LOCI Home > LOCI Libarary Other Research Papers

Lake Ontario Coastal Initiative

Number

Search Terms

Search Index

Title

Authors

Year

Source

Volume

ISBN or ISSN

Call Number

Subject terms

Country

State (Province)

Subheading

Document Type

Library

Library Website

Abstract

Lake Ontario

Changes in the Biota in Lakes Erie and Ontario

ed. By Dr. Robert A. Sweeney

1968

Bulletin of the Buffalo Society of Natural Sciences

25 no1

84p

DBCN 05-0013874

QH1.B94 v.25,no.1

Freshwater biology--Lake Ontario

SUNY Geneseo

http://bufweb2.sunyconnect.suny.edu

Lake Ontario

Proceedings of the conference on changes in the physical aspects of Lakes Erie and Ontario, November 1-2, 1973

ed. By Dr. Robert A. Sweeney

1973

Bulletin of the Buffalo Society of Natural Sciences

25 no3

93p

DBCN 05-0017543

QH1.B94 v.25,no.3

Shorelines--Lake Ontario--Congresses

SUNY Geneseo

http://bufweb2.sunyconnect.suny.edu

Lake Ontario

On the feasibility of predicting Lake Ontario water levels

Frank Sciremammano, prepared under the direction of John H Thomas… and Alfred Clark

1975

University of Rochester, College of Engineering and Applied Science

none

19 leaves

DBCN 05-0027154

Gov Doc 30-Le51 2:As12 Sc51/501

Hydrology--Lake Ontario, Water masses--Lake Ontario

SUNY Geneseo

http://bufweb2.sunyconnect.suny.edu

Lake Ontario

A mathmatical model determining commercial expoliotation of Lake Ontario's multispecies fish community

Susan G Staffoerd

1975

NYS Assembly, Public Service Legislative Studies program

none

96 leaves

DBCN 05-0027173

Gov Doc 30-Le51 2:As12 Sc51/511

Fisheries--Lake Ontario--Mathematical models, Fish populations--Mathematical models

SUNY Geneseo

http://bufweb2.sunyconnect.suny.edu

Lake Ontario

The regulation of water levels on the Great Lakes: emphasis on Lake Ontario

1973

University of Rochester, Department of Mechanical and Aerospace Sciences

none

32 leaves

DBCN 05-0027390

Gov Doc 30-Le51 2:As12/Sc51/305

Coastal zone management--New York State, Hydrology--Lake Ontario, Water Levels--Great Lakes

SUNY Geneseo

http://bufweb2.sunyconnect.suny.edu

Lake Ontario

Water quality management plan for the Lake Ontario Basin: central (03-02), eastern (03-03), draft

NYS Division of Land Resources and Forest Management

1977

The Divisions

none

556p

DCBN 05-00311756

Gov Doc 30-En61 2:On59/1

Water quality management--NYS--Lake Ontario watershed

SUNY Geneseo

http://bufweb2.sunyconnect.suny.edu

Lake Ontario

Authur Pound

1945

The Bobbs-Merrill company

none

384p

DCBN 05-0058111

F556.P6

Lake Ontario

SUNY Geneseo

http://bufweb2.sunyconnect.suny.edu

Lake Ontario

Water quality trends in the Genesee River basin and lake Ontario basin in Monroe County

Peter J. Hetzel

1975

Environmental Resource Center

none

100 leaves

DCBN 05-0088450

gen QH540.N4 no.54

Water quality--NYS--Lake Ontario Basin

SUNY Geneseo

http://bufweb2.sunyconnect.suny.edu

Lake Ontario

Proceedings, Nov. 5-6, 1970

ed. By Dr. Robert A. Sweeney

1970

Conference on Changes in the Chemistry of Lakes Erie and Ontario

25 no2

85p

DCBN 05-0135252

QH1 .B94 v.25, no.2

Limnology--Lake Ontario

SUNY Geneseo

http://bufweb2.sunyconnect.suny.edu

Lake Ontario

Water pollution problems and improvement needs: Lake Ontario and St. Lawrence River Basin

US Federal Water Pollution Control Administration, Great Lakes Region

1968

NYS Divison of Pure Waters

none

125p

DCBN 05-0138716

gen TD225.O72 A57

Water--Pollution--Lake Ontario region, Water--Pollution--St. Lawrence River watershed

SUNY Geneseo

http://bufweb2.sunyconnect.suny.edu

Lake Ontario

Annotated biblography of Lake Ontario limnological and related studies

Great Lake Laboratory

1972

Environmental Protection Agency, Office of Research and Monitoring

multiple

3v.

DCBN 05-0162611

ref Z1251.G8 O5 v.1-3

Limnology--Lake Ontario--Bibliography

SUNY Geneseo

http://bufweb2.sunyconnect.suny.edu

Lake Ontario

Status Report: the problem of mirex in Lake Ontario

Leo J. Hetling and Robert L. Collin

1978

Albany: NYS Dept. of Environmental Conservation

none

27p

DCBN 05-0164317

Gov Doc 30-En61 5:53

Water--Pollution--Lake Ontario--Mirex

SUNY Geneseo

http://bufweb2.sunyconnect.suny.edu

Lake Ontario

Water use relationships in the Genesse Valley and western Lake Ontario basin

Erich F. Bordne

1954

Syracuse University--Thesis (Ph.D)

none

250 leaves

DCBN 05-0173940

gen TD224.N7 B67 1955a

Water-supply--Genese River Valley (PA and NY)

SUNY Geneseo

http://bufweb2.sunyconnect.suny.edu

Lake Ontario

Drift and dispersion characteristics of Lake Ontario nearshore waters, Rochester NY to Sodus Bay, NY: a special limnological study sponsored by Rochester Gas and Electric Corporation

Pritchard-Carpenter (firm)

1965?

Rochester Gas and Electric

none

82 leaves

DCBN 05-0173758

gen QH98.R6

Limnology--Lake Ontario

SUNY Geneseo

http://bufweb2.sunyconnect.suny.edu

Lake Ontario

The Sterling power project: application

Rochester Gas and Electric

1973

Rochester Gas and Electric

multiple

5v.

