so n R iv er , C la ss S B , p o rt io n ( 1 3 0 1 -0 0 9 4 ) W es tc h es te r E st u ar y S B P C B s, o th er t o xi cs C o n ta m in at ed S ed . 1 9 9 8 9 2 H ( p o rt io n 3 ) H u d so n R iv er , C la ss B , ( 1 3 0 1 -0 0 0 3 ) O ra n ge E st u ar y B P C B s C o n ta m in at ed S ed . 1 9 9 8 H ( p o rt io n 4 a) H u d so n R iv er , C la ss A , (1 3 0 1 -0 0 0 1 ) O ra n ge E st u ar y A P C B s C o n ta m in at ed S ed . 1 9 9 8 H ( p o rt io n 4 b ) H u d so n R iv er , C la ss A , (1 3 0 1 -0 2 7 6 ) U ls te r E st u ar y A P C B s C o n ta m in at ed S ed . 1 9 9 8 H ( p o rt io n 5 ) H u d so n R iv er , C la ss C , ( 1 3 0 1 -0 0 0 2 ) A lb an y E st u ar y C P C B s C o n ta m in at ed S ed . 1 9 9 8 H - 4 S aw M il l R iv er , L o w er , an d t ri b s ( 1 3 0 1 -0 0 0 7 ) W es tc h es te r R iv er va ri o u s C h lo rd an e C o n ta m in at ed S ed . 1 9 9 8 H - 4 S aw M il l R iv er , M id d le , an d t ri b s ( 1 3 0 1 -0 1 0 0 ) W es tc h es te r R iv er va ri o u s C h lo rd an e C o n ta m in at ed S ed . 2 0 1 0 9 3 H - 4 S aw M il l R iv er , U p p er , an d t ri b s ( 1 3 0 1 -0 1 0 1 ) W es tc h es te r R iv er va ri o u s C h lo rd an e C o n ta m in at ed S ed . 2 0 1 0 9 3 H -2 0 4 - 2 - 7 -P 2 4 K in d er h o o k L ak e (1 3 1 0 -0 0 0 2 ) C o lu m b ia L ak e B P C B s C o n t. S ed ., L an d D is p 1 9 9 8 H -2 0 4 - 2 - 7 V al at ie K il l, M id d le , an d T ri b s (1 3 1 0 -0 0 0 3 ) R en ss el ae r R iv er C (T ) P C B s C o n t. S ed . ,L an d D is p 1 9 9 8 H -2 0 4 - 2 - 7 -P 3 4 N as sa u L ak e (1 3 1 0 -0 0 0 1 ) R en ss el ae r L ak e B P C B s C o n t. S ed ., L an d D is p 1 9 9 8 H -2 0 4 - 2 - 7 V al at ie K il l, U p p er , an d T ri b s (1 3 1 0 -0 0 2 4 ) R en ss el ae r R iv er C (T ) P C B s C o n t. S ed . ,L an d D is p 2 0 1 0 9 4 D el aw ar e R iv er D ra in ag e B as in D -7 1 -2 0 - T ro u t C re ek , U p p er , an d t ri b s (1 4 0 4 -0 0 5 0 ) D el aw ar e R iv er C (T S ) P C B s C o n t. S ed , L an d .D is p . 2 0 0 2 9 5 A D D 10 5 N ew Y or k S ta te F in a l 20 10 S ec ti on 3 03 (d ) L is t Ju n e 20 10 W at er I n d ex N u m b er W at er b od y N am e (W I/ P W L I D ) C ou n ty T yp e C la ss C au se /P ol lu ta n t S ou rc e Y ea r B ec au se d ev el op m en t of a c om pr eh en si ve m on it or in g st ra te gy r eq ui re d l im it in g th e W I/ P W L d at ab as e to l ak es 6 .4 a cr es o r la rg er , th es e sm al le r la ke s ar e no l o ng er t ra ck ed a s in di vi du al 9 6 w at er b o d ie s in t h e W I/ P W L d at ab as e. 23 P ar t 2b - M u lt ip le S eg m en t/ C at eg or ic al I m p ai re d W at er b od y S eg m en ts ( fi sh c on su m p ti on ) ( co n ’t ) A tl an ti c O ce an /L o n g Is la n d S o u n d D ra in ag e B as in (M W 1 .1 ) L B L o w er N ew Y o rk B ay ( 1 7 0 1 -0 0 0 4 ) K in gs E st u ar y S B P C B s, o th er t o xi cs C o n ta m .S ed im en t, U rb an 1 9 9 8 9 2 (M W 1 .1 ) L B /G B L o w er N ew Y o rk B ay /G ra ve se n d B ay ( 1 7 0 1 -0 1 7 9 ) K in gs E st u ar y I P C B s, o th er t o xi cs C o n ta m .S ed im en t, U rb an 2 0 0 2 9 2 (M W 1 .2 ) R B ( p o rt io n 1 ) R ar it an B ay , C la ss S A ( 1 7 0 1 -0 0 0 2 ) R ic h m o n d E st u ar y S A P C B s, o th er t o xi cs C o n ta m .S ed im en t, U rb an 2 0 0 2 9 2 (M W 1 .2 ) R B ( p o rt io n 2 ) R ar it an B ay , C la ss S B ( 1 7 0 1 -0 1 8 0 ) R ic h m o n d E st u ar y S B P C B s, o th er t o xi cs C o n ta m .S ed im en t, U rb an 2 0 0 2 9 2 (M W 1 .2 ) R B ( p o rt io n 3 ) R ar it an B ay , C la ss I ( 1 7 0 1 -0 1 8 1 ) R ic h m o n d E st u ar y I P C B s, o th er t o xi cs C o n ta m .S ed im en t, U rb an 2 0 0 2 9 2 (M W 1 .2 ) S I (p o rt io n 1 ) A rt h u r K il l, C la ss I a n d m in o r tr ib s (1 7 0 1 -0 0 1 0 ) R ic h m o n d E st u ar y I P C B s, o th er t o xi cs C o n ta m in at ed S ed . 1 9 9 8 9 2 C ad m iu m C o n ta m in at ed S ed . 2 0 0 2 D io xi n C o n ta m in at ed S ed . 2 0 0 2 (M W 1 .2 ) S I (p o rt io n 2 ) A rt h u r K il l, C la ss S D a n d m in o r tr ib s (1 7 0 1 -0 1 8 2 ) R ic h m o n d E st u ar y S D P C B s, o th er t o xi cs C o n ta m in at ed S ed . 2 0 0 2 9 2 C ad m iu m C o n ta m in at ed S ed . 2 0 0 2 D io xi n C o n ta m in at ed S ed . 2 0 0 2 (M W 1 .2 ) S I (p o rt io n 3 ) N ew ar k B ay ( 1 7 0 1 -0 1 8 3 ) R ic h m o n d E st u ar y S D P C B s, o th er t o xi cs C o n ta m in at ed S ed . 2 0 0 2 9 2 C ad m iu m C o n ta m in at ed S ed . 2 0 0 2 D io xi n C o n ta m in at ed S ed . 2 0 0 2 (M W 1 .2 ) S I (p o rt io n 4 ) K il l V an K u ll ( 1 7 0 1 -0 1 8 4 ) R ic h m o n d E st u ar y S D P C B s, o th er t o xi cs C o n ta m in at ed S ed . 2 0 0 2 9 2 C ad m iu m C o n ta m in at ed S ed . 2 0 0 2 D io xi n C o n ta m in at ed S ed . 2 0 0 2 (M W 1 .3 ) U B U p p er N ew Y o rk B ay ( 1 7 0 1 -0 0 2 2 ) K in gs E st u ar y I P C B s, o th er t o xi cs C o n ta m in at ed S ed . 1 9 9 8 9 2 C ad m iu m C o n ta m in at ed S ed . 2 0 0 2 (M W 1 .3 ) U B -E B E ri e B as in ( 1 7 0 1 -0 1 8 5 ) K in gs E st u ar y S D P C B s, o th er t o xi cs C o n ta m in at ed S ed . 2 0 0 2 9 2 C ad m iu m C o n ta m in at ed S ed . 2 0 0 2 (M W 2 .1 ) E R ( p o rt io n 1 ) E as t R iv er , L o w er ( 1 7 0 2 -0 0 1 1 ) N ew Y o rk E st u ar y I P C B s, o th er t o xi cs C o n ta m in at ed S ed . 1 9 9 8 9 2 (M W 2 .3 ) E R ( p o rt io n 2 ) E as t R iv er , U p p er ( 1 7 0 2 -0 0 1 0 ) Q u ee n s E st u ar y I P C B s, o th er t o xi cs C o n ta m in at ed S ed . 1 9 9 8 9 2 (M W 2 .3 ) E R ( p o rt io n 3 ) E as t R iv er , U p p er ( 1 7 0 2 -0 0 3 2 ) Q u ee n s E st u ar y S B P C B s, o th er t o xi cs C o n ta m in at ed S ed . 1 9 9 8 9 2 (M W 2 .3 ) E R -1 H ar le m R iv er ( 1 7 0 2 -0 0 0 4 ) N ew Y o rk E st u ar y I P C B s, o th er t o xi cs C o n ta m in at ed S ed . 2 0 0 2 9 2 (M W 3 .3 ) L IS - 8 - 1 S h el d ra ke R iv er ( 1 7 0 2 -0 0 6 9 ) W es tc h es te r R iv er C C h lo rd an e C o n ta m in at ed S ed . 1 9 9 8 D ie ld ri n C o n ta m in at ed S ed . 1 9 9 8 - - - R id d er s P o n d ( 1 7 0 1 -0 1 7 6 ) N as sa u L ak e C C h lo rd an e C o n ta m in at ed S ed . 1 9 9 8 9 6 (M W 4 .2 b ) L IS -M B -2 5 -P 1 2 2 W h it n ey L ak e (1 7 0 2 -0 1 0 1 ) N as sa u L ak e C C h lo rd an e C o n ta m in at ed S ed . 1 9 9 8 - - - S ai n t Ja m es P o n d ( 1 7 0 2 -0 0 4 9 ) S u ff o lk L ak e C C h lo rd an e/ D D T C o n ta m in at ed S ed . 1 9 9 8 9 6 - - - S p ri n g P o n d /L ak e (1 7 0 1 -0 0 2 2 ) S u ff o lk L ak e B C h lo rd an e C o n ta m in at ed S ed . 1 9 9 8 9 6 (M W 7 .8 ) A O -G S B -2 0 5 -P 9 3 4 L ak e C ap ri ( 1 7 0 1 -0 1 7 5 ) S u ff o lk L ak e C C ad m iu m C o n t. S ed , L an d .D is p . 1 9 9 8 C h lo rd an e C o n t. S ed , L an d .D is p . 2 0 0 2 (M W 8 .1 a) S O B -2 2 0 -P 9 6 9 M as sa p eq u a R es er vo ir ( 1 7 0 1 -0 1 5 7 ) N as sa u L ak e( R ) A C h lo rd an e C o n ta m in at ed S ed . 1 9 9 8 (M W 8 .3 a) M D B -2 2 8 -P 9 8 9 F re ep o rt R es er vo ir /E as t M ea d o w P o n d ( 1 7 0 1 -0 0 2 5 ) N as sa u L ak e( R ) A C h lo rd an e C o n ta m in at ed S ed . 2 0 0 2 (M W 8 .3 a) M D B -2 2 8 -P 9 8 9 -P 9 9 1 S m it h P o n d /R o o se ve lt P o n d ( 1 7 0 1 -0 1 3 6 ) N as sa u L ak e C C h lo rd an e C o n ta m in at ed S ed . 1 9 9 8 (M W 8 .3 a) M D B -2 3 1 -P 9 9 6 L o ft s P o n d ( 1 7 0 1 -0 0 2 9 ) N as sa u L ak e C C h lo rd an e C o n ta m in at ed S ed . 1 9 9 8 A D D 10 6 N ew Y or k S ta te F in a l 20 10 S ec ti on 3 03 (d ) L is t Ju n e 20 10 W at er I n d ex N u m b er W at er b od y N am e (W I/ P W L I D ) C ou n ty T yp e C la ss C au se /P ol lu ta n t S ou rc e Y ea r 24 P ar t 2b - M u lt ip le S eg m en t/ C at eg or ic al I m p ai re d W at er b od y S eg m en ts ( fi sh c on su m p ti on ) ( co n ’t ) A tl an ti c O ce an /L o n g Is la n d S o u n d D ra in ag e B as in ( co n ’t ) (M W 8 .4 a) H B -2 3 3 -P 1 0 0 5 S m it h P o n d ( 1 7 0 1 -0 0 2 8 ) N as sa u L ak e C C h lo rd an e C o n ta m in at ed S ed . 2 0 0 2 (M W 8 .4 a) H B -2 3 3 -P 1 0 0 5 .. P 1 0 0 8 H al ls P o n d ( 1 7 0 1 -0 0 2 7 ) N as sa u L ak e C C h lo rd an e C o n ta m in at ed S ed . 1 9 9 8 (M W 8 .4 a) H B -2 3 5 -P 1 0 1 7 a G ra n t P ar k P o n d ( 1 7 0 1 -0 0 5 4 ) N as sa u L ak e C P C B s C o n ta m in at ed S ed . 1 9 9 8 M o re I n fo rm at io n R eg ar d in g F is h C o n su m p ti o n W at er s im p ai re d f o r fi sh c o n su m p ti o n a re b as ed o n N ew Y o rk S ta te D ep ar tm en t o f H ea lt h a d vi so ri es c o n ta in ed i n i ts a n n u al C he m ic al s in S po rt fi sh a nd G am e p u b li ca ti o n s. B ec au se t h e sp ec if ic e xt en t an d c o n d it io n s o f th e ad vi so ri es a re r ep o rt ed m o re p re ci se ly a n d m o re f re q u en tl y th an c an b e re p o rt ed t h ro u gh t h e S ec ti o n 3 0 3 (d ) L is t, t h is a d vi so ry i n fo rm at io n r eg ar d in g th e su p p o rt o f fi sh c o n su m p ti o n i n N ew Y o rk i s m o re t im el y an d t h e ex te n t o f th e ad vi so ry m o re p re ci se ly d el in ea te d t h an t h e in fo rm at io n p ro vi d ed i n t h e S ec ti o n 3 0 3 (d ) L is t. F o r th e m o st u p -t o -d at e fi sh c o n su m p ti o n a d vi so ry i n fo rm at io n , re fe r to h tt p :/ /w w w .h ea lt h .s ta te .n y. u s/ en vi ro n m en ta l/ o u td o o rs /f is h /f is h .h tm A g en er al h ea lt h ad vi so ry t o ea t no m or e th an o ne m ea l pe r w ee k of f is h fr om a ny f re sh w at er s an d so m e m ar in e w at er s of t he s ta te i s al so i n p la ce . N Y S D O H h as i ss u ed t h is a d vi so ry b ec au se 1 ) so m e ch em ic al s (m er cu ry a nd P C B s, f or e xa m p le ) ar e co m m o n ly f o u n d i n N ew Y or k S ta te f is h , 2 ) fi sh f ro m a ll w at er s ha ve n o t b ee n t es te d , a n d 3 ) fi sh m ay c o n ta in u n id en ti fi ed c o n ta m in an ts . T h e ge n er al a d vi so ry i s le ss r es tr ic ti ve t h an t h e w at er b o d y- sp ec if ic a d vi so ri es . B ec au se t h e ge n er al a d vi so ry i s le ss r es tr ic ti ve , i s la rg el y p re ca u ti o n ar y, a n d a p p li es t o a lm o st a ll w at er s o f th e st at e, t h es e w at er s ar e n o t li st ed i n d iv id u al ly o n t h e S ec ti o n 3 0 3 (d ) L is t. A D D 10 7 N ew Y or k S ta te F in a l 20 10 S ec ti on 3 03 (d ) L is t Ju n e 20 10 W at er I n d ex N u m b er W at er