A High-Resolution Climate Model for the U.S. Pacific Northwest Mesoscale Feedbacks and Local Responses to Climate Change

Simulations of future climate scenarios produced with a high-resolution climate model show markedly different trends in temperature and precipitation over the Pacific Northwest than in the global model in which it is nested, apparently because of mesoscale processes not being resolved at coarse reso...

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Bibliographic Details
Published inJournal of climate Vol. 21; no. 21; pp. 5708 - 5726
Main Authors Salathé, Eric P., Steed, Richard, Mass, Clifford F., Zahn, Patrick H.
Format Journal Article
LanguageEnglish
Published Boston, MA American Meteorological Society 01.11.2008
Subjects
Albedo
Atmospheric models
Climate change
Climate models
Climatic zones
Climatology. Bioclimatology. Climate change
Earth, ocean, space
Emissions
Exact sciences and technology
External geophysics
Global climate models
Global warming
Greenhouse gases
Intergovernmental Panel on Climate Change
Meteorology
Modeling
Precipitation
Resource allocation
Seasonal variations
Simulations
Snow cover
Soil temperature
Statistical analysis
Statistical methods
Topography
Trends
Western U.S
Canada
United States
Western Canada
INE, USA, Pacific Northwest
Century 21st
atmospheric precipitation
Regional scope
climate warming
Climate models
Forecast model
North America
Dynamical climatology
Mesoscale
Atmospheric temperature
global change
climate change
high resolution
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Abstract Simulations of future climate scenarios produced with a high-resolution climate model show markedly different trends in temperature and precipitation over the Pacific Northwest than in the global model in which it is nested, apparently because of mesoscale processes not being resolved at coarse resolution. Present-day (1990–99) and future (2020–29, 2045–54, and 2090–99) conditions are simulated at high resolution (15-km grid spacing) using the fifth-generation Pennsylvania State University–NCAR Mesoscale Model (MM5) system and forced by ECHAM5 global simulations. Simulations use the Intergovernmental Panel on Climate Change (IPCC) Special Report on Emissions Scenarios (SRES) A2 emissions scenario, which assumes a rapid increase in greenhouse gas concentrations. The mesoscale simulations produce regional alterations in snow cover, cloudiness, and circulation patterns associated with interactions between the large-scale climate change and the regional topography and land–water contrasts. These changes substantially alter the temperature and precipitation trends over the region relative to the global model result or statistical downscaling. Warming is significantly amplified through snow–albedo feedback in regions where snow cover is lost. Increased onshore flow in the spring reduces the daytime warming along the coast. Precipitation increases in autumn are amplified over topography because of changes in the large-scale circulation and its interaction with the terrain. The robustness of the modeling results is established through comparisons with the observed and simulated seasonal variability and with statistical downscaling results.
AbstractList Simulations of future climate scenarios produced with a high-resolution climate model show markedly different trends in temperature and precipitation over the Pacific Northwest than in the global model in which it is nested, apparently because of mesoscale processes not being resolved at coarse resolution. Present-day (1990–99) and future (2020–29, 2045–54, and 2090–99) conditions are simulated at high resolution (15-km grid spacing) using the fifth-generation Pennsylvania State University–NCAR Mesoscale Model (MM5) system and forced by ECHAM5 global simulations. Simulations use the Intergovernmental Panel on Climate Change (IPCC) Special Report on Emissions Scenarios (SRES) A2 emissions scenario, which assumes a rapid increase in greenhouse gas concentrations. The mesoscale simulations produce regional alterations in snow cover, cloudiness, and circulation patterns associated with interactions between the large-scale climate change and the regional topography and land–water contrasts. These changes substantially alter the temperature and precipitation trends over the region relative to the global model result or statistical downscaling. Warming is significantly amplified through snow–albedo feedback in regions where snow cover is lost. Increased onshore flow in the spring reduces the daytime warming along the coast. Precipitation increases in autumn are amplified over topography because of changes in the large-scale circulation and its interaction with the terrain. The robustness of the modeling results is established through comparisons with the observed and simulated seasonal variability and with statistical downscaling results.
