Name: Potential Habitat Under Initial SLAMM Scenario for the Whooping Crane
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Description: Changes in tidal marsh area and habitat type in response to sea-level rise were modeled using the Sea Level Affecting Marshes Model (SLAMM 6) that accounts for the dominant processes involved in wetland conversion and shoreline modifications during long-term sea level rise (Park et al. 1989; Successive versions of the model have been used to estimate the impacts of sea level rise on the coasts of the U.S. The model was produced by Warren Pinnacle Consulting, Inc. for the U.S. Fish and Wildlife Service. The SLAMM version 6 technical document can be accessed at http://warrenpinacle.com/prof/SLAMM. SLAMM outputs were converted from raster to vector features. Land cover (wetland) types were generalized to MesoHabitat type to coincide with the Composite Habitat Type Database. Using qualititative avian habitat use information from literature as well as spatially explicit habitat use data when available, MicroHabitat Types were then indexed for potential use by each avian species considered. An index of 3 represents potential high use habitat types, an index of 2 represents potential low use habitat types, and an index of 1 represents habitat types that would be used only incidentally. Habitat types with an index of 0 or no index preprent habitat types that would not be used at all for that particular species.For more information please see: Smith, E. H., F. Chavez-Ramirez, J. Gibeaut, L. Lumb, 2014. Employing the conservation design approach on sea-level rise impacts on coastal avian habitats along the Central Texas Coast. The Wildlife Management Institute, Final report.; http://gulfcoastprairielcc.org/science/science-projects/studying-the-effects-of-sea-level-rise-in-coastal-texas/.
Definition Expression: N/A
Copyright Text: U. S. Fish and Wildlife Service, Harte Research Institute at Texas A&M-Corpus Christi, International Crane Foundation
Name: Potential Habitat for the Whooping Crane Under SLAMM Scenarrio: 1 m Sea Level Rise by 2025
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Type: Raster Layer
Geometry Type: null
Description: Changes in tidal marsh area and habitat type in response to sea-level rise were modeled using the Sea Level Affecting Marshes Model (SLAMM 6) that accounts for the dominant processes involved in wetland conversion and shoreline modifications during long-term sea level rise (Park et al. 1989; Successive versions of the model have been used to estimate the impacts of sea level rise on the coasts of the U.S. The model was produced by Warren Pinnacle Consulting, Inc. for the U.S. Fish and Wildlife Service. The SLAMM version 6 technical document can be accessed at http://warrenpinacle.com/prof/SLAMM. SLAMM outputs were converted from raster to vector features. Land cover (wetland) types were generalized to MesoHabitat type to coincide with the Composite Habitat Type Database. Using qualititative avian habitat use information from literature as well as spatially explicit habitat use data when available, MicroHabitat Types were then indexed for potential use by each avian species considered. An index of 3 represents potential high use habitat types, an index of 2 represents potential low use habitat types, and an index of 1 represents habitat types that would be used only incidentally. Habitat types with an index of 0 or no index preprent habitat types that would not be used at all for that particular species.For more information please see: Smith, E. H., F. Chavez-Ramirez, J. Gibeaut, L. Lumb, 2014. Employing the conservation design approach on sea-level rise impacts on coastal avian habitats along the Central Texas Coast. The Wildlife Management Institute, Final report.; http://gulfcoastprairielcc.org/science/science-projects/studying-the-effects-of-sea-level-rise-in-coastal-texas/.
Definition Expression: N/A
Copyright Text: U. S. Fish and Wildlife Service, Harte Research Institute at Texas A&M-Corpus Christi, International Crane Foundation
Name: Potential Habitat for the Whooping Crane Under SLAMM Scenario: 1.5 m Sea Level Rise by 2025
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Type: Raster Layer
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Description: Changes in tidal marsh area and habitat type in response to sea-level rise were modeled using the Sea Level Affecting Marshes Model (SLAMM 6) that accounts for the dominant processes involved in wetland conversion and shoreline modifications during long-term sea level rise (Park et al. 1989; Successive versions of the model have been used to estimate the impacts of sea level rise on the coasts of the U.S. The model was produced by Warren Pinnacle Consulting, Inc. for the U.S. Fish and Wildlife Service. The SLAMM version 6 technical document can be accessed at http://warrenpinacle.com/prof/SLAMM. SLAMM outputs were converted from raster to vector features. Land cover (wetland) types were generalized to MesoHabitat type to coincide with the Composite Habitat Type Database. Using qualititative avian habitat use information from literature as well as spatially explicit habitat use data when available, MicroHabitat Types were then indexed for potential use by each avian species considered. An index of 3 represents potential high use habitat types, an index of 2 represents potential low use habitat types, and an index of 1 represents habitat types that would be used only incidentally. Habitat types with an index of 0 or no index preprent habitat types that would not be used at all for that particular species.For more information please see: Smith, E. H., F. Chavez-Ramirez, J. Gibeaut, L. Lumb, 2014. Employing the conservation design approach on sea-level rise impacts on coastal avian habitats along the Central Texas Coast. The Wildlife Management Institute, Final report.; http://gulfcoastprairielcc.org/science/science-projects/studying-the-effects-of-sea-level-rise-in-coastal-texas/.