b od y N am e (W I/ P W L I D ) C ou n ty T yp e C la ss C au se /P ol lu ta n t S ou rc e Y ea r 25 P ar t 2c - M u lt ip le S eg m en t/ C at eg or ic al I m p ai re d W at er b od y S eg m en ts ( sh el lf is h in g) (M ig h t b e ad d re ss ed b y a w at er b o d y sp ec if ic T M D L o r a p o ll u ta n t/ so u rc e sp ec if ic T M D L o r o th er s tr at eg y to a tt ai n w at er q u al it y st an d ar d s) A tl an ti c O ce an /L o n g I sl an d S o u n d D ra in ag e B as in (M W 1 .2 ) R B ( p o rt io n 1 ) R ar it an B ay , C la ss S A ( 1 7 0 1 -0 0 0 2 ) R ic h m o n d E st u ar y S A P at h o ge n s U rb an /S to rm /C S O 1 9 9 8 (M W 3 .1 ) L IS ( p o rt io n 1 b ) N ew R o ch el le H ar b o r (1 7 0 2 -0 2 5 9 ) W es tc h es te r E st u ar y S A P at h o ge n s U rb /S to rm , M u n ic ip al 2 0 0 2 (M W 3 .1 ) L IS ( p o rt io n 2 ) L o n g Is la n d S o u n d , W es tc h es te r C o W at er s( 1 7 0 2 -0 0 0 1 ) W es tc h es te r E st u ar y S A P at h o ge n s U rb an /C S O , M u n ic ip l 1 9 9 8 (M W 4 .1 ) L IS ( p o rt io n 3 ) L o n g Is la n d S o u n d , N as sa u C o u n ty W at er s (1 7 0 2 -0 0 2 8 ) N as sa u E st u ar y S A P at h o ge n s U rb an /C S O , M u n ic ip l 1 9 9 8 (M W 4 .2 b ) L IS -M B ( p o rt io n 1 ) M an h as se t B ay , an d t id al t ri b s (1 7 0 2 -0 0 2 1 ) N as sa u E st u ar y S A P at h o ge n s U rb an /S to rm R u n o ff 1 9 9 8 (M W 4 .3 b ) L IS -4 1 -P 1 4 5 D o so ri s P o n d ( 1 7 0 2 -0 0 2 4 ) N as sa u E st u ar y S A P at h o ge n s U rb an /S to rm R u n o ff 2 0 0 2 (M W 5 .4 g) L IS -F I- P 1 1 0 1 ,P 1 1 0 2 B ea ch /I sl an d P o n d s, F is h er s Is la n d ( 1 7 0 1 -0 2 8 3 ) S u ff o lk E st u ar y S A P at h o ge n s U rb an /S to rm R u n o ff 2 0 0 2 (M W 6 .3 b ) G B ..G P B -1 2 2 a- P 6 5 2 S ca ll o p P o n d ( 1 7 0 1 -0 3 5 4 ) S u ff o lk E st u ar y S A P at h o ge n s U rb an /S to rm R u n o ff 2 0 0 2 (M W 6 .3 g) B IS .. P 7 6 4 O ys te r P o n d /L ak e M u n ch o gu e (1 7 0 1 -0 1 6 9 ) S u ff o lk E st u ar y S A P at h o ge n s U rb an /S to rm R u n o ff 1 9 9 8 (M W 6 .3 i) A O -S B -1 5 5 P h il li p s C re ek , L o w er , an d t id al t ri b s (1 7 0 1 -0 2 9 9 ) S u ff o lk E st u ar y S A P at h o ge n s U rb an /S to rm R u n o ff 2 0 0 2 (M W 6 .3 i) A O -S B -Q gC Q u o gu e C an al ( 1 7 0 1 -0 3 0 1 ) S u ff o lk E st u ar y S A P at h o ge n s U rb an /S to rm R u n o ff 2 0 0 2 (M W 7 .2 a) A O -M B ( p o rt io n 4 ) F o rg e R iv er , L o w er a n d C o ve ( 1 7 0 1 -0 3 1 6 ) S u ff o lk E st u ar y S A P at h o ge n s U rb an /S to rm , A gr ic . 2 0 0 2 (M W 7 .6 ) A O -G S B ( p o rt io n 6 ) N ic o ll B ay ( 1 7 0 1 -0 3 7 5 ) S u ff o lk E st u ar y S A P at h o ge n s U rb an /S to rm R u n o ff 2 0 0 2 (M W 7 .8 ) A O -G S B ( p o rt io n 7 ) G re at C o ve ( 1 7 0 1 -0 3 7 6 ) S u ff o lk E st u ar y S A P at h o ge n s U rb an /S to rm R u n o ff 2 0 0 2 (M W 8 .1 ) S O B S o u th O ys te r B ay ( 1 7 0 1 -0 0 4 1 ) N as sa u E st u ar y S A P at h o ge n s U rb an /S to rm R u n o ff 1 9 9 8 (M W 8 .2 ) E B E as t B ay ( 1 7 0 1 -0 2 0 2 ) N as sa u E st u ar y S A P at h o ge n s U rb an /S to rm R u n o ff 2 0 0 2 (M W 8 .3 ) M D B M id d le B ay ( 1 7 0 1 -0 2 0 8 ) N as sa u E st u ar y S A P at h o ge n s U rb an /S to rm R u n o ff 2 0 0 2 (M W 8 .3 ) M D B -E R I E as t R o ck aw ay I n le t (1 7 0 1 -0 2 1 7 ) N as sa u E st u ar y S A P at h o ge n s U rb an /S to rm R u n o ff 2 0 0 2 (M W 8 .3 ) M D B -R C R ey n o ld s C h an n el , ea st ( 1 7 0 1 -0 2 1 5 ) N as sa u E st u ar y S A P at h o ge n s U rb an /S to rm R u n o ff 2 0 0 2 (M W 8 .4 ) H B H em p st ea d B ay ( 1 7 0 1 -0 0 3 2 ) N as sa u E st u ar y S A P at h o ge n s U rb an /S to rm R u n o ff 1 9 9 8 (M W 8 .4 a) H B -2 3 6 W o o d m er e C h an n el ( 1 7 0 1 -0 2 1 9 ) N as sa u E st u ar y S A P at h o ge n s U rb an /S to rm R u n o ff 2 0 0 2 M o re I n fo rm at io n R eg ar d in g S h el lf is h in g W at er s im pa ir ed f or s he ll fi sh in g us e ar e ba se d on s he ll fi sh in g cl os u re s is su es b y N ew Y or k S ta te D ep ar tm en t of E nv ir on m en ta l C on se rv at io n S he ll fi sh er ie s P ro g ra m a n d t h e N at io n al S h el lf is h S an it at io n P ro g ra m . B ec au se t h e sp ec if ic e xt en t an d c o n d it io n s o f th e cl o su re s ar e re p o rt ed m o re p re ci se ly a n d m o re fr eq u en tl y th ro u gh t h es e p ro gr am s th an t h ro u gh t h e S ec ti o n 3 0 3 (d ) L is t, t h is s h el lf is h c lo su re i n fo rm at io n p ro vi d es b et te r d el in ea te d a n d m o re t im el y in fo rm at io n re ga rd in g th e su p p o rt o f sh el lf is h in g u se i n t h e w at er s o f N ew Y o rk t h an d o es t h e S ec ti o n 3 0 3 (d ) L is t. F o r th e m o st c u rr en t sh el lf is h in g cl o su re i n fo rm at io n , re fe r to h tt p :/ /w w w .d ec .s ta te .n y. u s/ w eb si te /d fw m r/ m ar in e/ sh el lf is h /s fn ts h /i n d ex .h tm . A D D 10 8 T hi s pa ge i nt en ti on al ly l ef t bl an k. A D D 10 9 N ew Y or k S ta te F in a l 20 10 S ec ti on 3 03 (d ) L is t Ju n e 20 10 W at er I n d ex N u m b er W at er b od y N am e (W I/ P W L I D ) C ou n ty T yp e C la ss C au se /P ol lu ta n t S ou rc e Y ea r D u e to a n al yt ic l im it at io n s, t h e tr ea tm en t o f n o n -d et ec t re su lt s in t h e d at a ev al u at io n , an d o th er d at a ev al u at io n a n d q u al it y as su ra n ce /q u al it y co n tr o l is su es , ad d it io n al m o n it o ri n g an d 9 7 ve ri fi ca ti o n o f P A H s an d s o m e O rg an o ch lo ri n e P es ti ci d es l o ad in gs i n t h e ri ve r ar e n ec es sa ry t o d ev el o p a T M D L . 27 P ar t 3a - W at er b o d ie s fo r w h ic h T M D L D ev el op m en t M ay b e D ef er re d ( R eq u ir in g V er if ic at io n o f Im p ai rm en t) N ia ga ra R iv er /L ak e E ri e D ra in ag e B as in O n t 1 5 8 ( p o rt io n 1 ) N ia ga ra R iv er , L o w er , M ai n S te m ( 0 1 0 1 -0 0 2 7 ) N ia ga ra R iv er A (S ) O rg .C h lo r. P es t/ H C B C o n t. S ed , L an d D is p o sa l 2 0 0 6 9 7 P A H s C o n t. S ed , L an d D is p o sa l 2 0 0 2 O n t 1 5 8 ( p o rt io n 2 ) N ia ga ra R iv er , U p p er , M ai n S te m (0 1 0 1 -0 0 0 6 ) N ia ga ra R iv er A (S ) O rg .C h lo r. P es t/ H C B C o n t. S ed , L an d D is p o sa l 2 0 0 6 9 7 P A H s C o n t. S ed , L an d D is p o sa l 2 0 0 2 O n t 1 5 8 -1 2 ( p or ti on 2 ) T on aw an d a C r, M id d le , M a in S te m ( 0 1 0 2 -0 0 0 6 ) G en es ee R iv er B P at h og en s A g ri cu lt u re , U rb R u n of f 2 0 1 0 O n t 1 5 8 -1 2 ( p o rt io n 3 ) T o n aw an d a C r, M id d le , M ai n S te m ( 0 1 0 2 -0 0 0 2 ) G en es ee R iv er C P h o sp h o ru s U rb an /S to rm , S tr E ro si o n 2 0 0 4 S il t/ S ed im en t U rb an /S to rm , S tr E ro si o n 2 0 0 4 O n t 1 5 8 -1 2 ( p o rt io n 4 ) T o n aw an d a C r, U p p , & m in o r tr ib s (0 1 0 2 -0 0 0 3 ) G en es ee R iv er A S il t/ S ed im en t A gr ic , S tr ea m b an k E ro si o n 2 0 0 4 O n t 1 5 8 -1 2 - 1 E ll ic o tt C re ek , L o w er , an d t ri b s (0 1 0 2 -0 0 1 8 ) E ri e R iv er B P h o sp h o ru s U rb an R u n o ff 2 0 0 4 S il t/ S ed im en t U rb an R u n o ff 2 0 0 4 O n t 1 5 8 -1 2 -3 2 L it tl e T o n aw an d a C r, L o w , an d t ri b s (0 1 0 2 -0 0 0 1 ) G en es ee R iv er A S il t/ S ed im en t A gr ic , S tr ea m b an k E ro si o n 2 0 0 4 O n t 1 5 8 .. E -2 2 M u d d y C re ek , L ow er , an d t ri b s (0 1 0 4 -0 0 5 1 ) E ri e R iv er B P at h og en s U n k n ow n 2 0 1 0 A ll eg h en y R iv er D ra in ag e B as in P a- 6 3 -1 3 -P 1 3 3 L o w er C as sa d ag a L ak e (0 2 0 2 -0 0 0 3 ) C h au ta u q u a L ak e B N u tr ie n ts ( p h o sp h o ru s) A gr ic u lt u re 1 9 9 8 P a- 6 3 -1 3 -P 1 3 3 -3 -P 1 3 4 M id d le C as sa d ag a L ak e (0 2 0 2 -0 0 0 2 ) C h au ta u q u a L ak e C N u tr ie n ts ( p h o sp h o ru s) A gr ic u lt u re 1 9 9 8 L ak e O n ta ri o ( M in o r T ri b s) D ra in ag e B as in O n t 1 0 0 * M il l C re ek a n d t ri b s (0 3 0 2 -0 0 2 5 ) M o n ro e R iv er B D .O ./ O xy ge n D em an d M u n ic ip al , O n si te W T S 2 0 0 8 P h o sp h o ru s M u n ic ip al , O n si te W T S 2 0 0 8 P at h o ge n s M u n ic ip al , O n si te W T S 2 0 0 8 O n t 1 0 7 * S h ip b u il d er s C re ek a n d t ri b s (0 3 0 2 -0 0 2 6 ) M o n ro e R iv er C * D .O ./ O xy ge n D em an d M u n ic ip al , O n si te W T S 2 0 0 8 P h o sp h o ru s M u n ic ip al , O n si te W T S 2 0 0 8 P at h o ge n s M u n ic ip al , O n si te W T S 2 0 0 8 O n t 1 3 8 * O ak O rc h ar d C re ek ( 0 3 0 1 -0 0 1 4 ) G en es ee R iv er C N u tr ie n ts ( p h o sp h o ru s) A gr ic u lt u re 1 9 9 8 G en es ee R iv er D ra in ag e B as in O n t 1 1 7 - 2 7 -3 4 H em lo ck L ak e O u tl et a n d m in o r tr ib s (0 4 0 2 -0 0 1 3 ) O n ta ri o R iv er C P h o sp h o ru s O n si te W T S 2 0 0 4 P at h o ge n s O n si te W T S 2 0 0 4 A D D 11 0 N ew Y or k S ta te F in a l 20 10 S ec ti on 3 03 (d ) L is t Ju n e 20 10 W at er I n d ex N u m b er W at er b od y N am e (W I/ P W L I D ) C ou n ty T yp e C la ss C au se /P ol lu ta n t S ou rc e Y ea r 28 P ar t 3a - W at er b o d ie s fo r w h ic h T M D L D ev el op m en t M ay b e D ef er re d ( R eq u ir in g V er if ic at io n o f Im p ai rm en t) ( co n ’t ) O sw eg o R iv er ( F in ge r L ak es ) D ra in ag e B as in O n t 6 6 -1 2 ( p o rt io n 2 ) S en ec a R iv er , L o w er , M ai n S te m (0 7 0 1 -0 0 0 8 ) O n o n d ag a R iv er C P at h o ge n s O n si te W T S 1 9 9 8 O n t 6 6 -1 2 -1 2 -P 1 5 4 - 4 O n on d ag a C re ek , L ow er , an d t ri b s (0 7 0 2 -0 0 2 3 ) O n on d ag a R iv er C T u rb id it y S tr ea m b an k E ro si on 2 0 1 0 O n t 6 6 -1 2 -1 2 -P 1 5 4 - 4 O n o n d ag a C re ek , M id d le , an d t ri b s (0 7 0 2 -0 0 0 4 ) O n o n d ag a R iv er B T u rb id it y S tr ea m b an k E ro si o n 2 0 0 8 O n t 6 6 -1 2 -1 2 -P 1 5 4 - 4 O n o n d ag a C re ek , U p p er , an d t ri b s (0 7 0 2 -0 0 2 4 ) O n o n d ag a R iv er C T u rb id it y S tr ea m b an k E ro si o n 2 0 0 8 O n t 6 6 -1 2 -5 2 -1 8 P o n d B ro o k an d t ri b s (0 7 0 4 -0 0 0 4 ) S en ec a R iv er C D .O ./ O xy ge n D em an d A gr ic u lt u re 1 9 9 8 O n t 6 6 -1 2 -5 2 -2 3 - 1 M ar b le to w n C re ek ( 0 7 0 4 -0 0 0 3 ) W ay n e R iv er C (T ) P es ti ci d es A gr ic u lt u re 