DCBN 05-0170817

gen HC110.E5 R52 v.1-5

Environmental policy--NYS--Lake Ontario, Pollution--NYS—Lake Ontario, Atomic power-plants--NYS--Cayuga County

SUNY Geneseo

http://bufweb2.sunyconnect.suny.edu

Lake Ontario

Changes in the Biota in Lakes Erie and Ontario

ed. By Roberta K. Cap and V. Ray Frederick Jr.

1980

Conference on Changes in the Chemistry of Lakes Erie and Ontario

25 no4

120p

DCBN 05-0206097

QH1 .B94 v.25, no.4

Lake ecology--Lake Ontario--Congresses

SUNY Geneseo

http://bufweb2.sunyconnect.suny.edu

Lake Ontario

Limnology and phytoplankton structure in nearshore areas of Lake Ontario

ed. By Paul E. Bertram

1985

Environmental Protecation Agency, Great Lakes National Program Office

none

172p

DCBN 05-0237725

Gov Doc EP 1.2: L62/6

Limnology--Lake Ontario, Lake Ontario--Shorelines

SUNY Geneseo

http://bufweb2.sunyconnect.suny.edu

Lake Ontario

Ecological studies of cooling water discharge

John F. Storr

1973

Rochester Gas and Electric

multiple

13v

DCBN 05-0247720

gen QH541.5.F7 S8 1971 v.1, 1972 v.1-6, 1973 v.1-6

R.E. Ginna Nuclear Power Plant, Thermal pollution of rivers, lakes, ect.--Lake Ontario, Freshwater ecology--Lake Ontario--Nuclear Power Plants--Environmental aspects--Lake Ontario

SUNY Geneseo

http://bufweb2.sunyconnect.suny.edu

Lake Ontario

A Prospectus for the management of the Long Point ecosystem

Geaorge R. Francis

1985

Ann Arbor, Mich.: Great Lakes Fishery Commission

none

109p

DCBN 05-0266030

Gov Dov Y 3.G97f:43

Watershed management--Ontario--Long Point, Lake ecology--Lake Erie

SUNY Geneseo

http://bufweb2.sunyconnect.suny.edu

Lake Ontario

Geneva's changing waterfront, 1779-1989

Kathryn Grover

1989

Geneva Hisorical Society

none

106p

DCBN 05-0286444

gen F129.G43 G7 1989

Waterfronts--NYS-Ontario County, Geneva (NY)--Description, Seneca Lake (NY)--History, Ontario County (NY)--History

SUNY Geneseo

http://bufweb2.sunyconnect.suny.edu

Lake Ontario

The Cauga & Seneca Canal: with notes on the Crooked Lake Canal

Thomas X. Grasso

1989

Canal Society of New York State

none

65 leaves

DCBN 05-0297280

gen HE396.C2 C2 1989

Canals--NYS, Cayuga and Seneca Canal (NY)--History, Crooked Lake Canal (NY)--History

SUNY Geneseo

http://bufweb2.sunyconnect.suny.edu

Lake Ontario

Lakewide impacts of critical pollutants on the United States boundary waters of Lake Ontario

Frederick Luckey

1994

Albany: NYS Dept. of Environmental Conservation

one

DCBN 05-0328797

Gov Doc ENV 214-4 LAKIC 94-28008

Water--Pollution--Lake Ontario, Water Quality Management

SUNY Geneseo

http://bufweb2.sunyconnect.suny.edu

Lake Ontario

Rochester embayment remedial action plan: draft stage I

ed. By Robert L. King and Rocco DiGiovanni

1993

Monroe Conty Dept. of Planning & Development

multiple

DCBN 05-0316824

gen TD225.R63 R6 1993 v.1-2

Water quality management--NYS--Rochester Region--Planning, Water--Pollution--NYS--Rochester Region

SUNY Geneseo

http://bufweb2.sunyconnect.suny.edu

Lake Ontario

Rochester embayment remedial action plan:

Rochester, NY: Monroe County Dept. of Planning and Development

1993

Monroe Conty Dept. of Planning & Development

multiple

DCBN 05-0341082

gen TD225 R63 R6 1993b v1-2

Water quality management--NYS--Rochester Region--Planning, Water--Pollution--NYS--Rochester Region

SUNY Geneseo

http://bufweb2.sunyconnect.suny.edu

Lake Ontario

Rochester embayment remedial action plan:

Carole Beal and Todd Stevenson

1997

Rochester NY: Monroe County Dept. of Health

one

3v.

DCBN 05-0410357

gen TD225.R63 R6 1997 v2

Water quality management--NYS--Rochester Region--Planning, Water--Pollution--NYS--Rochester Region

SUNY Geneseo

http://bufweb2.sunyconnect.suny.edu

Lake Ontario

GPO Item No: 250-E-9

IFYGL atlas, Lake Ontario summary data

Carl F. Jenkins

1980

US Department of Commerce, Canada Dept of the Enviornment, Great Lakes Environmental Research Laboratory

none

336p

OCLC: 6922298

Gov Doc: C55.22: L14 o

Limnology--Lake Ontario, Lake Ontario--Meteorology

SUNY Geneseo

not available on website

Lake Ontario

GPO Item No: 624-B

Ground-water availability in the eastern part of the Lake Ontraio Basin, New York

Todd S. Miller

1986

US Geological Survey

none

3 maps

OCLC: 16318585

Gov Doc: I 19.42/4:86-4201

Water, Underground--Lake Ontario--Maps

SUNY Geneseo

not available on website

Lake Ontario

GPO Item No: 431-I-11

Verification analysis of Lake Ontario and Rochester embayment three dimensional eutrophic models

