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MC1 is a dynamic vegetation model for estimating the distribution of vegetation and associated ecosystem fluxes of carbon, nutrients, and water. It was created to assess the potential impacts of global climate change on ecosystem structure and function at a wide range of spatial scales from landscape to global. The model incorporates transient dynamics to make predictions about the patterns of ecological change. MC1 was created by combining physiologically based biogeographic rules defined in the MAPSS model with a modified version of the biogeochemical model, CENTURY. MC1 includes a fire module, MCFIRE, that mechanistically simulates the occurrence and impacts of fire events. Climate input data sources for this...
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MC1 is a dynamic vegetation model for estimating the distribution of vegetation and associated ecosystem fluxes of carbon, nutrients, and water. It was created to assess the potential impacts of global climate change on ecosystem structure and function at a wide range of spatial scales from landscape to global. The model incorporates transient dynamics to make predictions about the patterns of ecological change. MC1 was created by combining physiologically based biogeographic rules defined in the MAPSS model with a modified version of the biogeochemical model, CENTURY. MC1 includes a fire module, MCFIRE, that mechanistically simulates the occurrence and impacts of fire events. Climate input data sources for this...
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MC1 is a dynamic vegetation model for estimating the distribution of vegetation and associated ecosystem fluxes of carbon, nutrients, and water. It was created to assess the potential impacts of global climate change on ecosystem structure and function at a wide range of spatial scales from landscape to global. The model incorporates transient dynamics to make predictions about the patterns of ecological change. MC1 was created by combining physiologically based biogeographic rules defined in the MAPSS model with a modified version of the biogeochemical model, CENTURY. MC1 includes a fire module, MCFIRE, that mechanistically simulates the occurrence and impacts of fire events. Climate input data sources for this...
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MC1 is a dynamic vegetation model for estimating the distribution of vegetation and associated ecosystem fluxes of carbon, nutrients, and water. It was created to assess the potential impacts of global climate change on ecosystem structure and function at a wide range of spatial scales from landscape to global. The model incorporates transient dynamics to make predictions about the patterns of ecological change. MC1 was created by combining physiologically based biogeographic rules defined in the MAPSS model with a modified version of the biogeochemical model, CENTURY. MC1 includes a fire module, MCFIRE, that mechanistically simulates the occurrence and impacts of fire events. Climate input data sources for this...
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MC1 is a dynamic vegetation model for estimating the distribution of vegetation and associated ecosystem fluxes of carbon, nutrients, and water. It was created to assess the potential impacts of global climate change on ecosystem structure and function at a wide range of spatial scales from landscape to global. The model incorporates transient dynamics to make predictions about the patterns of ecological change. MC1 was created by combining physiologically based biogeographic rules defined in the MAPSS model with a modified version of the biogeochemical model, CENTURY. MC1 includes a fire module, MCFIRE, that mechanistically simulates the occurrence and impacts of fire events. Climate input data sources for this...
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MC1 is a dynamic vegetation model for estimating the distribution of vegetation and associated ecosystem fluxes of carbon, nutrients, and water. It was created to assess the potential impacts of global climate change on ecosystem structure and function at a wide range of spatial scales from landscape to global. The model incorporates transient dynamics to make predictions about the patterns of ecological change. MC1 was created by combining physiologically based biogeographic rules defined in the MAPSS model with a modified version of the biogeochemical model, CENTURY. MC1 includes a fire module, MCFIRE, that mechanistically simulates the occurrence and impacts of fire events. Climate input data sources for this...
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MC1 is a dynamic vegetation model for estimating the distribution of vegetation and associated ecosystem fluxes of carbon, nutrients, and water. It was created to assess the potential impacts of global climate change on ecosystem structure and function at a wide range of spatial scales from landscape to global. The model incorporates transient dynamics to make predictions about the patterns of ecological change. MC1 was created by combining physiologically based biogeographic rules defined in the MAPSS model with a modified version of the biogeochemical model, CENTURY. MC1 includes a fire module, MCFIRE, that mechanistically simulates the occurrence and impacts of fire events. Climate input data sources for this...
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MC1 is a dynamic vegetation model for estimating the distribution of vegetation and associated ecosystem fluxes of carbon, nutrients, and water. It was created to assess the potential impacts of global climate change on ecosystem structure and function at a wide range of spatial scales from landscape to global. The model incorporates transient dynamics to make predictions about the patterns of ecological change. MC1 was created by combining physiologically based biogeographic rules defined in the MAPSS model with a modified version of the biogeochemical model, CENTURY. MC1 includes a fire module, MCFIRE, that mechanistically simulates the occurrence and impacts of fire events. Climate input data sources for this...