Definition Expression: N/A
Copyright Text: U. S. Fish and Wildlife Service, Harte Research Institute at Texas A&M-Corpus Christi, International Crane Foundation
Name: Potential Habitat for the Whooping Crane Under SLAMM Scenario: 2 m Sea Level Rise by 2025
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Type: Raster Layer
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Description: Changes in tidal marsh area and habitat type in response to sea-level rise were modeled using the Sea Level Affecting Marshes Model (SLAMM 6) that accounts for the dominant processes involved in wetland conversion and shoreline modifications during long-term sea level rise (Park et al. 1989; Successive versions of the model have been used to estimate the impacts of sea level rise on the coasts of the U.S. The model was produced by Warren Pinnacle Consulting, Inc. for the U.S. Fish and Wildlife Service. The SLAMM version 6 technical document can be accessed at http://warrenpinacle.com/prof/SLAMM. SLAMM outputs were converted from raster to vector features. Land cover (wetland) types were generalized to MesoHabitat type to coincide with the Composite Habitat Type Database. Using qualititative avian habitat use information from literature as well as spatially explicit habitat use data when available, MicroHabitat Types were then indexed for potential use by each avian species considered. An index of 3 represents potential high use habitat types, an index of 2 represents potential low use habitat types, and an index of 1 represents habitat types that would be used only incidentally. Habitat types with an index of 0 or no index preprent habitat types that would not be used at all for that particular species.For more information please see: Smith, E. H., F. Chavez-Ramirez, J. Gibeaut, L. Lumb, 2014. Employing the conservation design approach on sea-level rise impacts on coastal avian habitats along the Central Texas Coast. The Wildlife Management Institute, Final report.; http://gulfcoastprairielcc.org/science/science-projects/studying-the-effects-of-sea-level-rise-in-coastal-texas/.
Definition Expression: N/A
Copyright Text: U. S. Fish and Wildlife Service, Harte Research Institute at Texas A&M-Corpus Christi, International Crane Foundation
Name: Potential Habitat for the Whooping Crane Under SLAMM Scenario: A1B Maximum Sea Level Rise by 2025
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Type: Raster Layer
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Description: Changes in tidal marsh area and habitat type in response to sea-level rise were modeled using the Sea Level Affecting Marshes Model (SLAMM 6) that accounts for the dominant processes involved in wetland conversion and shoreline modifications during long-term sea level rise (Park et al. 1989; Successive versions of the model have been used to estimate the impacts of sea level rise on the coasts of the U.S. The model was produced by Warren Pinnacle Consulting, Inc. for the U.S. Fish and Wildlife Service. The SLAMM version 6 technical document can be accessed at http://warrenpinacle.com/prof/SLAMM. SLAMM outputs were converted from raster to vector features. Land cover (wetland) types were generalized to MesoHabitat type to coincide with the Composite Habitat Type Database. Using qualititative avian habitat use information from literature as well as spatially explicit habitat use data when available, MicroHabitat Types were then indexed for potential use by each avian species considered. An index of 3 represents potential high use habitat types, an index of 2 represents potential low use habitat types, and an index of 1 represents habitat types that would be used only incidentally. Habitat types with an index of 0 or no index preprent habitat types that would not be used at all for that particular species.For more information please see: Smith, E. H., F. Chavez-Ramirez, J. Gibeaut, L. Lumb, 2014. Employing the conservation design approach on sea-level rise impacts on coastal avian habitats along the Central Texas Coast. The Wildlife Management Institute, Final report.; http://gulfcoastprairielcc.org/science/science-projects/studying-the-effects-of-sea-level-rise-in-coastal-texas/.