Robert V. Thomann, Richard P. Winfield, and John J. Segna

1979

US Environmental Protection Agency

none

136p

OCLC: 5793356

Gov Doc: EP 1.23:600/3-79-094

Water quality bioassay--Lake Ontario, Photoplankton--Lake Ontario

SUNY Geneseo

not available on website

Lake Ontario

GPO Item No: 431-I-11

An evaluation of hazardous chamicals in Lake Ontario during IFYGL

Fred G Lee

1980

Colorado State Universit

none

26p

OCLC: 6871687

Gov Doc:EP 1.23:600/3-80-060

Water--Pollution--Lake Ontario, Hazardous Substances--Lake Ontario, Water Quality--Lake Ontario--Measurement

SUNY Geneseo

not available on website

Lake Ontario

GPO Item No: 431-I-11

Algal nutrient availability and limitation in lake Ontario during IFYGL

Nagalaxmi Sridharan

1976

University of Texas at Dallas

none

Gov Doc: EP 1.23:600/3-76-115

Phosphorus, Nitrogen-fixing alge

SUNY Geneseo

not available on website

Lake Ontario

GPO Item No: 431-I-11

An investigation of the nearshore region of Lake Ontario IFYGL

SUNY Buffalo

1976

SUNY Buffalo

none

270p

OCLC:3226033

Gov Doc: EP 1.23:600/3-76-115

Ecological research--Lake Ontario, Benthos--Lake Ontario, Phytoplankton--Lake Ontario, Marine Sediments--Lake Ontario

SUNY Geneseo

not available on website

Lake Ontario

Great Lakes water quality: status report on the persisten toxic pollutants in the Lake Ontario basin

Great Lakes Water Quality Board

1977

Great Lakes Water Quality Board

none

373p

OCLC: 12985727

Gov Doc: Y 3.In 8/28:10/976/app.E

Water--Pollution--Lake Ontario, Water Quality--Lake Ontario--Measurement

SUNY Geneseo

not available on website

Lake Ontario

GPO Item No: 208-C-2

Lake Ontario Basin runoff modeling

Thomas E. Croley and Holly C Hartmann

1983

US Environmental Research Laboratories

none

108p

OCLC: 9792372

Gov Doc: C55.13/2:ERL GLERL-43

Runoff--Lake Ontario--Mathematical Models

SUNY Geneseo

not available on website

Lake Ontario

An ecological model for Lake Ontario model formulation, calibration, and preliminary evaluation

Donald Scavia, Brian J. Eadie, and Andrew Robertson

1976

Great Lakes Environmental Research Laboratory

none

63p

OCLC: 2630162

Gov Doc: C 55.13:ERL 371-GLERL 12

Ecology--Lake Ontario--Models and modelmaking

SUNY Geneseo

not available on website

Lake Ontario

Lake Ontario beginning-of-month water levels and monthly rates of change of storage

Frank Quinn and J.A. Derecki

1976

Great Lakes Environmental Research Laboratory

none

27p

OCLC: 2281613

Gov Doc: C 55.13:ERL 365-GLERL 10

Hydrology--Lake Ontario, Great Lakes--Water Level

SUNY Geneseo

not available on website

Lake Ontario and ecosystem

Clarkson Library Catalog- http://ipac.clarkson.edu/ipac-cgi/ipac

Modeling the interaction of phosphorus control and fishery management in the Lake Ontario ecosystem

Rajeev Jain

1996

Thesis

36314000120389

J25m

Fishery Management, Fish stocking, Fisheries, Salmon fisheries -Lake Ontario and Phosphorous

USA

Dissertation

Clarkson University

www.clarkson.edu/library

Lake Ontario and embayment

Clarkson Library Catalog- http://ipac.clarkson.edu/ipac-cgi/ipac

Verification analysis of Lake Ontario and Rochester Embayment three dimensional eutrophication models

Robert V. Thomann, Richard P. Winfield, John J. Segna, ane project officer:William L. Richardson

1979

United States Environmental Protection Series Ecological Research Series

36314000875966

301.3 U58e

Water quality bioassay and Eutrophication - Lake Ontario

USA

Book

Clarkson University

www.clarkson.edu/library<

Lake Ontario and hydrology

Clarkson Library Catalog- http://ipac.clarkson.edu/ipac-cgi/ipac

Lake Ontario beginning-of-month water levels and monthly rates of change of storage

Frank H. Quinn and Jan A. Derecki

1976

Environmental Research Laboratories

mq67114

NOAA TR ERL 365-GLERL10

Hydrology-Ontario Lake and Great Lakes Water Level

USA

Technical Report

Clarkson University

www.clarkson.edu/library

Lake Ontario and lake level

Clarkson Library Catalog- http://ipac.clarkson.edu/ipac-cgi/ipac

Lake Ontario and and the St. Lawrence River: analysis of and recommendations concernig high water levels

Danile J. Palm

1975

St. Lawrence-Eastern Ontario Commision

627.1097 P171L

USA

Book

Clarkson University

www.clarkson.edu/library

Lake Ontario and algae

Clarkson Library Catalog- http://ipac.clarkson.edu/ipac-cgi/ipac

Great Lakes Alive

David Way, David Hazzan, Ted Remerowski, Ken Hillier, Paul Boisvert, Paul Spencer, Angela Fusco, and Brad MacDonald

1996

Films for the Humanities-Ontario Eduacational Communications Authority

363.7394 G786

Lake Ontario

USA

Videocassette

Clarkson University

www.clarkson.edu/library

Lake Ontario

Clarkson Library Catalog- http://ipac.clarkson.edu/ipac-cgi/ipac

Agricultural NPS control of phosphorous in the New York State, Lake Ontario basin

Patricia Longabucco

1991

United States Environmental Protection Agency-Great Lakes National Program Office

v.1-3

EP 1.2:AG 8/8

pollution, Oak Orchard Creek, soils(NY)-phosphorous content, water pollution control industry(Ontario Lake, NY), Water(NY)-phosphorous content

USA

US Government Documents - Paper

Clarkson University

www.clarkson.edu/library

Lake Ontario

Clarkson Library Catalog- http://ipac.clarkson.edu/ipac-cgi/ipac

Ground-water availability in the eastern part of the Lake Ontario Basin, New York