1 9 9 8 O n t 6 6 -1 2 -5 2 -2 3 -4 3 G re at B ro o k an d m in o r tr ib s (0 7 0 4 -0 0 3 4 ) O n ta ri o R iv er C D .O ./ O xy ge n D em an d M u n ic ip al , U rb an /S to rm 2 0 0 8 P h o sp h o ru s M u n ic ip al , U rb an /S to rm 2 0 0 8 S il t/ S ed im en t M u n ic ip al , U rb an /S to rm 2 0 0 8 O n t 6 6 -1 2 -5 2 -2 3 .. (B ar ge C an al ) N Y S B ar ge C an al ( p o rt io n 5 ) (0 7 0 4 -0 0 2 0 ) W ay n e R iv er C D .O ./ O xy ge n D em an d M u n ic ip al 2 0 0 8 U p p er H u d so n R iv er D ra in ag e B as in H -2 9 9 -P 2 7 -1 3 - 1 -P 3 0 * L ak e L o n el y (1 1 0 1 -0 0 3 4 ) S ar at o ga L ak e B P h o sp h o ru s U rb an /S to rm R u n o ff 2 0 0 2 O th er ( S el ec te d) S ta te w id e W at er s W at er s w it h p H b et w ee n 6 .0 a n d 6 .5 o r b et w ee n 8 .5 a n d 9 .0 . A lt h o u gh N ew Y or k S ta te w at er q u al it y st an d ar d s st at e th at p H s h al l n o t b e le ss t h an 6 .5 n o r m or e th an 8 .5 , t h er e is c o n si d er ab le e vi d en ce t h at a w id er r an ge o f p H i s su p p o rt iv e o f aq u at ic l if e an d o th er u se s. T h e N Y S D E C A ss es sm en t M et h o d o lo gy r ef le ct s th is f ac t b y in d ic at in g th at f o r w at er s w it h p H b et w ee n 6 .0 an d 6 .5 o r b et w ee n 8 .5 a n d 9 .0 , w at er s ar e co n si d er ed t o b e “s tr es se d ” b u t su p p o rt in g o f u se s (i .e ., n o t “i m p ai re d ”) u n le ss t h er e ar e o th er i n d ic at io n s o f bi o lo gi ca l im pa ct . A s th e tr ie nn ia l w at er q ua li ty s ta nd ar ds r ul e- m ak in g ef fo rt m ov es f or w ar d, N Y S D E C w il l ev al ua te t he c ur re nt p H s ta nd ar ds f or f re sh w at er in l ig h t o f av ai la b le r es ea rc h a n d a d o p t a cr it er io n t h at b et te r re fl ec ts t h e n at u ra l ra n ge o f p H i n f re sh w at er s an d t h e re su lt in g im p ac t o n u se s u p p o rt . P en d in g th e de ve lo pm en t o f re vi se d st an da rd s/ cr it er ia f or p H , w at er s be tw ee n 6. 0 a nd 6 .5 a nd 8 .5 a nd 9 .0 m ay b e as se ss ed a s w at er s w it h In su ff ic ie nt D at a to m ak e a d et er m in at io n r eg ar d in g li st in g (I n te gr at ed R ep o rt in g C at eg o ry 3 ). A D D 11 1 N ew Y or k S ta te F in a l 20 10 S ec ti on 3 03 (d ) L is t Ju n e 20 10 W at er I n d ex N u m b er W at er b od y N am e (W I/ P W L I D ) C ou n ty T yp e C la ss C au se /P ol lu ta n t S ou rc e Y ea r T h is l is ti n g is a r es u lt o f im p ai rm en ts d u e to e xt en si ve a lg al b lo o m s (C la d o p h o ra ) th at a re t h o u gh t to b e th e re su lt o f m u lt ip le f ac to rs , in cl u d in g el ev at ed p h o sp h o ru s le ve ls . F u rt h er s tu d y is 9 8 n ec es sa ry t o d et er m in e th e re la ti ve c o n tr ib u ti o n o f th es e m u lt ip le f ac to rs , th e ro le o f p h o sp h o ru s lo ad in g to t h e L ak e, w h et h er a T M D L i s th e m o st a p p ro p ri at e m an ag em en t re sp o n se , a n d i f so , w h at i s th e ap p ro p ri at e T M D L t ar ge t/ en d p o in t. U n ti l is su es r eg ar d in g th e ca u se s an d p o ll u ta n ts a n d d eg re e o f im p ac t, a s w el l as a n a p p ro p ri at e w at er q u al it y st an d ar d a re c la ri fi ed , a P ar t 3 b li st in g fo r th e m o st s ig n if ic an tl y af fe ct ed s h o re li n e w at er s is c o n si d er ed t o b e th e m o st a p p ro p ri at e w ay t o r ec o gn iz e th es e w at er q u al it y is su es o n t h e S ec ti o n 3 0 3 (d ) L is t. O th er a d d it io n al L ak e O n ta ri o s h o re li n e, e m b ay m en t an d t ri b u ta ry w at er b o d ie s w er e al so c o n si d er ed f o r li st in g d u e to e le va te d p h o sp h o ru s le ve ls . N Y S D E C b el ie ve s d ec is io n s re ga rd in g th es e ad d it io n al l is ti n gs a re m o re a p p ro p ri at el y d ef er re d p en d in g th e o u tc o m e o f th e N Y S D E C e ff o rt , c u rr en tl y u n d er w ay , to d ev el o p m o re a p p ro p ri at e n u m er ic al n u tr ie n t w at er q u al it y cr it er ia t o r ep la ce t h e ex is ti n g na rr at iv e st an d ar ds a nd c ri te ri a fo r po nd ed w at er s. H ow ev er U S E P A r eq ue st ed t ha t fo ur s pe ci fi c w at er bo d ie s be a dd ed t o th e S ec ti on 3 03 (d ) L is t; t he se w at er bo d ie s ar e: I ro nd eq uo it B ay (0 3 0 2 -0 0 0 1 ), S o d u s B ay ( 0 3 0 2 -0 0 2 0 ), E as t B ay ( 0 3 0 2 -0 0 1 1 ) an d N o rt h P o n d ( 0 3 0 3 -0 0 0 2 ). A s n o te d a b o ve , T M D L d ev el o p m en t fo r P ar t 3 b w at er b o d ie s m ay b e d ef er re d p en d in g ve ri fi ca ti o n o f th e ca u se /p o ll u ta n t. P ar t 3b - W at er b od ie s fo r w h ic h T M D L D ev el op m en t M ay b e D ef er re d ( R eq u ir in g V er if ic at io n o f C au se /P ol lu ta n t) N ia ga ra R iv er /L ak e E ri e D ra in ag e B as in O n t 1 5 8 -1 2 - 3 B u ll C re ek a n d t ri b s (0 1 0 2 -0 0 2 6 ) N ia g ar a R iv er C A q u at ic T ox ic it y U n k n ow n 2 0 1 0 O n t 1 5 8 -1 2 - 9 B ee m an C re ek a n d t ri b s (0 1 0 2 -0 0 3 0 ) E ri e R iv er C D .O ./ O xy ge n D em an d O n si te W T S 2 0 0 4 P h o sp h o ru s O n si te W T S 2 0 0 4 P at h o ge n s O n si te W T S 2 0 0 4 O n t 1 5 8 -1 2 -1 1 -1 M u rd er C re ek , L o w er , an d t ri b s (0 1 0 2 -0 0 3 1 ) E ri e R iv er C D .O ./ O xy ge n D em an d O n si te W T S 2 0 0 4 P h o sp h o ru s O n si te W T S 2 0 0 4 P at h o ge n s O n si te W T S 2 0 0 4 O n t 1 5 8 -1 2 -2 8 B o w en B ro o k an d t ri b s (0 1 0 2 -0 0 3 6 ) G en es ee R iv er C D .O ./ O xy ge n D em an d O n si te W T S 2 0 0 4 P h o sp h o ru s O n si te W T S 2 0 0 4 O n t 1 5 8 .. E - 1 - 6 - 6 P lu m b B o tt om C re ek a n d t ri b s (0 1 0 3 -0 0 1 9 ) E ri e R iv er C A q u at ic T ox ic it y U n k n ow n 2 0 1 0 O n t 1 5 8 .. E - 2 - 1 S o u th B ra n ch S m o ke C r, L o w er , an d t ri b s (0 1 0 1 -0 0 3 6 ) E ri e R iv er C P h o sp h o ru s U rb an R u n o ff 2 0 0 4 S il t/ S ed im en t U rb an R u n o ff , E ro si o n 2 0 0 4 O n t 1 5 8 .. E -1 9 L it tl e S is te r C re ek , L o w er , an d t ri b s (0 1 0 4 -0 0 4 5 ) E ri e R iv er B P h o sp h o ru s O n si te W T S 2 0 0 4 P at h o ge n s O n si te W T S 2 0 0 4 O n t 1 5 8 .. E -3 2 S co tt C re ek a n d t ri b s (0 1 0 5 -0 0 1 7 ) C h a u ta u q u a R iv er C A q u at ic T ox ic it y U n k n ow n 2 0 1 0 O n t 1 5 8 .. E -3 6 C ro ok ed B ro ok a n d t ri b s (0 1 0 5 -0 0 1 9 ) C h a u ta u q u a R iv er C A q u at ic T ox ic it y U n k n ow n 2 0 1 0 A ll eg h en y R iv er D ra in ag e B as in P a- 6 3 -1 3 - 4 C h ad ak o in R iv er a n d t ri b s (0 2 0 2 -0 0 1 8 ) C h au ta u q u a R iv er C A q u at ic T o xi ci ty In d u st ri al , U rb an R u n o ff 2 0 0 8 P a- 6 3 -1 3 -2 3 -P 1 3 1 * B ea r L ak e (0 2 0 1 -0 0 0 3 ) C h au ta u q u a L ak e A N u tr ie n ts ( p h o sp h o ru s) A gr ic u lt u re 1 9 9 8 L ak e O n ta ri o ( M in o r T ri b s) D ra in ag e B as in O n t (p or ti on 1 6 ) R oc h es te r E m b ay m en t - E as t (0 3 0 2 -0 0 0 2 ) M o n ro e G .L ak es A P h os p h or u s A g ri c, M u n ic ip al , ot h er 2 0 1 0 9 8 O n t (p or ti on 1 7 ) R oc h es te r E m b ay m en t - W es t (0 3 0 1 -0 0 6 8 ) M o n ro e G .L ak es A P h os p h or u s A g ri c, M u n ic ip al , ot h er 2 0 1 0 9 8 O n t (p or ti on 1 8 ) L ak e O n ta ri o S h or el in e, W es te rn (0 3 0 1 -0 0 6 9 ) M o n ro e G .L ak es A P h os p h or u s A g ri c, M u n ic ip al , ot h er 2 0 1 0 9 8 O n t (p or ti on 1 9 ) L ak e O n ta ri o S h or el in e, W es te rn (0 3 0 1 -0 0 7 0 ) O rl ea n s G .L ak es A P h os p h or u s A g ri c, M u n ic ip al , ot h er 2 0 1 0 9 8 O n t (p or ti on 2 0 ) L ak e O n ta ri o S h or el in e, W es te rn ( 0 3 0 1 -0 0 7 1 ) O rl ea n s G .L ak es A P h os p h or u s A g ri c, M u n ic ip al , ot h er 2 0 1 0 9 8 O n t (p or ti on 2 1 ) L ak e O n ta ri o S h or el in e, W es te rn ( 0 3 0 1 -0 0 7 2 ) N ia g ar a G .L ak es A P h os p h or u s A g ri c, M u n ic ip al , ot h er 2 0 1 0 9 8 O n t (p or ti on 2 2 ) L ak e O n ta ri o S h or el in e, W es te rn ( 0 3 0 1 -0 0 5 3 ) N ia g ar a G .L ak es A P h os p h or u s A g ri c, M u n ic ip al , ot h er 2 0 1 0 9 8 O n t 9 9 F ou rm il e C re ek a n d t ri b s (0 3 0 2 -0 0 0 6 ) M o n ro e R iv er C A q u at ic T ox ic it y U n k n ow n 2 0 1 0 A D D 11 2 N ew Y or k S ta te F in a l 20 10 S ec ti on 3 03 (d ) L is t Ju n e 20 10 W at er I n d ex N u m b er W at er b od y N am e (W I/ P W L I D ) C ou n ty T yp e C la ss C au se /P ol lu ta n t S ou rc e Y ea r T h e sp ec if ic al ly i d en ti fi ed i m p ai re d w at er (s ) in t h is s eg m en t in cl u d e D en sm o re C re ek ( -5 ). 9 9 T h e sp ec if ic al ly i d en ti fi ed i m p ai re d w at er (s ) in t h is s eg m en t in cl u d e P at te rs o n C re ek ( -3 6 ). 