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olorados Front Range represents a region of the Southern Rockies LCC that is both ecologically and economically significant. It is home to the majority of Colorados residents, including the major population centers of Denver, Fort Collins, Boulder, and Colorado Springs, and provides critical ecosystem services such as clean and abundant water, wildlife habitat, recreation opportunities, and aesthetic values to the rest of the state. Ponderosa pine (Pinus ponderosa) dominated forests span the majority of the Front Range mountains and foothills, covering approximately 700,000 acres of the Front Range landscape between 5000 and 8500 ft elevation. The lower-montane zone ponderosa pine forests (~5500-7000 ft) form the...
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The purpose of this agreement is to initiate SRLCC-wide data discovery, cataloging, and general GIS analysis to characterize the landscape across the SRLCC geographic area. The SRLCC has identified the need for a data management activity to support all aspects of data discovery, dissemination, cataloging, and analysis. An existing agreement between FWS and the USGS provides for an SRLCC catalog inside the U.S. Geological Survey-sponsored ScienceBase scientific data and information management platform and provides the ability for partner organizations to maintain and contribute to this work environment. Initial information and data discovery process will compile existing resources in the ScienceBase SRLCC data portal...
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The Conservation Biology Institute is developing a tool that managers in all watersheds of the Southern Rockies Landscape Conservation Cooperative can use to project the effects of climate change on soil vulnerability conditions and help resource managers develop appropriate strategies to mitigate negative climate impacts.Specifically, they will develop a spatially-explicit soil vulnerability index for the Southern Rockies Landscape Conservation Cooperative that can be used to forecast short-term response of plants to current drought conditions and test a vegetation model of plant response to drought.Conservation Biology Institute will use the soil vulnerability index to compare historical and future simulations...
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olorados Front Range represents a region of the Southern Rockies LCC that is both ecologically and economically significant. It is home to the majority of Colorados residents, including the major population centers of Denver, Fort Collins, Boulder, and Colorado Springs, and provides critical ecosystem services such as clean and abundant water, wildlife habitat, recreation opportunities, and aesthetic values to the rest of the state. Ponderosa pine (Pinus ponderosa) dominated forests span the majority of the Front Range mountains and foothills, covering approximately 700,000 acres of the Front Range landscape between 5000 and 8500 ft elevation. The lower-montane zone ponderosa pine forests (~5500-7000 ft) form the...
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The Conservation Biology Institute is developing a tool that managers in all watersheds of the Southern Rockies Landscape Conservation Cooperative can use to project the effects of climate change on soil vulnerability conditions and help resource managers develop appropriate strategies to mitigate negative climate impacts.Specifically, they will develop a spatially-explicit soil vulnerability index for the Southern Rockies Landscape Conservation Cooperative that can be used to forecast short-term response of plants to current drought conditions and test a vegetation model of plant response to drought.Conservation Biology Institute will use the soil vulnerability index to compare historical and future simulations...
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The purpose of this agreement is to initiate SRLCC-wide data discovery, cataloging, and general GIS analysis to characterize the landscape across the SRLCC geographic area. The SRLCC has identified the need for a data management activity to support all aspects of data discovery, dissemination, cataloging, and analysis. An existing agreement between FWS and the USGS provides for an SRLCC catalog inside the U.S. Geological Survey-sponsored ScienceBase scientific data and information management platform and provides the ability for partner organizations to maintain and contribute to this work environment. Initial information and data discovery process will compile existing resources in the ScienceBase SRLCC data portal...
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olorados Front Range represents a region of the Southern Rockies LCC that is both ecologically and economically significant. It is home to the majority of Colorados residents, including the major population centers of Denver, Fort Collins, Boulder, and Colorado Springs, and provides critical ecosystem services such as clean and abundant water, wildlife habitat, recreation opportunities, and aesthetic values to the rest of the state. Ponderosa pine (Pinus ponderosa) dominated forests span the majority of the Front Range mountains and foothills, covering approximately 700,000 acres of the Front Range landscape between 5000 and 8500 ft elevation. The lower-montane zone ponderosa pine forests (~5500-7000 ft) form the...
