Climate change and ecosystems of the Mid-Atlantic Region

Catriona E. Rogers, John P. McCarty

Research output: Contribution to journalArticle

63 Citations (Scopus)

Abstract

This paper discusses the current status of forested, wetland, freshwater and coastal ecosystems; the combined impacts of habitat alteration, pollution and non-native invasive species on those systems; how climatic changes could interact with existing stresses; potential management strategies, and crucial research gaps. Changes in climate and climate variability would significantly affect natural ecosystems, and may pose additional threats to the already-stressed ecosystems of the Mid-Atlantic Region (MAR). Fragmentation of the MAR's forests may hinder the migration of some species. Urban development and wetland losses leave the MAR's rivers and streams and near-shore areas vulnerable to damages if the frequency and intensity of storms increase. Inputs of sediments, nutrients and toxic chemicals to streams, lakes and estuaries might increase if precipitation increases. Accelerated sea-level rise could accelerate the loss of coastal wetlands. Estuaries are sensitive to changes in temperature, salinity and nutrient loads, and could be adversely affected by projected climatic changes. Populations of rare, native species could decline, while problems with non-native invasive species, such as kudzu and gypsy moths, might increase. The best strategies to protect ecosystems from climatic changes may be those that reduce other stresses, thus increasing resilience to a variety of stresses. Societal priorities for ecosystem protection need to be articulated, and research is needed into the values of ecosystems, ecosystems functioning, human impacts, long-term ecological monitoring, and management options to provide a basis for selecting effective measures.

Original languageEnglish (US)
Pages (from-to)235-244
Number of pages10
JournalClimate Research
Volume14
Issue number3 SPECIAL 7
DOIs
StatePublished - May 2 2000

Fingerprint

Climate change
Ecosystems
climate change
ecosystem
Wetlands
invasive species
Estuaries
Nutrients
estuary
nutrient
coastal wetland
freshwater ecosystem
climate
Poisons
anthropogenic effect
Sea level
native species
moth
urban development
fragmentation

Keywords

  • Climage change
  • Ecological
  • Ecosystems
  • Mid-Atlantic Regional Assessment
  • Societal values

ASJC Scopus subject areas

  • Environmental Chemistry
  • Environmental Science(all)
  • Atmospheric Science

Cite this

Climate change and ecosystems of the Mid-Atlantic Region. / Rogers, Catriona E.; McCarty, John P.

In: Climate Research, Vol. 14, No. 3 SPECIAL 7, 02.05.2000, p. 235-244.

Research output: Contribution to journalArticle

Rogers, Catriona E. ; McCarty, John P. / Climate change and ecosystems of the Mid-Atlantic Region. In: Climate Research. 2000 ; Vol. 14, No. 3 SPECIAL 7. pp. 235-244.
@article{6f57a9f404a44d3898eeb3c88c3fb842,
title = "Climate change and ecosystems of the Mid-Atlantic Region",
abstract = "This paper discusses the current status of forested, wetland, freshwater and coastal ecosystems; the combined impacts of habitat alteration, pollution and non-native invasive species on those systems; how climatic changes could interact with existing stresses; potential management strategies, and crucial research gaps. Changes in climate and climate variability would significantly affect natural ecosystems, and may pose additional threats to the already-stressed ecosystems of the Mid-Atlantic Region (MAR). Fragmentation of the MAR's forests may hinder the migration of some species. Urban development and wetland losses leave the MAR's rivers and streams and near-shore areas vulnerable to damages if the frequency and intensity of storms increase. Inputs of sediments, nutrients and toxic chemicals to streams, lakes and estuaries might increase if precipitation increases. Accelerated sea-level rise could accelerate the loss of coastal wetlands. Estuaries are sensitive to changes in temperature, salinity and nutrient loads, and could be adversely affected by projected climatic changes. Populations of rare, native species could decline, while problems with non-native invasive species, such as kudzu and gypsy moths, might increase. The best strategies to protect ecosystems from climatic changes may be those that reduce other stresses, thus increasing resilience to a variety of stresses. Societal priorities for ecosystem protection need to be articulated, and research is needed into the values of ecosystems, ecosystems functioning, human impacts, long-term ecological monitoring, and management options to provide a basis for selecting effective measures.",
keywords = "Climage change, Ecological, Ecosystems, Mid-Atlantic Regional Assessment, Societal values",
author = "Rogers, {Catriona E.} and McCarty, {John P.}",
year = "2000",
month = "5",
day = "2",
doi = "10.3354/cr014235",
language = "English (US)",
volume = "14",
pages = "235--244",
journal = "Climate Research",
issn = "0936-577X",
publisher = "Inter-Research",
number = "3 SPECIAL 7",