Todd S. Miller

1986

US Geological Survey - Temporary State Commission on Tug Hill

v.4

86-4052

I 19.42

USA

US Government Documents - Paper

Clarkson University

www.clarkson.edu/library

Lake Ontario

Clarkson Library Catalog- http://ipac.clarkson.edu/ipac-cgi/ipac

Geophysical well-log analysis of fractured crystalline rocks at East Bull Lake, Ontario, Canada

F.L. Paillet and Alfred E. Hess

1986

US Geological Survey - Temporary State Commission on Tug Hill

v.4

86-4052

I 19.42

USA

US Government Documents - Paper

Clarkson University

www.clarkson.edu/library

Lake Ontario

Clarkson Library Catalog- http://ipac.clarkson.edu/ipac-cgi/ipac

Great Lakes National Program Office, Harbor Sediment Program, Lake Ontario 1981

Anthony G. Kizlauskas, Roger E. Claff, and David C. Rockwell

1984

Great Lakes National Program Office

EP 2.2:H 21

Oswego Harbor

USA

US Government Documents - Paper

Clarkson University

www.clarkson.edu/library

Lake Ontario

Clarkson Library Catalog- http://ipac.clarkson.edu/ipac-cgi/ipac

Algal nutrient availability and limitation in Lake Ontario during IFYGL

US EPA, IFYGL, and Univ. of Texas at Dallas

1976-1977

US Environmental Protection Agency Office of Research and Development

301.3 U58ed

Precipitation(Meteorology), Runoff, Algae, and Phoshorous

USA

Book

Clarkson University

www.clarkson.edu/library

Pt.1-Available phosphorous in urban runoff and Lake Ontario tributary waters-Pt.2-Nitrogen availability in Lake Ontario tributary water samples and urban runoff from Madison, Wiscoonsin-Pt.3-Algal nutrient limitation in Lake Ontario during IFYGL

Lake Ontario

Clarkson Library Catalog- http://ipac.clarkson.edu/ipac-cgi/ipac

Coastal Resources/St. Lawrence- Eastern Ontario Commission

Joseph A. Romola

1976

St. Lawrence-Eastern Ontario Commision

333.917 N532c

Conservation of Natural Resources, Coastal Zone Management, and Shore Protection

USA

Book

Clarkson University

www.clarkson.edu/library

Lake Ontario

Clarkson Library Catalog- http://ipac.clarkson.edu/ipac-cgi/ipac

IFYGL rawinsonde system: description of archived data

Sandr M. Hoexter

1976

Center for Experimental Design and Data Analysis

NOAA TR EDS 14

USA

Technical Paper- Reports

Clarkson University

www.clarkson.edu/library

Lake Ontario

Clarkson Library Catalog- http://ipac.clarkson.edu/ipac-cgi/ipac

Mathematical Modeling of phytoplankton in Lake Ontario

Robert V. Thomann et al.

1975

National Environmental Research Center

627.1097 P171L

USA

Book

Clarkson University

www.clarkson.edu/library

Lake Ontario

Clarkson Library Catalog- http://ipac.clarkson.edu/ipac-cgi/ipac

Phytoplankton composition and abundance in Lake Ontario during IFYGL

Eugene F. Stoermer et al.

1975

International Field Year for the Great Lakes

301.3 U58e no.4

USA

Book

Clarkson University

www.clarkson.edu/library

Lake Ontario

Clarkson Library Catalog- http://ipac.clarkson.edu/ipac-cgi/ipac

Annotated bibliography of Lake Ontario limnological and related studies

National Environmenatl Research, Corvallis

1973

US EPA Office of Research and Monitoring

301.3 U58e no.28a

limnology

USA

Book

Clarkson University

www.clarkson.edu/library

Lake Ontario

Clarkson Library Catalog- http://ipac.clarkson.edu/ipac-cgi/ipac

The role of sludge worms in eutrophication

Ralph O. Brinkhurst

1972

US EPA Office of Reasearch and Monitoring

301.3 U58e no.4

USA

Book

Clarkson University

www.clarkson.edu/library

Lake Ontario

Clarkson Library Catalog- http://ipac.clarkson.edu/ipac-cgi/ipac

Pollution of Lake Ontario, Lake Ontario and the international section of the St. Lawrence River

1909-1970

International Joint Commission (US and Canada)

628.1680977 I61p

USA

Book

Clarkson University

www.clarkson.edu/library

Lake Ontario

Clarkson Library Catalog- http://ipac.clarkson.edu/ipac-cgi/ipac

Water pollution problems and improvement needs:Lake Ontario and St. Lawrence River Basins

US Dept. of the Interior, Federal Water Pollution Control Administration, Great Lakes Region, and NY State Dept. of Health

1968

US Federal Water Pollution Control Administration- Division of Pure Waters

628.16867479 U58wp

USA

Book

Clarkson University

www.clarkson.edu/library

Lake Ontario

Clarkson Library Catalog- http://ipac.clarkson.edu/ipac-cgi/ipac

Regulation of Lake Ontario: Plan 1958-D: report to the International Joint Commission

International St. Lawrence River Board of Control

1909-1963

International St. Lawrence River Board Control and International Joint Commission (US and Canada)

627.1097 I61r

USA

Book

Clarkson University

www.clarkson.edu/library

Lake Ontario

Clarkson Library Catalog- http://ipac.clarkson.edu/ipac-cgi/ipac

Regulation of outflows and levels of Lake Ontario, Method no. 5: St. Lawrence waterway project

Guy A. Lindsay

1952

Dept. of Transport (Ottowa, Ontario)-Special Project Branch

627.1097 R344

USA

Book

Clarkson University

www.clarkson.edu/library

Oswego Harbor

Clarkson Library Catalog- http://ipac.clarkson.edu/ipac-cgi/ipac

Harbor and nearshore currents, Oswego Harbor, New York

Gerald S. Miller

1976

Great Lakes Environmental Research Laboratory

NOAA TR ERL 360-GLERL 7

USA

Technical Reports- Paper

Clarkson University

www.clarkson.edu/library

Oswego River

Clarkson Library Catalog- http://ipac.clarkson.edu/ipac-cgi/ipac

Computation of inflows and outflows of eight regulated lakes in the Oswego River basin, New York, 1930-79