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MC1 is a dynamic vegetation model for estimating the distribution of vegetation and associated ecosystem fluxes of carbon, nutrients, and water. It was created to assess the potential impacts of global climate change on ecosystem structure and function at a wide range of spatial scales from landscape to global. The model incorporates transient dynamics to make predictions about the patterns of ecological change. MC1 was created by combining physiologically based biogeographic rules defined in the MAPSS model with a modified version of the biogeochemical model, CENTURY. MC1 includes a fire module, MCFIRE, that mechanistically simulates the occurrence and impacts of fire events. Climate input data sources for this...
thumbnail
MC1 is a dynamic vegetation model for estimating the distribution of vegetation and associated ecosystem fluxes of carbon, nutrients, and water. It was created to assess the potential impacts of global climate change on ecosystem structure and function at a wide range of spatial scales from landscape to global. The model incorporates transient dynamics to make predictions about the patterns of ecological change. MC1 was created by combining physiologically based biogeographic rules defined in the MAPSS model with a modified version of the biogeochemical model, CENTURY. MC1 includes a fire module, MCFIRE, that mechanistically simulates the occurrence and impacts of fire events. Climate input data sources for this...


    map background search result map search result map Vegetation Type for the United States and Canada Simulated for the years 2070-2099 as Simulated by the MC1 Model (NA8K version) and Based on Climate Projections from the MIROC 3.2 MEDRES GCM for the SRES A2 Emission Scenario Vegetation Type for the United States and Canada Simulated for Historical data for the years 1961-1990 by the MC1 Model (NA8K version) Vegetation Type for the United States and Canada Simulated for the years 2070-2099 as Simulated by the MC1 Model (NA8K version) and Based on Climate Projections from the MIROC 3.2 MEDRES GCM for the SRES B1 Emission Scenario Vegetation Type for the United States and Canada Simulated for the years 2070-2099 as Simulated by the MC1 Model (NA8K version) and Based on Climate Projections from the MIROC 3.2 MEDRES GCM for the SRES A2 Emission Scenario Vegetation Type for the United States and Canada Simulated for the years 2070-2099 as Simulated by the MC1 Model (NA8K version) and Based on Climate Projections from the MIROC 3.2 MEDRES GCM for the SRES A1B Emission Scenario Vegetation Type for the United States and Canada Simulated for the years 2070-2099 as Simulated by the MC1 Model (NA8K version) and Based on Climate Projections from the HADLEY for the SRES B1 Emission Scenario Vegetation Type for the United States and Canada Simulated for the years 2070-2099 as Simulated by the MC1 Model (NA8K version) and Based on Climate Predictions from the HADLEY for the SRES A2 Emission Scenario Vegetation Type for the United States and Canada Simulated for the years 2070-2099 as Simulated by the MC1 Model (NA8K version) and Based on Climate Projections from the HADLEY for the SRES A1B Emission Scenario Vegetation Type for the United States and Canada Simulated for the years 2070-2099 as Simulated by the MC1 Model (NA8K version) and Based on Climate Projections from the CSIRO Mk.3 for the SRES B1 Emission Scenario Vegetation Type for the United States and Canada Simulated for the years 2070-2099 as Simulated by the MC1 Model (NA8K version) and Based on Climate Projections from the CSIRO Mk.3 for the SRES A1B Emission Scenario Vegetation Type for the United States and Canada Simulated for the years 2070-2099 as Simulated by the MC1 Model (NA8K version) and Based on Climate Projections from the MIROC 3.2 MEDRES GCM for the SRES A2 Emission Scenario Vegetation Type for the United States and Canada Simulated for Historical data for the years 1961-1990 by the MC1 Model (NA8K version) Vegetation Type for the United States and Canada Simulated for the years 2070-2099 as Simulated by the MC1 Model (NA8K version) and Based on Climate Projections from the MIROC 3.2 MEDRES GCM for the SRES B1 Emission Scenario Vegetation Type for the United States and Canada Simulated for the years 2070-2099 as Simulated by the MC1 Model (NA8K version) and Based on Climate Projections from the MIROC 3.2 MEDRES GCM for the SRES A2 Emission Scenario Vegetation Type for the United States and Canada Simulated for the years 2070-2099 as Simulated by the MC1 Model (NA8K version) and Based on Climate Projections from the MIROC 3.2 MEDRES GCM for the SRES A1B Emission Scenario Vegetation Type for the United States and Canada Simulated for the years 2070-2099 as Simulated by the MC1 Model (NA8K version) and Based on Climate Projections from the HADLEY for the SRES B1 Emission Scenario Vegetation Type for the United States and Canada Simulated for the years 2070-2099 as Simulated by the MC1 Model (NA8K version) and Based on Climate Predictions from the HADLEY for the SRES A2 Emission Scenario Vegetation Type for the United States and Canada Simulated for the years 2070-2099 as Simulated by the MC1 Model (NA8K version) and Based on Climate Projections from the HADLEY for the SRES A1B Emission Scenario Vegetation Type for the United States and Canada Simulated for the years 2070-2099 as Simulated by the MC1 Model (NA8K version) and Based on Climate Projections from the CSIRO Mk.3 for the SRES B1 Emission Scenario Vegetation Type for the United States and Canada Simulated for the years 2070-2099 as Simulated by the MC1 Model (NA8K version) and Based on Climate Projections from the CSIRO Mk.3 for the SRES A1B Emission Scenario