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This project will build an SR LCC catalog inside of the USGS-sponsored ScienceBase scientific data and information management platform, provide the ability for partner organizations to maintain and contribute to an SR LCC0specific work environment in ScienceBase, and provide stewardship and data integration coordination for the SR LCC partners.FY2012This project will build an SR LCC catalog inside of the USGS-sponsored ScienceBase scientific data and information management platform, provide the ability for partner organizations to maintain and contribute to an SR LCC0specific work environment in ScienceBase, and provide stewardship and data integration coordination for the SR LCC partners.
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olorados Front Range represents a region of the Southern Rockies LCC that is both ecologically and economically significant. It is home to the majority of Colorados residents, including the major population centers of Denver, Fort Collins, Boulder, and Colorado Springs, and provides critical ecosystem services such as clean and abundant water, wildlife habitat, recreation opportunities, and aesthetic values to the rest of the state. Ponderosa pine (Pinus ponderosa) dominated forests span the majority of the Front Range mountains and foothills, covering approximately 700,000 acres of the Front Range landscape between 5000 and 8500 ft elevation. The lower-montane zone ponderosa pine forests (~5500-7000 ft) form the...
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olorados Front Range represents a region of the Southern Rockies LCC that is both ecologically and economically significant. It is home to the majority of Colorados residents, including the major population centers of Denver, Fort Collins, Boulder, and Colorado Springs, and provides critical ecosystem services such as clean and abundant water, wildlife habitat, recreation opportunities, and aesthetic values to the rest of the state. Ponderosa pine (Pinus ponderosa) dominated forests span the majority of the Front Range mountains and foothills, covering approximately 700,000 acres of the Front Range landscape between 5000 and 8500 ft elevation. The lower-montane zone ponderosa pine forests (~5500-7000 ft) form the...
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The Conservation Biology Institute is developing a tool that managers in all watersheds of the Southern Rockies Landscape Conservation Cooperative can use to project the effects of climate change on soil vulnerability conditions and help resource managers develop appropriate strategies to mitigate negative climate impacts.Specifically, they will develop a spatially-explicit soil vulnerability index for the Southern Rockies Landscape Conservation Cooperative that can be used to forecast short-term response of plants to current drought conditions and test a vegetation model of plant response to drought.Conservation Biology Institute will use the soil vulnerability index to compare historical and future simulations...
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The Conservation Biology Institute is developing a tool that managers in all watersheds of the Southern Rockies Landscape Conservation Cooperative can use to project the effects of climate change on soil vulnerability conditions and help resource managers develop appropriate strategies to mitigate negative climate impacts.Specifically, they will develop a spatially-explicit soil vulnerability index for the Southern Rockies Landscape Conservation Cooperative that can be used to forecast short-term response of plants to current drought conditions and test a vegetation model of plant response to drought.Conservation Biology Institute will use the soil vulnerability index to compare historical and future simulations...
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Land managers have incorporated threats to biodiversity for nearly two decades, but very few efforts have included threats from future conditions and fewer still have assessed vulnerability to climate change. This project will address two themes: 1) providing foundational information about habitat fragmentation and connectivity and 2) identifying the degree of vulnerability of key habitats to climate change.For development of understanding broadextent, a landscape-level pattern of climate change is an important complement to approaches to estimate rangeshifts for certain key focal species. Ecological system types (i.e. coarsefilters) are widely used in conservation planning because they contain valuable resources...
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Land managers have incorporated threats to biodiversity for nearly two decades, but very few efforts have included threats from future conditions and fewer still have assessed vulnerability to climate change. This project will address two themes: 1) providing foundational information about habitat fragmentation and connectivity and 2) identifying the degree of vulnerability of key habitats to climate change.For development of understanding broadextent, a landscape-level pattern of climate change is an important complement to approaches to estimate rangeshifts for certain key focal species. Ecological system types (i.e. coarsefilters) are widely used in conservation planning because they contain valuable resources...