1 0 0 30 P ar t 3b - W at er b od ie s fo r w h ic h T M D L D ev el op m en t M ay b e D ef er re d ( R eq u ir in g V er if ic at io n o f C au se /P ol lu ta n t) ( co n ’t ) L ak e O n ta ri o ( M in o r T ri b s) D ra in ag e B as in ( co n ’t ) O n t 1 0 8 /P 1 1 3 - 1 t h ru 6 ( se le ct ed ) M in o r T ri b s to I ro n d eq u o it B ay ( 0 3 0 2 -0 0 3 8 ) M o n ro e R iv er C D .O ./ O xy ge n D em an d M u n ic ip al , U rb an R u n o ff 2 0 0 8 9 9 P h o sp h o ru s M u n ic ip al , U rb an R u n o ff 2 0 0 8 P at h o ge n s M u n ic ip al , U rb an R u n o ff 2 0 0 8 O n t 1 0 8 /P 1 1 3 - 3 -1 2 T h o m as C re ek /W h it e B ro o k an d t ri b s (0 3 0 2 -0 0 2 3 ) M o n ro e R iv er B P h o sp h o ru s M u n ic ip al , U rb an R u n o ff 2 0 0 8 O n t 1 2 0 S la te r C re ek a n d t ri b s (0 3 0 1 -0 0 2 0 ) M o n ro e R iv er C D .O ./ O xy ge n D em an d O n si te W T S 2 0 0 4 O n t 1 4 4 G o ld en H il l C re ek a n d t ri b s (0 3 0 1 -0 0 5 0 ) N ia ga ra R iv er C A q u at ic T o xi ci ty U n kn o w n 2 0 0 8 O n t 1 4 8 E ig h te en m il e C re ek , U p p , an d m in o r tr ib s (0 3 0 1 -0 0 5 5 ) N ia ga ra R iv er D A q u at ic T o xi ci ty U n kn o w n 2 0 0 8 O n t 1 4 9 H o p ki n s C re ek a n d t ri b s (0 3 0 1 -0 0 6 0 ) N ia ga ra R iv er C A q u at ic T o xi ci ty U n kn o w n 2 0 0 8 O n t 1 5 6 F o u rm il e C re ek , L o w er , an d t ri b s (0 3 0 1 -0 0 6 6 ) N ia ga ra R iv er B A q u at ic T o xi ci ty U n kn o w n 2 0 0 8 G en es ee R iv er D ra in ag e B as in O n t 1 1 7 - 1 4 R ed C re ek a n d T ri b s (0 4 0 2 -0 0 2 4 ) M o n ro e R iv er C A q u at ic T ox ic it y U rb an R u n of f 2 0 1 0 O n t 1 1 7 - 1 8 L it tl e B la ck C re ek , L o w er , an d t ri b s (0 4 0 2 -0 0 4 7 ) M o n ro e R iv er C A q u at ic T o xi ci ty U rb an R u n o ff 2 0 0 4 O n t 1 1 7 - 1 9 -2 8 S p ri n g C re ek a n d t ri b s (0 4 0 2 -0 0 3 6 ) G en es ee R iv er C A q u at ic T ox ic it y U rb an R u n of f 2 0 1 0 O n t 1 1 7 - 1 9 -3 0 B ig el o w C re ek a n d t ri b s (0 4 0 2 -0 0 1 6 ) G en es ee R iv er C P h o sp h o ru s A gr ic u lt u re 2 0 0 4 O n t 1 1 7 - 2 7 -1 3 U n n am ed T ri b t o H on eo y e C r, a n d t ri b s (0 4 0 2 -0 0 8 1 ) M o n ro e R iv er C N u tr ie n ts A g ri cu lt u re 2 0 1 0 O n t 1 1 7 - 5 7 Ja yc o x C re ek a n d t ri b s (0 4 0 2 -0 0 6 4 ) L iv in gs to n R iv er C P h o sp h o ru s A gr ic u lt u re 2 0 0 4 S il t/ S ed im en t A gr ic u lt u re 2 0 0 4 O n t 1 1 7 - 6 6 -2 2 M il l C re ek a n d m in o r tr ib s (0 4 0 4 -0 0 1 1 ) L iv in gs to n R iv er C (T S ) S il t/ S ed im en t S tr ea m b an k E ro si o n 2 0 0 4 O n t 1 1 7 - 7 0 S il ve r L ak e O u tl et , U p p er , an d t ri b s (0 4 0 3 -0 0 3 4 ) W yo m in g R iv er C U n kn o w n U n kn o w n 2 0 0 4 C h em u n g R iv er D ra in ag e B as in P a 3 -5 7 - 5 ( p o rt io n 4 ) C an is te o R iv er , M id d le , an d m in o r tr ib s (0 5 0 3 -0 0 0 1 ) S te u b en R iv er C A q u at ic T o xi ci ty U n kn o w n 2 0 0 8 S u sq u eh an n a R iv er D ra in ag e B as in S R - 3 1 t h ru 3 7 ( se le ct ed ) M in or T ri b s to L ow er S u sq u eh an n a (0 6 0 3 -0 0 4 4 ) B ro om e R iv er C P h os p h or u s A g ri c, U rb an R u n of f 2 0 1 0 1 0 0 O sw eg o R iv er ( F in ge r L ak es ) D ra in ag e B as in O n t 6 6 -1 2 ( p o rt io n 1 ) * S en ec a R iv er , L o w er , M ai n S te m ( 0 7 0 1 -0 0 0 1 ) O n o n d ag a R iv er C D .O ./ O xy ge n D em an d In va si ve S p ec ie s, A gr ic 1 9 9 8 O n t 6 6 -1 2 ( p o rt io n 2 ) S en ec a R iv er , L o w er , M ai n S te m ( 0 7 0 1 -0 0 0 8 ) O n o n d ag a R iv er C D .O ./ O xy ge n D em an d In va si ve S p ec ie s, A gr ic 1 9 9 8 O n t 6 6 -1 2 -1 2 -P 1 5 4 - 2 B lo od y B ro ok a n d t ri b s (0 7 0 2 -0 0 0 6 ) O n on d ag a R iv er C * A q u at ic T ox ic it y U n k n ow n 2 0 1 0 O n t 6 6 -1 2 -5 1 C ra n e B ro o k an d t ri b s (0 7 0 4 -0 0 2 4 ) C ay u ga R iv er C S al in it y U n kn o w n 2 0 0 8 A D D 11 3 N ew Y or k S ta te F in a l 20 10 S ec ti on 3 03 (d ) L is t Ju n e 20 10 W at er I n d ex N u m b er W at er b od y N am e (W I/ P W L I D ) C ou n ty T yp e C la ss C au se /P ol lu ta n t S ou rc e Y ea r T h e sp ec if ic al ly i d en ti fi ed i m p ai re d w at er (s ) in t h is s eg m en t in cl u d e C o ll eg e C re ek ( -2 3 ), C o w h o rn C re ek ( 2 4 ), S ch em er h o rn C re ek ( -2 5 ), B ra n d yw in e C re ek ( -2 5 -1 ) an d o th er t ri b s to 1 0 1 S ch em er h o rn C re ek . T h e sp ec if ic al ly i d en ti fi ed i m p ai re d w at er (s ) in t h is s eg m en t in cl u d e G o ld C re ek ( -2 -1 ). 1 0 2 T h e sp ec if ic al ly i d en ti fi ed i m p ai re d w at er (s ) in t h is s eg m en t in cl u d e th e W es t B ra n ch H ac ke n sa ck R iv er , L o w er ( -1 2 ). 1 0 3 T h es e li st in gs a re a r es u lt o f im p ai rm en ts d u e to e xt en si ve a lg al b lo o m s (B ro w n T id e) t h at a re t h o u gh t to b e th e re su lt o f m u lt ip le f ac to rs , in cl u d in g el ev at ed n it ro ge n l ev el s. F u rt h er s tu d y is 1 0 4 n ec es sa ry t o d et er m in e th e re la ti ve c o n tr ib u ti o n o f th es e m u lt ip le f ac to rs , th e ro le o f n it ro ge n l o ad in g in t h e B ay , w h et h er a T M D L i s th e m o re a p p ro p ri at e m an ag em en t re sp o n se ( an d i f so , w ha t is t he a pp ro pr ia te T M D L t ar ge t/ en d po in t) . U nt il t he se i ss ue s re ga rd in g ca us es a nd p o ll ut an ts a re c la ri fi ed , P ar t 3b i s th e m os t ap p ro p ri at e pl ac e to l is t th e w at er s of t he B ay . O th er tr ib u ta ry e m b ay m en ts t o t h es e w at er s w er e al so c o n si d er ed f o r li st in g, h o w ev er d ec is io n s re ga rd in g th es e ad d it io n al l is ti n gs h av e b ee n d ef er re d p en d in g fu rt h er s tu d y re ga rd in g B ro w n T id e al ga l b lo o m s. 31 P ar t 3b - W at er b od ie s fo r w h ic h T M D L D ev el op m en t M ay b e D ef er re d ( R eq u ir in g V er if ic at io n o f C au se /P ol lu ta n t) ( co n ’t ) M o h aw k R iv er D ra in ag e B as in H -2 4 0 ( p o rt io n 1 4 ) * M o h aw k R iv er , M ai n S te m ( 1 2 0 1 -0 0 9 4 ) O n ei d a R iv er C F lo at ab le s U rb an R u n o ff 2 0 0 4 C o p p er U rb an R u n o ff 2 0 0 4 D .O ./ O xy ge n D em an d U rb an R u n o ff 2 0 0 4 P at h o ge n s U rb an R u n o ff 2 0 0 4 H -2 4 0 - 2 1 t h ru 2 8 M in or T ri b s to M o h aw k R iv er ( 1 2 0 1 -0 0 4 0 ) S ch n ec ta d y R iv er C A q u at ic T ox ic it y In d u st ri al /U rb an R u n of f 2 0 1 0 1 0 1 L o w er H u d so n R iv er D ra in ag e B as in H - 9 5 -1 4 -P 3 5 4 S y lv an L ak e (1 3 0 4 -0 0 2 9 ) D u tc h es s L ak e B (T ) D .O ./ O x y g en D em an d O n si te W T S 2 0 1 0 H -1 3 9 -1 3 -5 9 Q u ak er C re ek ( 1 3 0 6 -0 0 2 5 ) O ra n ge R iv er D > C D .O ./ O xy ge n D em an d A gr ic u lt u re 2 0 0 4 D el aw ar e R iv er D ra in ag e B as in D - 1 - 1 t h ru 1 1 ( se le ct ed ) M in or T ri b s to L ow er N ev er si n k R iv er ( 1 4 0 2 -0 0 2 3 ) O ra n g e R iv er C A q u at ic T ox ic it y M u n ic ip al /U rb an 2 0 1 0 1 0 2 R am ap o /H ac ke n sa ck R iv er B as in N J - 1 ( p or ti on 2 ) H ac k en sa ck R iv er , L ow , an d m n r tr ib s (1 5 0 1 -0 0 2 6 ) R oc k la n d R iv er A A q u at ic T ox ic it y U rb an /S to rm R u n of f 2 0 1 0 N J - 1 - 4 N au ra u sh au n B ro ok , L ow er , an d t ri b s (1 5 0 1 -0 0 1 0 ) R oc k la n d R iv er A A q u at ic T ox ic it y U rb an /S to rm R u n of f 2 0 1 0 N J - 1 /P 9 7 7 a- M in or T ri b s to D eF or es t L ak e (1 5 0 1 -0 0 2 9 ) R oc k la n d R iv er A A q u at ic T ox ic it y U rb an /S to rm R u n of f 2 0 1 0 1 0 3 N J - 1 /P 9 7 7 a- 1 2 W es t B r. H ac k en sa ck , U p p er , an d t ri b s (1 5 0 1 -0 0 0 9 ) R oc k la n d R iv er C (T ) A q u at ic T ox ic it y U rb an /S to rm R u n of f 2 0 1 0 N J - 5 P as ca ck B ro ok a n d t ri b s, w it h in N Y S ( 1 5 0 1 -0 0 1 5 ) R oc k la n d R iv er C * A q u at ic T ox ic it y U rb an /S to rm R u n of f 2 0 1 0 A tl an ti c O ce an /L o n g Is la n d S o u n d D ra in ag e B as in (M W 1 .2 ) S I- 8 -1 -1 S p ri n g vi ll e C re ek , U p p er , an d t ri b s (1 7 0 1 -0 1 8 6 ) R ic h m on d R iv er B A q u at ic T ox ic it y U rb an /S to rm R u n of f 2 0 1 0 (M W 3 .2 ) L IS - 4 B u rl in g B ro ok a n d t ri b s (1 7 0 2 -0 1 2 0 ) W es tc h es te r R iv er C A q u at ic T ox ic it y U rb an /S to rm R u n of f 2 0 1 0 (M W 3 .6 ) L IS -1 3 B yr am R iv er , L o w er ( 1 7 0 2 -0 1 3 2 ) W es tc h es te r E st u ar y S C P at h o ge n s O n si te W T S , U rb R u n o ff 2 0 0 4 (M W 7 .1 b ) A O -S B S h in n ec oc k B a y a n d I n le t ( 1 7 0 1 -0 0 3 3 ) S u ff ol k E st u ar y S A N it ro g en O n si te W T S , U rb R u n of f 2 0 1 0 1 0 4 (M W 7 .1 c) A O -Q B Q u an tu ck B a y ( 1 7 0 1 -0 0 4 2 ) S u ff ol k E st u ar y S A N it ro g en O n si te W T S , U rb R u n of f 2 0 1 0 1 0 4 A D D 11 4 N ew Y or k S ta te F in a l 20 10 S ec ti on 3 03 (d ) L is t Ju n e 20 10 W at er I n d ex N u m b er W at er b od y N am e (W I/ P W L I D ) C ou n ty T yp e C la ss C au se /P ol lu ta n t S ou rc e Y ea r A lt h o u gh t h is w at er i s co n si d er ed t o b e im p ai re d , p o o r sa m p li n g h ab it at a ls o i n fl u en ce s th e b io lo gi ca l sa m p li n g re su lt s th at i n d ic at e m o d er at el y im p ac te d c o n d it io n s. 1 0 5 32 P ar t 3b - W at er b od ie s fo r w h ic h T M D L D ev el op m en t M ay b e D ef er re d ( R eq u ir in g V er if ic at io n o f C au se /P ol lu ta n t) ( co n ’t ) A tl an ti c O ce an /L o n g Is la n d S o u n d D ra in ag e B as in ( co n ’t ) (M W 7 .2 a) A O -M B ( p or ti on 1 ) M o ri ch es B a y , E as t (1 7 0 1 -0 3 0 5 ) S u ff ol k E st u ar y S A N it ro g en O n si te W T S , U rb R u n of f 2 0 1 0 1 0 4 (M W 7 .2 a) A O -M B ( p or ti on 2 ) M o ri ch es B a y , W es t (1 7 0 1 -0 0 3 8 ) S u ff ol k E st u ar y S A N it ro g en O n si te W T S , U rb R u n of f 2 0 1 0 1 0 4 (M W 7 .2 a) A O -M B -1 7 0 T er re ll R iv er , U p p er , an d t ri b s (1 7 0 1 -0 1 0 3 ) S u ff ol k R iv er C (T S ) A q u at ic T ox ic it y U rb an /S to rm R u n of f 2 0 1 0 1 0 5 (M W 7 .3 ) A O -G S B ( p or ti on 1 ) G re at S ou th B a y , E as t (1 7 0 1 -0 0 3 9 ) S u ff ol k E st u ar y S A N it ro g en O n si te W T S , U rb R u n of f 2 0 1 0 1 0 4 (M W 7 .3 ) A O -G S B ( p or ti on 2 ) G re at S ou th B a y , M id d le ( 1 7 0 1 -0 0 4 0 ) S u ff ol k E st u ar y S A N it ro g en O n si te W T S , U rb R u n of f 2 0 1 0 1 0 4 (M W 7 .3 ) A O -G S B ( p or ti on 3 ) G re at S ou th B a y , W es t (1 7 0 1 -0 1 7 3 ) S u ff ol k E st u ar y S A N it ro g en O n si te W T S , U rb R u n of f 2 0 1 0 1 0 4 (M W 7 .5 ) A O -G S B -1 7 8 B ea ve rd am C re ek a n d t ri b s (1 7 0 1 -0 1 0 4 ) S u ff ol k R iv er C (T S ) A m m on ia U rb an /S to rm R u n of f 2 0 1 0 (M W 7 .5 ) A O -G S B -1 7 9 M o tt s C re ek , U p p er , an d t ri b s (1 7 0 1 -0 3 2 5 ) S u ff ol k R iv er C A q u at ic T ox ic it y U rb an /S to rm R u n of f 2 0 1 0 1 0 5 (M W 7 .8 ) A O -G S B -1 9 7 A w ix a C re ek , U p p er , an d t ri b s (1 7 0 1 -0 0 9 3 ) S u ff ol k R iv er C A q u at ic T ox ic it y U rb an /S to rm R u n of f 2 0 1 0 (M W 7 .8 ) A O -G S B -1 9 8 P en at aq u it C re ek , U p p er , an d t ri b s (1 7 0 1 -0 0 9 2 ) S u ff ol k R iv er C A q u at ic T ox ic it y U rb an /S to rm R u n of f 2 0 1 0 1 0 5 (M W 8 .3 a) M D B -2 3 0 ,2 3 1 M il b u rn /P ar so n ag e C r, U p p , an d t ri b s (1 7 0 1 -0 2 1 2 ) N as sa u R iv er C A q u at ic T ox ic it y U rb an /S to rm R u n of f 2 0 1 0 (M W 8 .5 a) J B -2 4 1 V al le y S tr ea m , U p p er , an d t ri b s (1 7 0 1 -0 2 2 5 ) N as sa u R iv er C A q u at ic T ox ic it y U rb an /S to rm R u n of f 2 0 1 0 1 0 5 A D D 11 5 N ew Y or k S ta te F in a l 20 10 S ec ti on 3 03 (d ) L is t Ju n