}

TY - JOUR

T1 - Climate change and ecosystems of the Mid-Atlantic Region

AU - Rogers, Catriona E.

AU - McCarty, John P.

PY - 2000/5/2

Y1 - 2000/5/2

N2 - This paper discusses the current status of forested, wetland, freshwater and coastal ecosystems; the combined impacts of habitat alteration, pollution and non-native invasive species on those systems; how climatic changes could interact with existing stresses; potential management strategies, and crucial research gaps. Changes in climate and climate variability would significantly affect natural ecosystems, and may pose additional threats to the already-stressed ecosystems of the Mid-Atlantic Region (MAR). Fragmentation of the MAR's forests may hinder the migration of some species. Urban development and wetland losses leave the MAR's rivers and streams and near-shore areas vulnerable to damages if the frequency and intensity of storms increase. Inputs of sediments, nutrients and toxic chemicals to streams, lakes and estuaries might increase if precipitation increases. Accelerated sea-level rise could accelerate the loss of coastal wetlands. Estuaries are sensitive to changes in temperature, salinity and nutrient loads, and could be adversely affected by projected climatic changes. Populations of rare, native species could decline, while problems with non-native invasive species, such as kudzu and gypsy moths, might increase. The best strategies to protect ecosystems from climatic changes may be those that reduce other stresses, thus increasing resilience to a variety of stresses. Societal priorities for ecosystem protection need to be articulated, and research is needed into the values of ecosystems, ecosystems functioning, human impacts, long-term ecological monitoring, and management options to provide a basis for selecting effective measures.

AB - This paper discusses the current status of forested, wetland, freshwater and coastal ecosystems; the combined impacts of habitat alteration, pollution and non-native invasive species on those systems; how climatic changes could interact with existing stresses; potential management strategies, and crucial research gaps. Changes in climate and climate variability would significantly affect natural ecosystems, and may pose additional threats to the already-stressed ecosystems of the Mid-Atlantic Region (MAR). Fragmentation of the MAR's forests may hinder the migration of some species. Urban development and wetland losses leave the MAR's rivers and streams and near-shore areas vulnerable to damages if the frequency and intensity of storms increase. Inputs of sediments, nutrients and toxic chemicals to streams, lakes and estuaries might increase if precipitation increases. Accelerated sea-level rise could accelerate the loss of coastal wetlands. Estuaries are sensitive to changes in temperature, salinity and nutrient loads, and could be adversely affected by projected climatic changes. Populations of rare, native species could decline, while problems with non-native invasive species, such as kudzu and gypsy moths, might increase. The best strategies to protect ecosystems from climatic changes may be those that reduce other stresses, thus increasing resilience to a variety of stresses. Societal priorities for ecosystem protection need to be articulated, and research is needed into the values of ecosystems, ecosystems functioning, human impacts, long-term ecological monitoring, and management options to provide a basis for selecting effective measures.

KW - Climage change

KW - Ecological

KW - Ecosystems

KW - Mid-Atlantic Regional Assessment

KW - Societal values

UR - http://www.scopus.com/inward/record.url?scp=0034595122&partnerID=8YFLogxK

UR - http://www.scopus.com/inward/citedby.url?scp=0034595122&partnerID=8YFLogxK

U2 - 10.3354/cr014235

DO - 10.3354/cr014235

M3 - Article

AN - SCOPUS:0034595122

VL - 14

SP - 235

EP - 244

JO - Climate Research

JF - Climate Research

SN - 0936-577X

IS - 3 SPECIAL 7

ER -