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Land managers have incorporated threats to biodiversity for nearly two decades, but very few efforts have included threats from future conditions and fewer still have assessed vulnerability to climate change. This project will address two themes: 1) providing foundational information about habitat fragmentation and connectivity and 2) identifying the degree of vulnerability of key habitats to climate change.For development of understanding broadextent, a landscape-level pattern of climate change is an important complement to approaches to estimate rangeshifts for certain key focal species. Ecological system types (i.e. coarsefilters) are widely used in conservation planning because they contain valuable resources...
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Land managers have incorporated threats to biodiversity for nearly two decades, but very few efforts have included threats from future conditions and fewer still have assessed vulnerability to climate change. This project will address two themes: 1) providing foundational information about habitat fragmentation and connectivity and 2) identifying the degree of vulnerability of key habitats to climate change.For development of understanding broadextent, a landscape-level pattern of climate change is an important complement to approaches to estimate rangeshifts for certain key focal species. Ecological system types (i.e. coarsefilters) are widely used in conservation planning because they contain valuable resources...
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Land managers have incorporated threats to biodiversity for nearly two decades, but very few efforts have included threats from future conditions and fewer still have assessed vulnerability to climate change. This project will address two themes: 1) providing foundational information about habitat fragmentation and connectivity and 2) identifying the degree of vulnerability of key habitats to climate change.For development of understanding broadextent, a landscape-level pattern of climate change is an important complement to approaches to estimate rangeshifts for certain key focal species. Ecological system types (i.e. coarsefilters) are widely used in conservation planning because they contain valuable resources...
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Land managers have incorporated threats to biodiversity for nearly two decades, but very few efforts have included threats from future conditions and fewer still have assessed vulnerability to climate change. This project will address two themes: 1) providing foundational information about habitat fragmentation and connectivity and 2) identifying the degree of vulnerability of key habitats to climate change.For development of understanding broadextent, a landscape-level pattern of climate change is an important complement to approaches to estimate rangeshifts for certain key focal species. Ecological system types (i.e. coarsefilters) are widely used in conservation planning because they contain valuable resources...
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Land managers have incorporated threats to biodiversity for nearly two decades, but very few efforts have included threats from future conditions and fewer still have assessed vulnerability to climate change. This project will address two themes: 1) providing foundational information about habitat fragmentation and connectivity and 2) identifying the degree of vulnerability of key habitats to climate change.For development of understanding broadextent, a landscape-level pattern of climate change is an important complement to approaches to estimate rangeshifts for certain key focal species. Ecological system types (i.e. coarsefilters) are widely used in conservation planning because they contain valuable resources...
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Land managers have incorporated threats to biodiversity for nearly two decades, but very few efforts have included threats from future conditions and fewer still have assessed vulnerability to climate change. This project will address two themes: 1) providing foundational information about habitat fragmentation and connectivity and 2) identifying the degree of vulnerability of key habitats to climate change.For development of understanding broadextent, a landscape-level pattern of climate change is an important complement to approaches to estimate rangeshifts for certain key focal species. Ecological system types (i.e. coarsefilters) are widely used in conservation planning because they contain valuable resources...