Richard Lumia and Richard B. Moore

1983

US Army Corps of Engineers- Geological Surveys

v.4

82-4112

I 19.42

USA

US Government Documents - Paper

Clarkson University

www.clarkson.edu/library

Oswego River

Clarkson Library Catalog- http://ipac.clarkson.edu/ipac-cgi/ipac

Chemical quality of ground water in the western Oswego River basin, New York

Leslie J. Cain

1975

NY State Department of Environmental Conservation and Wa-Ont-Ya Basin Regional Water Resources Planning Boards

553.78 C886c

USA

Book

Clarkson University

www.clarkson.edu/library

Oswego River

Clarkson Library Catalog- http://ipac.clarkson.edu/ipac-cgi/ipac

Ground-water resources of the western Oswego River basin, New York

Leslie J. Cain

1974

NY State Department of Environmental Conservation and Wa-Ont-Ya Basin Regional Water Resources Planning Boards

553.79097478 C887g

USA

Book

Clarkson University

www.clarkson.edu/library

Oswego River

Clarkson Library Catalog- http://ipac.clarkson.edu/ipac-cgi/ipac

Chemical quality to surface water in the Eastern Oswego River Basin, New York

William J. Shampine

1973

NY State Department of Environmental Conservation and Eastern Oswego Regional Water Resources Planning Board

628.16 S528c

USA

Book

Clarkson University

www.clarkson.edu/library

Oswego River

Clarkson Library Catalog- http://ipac.clarkson.edu/ipac-cgi/ipac

Ground-water resources of the western Oswego River basin, New York

I.H. Kantrowitz

1970

NY State Division of Water Resources- Eastern Oswego Regional Water Resources Planning Board

551.49 K16g

USA

Book

Clarkson University

www.clarkson.edu/library

Sandy Creek

Clarkson Library Catalog- http://ipac.clarkson.edu/ipac-cgi/ipac

Determination of the contributing area to six municipal ground-water supplies in the Tug Hill glacial aquifer of northern New York, with emphasis on the Lacona-Sandy Creek well field

Phillip J. Zarriello

1993

Water-resources investigation report- Geological Survey (US)

v.4

90-4145

36314002827775

I19.42

Grounwater flow(NY)-Tug Hill Aquifer/Tug Hill Region and Hydrogeology(NY)-Tug Hill Aquafier/Tug Hill Region

USA

US Government Documents - Paper

Clarkson University

www.clarkson.edu/library

Johnson Creek

Clarkson Library Catalog- http://ipac.clarkson.edu/ipac-cgi/ipac

Atlas of eleven selected aquifers in New York

Roger M. Waller and Anne J. Finch

1982

NY State Department of Health, Bureau of Public Water Supply Protection , Geological Survey (US)

v.4

82-553

I 19.42

USA

US Government Documents - Paper

Clarkson University

www.clarkson.edu/library

Irondequoit Bay

Clarkson Library Catalog- http://ipac.clarkson.edu/ipac-cgi/ipac

Water resources of Monroe County, NY, water years 1989-93, with emphasis on water quality in the Irondequoit Creek Basin

Donald A. Sherwood

1999-

Monroe County(NY) Department of Health-Geological Survey (US)

v.4

99-4084 (pt.2)

I 19.42

USA

US Government Documents - Paper

Clarkson University

www.clarkson.edu/library

Irondequoit Bay

Clarkson Library Catalog- http://ipac.clarkson.edu/ipac-cgi/ipac

Water resources of Monroe County, NY, water years 1994-96, with emphasis on water quality in the Irondequoit Creek Basin:atmospheric deposition, ground water, streamflow, trends in water quality, and chemical loads to Irondequoit Bay

Donald A. Sherwood

1999-

Monroe County(NY) Department of Health-Geological Survey (US)

v.4

0-4201

I 19.42

USA

US Government Documents - Paper

Clarkson University

www.clarkson.edu/library

Irondequoit Bay

Clarkson Library Catalog- http://ipac.clarkson.edu/ipac-cgi/ipac

Water resources of Monroe County, NY, water years 1984-88, with emphasis on water quality in the Irondequoit Creek Basin. Part 2, Atmospheric deposition, ground water, stream flow, trends in water quailty, and chemical loads to Irondeqouit Bay

William H. Johnston and Donal A. Sherwood

1996

Monroe County(NY) Department of Health-Geological Survey (US)

v.4

96-4054

I 19.42

USA

US Government Documents - Paper

Clarkson University

www.clarkson.edu/library

Irondequoit Bay

Clarkson Library Catalog- http://ipac.clarkson.edu/ipac-cgi/ipac

Changes in chloride concentrations, mixing patterns, and stratification characteristics of Irondequoit Bay, Monroe County, New York, after decreased use of road-deicing salts, 1974-1984

Robert C. Bubeck and Richard S. Burton

1989

Monroe County(NY) Department of Health-Geological Survey (US)

v.4

87-4223

I 19.42

USA

US Government Documents - Paper

Clarkson University

www.clarkson.edu/library

Irondequoit Bay

Clarkson Library Catalog- http://ipac.clarkson.edu/ipac-cgi/ipac

Quantity and quality of urban storm runoff in the Irondequoit Creek basin near Rochester, NY. Quality of storm runoff and atmospheric deposition, rainfall-runoff-quality modeling and potential of wetlands for sediment and nutrient retention