e 20 10 W at er I n d ex N u m b er W at er b od y N am e (W I/ P W L I D ) C ou n ty T yp e C la ss C au se /P ol lu ta n t S ou rc e Y ea r M an y im p ai rm en ts t o t h es e w at er s ar e b ei n g ad d re ss ed t h ro u gh t h e ef fo rt s o f th e O n o n d ag a L ak e P ar tn er sh ip . O n o n d ag a L ak e an d s o m e o f it s tr ib s (L ey C re ek , O n o n d ag a C re ek , H ar b o r 1 0 6 B ro o k) h av e o r w il l al so b en ef it f ro m a ct io n s re la te d t o t h e O n o n d ag a L ak e A m en d ed C o n se n t Ju d ge m en t. Im p ai rm en ts t o S ka n ea te le s C re ek h av e b ee n v er if ie d , b u t th e im p ai rm en t is t h o u gh t to h av e b ee n a d d re ss ed t h ro u gh c o m p le te d e n vi ro n m en ta l (h az ar d o u s w as te ) re m ed ia ti o n a ct io n s. 1 0 7 Im p ai rm en ts t o K el se y C re ek h av e b ee n v er if ie d , b u t th e im p ai rm en t is b ei n g ad d re ss ed t h ro u gh o n -g o in g en vi ro n m en ta l (h az ar d o u s w as te ) re m ed ia ti o n a ct io n s. 1 0 8 33 P ar t 3c - W at er b od ie s fo r w h ic h T M D L D ev el op m en t M ay b e D ef er re d ( P en d in g Im p le m en ta ti on /E va lu at io n o f O th er R es to ra ti on M ea su re s) O sw eg o R iv er ( F in ge r L ak es ) D ra in ag e B as in O n t 6 6 -1 2 -1 2 O n o n d ag a L ak e O u tl et ( 0 7 0 2 -0 0 2 0 ) O n o n d ag a R iv er B D .O ./ O xy ge n D em an d M u n ic p al ,U rb an R u n o ff 2 0 0 8 1 0 6 O n t 6 6 -1 2 -1 2 -P 1 5 4 ( p o rt io n 2 ) O n o n d ag a L ak e, s o u th er n e n d ( 0 7 0 2 -0 0 2 1 ) O n o n d ag a L ak e C P at h o ge n s C S O s, M u n ic p l, U rb 2 0 0 8 1 0 6 O n t 6 6 -1 2 -1 2 -P 1 5 4 - M in o r T ri b s to O n o n d ag a L ak e (0 7 0 2 -0 0 2 2 ) O n o n d ag a R iv er C P at h o ge n s C S O s, M u n ic p l, U rb 2 0 0 8 1 0 6 N u tr ie n ts ( p h o sp h o ru s) C S O s, M u n ic p l, U rb 2 0 0 8 3 2 N it ro ge n ( N H , N O ) C S O s, M u n ic p l, U rb 2 0 0 8 C ya n id e C S O s, M u n ic p l, U rb 2 0 0 8 O n t 6 6 -1 2 -1 2 -P 1 5 4 - 2 B lo o d y B ro o k an d t ri b s (0 7 0 2 -0 0 0 6 ) O n o n d ag a R iv er C * P at h o ge n s M u n ic p al ,U rb an R u n o ff 2 0 0 8 1 0 6 O n t 6 6 -1 2 -1 2 -P 1 5 4 - 3 L ey C re ek a n d t ri b s (0 7 0 2 -0 0 0 1 ) O n o n d ag a R iv er C * P at h o ge n s M u n ic p al ,U rb an R u n o ff 2 0 0 8 1 0 6 N u tr ie n ts ( p h o sp h o ru s) C S O s, M u n ic p l, U rb 1 9 9 8 3 A m m o n ia ( N H ) C S O s, M u n ic p l, U rb 1 9 9 8 C ya n id e M u n ic p al ,U rb an R u n o ff 2 0 0 8 O n t 6 6 -1 2 -1 2 -P 1 5 4 - 4 O n o n d ag a C re ek , L o w er ( 0 7 0 2 -0 0 2 3 ) O n o n d ag a R iv er C P at h o ge n s C S O s, M u n ic p l, U rb 2 0 0 8 1 0 6 N u tr ie n ts ( p h o sp h o ru s) C S O s, M u n ic p l, U rb 1 9 9 8 3 A m m o n ia ( N H ) C S O s, M u n ic p l, U rb 1 9 9 8 O n t 6 6 -1 2 -1 2 -P 1 5 4 - 4 O n o n d ag a C re ek , M id d le , an d t ri b s (0 7 0 2 -0 0 0 4 ) O n o n d ag a R iv er B P at h o ge n s C S O s, M u n ic p l, U rb 2 0 0 8 1 0 6 N u tr ie n ts ( p h o sp h o ru s) C S O s, M u n ic p l, U rb 2 0 0 8 3 A m m o n ia ( N H ) C S O s, M u n ic p l, U rb 2 0 0 8 O n t 6 6 -1 2 -1 2 -P 1 5 4 - 5 H ar b o r B ro o k, L o w er , an d t ri b s (0 7 0 2 -0 0 0 2 ) O n o n d ag a R iv er B P at h o ge n s C S O s, M u n ic p l, U rb 2 0 0 8 1 0 6 N u tr ie n ts ( p h o sp h o ru s) C S O s, M u n ic p l, U rb 1 9 9 8 3 A m m o n ia ( N H ) C S O s, M u n ic p l, U rb 1 9 9 8 O n t 6 6 -1 2 -1 2 -P 1 5 4 - 6 N in em il e C re ek , L o w er , an d t ri b s (0 7 0 2 -0 0 0 5 ) O n o n d ag a R iv er C P at h o ge n s M u n ic p al ,U rb an R u n o ff 2 0 0 8 1 0 6 N u tr ie n ts ( p h o sp h o ru s) M u n ic p al ,U rb an R u n o ff 1 9 9 8 3 O n t 6 6 -1 2 -1 2 -P 1 5 4 - 6 - 2 G ed d es B ro o k an d t ri b s (0 7 0 2 -0 0 0 7 ) O n o n d ag a R iv er C A m m o n ia ( N H ) M u n ic p al ,U rb an R u n o ff 1 9 9 8 1 0 6 O n t 6 6 -1 2 -2 9 S ka n ea te le s C re ek ( 0 7 0 7 -0 0 0 3 ) O n o n d ag a R iv er C (T ) P C B s In d u st ri al /L an d D is p . 1 9 9 8 1 0 7 B la ck R iv er D ra in ag e B as in O n t 1 9 - 6 ( -1 ) K el se y C re ek ( 0 8 0 1 -0 1 9 1 ) Je ff er so n R iv er C P C B s In d u st r, C o n ta m .S ed . 1 9 9 8 1 0 8 A D D 11 6 N ew Y or k S ta te F in a l 20 10 S ec ti on 3 03 (d ) L is t Ju n e 20 10 W at er I n d ex N u m b er W at er b od y N am e (W I/ P W L I D ) C ou n ty T yp e C la ss C au se /P ol lu ta n t S ou rc e Y ea r Im p ai rm en ts t o t h es e w at er s ar e b ei n g ad d re ss ed b y a R ec o rd o f D ec is io n a n d t h e o n -g o in g re m ed ia ti o n o f th e R iv er . 1 0 9 Im p ai rm en ts t o t h es e w at er s ar e b ei n g ad d re ss ed b y a 2 0 0 5 O rd er o n C o n se n t w it h N Y C d ir ec ti n g th e ci ty t o d ev el o p a n d i m p le m en t w at er sh ed a n d f ac il it y p la n s to a d d re ss C S O d is ch ar ge s an d 1 1 0 b ri n g N ew Y o rk C it y w at er s in to c o m p li an ce w it h t h e C le an W at er A ct . T h is m ay i n cl u d e a re vi si o n o f w at er q u al it y st an d ar d s b as ed o n a U se A tt ai n ab il it y A n al ys is i f fi sh ab le /s w im m ab le go al s of t he C W A a re n o t a tt ai na bl e. N Y S D E C r em ai ns c om m it te d to t he d ev el op m en t of h ar bo r- w id e T M D L s fo r nu tr ie nt s, p at ho ge ns a nd t ox ic s. H ow ev er , it i s ap pr o pr ia te t o d ef er d ev el o p m en t o f se p ar at e T M D L s fo r th es e in d iv id u al C S O -i m p ac te d w at er b o d ie s in l ig h t o f th e en fo rc ea b le r eq u ir em en ts o f th e N Y C C S O C o n se n t O rd er . 34 P ar t 3c - W at er b od ie s fo r w h ic h T M D L D ev el op m en t M ay b e D ef er re d ( P en d in g Im p le m en ta ti on /E va lu at io n o f O th er R es to ra ti on M ea su re s) U p p er H u d so n R iv er B as in H ( p o rt io n 1 ) H u d so n R iv er , M ai n S te m ( 1 1 0 1 -0 0 0 2 ) S ar at o ga R iv er A P C B s C o n ta m in at ed S ed . 1 9 9 8 1 0 9 H ( p o rt io n 2 ) H u d so n R iv er , M ai n S te m ( 1 1 0 1 -0 0 4 2 ) S ar at o ga R iv er C P C B s C o n ta m in at ed S ed . 1 9 9 8 1 0 9 H ( p o rt io n 3 ) H u d so n R iv er , M ai n S te m ( 1 1 0 1 -0 0 4 3 ) S ar at o ga R iv er B P C B s C o n ta m in at ed S ed . 1 9 9 8 1 0 9 H ( p o rt io n 4 ) H u d so n R iv er , M ai n S te m ( 1 1 0 1 -0 0 4 4 ) S ar at o ga R iv er C P C B s C o n ta m in at ed S ed . 1 9 9 8 1 0 9 H ( p o rt io n 5 ) H u d so n R iv er , M ai n S te m ( 1 1 0 1 -0 0 0 5 ) S ar at o ga R iv er B P C B s C o n ta m in at ed S ed . 1 9 9 8 1 0 9 A tl an ti c O ce an /L o n g Is la n d S o u n d D ra in ag e B as in (M W 1 .1 ) L B /G B -2 5 3 C o n ey I sl an d C re ek ( 1 7 0 1 -0 0 0 8 ) K in gs E st u ar y I D .O ./ O xy ge n D em an d U rb an /C S O , O W T S 1 9 9 8 1 1 0 P at h o ge n s U rb an /C S O , O W T S 2 0 0 2 (M W 1 .3 ) U B -E B - 1 G o w an u s C an al ( 1 7 0 1 -0 0 1 1 ) K in gs E st u ar y S D D .O ./ O xy ge n D em an d U rb an /S to rm /C S O 1 9 9 8 1 1 0 (M W 2 .1 ) E R -L I- 4 N ew to w n C re ek a n d t id al t ri b s (1 7 0 2 -0 0 0 2 ) Q u ee n s E st u ar y S D D .O ./ O xy ge n D em an d U rb an /S to rm /C S O 2 0 0 4 1 1 0 (M W 2 .4 ) E R -3 B ro n x R iv er , L o w er ( 1 7 0 2 -0 0 0 6 ) B ro n x E st u ar y I P at h o ge n s U rb an /S to rm /C S O 1 9 9 8 1 1 0 O xy ge n D em an d U rb an /S to rm /C S O 2 0 0 4 (M W 2 .4 ) E R -3 B ro n x R iv er , M id d le , an d t ri b s (1 7 0 2 -0 1 0 6 ) B ro n x R iv er B P at h o ge n s U rb an /S to rm /C S O 2 0 0 2 1 1 0 (M W 2 .4 ) E R -4 W es tc h es te r C re ek ( 1 7 0 2 -0 0 1 2 ) B ro n x E st u ar y I D .O ./ O xy ge n D em an d U rb an /S to rm /C S O 2 0 0 4 1 1 0 (M W 2 .5 ) E R -L I- 1 2 F lu sh in g C re ek /B ay ( 1 7 0 2 -0 0 0 5 ) Q u ee n s E st u ar y I D .O ./ O xy ge n D em an d U rb an /S to rm /C S O 2 0 0 4 1 1 0 (M W 2 .5 ) E R /L IS -L N B -1 9 t h ru 2 0 A ll ey C re ek /L it tl e N ec k B ay T ri b ( 1 7 0 2 -0 0 0 9 ) Q u ee n s E st u ar y I > S C O xy ge n D em an d U rb an /S to rm /C S O 2 0 0 4 1 1 0 (M W 3 .2 ) L IS - 2 H u tc h in so n R iv er , L o w er , an d t ri b s (1 7 0 2 -0 0 0 3 ) B ro n x E st u ar y S B D .O ./ O xy ge n D em an d U rb an /S to rm /C S O 2 0 0 4 1 1 0 (M W 8 .5 b ) JB Ja m ai ca B ay , E as te rn , an d t ri b s, Q u ee n s (1 7 0 1 -0 0 0 5 ) Q u ee n s E st u ar y S B P at h o ge n s U rb an /C S O ,M u n ic ip l 1 9 9 8 1 1 0 (M W 8 .5 b ) JB -2 4 1 a T h u rs to n B as in ( 1 7 0 1 -0 1 5 2 ) Q u ee n s E st u ar y I D .O ./ O xy ge n D em an d U rb an /S to rm /C S O 2 0 0 2 1 1 0 (M W 8 .5 b ) JB -2 4 7 B er ge n B as in ( 1 7 0 1 -0 0 0 9 ) Q u ee n s E st u ar y I P at h o ge n s U rb an /C S O ,M u n ic ip l 1 9 9 8 1 1 0 (M W 8 .5 b ) JB -2 4 8 a S h el lb an k B as in ( 1 7 0 1 -0 0 0 1 ) Q u ee n s E st u ar y I N it ro ge n U rb an /S to rm /C S O 1 9 9 8 1 1 0 D .O ./ O xy ge n D em an d U rb an /S to rm /C S O 2 0 0 2 (M W 8 .5 b ) JB -2 4 9 S p ri n g C re ek ( 1 7 0 1 -0 3 6 1 ) Q u ee n s E st u ar y I D .O ./ O xy ge n D em an d U rb an /C S O ,M u n ic ip l 2 0 0 2 1 1 0 P at h o ge n s U rb an /C S O ,M u n ic ip l 2 0 0 2 (M W 8 .6 ) J B -2 4 9 a H en d ri x C re ek ( 1 7 0 1 -0 0 0 6 ) K in gs E st u ar y I P at h o ge n s U rb an /S to rm /C S O 2 0 0 2 1 1 0 (M W 8 .6 ) J B -2 5 0 a P ae rd eg at B as in ( 1 7 0 1 -0 3 6 3 ) K in gs E st u ar y I D .O ./ O xy ge n D em an d U rb an /S to rm /C S O 1 9 9 8 1 1 0 (M W 8 .6 ) J B -2 5 0 b M il l B as in a n d t id al t ri b s (1 7 0 1 -0 1 7 8 ) K in gs E st u ar y S B D .O ./ O xy ge n D em an d U rb /S to rm R u n o ff 1 9 9 8 1 1 0 A D D 11 7 N ew Y or k S ta te F in a l 20 10 S ec ti on 3 03 (d ) L is t Ju n e 20 10 W at er I n d ex N u m b er W at er b od y N am e (W I/ P W L I D ) C ou n ty T yp e S iz e C la ss C au se /P ol lu ta n t S ou rc e Y ea r T h is s m al l la ke i s in cl u d ed i n t h e W o o d h u ll L ak e se gm en t (0 8 0 1 -0 4 4 1 ). 1 1 1 T h is s m al l la ke i s in cl u d ed i n t h e L o n g L ak e O u tl et /C u m m in gs C re ek , an d t ri b s se gm en t (0 8 0 1 -0 4 1 5 ). 1 1 2 T h is s m al l la ke i s in cl u d ed i n t h e F ra n ci s L ak e se gm en t (0 8 0 1 -0 1 9 2 ). 1 1 3 T h is s m al l la ke i s in cl u d ed i n t h e M il e B ro o k an d t ri b s se gm en t (0 8 0 1 -0 4 0 8 ). 