map background search result map search result map Southern Rockies LCC Data Management and Geospatial Data Analysis Toolkit Vulnerability and Connectivity of Natural Landscapes and Riparian Habitat in the SRLCC Vulnerability and Connectivity of Natural Landscapes and Riparian Habitat in the SRLCC Vulnerability and Connectivity of Natural Landscapes and Riparian Habitat in the SRLCC Collaborative Multi-species Monitoring in the Southern Rockies LCC: Impacts of Forest Restoration Treatments on Ponderosa Pine Ecosystems in Colorado Collaborative Multi-species Monitoring in the Southern Rockies LCC: Impacts of Forest Restoration Treatments on Ponderosa Pine Ecosystems in Colorado Soil Vulnerability to Future Climate Change in the Southern Rockies LCC, with Implications for Vegetation Change and Water Cycle U.S. Geological Survey Core Science Analytics and Synthesis Collaboration with the Southern Rockies LCC Vulnerability and Connectivity of Natural Landscapes and Riparian Habitat in the SRLCC Collaborative Multi-species Monitoring in the Southern Rockies LCC: Impacts of Forest Restoration Treatments on Ponderosa Pine Ecosystems in Colorado Vulnerability and Connectivity of Natural Landscapes and Riparian Habitat in the SRLCC Collaborative Multi-species Monitoring in the Southern Rockies LCC: Impacts of Forest Restoration Treatments on Ponderosa Pine Ecosystems in Colorado Soil Vulnerability to Future Climate Change in the Southern Rockies LCC, with Implications for Vegetation Change and Water Cycle U.S. Geological Survey Core Science Analytics and Synthesis Collaboration with the Southern Rockies LCC Collaborative Multi-species Monitoring in the Southern Rockies LCC: Impacts of Forest Restoration Treatments on Ponderosa Pine Ecosystems in Colorado Soil Vulnerability to Future Climate Change in the Southern Rockies LCC, with Implications for Vegetation Change and Water Cycle Vulnerability and Connectivity of Natural Landscapes and Riparian Habitat in the SRLCC Vulnerability and Connectivity of Natural Landscapes and Riparian Habitat in the SRLCC Vulnerability and Connectivity of Natural Landscapes and Riparian Habitat in the SRLCC Soil Vulnerability to Future Climate Change in the Southern Rockies LCC, with Implications for Vegetation Change and Water Cycle Collaborative Multi-species Monitoring in the Southern Rockies LCC: Impacts of Forest Restoration Treatments on Ponderosa Pine Ecosystems in Colorado Collaborative Multi-species Monitoring in the Southern Rockies LCC: Impacts of Forest Restoration Treatments on Ponderosa Pine Ecosystems in Colorado Collaborative Multi-species Monitoring in the Southern Rockies LCC: Impacts of Forest Restoration Treatments on Ponderosa Pine Ecosystems in Colorado Collaborative Multi-species Monitoring in the Southern Rockies LCC: Impacts of Forest Restoration Treatments on Ponderosa Pine Ecosystems in Colorado Collaborative Multi-species Monitoring in the Southern Rockies LCC: Impacts of Forest Restoration Treatments on Ponderosa Pine Ecosystems in Colorado Southern Rockies LCC Data Management and Geospatial Data Analysis Toolkit Vulnerability and Connectivity of Natural Landscapes and Riparian Habitat in the SRLCC Vulnerability and Connectivity of Natural Landscapes and Riparian Habitat in the SRLCC Vulnerability and Connectivity of Natural Landscapes and Riparian Habitat in the SRLCC U.S. Geological Survey Core Science Analytics and Synthesis Collaboration with the Southern Rockies LCC Vulnerability and Connectivity of Natural Landscapes and Riparian Habitat in the SRLCC Vulnerability and Connectivity of Natural Landscapes and Riparian Habitat in the SRLCC U.S. Geological Survey Core Science Analytics and Synthesis Collaboration with the Southern Rockies LCC Vulnerability and Connectivity of Natural Landscapes and Riparian Habitat in the SRLCC Vulnerability and Connectivity of Natural Landscapes and Riparian Habitat in the SRLCC Vulnerability and Connectivity of Natural Landscapes and Riparian Habitat in the SRLCC Soil Vulnerability to Future Climate Change in the Southern Rockies LCC, with Implications for Vegetation Change and Water Cycle Soil Vulnerability to Future Climate Change in the Southern Rockies LCC, with Implications for Vegetation Change and Water Cycle Soil Vulnerability to Future Climate Change in the Southern Rockies LCC, with Implications for Vegetation Change and Water Cycle Soil Vulnerability to Future Climate Change in the Southern Rockies LCC, with Implications for Vegetation Change and Water Cycle