William M. Kappel, Phillip J. Zarrielo, and Richard M. Yager

1986

Monroe County(NY) Department of Engineering-Geological Survey (US) and Irondequoit Bay Pure Waters District

v.4

85-4113

I 19.42

USA

US Government Documents - Paper

Clarkson University

www.clarkson.edu/library

Irondequoit Bay

Clarkson Library Catalog- http://ipac.clarkson.edu/ipac-cgi/ipac

Geohydrology of the Irondequoit Creek Basin near Rochester, New York

Richard M. Yager, William M. Kappel, and Phillip J. Zarriello

1985

Monroe County(NY) Department of Engineering-Geological Survey (US) and Irondequoit Bay Pure Waters District

v.4

84-4259

I 19.42

USA

US Government Documents - Paper

Clarkson University

www.clarkson.edu/library

Genesse River

Clarkson Library Catalog- http://ipac.clarkson.edu/ipac-cgi/ipac

Genesse River Watershed study microform: for US Environmental Protection Agency

1991

NY State Department of Environmental Conservationstyle="mso-spacerun: yes"> and Bureau of Technical Services and Research United States

v.1/SUM

EP 1.2:G 28/2

USA

US Governments Documents- Microfiche

Clarkson University

www.clarkson.edu/library

Genesse River

Clarkson Library Catalog- http://ipac.clarkson.edu/ipac-cgi/ipac

Ground-water availability in the Genesse River Basin, New York and Pennsylvania

John C. Kammerer and William A. Hobba

1986

Genesse/FL Regional Planning Council and Department of the Interioir-Geological Survey(US)

v.4

86-4048

I 19.42

USA

US Government Documents - Paper

Clarkson University

www.clarkson.edu/library

Genesse River

Clarkson Library Catalog- http://ipac.clarkson.edu/ipac-cgi/ipac

Summary of water-resource records at principal measurement sites in the Genesse River basin through 1963

Bruce K. Gilbert and John Craig Kammerer

1965

Geological Survey (US)

551.483

USA

Clarkson University

www.clarkson.edu/library

Lake Ontario, Glaciolacustrine sediment; Laurentide Ice Sheet; Mazinaw Lake; Kettle basin

Research article

Acoustic architecture of glaciolacustrine sediments deformed during zonal stagnation of the Laurentide Ice Sheet; Mazinaw Lake, Ontario, Canada

Eyles N.[1]; Doughty M.; Boyce J.I.; Mullins H.T.; Halfman J.D.; Koseoglu B.

2003

Sedimentary Geology

Vol 157, no. 1

pp. 133-151(19)

0037-0738

DOI (article): 10.1016/S0037-0738(02)00229-4style="mso-spacerun: yes">
SICI (online): 0037-07381571133151

SUNY Oswego

Ingenta

In North America, the last (Laurentide) Ice Sheet retreated from much of the Canadian Shield by 'zonal stagnation'. Masses of dead ice, severed from the main ice sheet by emerging bedrock highs, downwasted in situ within valleys and lake basins and were commonly buried by sediment. Consequently, the flat sediment floors of many valleys and lakes are now pitted by steep-sided, enclosed depressions (kettle basins) that record the melt of stagnant ice blocks and collapse of sediment. At Mazinaw Lake in eastern Ontario, Canada, high-resolution seismic reflection, magnetic and bathymetric surveys, integrated with onland outcrop and hammer seismic investigations, were conducted to identify the types of structural disturbance associated with the formation of kettle basins in glaciolacustrine sediments. Basins formed as a result of ice blocks being trapped within a regionally extensive proglacial lake (Glacial Lake Iroquois ~12,500 to 11,400 years BP) that flooded eastern Ontario during deglaciation. Kettles occur within a thick (>30 m) succession of parallel, high-frequency acoustic facies consisting of rhythmically laminated (varved?) Iroquois silty-clays. Iroquois strata underlying and surrounding kettle basins show large-scale normal faults, fractures, rotational failures and incoherent chaotically bedded sediment formed by slumping and collapse. Mazinaw Lake lies along part of the Ottawa Graben and while neotectonic earthquake activity cannot be entirely dismissed, deformation is most likely to have occurred as a result of the rapid melt of buried ice blocks. Seismic data do not fully penetrate the entire basin sediment fill but the structure and topography of bedrock can be inferred from magnetometer data. The location and shape of buried ice masses was closely controlled by the graben-like form of the underlying bedrock surface.

Lake Ontario, Nickel; Rainbow trout; Waterborne; Respiratory toxicity; Ionoregulation

Reasearch Article

Acute waterborne nickel toxicity in the rainbow trout (Oncorhynchus mykiss) occurs by a respiratory rather than ionoregulatory mechanism

Pane E.F.[1]; Richards J.G.; Wood C.M.

2003

Aquatic Toxicology

Vol. 63, no. 1

pp. 65-82(18)

0166-445X

SICI (online): 0166-445X6316582

SUNY Oswego

Ingenta

The acute mechanism of toxicity of waterborne nickel (Ni) was investigated in the rainbow trout (Oncorhynchus mykiss) in moderately hard (~140 mg/l as CaCO3 ) Lake Ontario water, where the 96-h LC50 for juvenile trout (1.5-3.5 g) was 15.3 mg (12.7-19.0, 95% C.L.) dissolved Ni/l . No marked impact of Ni exposure on average unidirectional or net fluxes of Na+, Cl-, or Ca2+ was observed in juvenile trout exposed for 48-60 h to 15.6 mg Ni/l as NiSO4. Furthermore, when adult rainbow trout (200-340 g) were fitted with indwelling dorsal aortic catheters and exposed for 117 h to 11.6 mg Ni/l as NiSO4 , plasma ions (Na+, Cl-, Ca2+, and Mg2+) were all well conserved. However, mean arterial oxygen tension dropped gradually to ~35% of control values. This drop in P aO2 was accompanied by an acidosis primarily of respiratory origin. P aCO2 rose to more than double control values with a concomitant drop in arterial pH of 0.15 units. Acute respiratory toxicity was further evidenced by a significant increase in hematocrit (Ht), and plasma lactate, and a significant decrease in spleen hemoglobin (Hb). Following 117 h of exposure to 11.6 mg Ni/l, the gill, intestine, plasma, kidney, stomach, and heart accumulated Ni significantly, with increases of 60, 34, 28, 11, 8, and 3-fold, respectively. Brain, white muscle, liver, and bile did not significantly accumulate Ni. Plasma Ni exhibited a remarkable linear increase with time to levels approximately 30-fold higher than controls. We conclude that in contrast to most other metals, Ni is primarily a respiratory, rather than an ionoregulatory, toxicant at exposure levels close to the 96-h LC50 The implications of a waterborne metal as an acute respiratory toxicant (as opposed to ionoregulatory toxicants such as Cu, Ag, Cd, or Zn) with respect to toxicity modeling are discussed

Lake Ontario

Reasearch Article

The mobility of radium-226 and trace metals in pre-oxidized subaqueous uranium mill tailings

Martin A.J.[1]; Crusius J.; Jay McNee J.; Yanful E.K.