1 1 4 T h is s m al l la ke i s in cl u d ed i n t h e M u rm u r C re ek a n d t ri b s se gm en t (0 8 0 1 -0 2 1 9 ). 1 1 5 T h is s m al l la ke i s in cl u d ed i n t h e B ea ve r R iv er , M id d le , an d t ri b s se gm en t (0 8 0 1 -0 2 7 8 ). 1 1 6 W at er s in t h e S ai n t L aw re n ce R iv er D ra in ag e B as in p o rt io n o f A p p en d ix A h av e b ee n r e- o rd er ed b y h yd ro lo gy ( p re vi o u sl y, t h es e w at er s w er e li st ed a lp h ab et ic al ly ). 1 1 7 T h is s m al l la ke i s in cl u d ed i n t h e R o ar in g B ro o k, S al m o n R iv er T ri b s eg m en t (0 9 0 2 -0 0 7 7 ). It w as p re vi o u sl y m is -i d en ti fi ed a s O w ls H ea d P o n d S L C -2 9 -2 2 -P 4 7 i n t h e O w ls H ea d P o n d 1 1 8 se gm en t (0 9 0 2 -0 0 8 3 ). T h is s m al l la ke i s in cl u d ed i n t h e R o ar in g B ro o k, S al m o n R iv er T ri b s eg m en t (0 9 0 2 -0 0 7 7 ). 1 1 9 T h is s m al l la ke i s in cl u d ed i n t h e D u ck P o n d s eg m en t (0 9 0 2 -0 0 8 1 ). 1 2 0 T h is s m al l la ke i s in cl u d ed i n t h e M o u n ta in V ie w L ak e, I n d ia n L ak e se gm en t (0 9 0 2 -0 0 3 0 ). 1 2 1 35 A p p en d ix A - S m al le r L ak es I m p ai re d b y A tm os p h er ic D ep os it io n ( A ci d R ai n ) N O T E : W at er s li st ed h er e A R E i n cl u d ed i n t h e 20 1 0 S ec ti on 3 03 (d ) L is t B la ck R iv er D ra in ag e B as in O n t 1 9 -1 0 4 -P 9 8 1 -1 -P 9 8 2 .. P 9 8 4 * B lo o d su ck er P o n d ( 0 8 0 1 -0 1 3 5 ) H er ki m er L ak e 4 .0 A C p H A ci d R ai n 1 9 9 8 1 1 1 C at P o n d ( 0 8 0 1 -0 0 3 6 ) H er ki m er L ak e 6 .0 A C (T ) p H A ci d R ai n 1 9 9 8 O n t 1 9 - 9 4 -1 -P 9 1 8 D o e P o n d ( 0 8 0 1 -0 1 6 1 ) H er ki m er L ak e 3 .0 A D p H A ci d R ai n 1 9 9 8 1 1 2 O n t 1 9 - 4 0 -P 4 4 9 -2 -P 4 5 0 .. P 4 5 3 M ir ro r P o n d ( 0 8 0 1 -0 1 4 6 ) L ew is L ak e 1 .0 A C p H A ci d R ai n 1 9 9 8 1 1 3 O n t 1 9 - 9 0 -5 -P 9 0 9 P o p la r P o n d ( 0 8 0 1 -0 0 7 8 ) H er ki m er L ak e 3 .0 A C p H A ci d R ai n 1 9 9 8 1 1 4 O n t 1 9 - 4 0 - 3 -P 4 0 9 U n n am ed P # 4 -4 0 9 ( 0 8 0 1 -0 1 4 2 ) L ew is L ak e 2 .0 A C p H A ci d R ai n 1 9 9 8 1 1 5 O n t 1 9 - 4 0 -1 7 -P 4 3 7 U n n am ed P # 4 -4 3 7 ( 0 8 0 1 -0 1 4 3 ) L ew is L ak e 4 .0 A C (T ) p H A ci d R ai n 1 9 9 8 1 1 6 S ai n t L aw re n ce R iv er D ra in ag e B as in 1 1 7 S L C -2 9 -1 3 -P 3 1 O w ls h ea d P o n d ( 0 9 0 2 -0 0 1 6 ) E ss ex L ak e 1 .0 A A A p H A ci d R ai n 1 9 9 8 1 1 8 S L C -2 9 -1 3 .. P 3 2 C h il d s P o n d ( 0 9 0 2 -0 0 1 3 ) F ra n kl in L ak e 2 .0 A ? p H A ci d R ai n 1 9 9 8 1 1 9 S L C -2 9 -2 1 -7 -. .. P 4 0 a R az o rb ac k P o n d ( 0 9 0 2 -0 0 1 7 ) E ss ex L ak e 1 .0 A D p H A ci d R ai n 1 9 9 8 1 2 0 S L C -2 9 -P 0 5 0 -3 -1 -P 5 7 S o u th D u ck P o n d ( 0 9 0 2 -0 0 1 8 ) E ss ex L ak e 2 .0 A D p H A ci d R ai n 1 9 9 8 1 2 1 A D D 11 8 N ew Y or k S ta te F in a l 20 10 S ec ti on 3 03 (d ) L is t Ju n e 20 10 W at er I n d ex N u m b er W at er b od y N am e (W I/ P W L I D ) C ou n ty T yp e S iz e C la ss C au se /P ol lu ta n t S ou rc e Y ea r T h is s m al l la ke i s in cl u d ed i n t h e M o u n ta in P o n d s se gm en t (0 9 0 2 -0 1 0 8 ). 1 2 2 T h is s m al l la ke i s in cl u d ed i n t h e M u d P d , L o n g P d , L it tl e C le ar P d s eg m en t (0 9 0 2 -0 0 0 5 ). 1 2 3 T h is s m al l la ke i s in cl u d ed i n t h e S o u th S ta r M o u n ta in , B ak er , M cC o ll o m s P o n d s se gm en t (0 9 0 2 -0 1 4 5 ). 1 2 4 T h is s m al l la ke i s in cl u d ed i n t h e M ad aw as ka P o n d , Q u eb ec P o n d s eg m en t (0 9 0 2 -0 1 5 3 ). 1 2 5 T h is s m al l la ke i s in cl u d ed i n t h e B la ck P o n d , L o n g P o n d s eg m en t (0 9 0 5 -0 1 5 6 ). 1 2 6 T h is s m al l la ke i s in cl u d ed i n t h e R o ll ey , L it tl e L o n g, B ea r, B ic kf o rd P o n d s se gm en t (0 9 0 2 -0 0 0 7 ). 1 2 7 T h is s m al l la ke i s in cl u d ed i n t h e M cC u en P o n d , B u ck P o n d s eg m en t (0 9 0 3 -0 1 0 2 ). 1 2 8 T h is s m al l la ke i s in cl u d ed i n t h e M in o r L ak es T ri b t o J o rd an R iv er s eg m en t (0 9 0 3 -0 1 0 7 ). 1 2 9 T h is s m al l la ke i s in cl u d ed i n t h e M in o r L ak es T ri b t o J o rd an R iv er s eg m en t (0 9 0 3 -0 1 0 7 ). 1 3 0 T h is s m al l la ke i s in cl u d ed i n t h e L eo n ar d P o n d , C ro o ke d L ak e se gm en t (0 9 0 3 -0 1 0 9 ). 1 3 1 T h is s m al l la ke i s in cl u d ed i n t h e L eo n ar d P o n d , C ro o ke d L ak e se gm en t (0 9 0 3 -0 1 0 9 ). 1 3 2 T h is s m al l la ke i s in cl u d ed i n t h e C h an d le r P o n d s eg m en t (0 9 0 3 -0 1 1 0 ). 1 3 3 36 A p p en d ix A - S m al le r L ak es I m p ai re d b y A tm os p h er ic D ep os it io n ( A ci d R ai n ) ( co n ’t ) S ai n t L aw re n ce R iv er D ra in ag e B as in (c o n ’t ) S L C -3 2 - 6 -3 1 -P 8 7 M o u n ta in P o n d ( 0 9 0 2 -0 0 1 9 ) E ss ex L ak e 4 .0 A B p H A ci d R ai n 1 9 9 8 1 2 2 S L C -3 2 -P 1 7 0 a U n n am ed P # 3 -1 7 0 ( 0 9 0 2 -0 0 0 9 ) F ra n kl in L ak e 3 .0 A A A (T ) p H A ci d R ai n 1 9 9 8 1 2 3 S L C -3 2 -5 2 -1 5 -P 1 7 9 a- 5 -7 -P 1 8 6 W ar d P o n d ( 0 9 0 2 -0 0 2 0 ) E ss ex L ak e 3 .0 A D p H A ci d R ai n 1 9 9 8 1 2 4 S L C -3 2 -6 9 - 6 -P 2 2 6 H id d en P o n d ( 0 9 0 2 -0 0 2 2 ) E ss ex L ak e 5 .0 A D p H A ci d R ai n 1 9 9 8 1 2 5 S L C -3 2 -8 6 -P 2 5 2 U n n am ed P # 3 -2 5 2 ( 0 9 0 2 -0 0 2 3 ) E ss ex L ak e 2 .0 A C p H A ci d R ai n 1 9 9 8 1 2 6 S L C -3 2 -P 2 5 7 a- P 2 6 4 -P 2 6 5 .. P 2 6 8 a M ik es P o n d ( 0 9 0 2 -0 0 2 4 ) E ss ex L ak e 1 .0 A D p H A ci d R ai n 1 9 9 8 1 2 7 S L - 1 - 5 8 -1 -P 3 7 U n n am ed P # 6 -0 3 7 ( 0 9 0 3 -0 0 3 4 ) S t. L aw re n ce L ak e 1 .0 A D p H A ci d R ai n 1 9 9 8 1 2 8 S L - 1 - 6 5 -2 6 -2 -P 5 2 S p ri n g P o n d ( 0 9 0 3 -0 0 3 5 ) E ss ex L ak e 3 .0 A D p H A ci d R ai n 1 9 9 8 1 2 9 S L - 1 - 6 5 -2 6 -3 -P 5 5 U n n am ed P # 6 -0 5 5 ( 0 9 0 3 -0 0 3 6 ) E ss ex L ak e 3 .0 A D p H A ci d R ai n 1 9 9 8 1 3 0 S L - 1 - 6 5 -P 6 0 R o b er ts P o n d ( 0 9 0 3 -0 0 3 0 ) S t. L aw re n ce L ak e 1 .0 A D p H A ci d R ai n 1 9 9 8 1 3 1 S L - 1 - 7 4 -1 -P 0 6 3 -P 6 4 P re st o n P o n d ( 0 9 0 3 -0 0 3 1 ) S t. L aw re n ce L ak e 4 .0 A D p H A ci d R ai n 1 9 9 8 1 3 2 S L - 1 - 7 7 -P 6 7 U n n am ed P # 6 -0 6 7 ( 0 9 0 3 -0 0 2 6 ) S t. L aw re n ce L ak e 1 .0 A C (T ) p H A ci d R ai n 1 9 9 8 1 3 3 A D D 11 9 N ew Y or k S ta te F in a l 20 10 S ec ti on 3 03 (d ) L is t Ju n e 20 10 W at er I n d ex N u m b er W at er b od y N am e (W I/ P W L I D ) C ou n ty T yp e S iz e C la ss C au se /P ol lu ta n t S ou rc e Y ea r T h is s m al l la ke i s in cl u d ed i n t h e E ag le C ra g L ak e se gm en t (0 9 0 3 -0 1 1 4 ). 1 3 4 T h is s m al l la ke i s in cl u d ed i n t h e L ea d P o n d s eg m en t (0 9 0 3 -0 1 1 8 ). 1 3 5 T h is s m al l la ke i s in cl u d ed i n t h e H ea ve n s P o n d s eg m en t (0 9 0 3 -0 1 2 1 ). 1 3 6 T h is s m al l la ke i s in cl u d ed i n t h e B o g S tr ea m a n d t ri b s se gm en t (0 9 0 3 -0 2 1 5 ). 1 3 7 T h is s m al l la ke i s in cl u d ed i n t h e B o g S tr ea m a n d t ri b s se gm en t (0 9 0 3 -0 2 1 5 ). 1 3 8 T h is s m al l la ke i s in cl u d ed i n t h e B o g S tr ea m a n d t ri b s se gm en t (0 9 0 3 -0 2 1 5 ). 1 3 9 T h is s m al l la ke i s in cl u d ed i n t h e O tt er P o n d , L o o n P o n d s se gm en t (0 9 0 3 -0 1 4 1 ). 1 4 0 T h is s m al l la ke i s in cl u d ed i n t h e M o u n ta in P o n d s eg m en t (0 9 0 3 -0 1 7 6 ). 1 4 1 T h is s m al l la ke i s in cl u d ed i n t h e L o w er , U p p er P re st o n P o n d s se gm en t (0 9 0 3 -0 1 7 8 ). 1 4 2 T h is s m al l la ke i s in cl u d ed i n t h e S am p so n P o n d s eg m en t (0 9 0 4 -0 0 6 0 ). 1 4 3 T h is s m al l la ke i s in cl u d ed i n t h e Jo ck s P o n d s eg m en t (0 9 0 4 -0 0 6 4 ). 1 4 4 T h is s m al l la ke i s in cl u d ed i n t h e L it tl e D ee r P o n d s eg m en t (0 9 0 5 -0 1 6 7 ). 1 4 5 37 A p p en d ix A - S m al le r L ak es I m p ai re d b y A tm os p h er ic D ep os it io n ( A ci d R ai n ) ( co n ’t ) S ai n t L aw re n ce R iv er D ra in ag e B as in (c o n ’t ) S L - 1 -1 0 9 - 4 -1 -P 8 0 -2 -P 8 1 B u ck P o n d ( 0 9 0 3 -0 0 3 7 ) S t. L aw re n ce L ak e 2 .0 A D p H A ci d R ai n 1 9 9 8 1 3 4 S L - 1 -P 0 8 9 - 1 -2 -P 9 4 U n n am ed P # 6 -0 9 4 ( 0 9 0 3 -0 0 2 3 ) F ra n kl in L ak e 5 .0 A D p H A ci d R ai n 1 9 9 8 1 3 5 S L - 1 -P 0 8 9 - 1 .. .P 1 0 7 U n n am ed P # 6 -1 0 7 ( 0 9 0 3 -0 0 3 8 ) E ss ex L ak e 1 .0 A D p H A ci d R ai n 1 9 9 8 1 3 6 S L - 1 -P 1 0 9 -1 1 -2 -P 1 1 8 -3 -P 1 2 1 H ed ge h o g P o n d ( 0 9 0 3 -0 0 2 0 ) H am il to n L ak e 5 .0 A ? p H A ci d R ai n 1 9 9 8 1 3 7 S L - 1 -P 1 0 9 -1 1 -2 -P 1 1 8 -P 1 2 2 U n n am ed P # 6 -1 2 2 ( 0 9 0 3 -0 0 3 9 ) H am il to n L ak e 2 .0 A D p H A ci d R ai n 1 9 9 8 1 3 8 S L - 1 -P 1 0 9 -1 1 -2 -P 1 1 8 -P 1 2 5 a U n n am ed P # 6 -1 2 5 a (0 9 0 3 -0 0 4 0 ) H am il to n L ak e 1 .0 A D p H A ci d R ai n 1 9 9 8 1 3 9 S L - 1 -P 1 0 9 -1 1 -2 .. .P 1 4 1 U n n am ed P # 6 -1 4 1 ( 0 9 0 3 -0 0 1 8 ) H am il to n L ak e 4 .0 A D p H A ci d R ai n 1 9 9 8 1 4 0 S L - 1 -1 6 2 -2 8 -P 2 3 1 R o ck P o n d ( 0 9 0 3 -0 0 1 3 ) E ss ex L ak e 5 .0 A C p H A ci d R ai n 1 9 9 8 1 4 1 S L - 1 -1 6 2 -P 2 3 5 -2 -P 2 3 8 .. P 2 4 0 H u n te r P o n d ( 0 9 0 3 -0 0 4 2 ) E ss ex L ak e 1 .0 A C (T ) p H A ci d R ai n 1 9 9 8 1 4 2 S L - 2 -5 9 -3 2 -1 -P 3 5 3 E gg P o n d ( 0 9 0 4 -0 0 0 3 ) S t. L aw re n ce L ak e 1 .0 A D p H A ci d R ai n 1 9 9 8 1 4 3 S L - 2 -5 9 -3 2 -2 -1 -P 3 5 5 C ar tr id ge H il ls P ( 0 9 0 4 -0 0 0 4 ) S t. L aw re n ce L ak e 1 .0 A C (T ) p H A ci d R ai n 1 9 9 8 1 4 4 S L -2 5 -7 3 -4 0 -P 2 3 5 U n n am ed P # 4 -2 3 5 ( 0 9 0 5 -0 0 7 6 ) Je ff er so n L ak e 2 .0 A C (T ) p H A ci d R ai n 1 9 9 8 1 4 5 A D D 12 0 N ew Y or k S ta te F in a l 20 10 S ec ti on 3 03 (d ) L is t Ju n e 20 10 W at er I n d ex N u m b er W at er b od y N am e (W I/ P W L I D ) C ou n ty T yp e S iz e C la ss C au se /P ol lu ta n t S ou rc e Y ea r T h is s m al l la ke i s in cl u d ed i n t h e S ta r L ak e se gm en t (0 9 0 5 -0 1 8 0 ). 1 4 6 T h is s m al l la ke i s in cl u d ed i n t h e S h in gl e P o n d s eg m en t (0 9 0 5 -0 1 7 5 ). 