HISTORICAL RECONSTRUCTION OF POLLUTION STESS AND RECOVERY IN AN URBAN ESTUARY: ORGANIC CONTAMINANTS

Our analysis of tree ring and sediment core data indicates that climate variability in the 1900s had different consequences in the Potomac Estuary and Chesapeake Bay than in the previous two centuries as a result of anthropogenic activity affecting nutrient loadings in associated watersheds. We asso...

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Main Authors: J Latimer, S Jayaraman, R McKinney
Format: Text
Language:unknown
Published: 2005
Subjects:
North Atlantic
North Atlantic oscillation
Online Access:http://oaspub.epa.gov/eims/eimsapi.dispdetail?deid=76717
id ftepa:oai:epaEIMS:76717
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spelling ftepa:oai:epaEIMS:76717 2023-05-15T17:33:47+02:00 HISTORICAL RECONSTRUCTION OF POLLUTION STESS AND RECOVERY IN AN URBAN ESTUARY: ORGANIC CONTAMINANTS J Latimer S Jayaraman R McKinney 2005-06-06T17:32:58Z http://oaspub.epa.gov/eims/eimsapi.dispdetail?deid=76717 unknown NATIONAL HEALTH AND ENVIRONMENTAL EFFECTS RESEARCH LABORATORY Text 2005 ftepa 2007-11-21T14:48:02Z Our analysis of tree ring and sediment core data indicates that climate variability in the 1900s had different consequences in the Potomac Estuary and Chesapeake Bay than in the previous two centuries as a result of anthropogenic activity affecting nutrient loadings in associated watersheds. We associate variability in a 100-year time-series of the Southern Oscillation Index, and the North Atlantic Oscillation (NAO) index with the Palmer Drought Severity Index (PDSI) in the Potomac and Susquehanna watersheds. We relate a 300-year time- series of regional NAO and PDSI reconstructions, based on tree rings, to surrogate responses for eutrophication in a sediment core from mid Chesapeake Bay. Preliminary results suggest little relationship between variability in regional precipitation and a proxy for bottom-water dissolved oxygen in mid Chesapeake during the 1700-1800s. As a consequence of anthropogenic eutrophication closer coupling occurred during the 1900s. Since the late 1800s, there is a weak century-long trend toward wetter regional conditions. A transient application of the Hadley general circulation model predicts a continuation of this trend through the next century. Global anthropogenic activity may alter regional climate, making it more difficult to reduce nitrogen flux and restore coastal ecosystems in the Potomac Estuary and Chesapeake Bay. Text North Atlantic North Atlantic oscillation Environmental Protection Agency (EPA): Science Inventory
institution Open Polar
collection Environmental Protection Agency (EPA): Science Inventory
op_collection_id ftepa
language unknown
description Our analysis of tree ring and sediment core data indicates that climate variability in the 1900s had different consequences in the Potomac Estuary and Chesapeake Bay than in the previous two centuries as a result of anthropogenic activity affecting nutrient loadings in associated watersheds. We associate variability in a 100-year time-series of the Southern Oscillation Index, and the North Atlantic Oscillation (NAO) index with the Palmer Drought Severity Index (PDSI) in the Potomac and Susquehanna watersheds. We relate a 300-year time- series of regional NAO and PDSI reconstructions, based on tree rings, to surrogate responses for eutrophication in a sediment core from mid Chesapeake Bay. Preliminary results suggest little relationship between variability in regional precipitation and a proxy for bottom-water dissolved oxygen in mid Chesapeake during the 1700-1800s. As a consequence of anthropogenic eutrophication closer coupling occurred during the 1900s. Since the late 1800s, there is a weak century-long trend toward wetter regional conditions. A transient application of the Hadley general circulation model predicts a continuation of this trend through the next century. Global anthropogenic activity may alter regional climate, making it more difficult to reduce nitrogen flux and restore coastal ecosystems in the Potomac Estuary and Chesapeake Bay.
format Text
author J Latimer
S Jayaraman
R McKinney
spellingShingle J Latimer
S Jayaraman
R McKinney
HISTORICAL RECONSTRUCTION OF POLLUTION STESS AND RECOVERY IN AN URBAN ESTUARY: ORGANIC CONTAMINANTS
author_facet J Latimer
S Jayaraman
R McKinney
author_sort J Latimer
title HISTORICAL RECONSTRUCTION OF POLLUTION STESS AND RECOVERY IN AN URBAN ESTUARY: ORGANIC CONTAMINANTS
title_short HISTORICAL RECONSTRUCTION OF POLLUTION STESS AND RECOVERY IN AN URBAN ESTUARY: ORGANIC CONTAMINANTS
title_full HISTORICAL RECONSTRUCTION OF POLLUTION STESS AND RECOVERY IN AN URBAN ESTUARY: ORGANIC CONTAMINANTS
title_fullStr HISTORICAL RECONSTRUCTION OF POLLUTION STESS AND RECOVERY IN AN URBAN ESTUARY: ORGANIC CONTAMINANTS
title_full_unstemmed HISTORICAL RECONSTRUCTION OF POLLUTION STESS AND RECOVERY IN AN URBAN ESTUARY: ORGANIC CONTAMINANTS
title_sort historical reconstruction of pollution stess and recovery in an urban estuary: organic contaminants
publishDate 2005
url http://oaspub.epa.gov/eims/eimsapi.dispdetail?deid=76717
genre North Atlantic
North Atlantic oscillation
genre_facet North Atlantic
North Atlantic oscillation
op_source NATIONAL HEALTH AND ENVIRONMENTAL EFFECTS RESEARCH LABORATORY
_version_ 1766132393451716608

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