2003

Applied Geochemisty

vol. 18, no. 7

pp. 1095-1110(16)

0883-2927

SICI (online): 0883-292718710951110

Suny Oswego

Ingenta

The exchange of 226 Ra and trace metals across the tailings-water interface and the mechanisms governing their mobility were assessed via sub-centimetre resolution profiling of dissolved constituents across the tailings-water interface in Cell 14 of the Quirke Waste Management Area at Rio Algom's Quirke Mine, near Elliot Lake, Ontario, Canada. Shallow zones (<1.5 m water depth) are characterized by sparse filamentous vegetation, well-mixed water columns and fully oxygenated bottom waters. Profiles of dissolved O 2 , Fe and Mn indicate that the tailings deposits in these areas are sub-oxic below tailings depths of ~3 cm. These zones exhibit minor remobilization of Ra in the upper 5 cm of the tailings deposit; 226 Ra fluxes at these sites are relatively small, and contribute negligibly to the water column activity of 226 Ra. The shallow areas also exhibit minor remobilization of Ni, As, Mo and U. The release of these elements to the water cover is, however, limited by scavenging mechanisms in the interfacial oxic horizons. The presence of thick vegetation (Chara sp.) in the deeper areas (>2 m water depth) fosters stagnant bottom waters and permits the development of anoxia above the benthic boundary. These anoxic tailings are characterized by substantial remobilization of 226 Ra, resulting in a relatively large flux of 226Ra from the tailings to the water column. The strong correlation between the porewater profiles of 226 Ra and Ba (r2=0.99), as well as solubility calculations, indicate that the mobility of Ra is controlled by saturation with respect to a poorly ordered and/or impure barite phase [(Ra,Ba)SO4 ]. In the anoxic zones, severe undersaturation with respect to barite is sustained by microbial SO4 reduction. Flux calculations suggest that the increase in 226Ra activity in the water cover since 1995 (from <0.5 to 2.5 Bq/l ) can be attributed to an increase in the spatial distribution of anoxic bottom waters caused by increased density of benthic flora. The anoxic, vegetated areas also exhibit minor remobilization with respect to dissolved As, Ni and Zn. The removal of trace metals in the anoxic bottom waters appears to be limited by the availability of free sulphide. Collectively, the data demonstrate that while the water cover over the U mill tailings minimizes sulphide oxidation and metal mobility, anoxic conditions which have developed in deeper areas have led to increased mobility of 226 Ra

Lake Ontario, exchange flows; hydrodynamic and transport modelling; lakes; harbours; water quality

Reasearch Article

Numerical models of the exchange flows between Hamilton Harbour and Lake Ontario

Hamblin P.F.; He C.

2003

Canadian Journal of Civil Engineering

vol. 30, no.1

pp. 168-180(13)

1208-6029

SICI (online): 1208-6029301168180

SUNY Oswego

Ingenta

Accurate simulations of the flow and the transport of water quality constituents in such coastal zones of large lakes as the western end of Lake Ontario and Hamilton Harbour are needed to assess the impact on pollutant levels of cleanup operations and sewage diversions. Coastal models in temperate zone lakes are classified in terms of density stratification, uniform in winter and stratified during summer. During the winter period a 1-D model of the flow between a lake and adjacent harbour is shown to agree favourably with advanced acoustic measurements of the flow in the connecting passage, but does not account for the observed winter buildup of salinity in the harbour. A calibrated 2-D hydrodynamic and salt transport model is used to show that significant exchange does not take place unless the excursion of the inflow is several times greater than the length of the connecting channel, an infrequent occurrence. The exchange is also shown to depend on the flow field at the entrances of the channel. In summer a 1-D vertical model illustrates the dramatic effect of the inflow from Lake Ontario on hypolimnetic temperatures of the harbour. Three-dimensional hydrodynamic and temperature–salt transport models are validated by extensive field observations taken in 1996. The stratified exchange is much stronger than its winter counterpart and more steady. Winter exchange is forced by short-term water level fluctuations, whereas summer or stratified exchange by slowly fluctuating density contrasts between the two water bodies. Key words : exchange flows,hydrodynamic and transport modelling, lakes, harbours, water quality.

Lake Ontario

Reasearch Article

Molecular and isotopic characterization of polycyclic aromatic hydrocarbon distribution and sources at the international segment of the St. Lawrence River

Stark&unknown; A.; Abrajano T.[1]; Hellou J.; Metcalf-Smith J.

2003

Organic Geochemistry

vol. 34, no. 2

pp. 225-237(13)

0146-6380

SICI (online): 0146-6380342225237

SUNY Oswego

Ingenta

This paper documents the molecular and compound-specific carbon isotope composition of polycyclic aromatic hydrocarbons (PAH) in St. Lawrence River sediments from the outflow of Lake Ontario (Kingston, ON) to the Massena area (NY). The sediment inventory of PAH is characterized by the dominance of 4 to 6 ring parent compounds, with the PAH ranging from 0.8 to 6700 g/g. The high abundance of high molecular weight parent compounds, high parent/alkylated PAH ratios and 13C-enriched values recorded for individual PAH are consistent with a dominant combustion PAH source for the sediments upstream of the Massena area, but areas receiving higher petroleum contributions were also identified (e.g., Prescott-Ogdensburg, Cornwall). PAH contribution from aluminum smelting operations in the Massena area is pronounced in the southern bank of the St. Lawrence River, where sediment samples display the highest PAH and higher 13C values for three ring PAH than for sediments immediately upstream. Thus, sediments at the international segment of the St. Lawrence River show localized enrichments in petroleum-related and aluminum smelter contributions against the regional backdrop of combustion-dominated PAH sources in sediments.