1 4 7 T h is s m al l la ke i s in cl u d ed i n t h e H ea th P o n d , M u sk ra t P o n d s eg m en t (0 9 0 5 -0 1 8 2 ). 1 4 8 T h is s m al l la ke i s in cl u d ed i n t h e D il lo n P o n d s eg m en t (0 9 0 5 -0 1 8 6 ). 1 4 9 T h is s m al l la ke i s in cl u d ed i n t h e C u rt is P o n d , D o g P o n d s eg m en t (0 9 0 5 -0 0 0 4 ). 1 5 0 T h is s m al l la ke i s in cl u d ed i n t h e Jo h n P o n d , S co tt P o n d , C o lv in P o n d s eg m en t (0 9 0 5 -0 1 9 0 ). 1 5 1 W at er s in t h e L ak e C h am p la in D ra in ag e B as in p o rt io n o f A p p en d ix A h av e b ee n r e- o rd er ed b y h yd ro lo gy ( p re vi o u sl y, t h es e w at er s w er e li st ed a lp h ab et ic al ly ). 1 5 2 T h is s m al l la ke i s in cl u d ed i n t h e T ru e B ro o k an d t ri b s se gm en t (1 0 0 3 -0 0 5 5 ). It w as p re vi o u sl y m is -i d en ti fi ed a s D o w P o n d ( P 3 5 ). 1 5 3 T h is s m al l la ke i s in cl u d ed i n t h e T ru e B ro o k an d t ri b s se gm en t (1 0 0 3 -0 0 5 5 ). 1 5 4 T h is s m al l la ke i s in cl u d ed i n t h e L o o n L ak e se gm en t (1 0 0 3 -0 0 6 0 ). 1 5 5 T h is s m al l la ke i s in cl u d ed i n t h e L o o n L ak e se gm en t (1 0 0 3 -0 0 6 0 ). 1 5 6 T h is s m al l la ke i s in cl u d ed i n t h e L o o n L ak e se gm en t (1 0 0 3 -0 0 6 0 ). 1 5 7 38 A p p en d ix A - S m al le r L ak es I m p ai re d b y A tm os p h er ic D ep os it io n ( A ci d R ai n ) ( co n ’t ) S ai n t L aw re n ce R iv er D ra in ag e B as in (c o n ’t ) S L -2 5 -1 0 1 -P 2 7 9 R ea d w ay P o n d ( 0 9 0 5 -0 0 4 3 ) S t. L aw re n ce L ak e 2 .0 A D p H A ci d R ai n 1 9 9 8 1 4 6 S L -2 5 -1 0 1 -2 4 -P 2 8 2 U n n am ed P # 4 -2 8 2 ( 0 9 0 5 -0 0 7 7 ) S t. L aw re n ce L ak e 1 .0 A D p H A ci d R ai n 1 9 9 8 1 4 7 S L -2 5 -1 0 1 -3 4 -2 -P 2 9 7 U n n am ed P # 4 -2 9 7 ( 0 9 0 5 -0 0 7 9 ) S t. L aw re n ce L ak e 3 .0 A C (T ) p H A ci d R ai n 1 9 9 8 1 4 8 S L -2 5 -1 1 5 -P 3 0 7 L o st P o n d ( 0 9 0 5 -0 0 4 0 ) S t. L aw re n ce L ak e 6 .0 A C (T ) p H A ci d R ai n 1 9 9 8 1 4 9 S L -2 5 -P 3 0 9 - 9 -P 3 1 7 L it tl e D o g P o n d ( 0 9 0 5 -0 0 3 9 ) S t. L aw re n ce L ak e 6 .0 A C p H A ci d R ai n 1 9 9 8 1 5 0 S L -2 5 -P 3 0 9 -1 1 .. .P 3 2 4 U n n am ed P # 4 -3 2 4 ( 0 9 0 5 -0 0 7 0 ) S t. L aw re n ce L ak e 4 .0 A C (T ) p H A ci d R ai n 1 9 9 8 1 5 1 L ak e C h am p la in D ra in ag e B as in 1 5 2 C - 1 5 -1 8 .. P 3 4 D o w P o n d ( 1 0 0 3 -0 0 2 2 ) F ra n kl in L ak e 1 .0 A C (T ) p H A ci d R ai n 1 9 9 8 1 5 3 C - 1 5 -1 8 .. P 3 6 U n n am ed P # 2 -0 3 6 ( 1 0 0 3 -0 0 2 3 ) F ra n kl in L ak e 3 .0 A C (T ) p H A ci d R ai n 1 9 9 8 1 5 4 C - 1 5 -2 2 -2 4 -P 4 6 M o u n ta in P o n d ( 1 0 0 3 -0 0 2 4 ) E ss ex L ak e 5 .0 A C (T ) p H A ci d R ai n 1 9 9 8 1 5 5 C - 1 5 -2 2 .. P 4 6 a L in e P o n d ( 1 0 0 3 -0 0 2 5 ) E ss ex L ak e 5 .0 A C (T ) p H A ci d R ai n 1 9 9 8 1 5 6 C - 1 5 -2 2 -2 4 -P 4 8 .. P 5 1 B as s L ak e (1 0 0 3 -0 0 1 1 ) F ra n kl in L ak e 6 .0 A B p H A ci d R ai n 1 9 9 8 1 5 7 A D D 12 1 N ew Y or k S ta te F in a l 20 10 S ec ti on 3 03 (d ) L is t Ju n e 20 10 W at er I n d ex N u m b er W at er b od y N am e (W I/ P W L I D ) C ou n ty T yp e S iz e C la ss C au se /P ol lu ta n t S ou rc e Y ea r T h is s m al l la ke i s in cl u d ed i n t h e M in o r L ak es T ri b t o U p p er N o rt h B ra n ch s eg m en t (1 0 0 3 -0 0 6 4 ). 1 5 8 T h is s m al l la ke i s in cl u d ed i n t h e M in o r L ak es T ri b t o U p p er N o rt h B ra n ch s eg m en t (1 0 0 3 -0 0 6 4 ). 1 5 9 T h is s m al l la ke i s in cl u d ed i n t h e T ro w b ri d ge B ro o k an d t ri b s se gm en t (1 0 0 3 -0 0 7 0 ). 1 6 0 T h is s m al l la ke i s in cl u d ed i n t h e T ro w b ri d ge B ro o k an d t ri b s se gm en t (1 0 0 3 -0 0 7 0 ). 1 6 1 T h is s m al l la ke i s in cl u d ed i n t h e T o w b ri d ge B ro o k an d t ri b s se gm en t (1 0 0 3 -0 0 7 0 ). It w as p re vi o u sl y m is -i d en ti fi ed a s M ar sh P o n d ( P 1 4 5 ) an d w as l is te d w it h t h e F lo o d w o o d P o n d s eg m en t 1 6 2 (1 0 0 3 -0 0 9 5 ). T h is s m al l la ke i s in cl u d ed i n t h e P o ll iw o g P o n d s eg m en t (1 0 0 3 -0 0 9 0 ). 1 6 3 T h is s m al l la ke i s in cl u d ed i n t h e S q u ar e P o n d s eg m en t (1 0 0 3 -0 0 9 3 ). 1 6 4 T h is s m al l la ke i s in cl u d ed i n t h e S q u ar e P o n d s eg m en t (1 0 0 3 -0 0 9 3 ). 1 6 5 T h is s m al l la ke i s in cl u d ed i n t h e S q u ar e P o n d s eg m en t (1 0 0 3 -0 0 9 3 ). It w as p re vi o u sl y m is -i d en ti fi ed a s C o p p er as P o n d ( P 2 3 4 ) an d i n cl u d ed w it h in t h e M in o r L ak es T ri b t o W .B r. A u sa b le 1 6 6 R iv er , M id d le s eg m en t (1 0 0 4 -0 0 6 5 ). T h is s m al l la ke i s in cl u d ed i n t h e L it tl e S q u ar e P o n d s eg m en t (1 0 0 3 -0 0 9 4 ). 1 6 7 T h is s m al l la ke i s in cl u d ed i n t h e R o ck P o n d s eg m en t (1 0 0 3 -0 1 0 1 ). 1 6 8 T h is s m al l la ke i s in cl u d ed i n t h e F lo o d w o o d P o n d s eg m en t (1 0 0 3 -0 0 9 5 ). 1 6 9 39 A p p en d ix A - S m al le r L ak es I m p ai re d b y A tm os p h er ic D ep os it io n ( A ci d R ai n ) ( co n ’t ) L ak e C h am p la in D ra in ag e B as in (c o n ’t ) C - 1 5 -2 2 .. P 6 7 U n n am ed P # 2 -0 6 7 ( 1 0 0 3 -0 0 2 6 ) E ss ex L ak e 2 .0 A B (T ) p H A ci d R ai n 1 9 9 8 1 5 8 C - 1 5 -2 2 .. P 6 8 U n n am ed P # 2 -0 6 8 ( 1 0 0 3 -0 0 1 7 ) F ra n kl in L ak e 3 .0 A B (T ) p H A ci d R ai n 1 9 9 8 1 5 9 C - 1 5 -5 1 - 2 .. P 7 9 U n n am ed P # 2 -0 7 9 ( 1 0 0 3 -0 0 2 7 ) E ss ex L ak e 1 .0 A C (T ) p H A ci d R ai n 1 9 9 8 1 6 0 C - 1 5 -5 1 - 2 .. P 8 0 U n n am ed P # 2 -0 8 0 ( 1 0 0 3 -0 0 2 8 ) E ss ex L ak e 2 .5 A C (T ) p H A ci d R ai n 1 9 9 8 1 6 1 C - 1 5 -5 1 - 2 .. P 8 1 M ar sh P o n d ( 1 0 0 3 -0 0 2 0 ) F ra n kl in L ak e 4 .0 A A A p H A ci d R ai n 1 9 9 8 1 6 2 C - 1 5 -P 1 1 4 .. P 1 2 0 .. P 1 2 2 W es t P o ll iw o g P o n d ( 1 0 0 3 -0 0 1 6 ) E ss ex L ak e 3 .0 A A A p H A ci d R ai n 1 9 9 8 1 6 3 C - 1 5 -P 1 1 4 .. P 1 2 5 .. P 1 2 7 a L it tl e E gg P o n d ( 1 0 0 3 -0 0 3 1 ) E ss ex L ak e 1 .0 A A A p H A ci d R ai n 1 9 9 8 1 6 4 C - 1 5 -P 1 1 4 .. P 1 2 5 .. P 1 3 2 S W A m p h it h ea tr e P o n d ( 1 0 0 3 -0 0 1 5 ) F ra n kl in L ak e 1 .0 A A A p H A ci d R ai n 1 9 9 8 1 6 5 C - 1 5 -P 1 1 4 .. P 1 2 5 .. P 1 3 9 * E as t C o p p er as P o n d ( 1 0 0 3 -0 0 0 4 ) E ss ex L ak e 6 .0 A A A p H A ci d R ai n 1 9 9 8 1 6 6 C - 1 5 -P 1 1 4 .. P 1 4 0 .. P 1 4 1 N o rt h W h ey P o n d ( 1 0 0 3 -0 0 1 3 ) F ra n kl in L ak e 3 .0 A A A p H A ci d R ai n 1 9 9 8 1 6 7 C - 1 5 -P 1 1 4 .. P 1 4 2 .. P 1 4 5 M ar sh P o n d ( 1 0 0 3 -0 0 2 9 ) E ss ex L ak e 4 .0 A C (T ) p H A ci d R ai n 1 9 9 8 1 6 8 C - 1 5 -P 1 1 4 .. P 1 4 2 .. P 1 6 6 U n n am ed P # 2 -1 6 6 ( 1 0 0 3 -0 0 3 2 ) E ss ex L ak e 2 .0 A A A p H A ci d R ai n 1 9 9 8 1 6 9 A D D 12 2 N ew Y or k S ta te F in a l 20 10 S ec ti on 3 03 (d ) L is t Ju n e 20 10 W at er I n d ex N u m b er W at er b od y N am e (W I/ P W L I D ) C ou n ty T yp e S iz e C la ss C au se /P ol lu ta n t S ou rc e Y ea r T h is s m al l la ke i s in cl u d ed i n t h e M in o r L ak es T ri b t o U p p er S ar an ac L ak e se gm en t (1 0 0 3 -0 0 8 6 ). 1 7 0 T h is s m al l la ke i s in cl u d ed i n t h e L it tl e C le ar P o n d s eg m en t (1 0 0 3 -0 1 0 7 ). 1 7 1 T h is s m al l la ke i s in cl u d ed i n t h e L it tl e C le ar P o n d s eg m en t (1 0 0 3 -0 1 0 7 ). 1 7 2 T h is s m al l la ke i s in cl u d ed i n t h e L it tl e C le ar P o n d s eg m en t (1 0 0 3 -0 1 0 7 ). 1 7 3 T h is s m al l la ke i s in cl u d ed i n t h e L ak e C le ar s eg m en t (1 0 0 3 -0 1 0 9 ). 1 7 4 T h is s m al l la ke i s in cl u d ed i n t h e F er n L ak e se gm en t (1 0 0 4 -0 0 6 0 ). 1 7 5 T h is s m al l la ke i s in cl u d ed i n t h e M in o r L ak es T ri b t o W es t B ra n ch A u sa b le R iv er , U p p er s eg m en t (1 0 0 4 -0 0 7 0 ). 1 7 6 T h is s m al l la ke i s in cl u d ed i n t h e M in o r L ak es T ri b t o W es t B ra n ch A u sa b le R iv er , U p p er s eg m en t (1 0 0 4 -0 0 7 0 ). 1 7 7 T h is s m al l la ke i s in cl u d ed i n t h e L o w er C as ca d e, U p p er C as ca d e, M u d L ak es s eg m en t (1 0 0 4 -0 0 7 5 ). 1 7 8 T h is s m al l la ke i s in cl u d ed i n t h e E as t B ra n ch A u sa b le R iv er , M id d le , an d t ri b s se gm en t (1 0 0 4 -0 0 7 1 ). 1 7 9 T h is s m al l la ke i s in cl u d ed i n t h e B o q u et R iv er , U p p er , an d t ri b s se gm en t (1 0 0 4 -0 0 8 1 ). 1 8 0 T h is s m al l la ke i s in cl u d ed i n t h e B o q u et R iv er , U p p er , an d t ri b s se gm en t (1 0 0 4 -0 0 8 1 ). 1 8 1 40 A p p en d ix A - S m al le r L ak es I m p ai re d b y A tm os p h er ic D ep os it io n ( A ci d R ai n ) ( co n ’t ) L ak e C h am p la in D ra in ag e B as in (c o n ’t ) C - 1 5 -P 1 1 4 .. P 1 8 9 U n n am ed P # 2 -1 8 9 ( 1 0 0 3 -0 0 3 3 ) E ss ex L ak e 3 .0 A A A p H A ci d R ai n 1 9 9 8 1 7 0 C - 1 5 -P 1 1 4 .. P 1 9 1 .. P 1 9 1 a M cC af fe ry P o n d ( 1 0 0 3 -0 0 3 4 ) E ss ex L ak e 2 .0 A A A p H A ci d R ai n 1 9 9 8 1 7 1 C - 1 5 -P 1 1 4 .. P 1 9 1 .. P 1 9 6 U n n am ed P # 2 -1 9 6 ( 1 0 0 3 -0 0 3 5 ) E ss ex L ak e 1 .0 A A A p H A ci d R ai n 1 9 9 8 1 7 2 C - 1 5 -P 1 1 4 .. P 1 9 1 .. P 1 9 7 S o ch ia P o n d ( 1 0 0 3 -0 0 1 4 ) F ra n kl in L ak e 4 .0 A A A (T ) p H A ci d R ai n 1 9 9 8 1 7 3 C - 1 5 -P 1 1 4 .. P 1 9 9 .. P 2 0 0 L in d se y P o n d ( 1 0 0 3 -0 0 3 6 ) E ss ex L ak e 6 .0 A A A p H A ci d R ai n 1 9 9 8 1 7 4 C - 2 5 -2 6 - 4 -P 2 2 2 .. P 2 2 3 U n n am ed P # 2 -2 2 3 ( 1 0 0 4 -0 0 1 1 ) E ss ex L ak e 5 .0 A C (T ) p H A ci d R ai n 1 9 9 8 1 7 5 C - 2 5 -2 6 -3 9 .. P 2 6 1 S co tt P o n d ( 1 0 0 4 -0 0 0 8 ) E ss ex L ak e 3 .0 A C (T ) p H A ci d R ai n 1 9 9 8 1 7 6 C - 2 5 -2 6 -3 9 .. P 2 6 3 U n n am ed P # 2 -2 6 3 ( 1 0 0 4 -0 0 0 9 ) E ss ex L ak e 2 .0 A C (T ) p H A ci d R ai n 1 9 9 8 1 7 7 C - 2 5 -2 7 -2 5 .. P 2 6 9 U n n am ed P # 2 -2 6 9 ( 1 0 0 4 -0 0 1 0 ) E ss ex L ak e 2 .0 A A A (T ) p H A ci d R ai n 1 9 9 8 1 7 8 C - 2 5 -2 7 .. P 2 7 2 L o st P o n d ( 1 0 0 4 -0 0 0 7 ) E ss ex L ak e 3 .0 A A A (T ) p H A ci d R ai n 1 9 9 8 1 7 9 C - 4 8 -6 7 -P 3 2 7 B u ll et P o n d ( 1 0 0 4 -0 0 1 7 ) E ss ex L ak e 1 .0 A C (T ) p H A ci d R ai n 1 9 9 8 1 8 0 C - 4 8 .. P 3 3 2 C ra n b er ry P o n d ( 1 0 0 4 -0 0 0 6 ) E ss ex L ak e 2 .0 A D p H A ci d R ai n 1 9 9 8 1 8 1 A D D 12 3 N ew Y or k S ta te F in a l 20 10 S ec ti on 3 03 (d ) L is t Ju n e 20 10 W at er I n d ex N u m b er W at er b od y N am e (W I/ P W L I D ) C ou n ty T yp e S iz e C la ss C au se /P ol lu ta n t S ou rc e Y ea r T h is s m al l la ke i s in cl u d ed i n t h e S h er m an L ak e (G o o se p u d d le /B u rr is P o n d ) se gm en t (1 0 0 5 -0 0 1 6 ). 