Simulations of future climate scenarios produced with a high-resolution climate model show markedly different trends in temperature and precipitation over the Pacific Northwest than in the global model in which it is nested, apparently because of mesoscale processes not being resolved at coarse resolution. Present-day (1990-99) and future (2020-29, 2045-54, and 2090-99) conditions are simulated at high resolution (15-km grid spacing) using the fifth-generation Pennsylvania State University-NCAR Mesoscale Model (MM5) system and forced by ECHAM5 global simulations. Simulations use the Intergovernmental Panel on Climate Change (IPCC) Special Report on Emissions Scenarios (SRES) A2 emissions scenario, which assumes a rapid increase in greenhouse gas concentrations. The mesoscale simulations produce regional alterations in snow cover, cloudiness, and circulation patterns associated with interactions between the large-scale climate change and the regional topography and land-water contrasts. These changes substantially alter the temperature and precipitation trends over the region relative to the global model result or statistical downscaling. Warming is significantly amplified through snow-albedo feedback in regions where snow cover is lost. Increased onshore flow in the spring reduces the daytime warming along the coast. Precipitation increases in autumn are amplified over topography because of changes in the large-scale circulation and its interaction with the terrain. The robustness of the modeling results is established through comparisons with the observed and simulated seasonal variability and with statistical downscaling results. [PUBLICATION ABSTRACT]
Abstract Simulations of future climate scenarios produced with a high-resolution climate model show markedly different trends in temperature and precipitation over the Pacific Northwest than in the global model in which it is nested, apparently because of mesoscale processes not being resolved at coarse resolution. Present-day (1990–99) and future (2020–29, 2045–54, and 2090–99) conditions are simulated at high resolution (15-km grid spacing) using the fifth-generation Pennsylvania State University–NCAR Mesoscale Model (MM5) system and forced by ECHAM5 global simulations. Simulations use the Intergovernmental Panel on Climate Change (IPCC) Special Report on Emissions Scenarios (SRES) A2 emissions scenario, which assumes a rapid increase in greenhouse gas concentrations. The mesoscale simulations produce regional alterations in snow cover, cloudiness, and circulation patterns associated with interactions between the large-scale climate change and the regional topography and land–water contrasts. These changes substantially alter the temperature and precipitation trends over the region relative to the global model result or statistical downscaling. Warming is significantly amplified through snow–albedo feedback in regions where snow cover is lost. Increased onshore flow in the spring reduces the daytime warming along the coast. Precipitation increases in autumn are amplified over topography because of changes in the large-scale circulation and its interaction with the terrain. The robustness of the modeling results is established through comparisons with the observed and simulated seasonal variability and with statistical downscaling results.
Author Steed, Richard
Salathé, Eric P.
Zahn, Patrick H.
Mass, Clifford F.
Author_xml – sequence: 1
  givenname: Eric P.
  surname: Salathé
  fullname: Salathé, Eric P.
  organization: Climate Impacts Group, Center for Science in the Earth System, University of Washington, Seattle, Washington
– sequence: 2
  givenname: Richard
  surname: Steed
  fullname: Steed, Richard
  organization: Department of Atmospheric Sciences, University of Washington, Seattle, Washington
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  givenname: Clifford F.
  surname: Mass
  fullname: Mass, Clifford F.
  organization: Department of Atmospheric Sciences, University of Washington, Seattle, Washington
– sequence: 4
  givenname: Patrick H.
  surname: Zahn
  fullname: Zahn, Patrick H.
  organization: Department of Atmospheric Sciences, University of Washington, Seattle, Washington
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Issue 21
Keywords Century 21st
atmospheric precipitation
Regional scope
climate warming
Climate models
Forecast model
North America
Dynamical climatology
Mesoscale
Atmospheric temperature
global change
climate change
high resolution
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PublicationTitle Journal of climate
PublicationYear 2008
Publisher American Meteorological Society
Publisher_xml – name: American Meteorological Society
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SSID ssj0012600
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Snippet Simulations of future climate scenarios produced with a high-resolution climate model show markedly different trends in temperature and precipitation over the...
Abstract Simulations of future climate scenarios produced with a high-resolution climate model show markedly different trends in temperature and precipitation...
SourceID proquest
crossref
pascalfrancis
jstor
SourceType Aggregation Database
Index Database
Publisher
StartPage 5708
SubjectTerms Albedo
Atmospheric models
Climate change
Climate models
Climatic zones
Climatology. Bioclimatology. Climate change
Earth, ocean, space
Emissions
Exact sciences and technology
External geophysics
Global climate models
Global warming
Greenhouse gases
Intergovernmental Panel on Climate Change
Meteorology
Modeling
Precipitation
Resource allocation
Seasonal variations
Simulations
Snow cover
Soil temperature
Statistical analysis
Statistical methods
Topography
Trends
Subtitle Mesoscale Feedbacks and Local Responses to Climate Change
Title A High-Resolution Climate Model for the U.S. Pacific Northwest
URI https://www.jstor.org/stable/26259550
https://www.proquest.com/docview/222874874/abstract/
https://search.proquest.com/docview/19655231
Volume 21
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