Lake Ontario

Reasearch Article

Recent Trends In Laurentian Great Lakes Ice Cover

Assel R.[1]; Cronk K.[2]; Norton D.[1]

2003

Climatic Change

vol. 57, no. 1

pp. 185-204(20)

0165-0009

SICI (online): 0165-0009571185204

SUNY Oswego

Ingenta

A 39-winter (1963–2001) record of annual maximum ice concentration (AMIC), the maximum fraction of lake surface area covered by ice each year, is analyzed for each Great Lake. Lake Erie has the largest median AMIC (94%) followed by Lakes Superior (80%), Huron (63%), Michigan (33%), and Ontario (21%). The frequency distribution of AMICs is negatively skewed for Lakes Superior and Erie and positively skewed for Lakes Michigan and Ontario. Temporal and spatial patterns of typical and extreme AMICs is presented within the context of long-term average air temperatures and lake bathymetry. The variation of spatially averaged ice concentration with discrete depth ranges are discussed for each lake for the upper and lower end of the typical range of AMIC values. In general, ice concentration decreases with increasing depth ranges for a given winter. A decrease in the gradient of ice concentration with depths was also observed with an increase in the AMIC from winter 1983 to winter 1984. A temporal trend in the AMICs supports the hypothesis of three ice cover regimes over the past 39 winters. Approximately 44% of the highest quartile (10 highest) AMICs for the Great Lakes occurred during the 6-winter period: 1977–1982 providing evidence of a higher ice cover regime during this period relative to the 14 winters before them (1963–1976) and the 19 winters after them (1983–2001). Winter 1998 established new low AMIC extremes, and the AMIC averaged over the 1998–2001 winters is the lowest for the period of record on four of the five Great Lakes. These recent trends taken together are noteworthy as they may be harbingers of a period of even lower AMICs in the 21st Century.

Oswego River, salinity; stratification; oxygen depletion; ionic waste; river

Regular paper

EFFECT OF REDUCED SALINITY INPUT ON RIVER STRATIFICATION AND DISSOLVED OXYGEN

EFFLER S.W.[1]; DOERR S.M.[1]; OWENS E.M.[2]

1997

Water, Air, and Soil Pollution

vol. 95, no. 1/4

pp. 45-58(12)

0049-6979

SICI (online): 0049-6979951/44558

SUNY Oswego

Ingenta

Changes in the occurrence, character, and longitudinal extent of salinity (S) stratification, and related impacts on dissolved oxygen (DO), in the Seneca and Oswego Rivers, NY, in response to the abatement of ionic pollution of inflowing Onondaga Lake, is documented. The analysis is based on vertical profiles of specific conductance and DO collected over a 20 km reach of the river system for several years before and after the closure of the source of the ionic pollution, a soda ash manufacturing facility. The S difference between the lake and the Seneca River decreased from about 2.6 to 0.7 parts per thousand following the closure; more than 50% of the continuing difference is associated with lingering ionic waste loading from soda ash production. The occurrence and longitudinal range of the S stratification phenomenon was, and continues to be, highly dependent on river flow. It is most strongly manifested when river flow is low. The occurrence, magnitude, and longtitudinal extent of S stratification have decreased, and vertical exchange between the stratified layers has increased, since the closure, thereby ameliorating the coupled negative impact on the river's oxygen resources. However, under low flow conditions (e.g., probability of occurrence equal to 15%) S stratification continues to extent > 2 km upstream and > 8 km downstream of the point of entry of Onondaga Lake into the Seneca River. Severe DO depletion in the lowel river layer, representing violations of New York water quality standards, continues to occur where S stratification prevails. Elimination of the continuing ionic waste inputs from soda ash production would further limit the stratification phenomenon and improve the river's DO problem.

Oswego River

Reasearch article

Modelling the fate of PCBS and Mirex in aquatic ecosystems using the TOXFATE model

Halfon E.; Allan R.J.

1995

Environment International

vol. 21, no. 5

pp. 557-569(13)

0160-4120

DOI (article): 10.1016/0160-4120(95)00058-S

SUNY Oswego

Ingenta

Predictive modelling of the fate of two persistent toxic organic chemicals, PCBs and Mirex, is discussed in light of the results from oceanographic scale investigations from the Niagara River to Lake Ontario, to the St. Lawrence River Estuary aquatic ecosystem. A mathematical model, TOXFATE, is used to run simulations of the fate of Mirex in Lake Ontario, a relatively small part of the total system, using a mass balance approach. TOXFATE features simulations of the fate of Mirex in lake water, plankton, benthos, suspended and bottom sediments, small and large fish (sculpins and salmonids). A friendly user interface (TOXSHELL) facilitates running the program on microcomputers. Concentrations of ''dissolved'' (the fraction not removed by high-speed centrifugation) persistent toxic organic chemicals in the Niagara River are in the ng/l or ng m-3 range, yet, the total load transported into Lake Ontario can be considerable given the high discharge of some 6000 m 3 sec-1. The river draining Lake Ontario is the St. Lawrence, and PCB loads actually double due to the various sources along the river. The insecticide and flame retardant, Mirex was essentially introduced from only two point sources, the Niagara and Oswego Rivers. The chemical is still detectable some 1000 km downstream of the main site near Niagara Falls of its original introduction to this river-lake-estuary system. The system's recovery from Mirex pollution is related to the major natural aquatic processes of the system and is not compounded by continuing point and non-point source inputs. Simulations show the fast response of Mirex concentration in water following a reduction in loadings in the early 1960s and a much slower reaction of bottom sediments and fish to the same loadings reduction

An Investigation of the nearshore region of Lake Ontario, IFYGL

Duluth, Minn. : Environmental Research Laboratory-Duluth, Office of Research and Development, U.S. Environmental Protection Agency

1976

TD223.3.I7

Lake Ontario

RIT

A biological survey of the Oswegatchie and Black river systems

New York (State). Conservation Dept

1931

SH35.N7 A5 1931

Lake Ontario

RIT