1 8 2 T h is s m al l la ke i s in cl u d ed i n t h e P u tn am /N o rt h P o n d s se gm en t (1 0 0 5 -0 0 1 8 ). 1 8 3 41 A p p en d ix A - S m al le r L ak es I m p ai re d b y A tm os p h er ic D ep os it io n ( A ci d R ai n ) ( co n ’t ) L ak e C h am p la in D ra in ag e B as in (c o n ’t ) C - 9 6 - 4 - 4 -P 3 5 0 S n ak e P o n d (1 0 0 5 -0 0 0 1 ) E ss ex L ak e 4 .0 A C (T ) p H A ci d R ai n 1 9 9 8 1 8 2 C - 9 6 -P 3 5 5 .. P 3 5 9 M u d P o n d ( 1 0 0 4 -0 0 1 6 ) E ss ex L ak e 3 .0 A A A p H A ci d R ai n 1 9 9 8 1 8 3 A D D 12 4 T hi s pa ge i nt en ti on al ly l ef t bl an k. A D D 12 5 N ew Y or k S ta te F in a l 20 10 S ec ti on 3 03 (d ) L is t Ju n e 20 10 W at er I n d ex N u m b er W at er b od y N am e (W I/ P W L I D ) C ou n ty T yp e S iz e C la ss C au se /P ol lu ta n t S ou rc e Y ea r S p ec if ic w at er b o d ie s w it h l o w d is so lv ed o xy ge n f ro m u n d et er m in ed c au se s (n at u ra l or o th er ) th at U S E P A r eq u es te d b e ad d ed t o t h e S ec ti o n 3 0 3 (d ) L is t: C le ar L ak e (0 1 0 4 -0 0 5 7 ), C ry st al L ak e 1 8 4 (0 1 0 4 -0 0 7 0 ), C as e L ak e (0 2 0 1 -0 0 2 0 ), C u b a L ak e (0 2 0 1 -0 0 1 6 ), U p p er C as sa d ag a L ak e (0 2 0 2 -0 0 0 1 ), H yd e L ak e (0 3 0 3 -0 0 4 3 ), L am o ka L ak e an d M il l P o n d ( 0 5 0 2 -0 0 0 1 ), W an et a L ak e (0 5 0 2 -0 0 0 2 ), L o w er /U p p er L it tl e Y o rk L ak es ( 0 6 0 2 -0 0 1 7 ), T u ll y L ak e (0 6 0 2 -0 0 1 8 ), N o rw ic h R es er vo ir s (0 6 0 2 -0 0 1 0 ), L ak e M o ra in e (0 6 0 2 -0 0 0 7 ), L eb an o n R es er vo ir ( 0 6 0 2 -0 1 0 9 ), E at o n B ro o k R es er vo ir ( 0 6 0 2 -0 0 4 1 ), A ft o n L ak e (0 6 0 1 -0 0 1 0 ), C h en an go L ak e (0 6 0 1 -0 0 1 3 ), W ea ve r L ak e (M au m ee S w am p ) (0 6 0 1 -0 0 2 5 ), O ti sc o L ak e (0 7 0 2 -0 0 1 1 ), U p p er S ar an ac L ak e (1 0 0 3 -0 0 4 8 ), T ay lo r P o n d ( an d M u d P o n d ) (1 0 0 4 -0 0 6 3 ), L ow er C as ca d e/ U p p er C as ca d e/ M u d L ak es ( 1 0 0 4 -0 0 7 5 ), P u tn am /N o rt h P o n d ( 1 0 0 5 -0 0 1 8 ), L ak e L au d er d al e, S ch o o lh o u se L ak e (1 1 0 2 -0 0 1 1 ), L ak e G il ea d ( 1 3 0 2 -0 0 2 4 ), L ak e G le n ei d a (1 3 0 2 -0 0 2 5 ), L ak e T o n et ta ( 1 3 0 2 -0 0 1 4 ), B ar ge r P o n d ( 1 3 0 1 -0 0 9 1 ), C o p ak e L ak e (1 3 1 0 -0 0 1 4 ), W at er vl ie t R es er vo ir ( 1 3 1 1 -0 0 0 1 ), B u rd en L ak e (1 3 0 1 -0 0 2 5 ), W h it e/ A m b er L ak es ( 1 4 0 1 -0 0 1 8 ), S w an L ak e (1 4 0 1 -0 0 6 3 ), B ig M o h ic an L ak e (1 4 0 1 -0 0 0 7 ), L ak e H u n ti n gt o n ( 1 4 0 1 -0 0 0 8 ), S il ve r L ak e R es er vo ir ( 1 7 0 1 -0 3 5 9 ), W hi tn ey L ak e (1 70 2- 0 10 1) , L au re l P o nd ( 17 0 1- 0 12 8) , F o rt P on d (1 7 01 -0 1 22 ), W ai ns co tt P on d/ F ai rf ie ld P on d (1 7 01 -0 1 44 ), O ld T ow n P on d (1 7 01 -0 1 18 ), A ga w am L ak e (1 70 1- 0 11 7) , W es t an d E as t M il l P o n d s (1 7 0 1 -0 0 2 6 ), M as sa p eq u a L ak e (1 7 0 1 -0 1 5 6 ), C am aa n s P o n d ( 1 7 0 1 -0 0 5 2 ), M il b u rn P o n d ( 1 7 0 1 -0 0 5 3 ). 43 A p p en d ix B - L is te d W at er b o d ie s N o t M ee ti n g D is so lv ed O xy ge n S ta n d ar d s, P en d in g V er if ic a ti o n o f U se I m p a ir m en ts /P o ll u ta n ts /S ou rc es It i s w id el y a c ce p te d t h at m o rp h o lo g y a n d o th e r n at u ra l co n d it io n s m ay c o n tr ib u te t o p er io d ic d is so lv e d o x y g en d ep le ti o n a t lo w er d ep th s in si g n if ic a n t n u m b er s o f th er m al ly s tr at if ie d w a te rs . H o w ev er b o tt o m w a te r co n d it io n s ar e n o t n ec e ss ar il y r ep re se n ta ti v e o f th e w a te rb o d y a s a w h o le a n d a q u at ic l if e an d o th e r u se s ar e o ft en f u ll y s u p p o rt ed i n t h e se w at er s. A lt h o u g h N Y S w at er q u al it y s ta n d ar d s m ay n o t b e m et a t ti m es i n th e se w at er s, t h e U S E P A p o li cy o f in d ep en d en t ap p li ca b il it y a ll o w s fo r re so lv in g d if fe re n ce s in a ss e ss m en t re su lt s b y w ei g h in g t h e h ig h er q u al it y o r m o re r ep re se n ta ti v e d at a se t m o re f av o ra b ly i n t h e at ta in m en t d ec is io n . N Y S D E C a c k n o w le d g e s th a t av a il a b le m o n it o ri n g d at a s h o w s w a te r q u a li ty s ta n d a rd s fo r d is so lv e d o x y g e n i n m an y w a te rb o d ie s, i n c lu d in g 4 5 sp e ci fi c w at e rb o d ie s id e n ti fi e d b y U S E P A , ar e n o t m et a t al l ti m e s/ se as o n s o r d ep th s. H o w ev e r N Y S D E C h a s n o t v e ri fi e d t h a t sp e ci fi c u se s o f th es e w at er s ar e ac tu al ly i m p ai re d o r d et er m in ed t h at t h e v io la ti o n o f th e w at er q u al it y s ta n d ar d i s a re su lt o f fa ct o rs o th er t h an n at u ra l co n d it io n s (e .g ., n at u ra l la k e st ra ti fi ca ti o n v er su s ex ce ss n u tr ie n t lo ad in g f ro m h u m an a ct iv it y ). W h il e it i s n o t p ra ct ic al t o i n cl u d e a li st in g o f al l th e w at er s th at c o rr es p o n d t o t h e U S E P A i n te rp re ta ti o n a n d a p p li ca ti o n o f th e d is so lv ed o x y g en s ta n d ar d f o r li st in g m ak in g d ec is io n s, t h e 4 5 w at er b o d ie s sp ec if ic al ly i d en ti fi ed b y U S E P A a re l is te d b el o w . 18 4 P ri o r to t h e n e x t li st in g c y c le N Y S D E C w il l in c lu d e i n i ts e st a b li sh e d m o n it o ri n g a n d a ss e ss m e n t p ro g ra m a s c h e d u le f o r th e e v a lu a ti o n o f w h e th e r th e se 4 6 w a te rs a re i m p a ir e d i n a n y s ig n if ic an t m an n e r b y p o ll u ta n t lo a d in g s th a t ar e f ro m o th e r th a n n a tu ra l co n d it io n s. U p o n v er if ic a ti o n o f im p ai rm en t to t h es e w at er s fr o m o th e r th an n a tu ra l so u rc es o r co n d it io n s, N Y S D E C w il l u n d er ta k e th e p re p ar a ti o n o f a T M D L t o ad d re ss t h e im p ai rm en t, u n le ss a T M D L o r o th er r es to ra ti o n s tr at eg y p la n t o a d d re ss t h e im p ai rm en t is a lr ea d y i n p la ce o r a T M D L i s n o t n ee d ed b ec au se a s in g le e n ti ty i s th e so u rc e o f a si g n if ic an t m aj o ri ty o f th e p o ll u ta n t lo ad in g t h at i s ca u si n g t h e im p ai rm e n t - o b v ia ti n g t h e n ee d f o r a lo ad a ll o ca ti o n a m o n g v ar io u s so u rc es . N Y S D E C w il l co n ti n u e to e v al u at e it s d is so lv ed o x y g en s ta n d ar d s la n g u ag e in o rd er t o m o re a p p ro p ri at el y r ef le ct t h e im p ac t o f n at u ra l co n d it io n s an d o cc u rr en ce o f p er io d ic l o w d is so lv e d o x y g en i n w at er s o f th e st at e. In t h e m ea n ti m e, N Y S D E C w il l re v ie w d is so lv e d o x y g en d at a in c o n ju n ct io n w it h o th er a v ai la b le d at a (p ar ti cu la rl y b io lo g ic al a ss es sm en ts t h at a re m o re d ir ec tl y r ef le ct iv e o f aq u at ic l if e u se ) to d e te rm in e th e ac tu al l ev el o f im p ac ts a n d s p ec if ic c au se s in o rd er t o r ea ch t h e m o st a p p ro p ri at e w at er q u al it y a ss es sm en t d ec is io n s. T h is a p p ro ac h i s d is cu ss ed in m o re d et ai l in t h e A ss es sm en t o f N a tu ra ll y O cc u rr in g L o w D is so lv e d O xy g en W a te rs s ec ti o n o f th e A ss e ss m e n t M e th o d o lo g y. A D D 12 6 ADD127 ADD128 Environment Town officials: It’s time to reopen waterways to shellfishing by Grant Parpan | 02/10/2015 4:00 PM John Bredemeyer, a Southold Town Trustee and chairman of the shellfish advisory committee, takes a water sample for DNA analysis from the Cutchogue creek complex in 2013. (Credit: Carrie Miller, file) Frustrated with years of trying to get the State Department of Environmental Conservation to reopen waterways long closed to shellfishing on the North Fork, members of Southold Town’s shellfish advisory committee say only one solution to their problem remains. Local state legislators must put pressure on the DEC to make sweeping changes to its shellfish monitoring program, they told members of the Town Board at its work session Tuesday. “We need real programatic changes at the state level,” said Southold Town engineer Michael Collins. “If we do this right, we have the potential to bring this resource back, for people to make a living on our bays again, which is our right.” While stormwater runoff is being blamed on shellfishing closures throughout the region, Mr. Collins and committee chairman and town trustee John Bredemeyer said the real issue is a lack of resources in the only DEC lab certified to conduct water testing on Long Island. ADD129 Hundreds of acres of town waterways remain closed to shellfishing despite many areas being untested as the “underfunded” lab is unable to fulfill requests, Mr. Collins said. “The lab is so strapped for resources, we’ve been effectively locked out,” he said. Suffolk County Legislator Al Krupski, who appeared before the board with Mr. Collins and Mr. Bredemeyer during their presentation, said it’s an important issue that “has been festering for too long.” He said the county has a great stake in the issue considering its role in economic development and the impact closed waterways have on local fishermen. Southold Town Supervisor Scott Russell said he plans to organize a meeting of stakeholders and that a good first step would be to get the local baymen’s associations on board with any lobbying efforts. “We have to get the attention of our state legislators because they can move DEC and we cannot,” Mr. Russell said. gparpan@timesreview.com http://suffolktimes.timesreview.com/2015/02/56071/town-officials-its-time-to-reopen-waterways-to- shellfishing/ ADD130