Definition Expression: N/A
Copyright Text: U. S. Fish and Wildlife Service, Harte Research Institute at Texas A&M-Corpus Christi, International Crane Foundation
Name: Potential Habitat for the Whooping Crane Under SLAMM Scenario: A1B Mean Sea Level Rise by 2025
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Type: Raster Layer
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Description: Changes in tidal marsh area and habitat type in response to sea-level rise were modeled using the Sea Level Affecting Marshes Model (SLAMM 6) that accounts for the dominant processes involved in wetland conversion and shoreline modifications during long-term sea level rise (Park et al. 1989; Successive versions of the model have been used to estimate the impacts of sea level rise on the coasts of the U.S. The model was produced by Warren Pinnacle Consulting, Inc. for the U.S. Fish and Wildlife Service. The SLAMM version 6 technical document can be accessed at http://warrenpinacle.com/prof/SLAMM. SLAMM outputs were converted from raster to vector features. Land cover (wetland) types were generalized to MesoHabitat type to coincide with the Composite Habitat Type Database. Using qualititative avian habitat use information from literature as well as spatially explicit habitat use data when available, MicroHabitat Types were then indexed for potential use by each avian species considered. An index of 3 represents potential high use habitat types, an index of 2 represents potential low use habitat types, and an index of 1 represents habitat types that would be used only incidentally. Habitat types with an index of 0 or no index preprent habitat types that would not be used at all for that particular species.For more information please see: Smith, E. H., F. Chavez-Ramirez, J. Gibeaut, L. Lumb, 2014. Employing the conservation design approach on sea-level rise impacts on coastal avian habitats along the Central Texas Coast. The Wildlife Management Institute, Final report.; http://gulfcoastprairielcc.org/science/science-projects/studying-the-effects-of-sea-level-rise-in-coastal-texas/.
Definition Expression: N/A
Copyright Text: U. S. Fish and Wildlife Service, Harte Research Institute at Texas A&M-Corpus Christi, International Crane Foundation
Name: Potential Habitat for the Whooping Crane Under SLAMM Scenario: 1 m Sea Level Rise by 2050
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Description: Changes in tidal marsh area and habitat type in response to sea-level rise were modeled using the Sea Level Affecting Marshes Model (SLAMM 6) that accounts for the dominant processes involved in wetland conversion and shoreline modifications during long-term sea level rise (Park et al. 1989; Successive versions of the model have been used to estimate the impacts of sea level rise on the coasts of the U.S. The model was produced by Warren Pinnacle Consulting, Inc. for the U.S. Fish and Wildlife Service. The SLAMM version 6 technical document can be accessed at http://warrenpinacle.com/prof/SLAMM. SLAMM outputs were converted from raster to vector features. Land cover (wetland) types were generalized to MesoHabitat type to coincide with the Composite Habitat Type Database. Using qualititative avian habitat use information from literature as well as spatially explicit habitat use data when available, MicroHabitat Types were then indexed for potential use by each avian species considered. An index of 3 represents potential high use habitat types, an index of 2 represents potential low use habitat types, and an index of 1 represents habitat types that would be used only incidentally. Habitat types with an index of 0 or no index preprent habitat types that would not be used at all for that particular species.For more information please see: Smith, E. H., F. Chavez-Ramirez, J. Gibeaut, L. Lumb, 2014. Employing the conservation design approach on sea-level rise impacts on coastal avian habitats along the Central Texas Coast. The Wildlife Management Institute, Final report.; http://gulfcoastprairielcc.org/science/science-projects/studying-the-effects-of-sea-level-rise-in-coastal-texas/.
Definition Expression: N/A
Copyright Text: U. S. Fish and Wildlife Service, Harte Research Institute at Texas A&M-Corpus Christi, International Crane Foundation
Name: Potential Habitat for the Whooping Crane Under SLAMM Scenario: 1.5 m Sea Level Rise by 2050
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Description: Changes in tidal marsh area and habitat type in response to sea-level rise were modeled using the Sea Level Affecting Marshes Model (SLAMM 6) that accounts for the dominant processes involved in wetland conversion and shoreline modifications during long-term sea level rise (Park et al. 1989; Successive versions of the model have been used to estimate the impacts of sea level rise on the coasts of the U.S. The model was produced by Warren Pinnacle Consulting, Inc. for the U.S. Fish and Wildlife Service. The SLAMM version 6 technical document can be accessed at http://warrenpinacle.com/prof/SLAMM. SLAMM outputs were converted from raster to vector features. Land cover (wetland) types were generalized to MesoHabitat type to coincide with the Composite Habitat Type Database. Using qualititative avian habitat use information from literature as well as spatially explicit habitat use data when available, MicroHabitat Types were then indexed for potential use by each avian species considered. An index of 3 represents potential high use habitat types, an index of 2 represents potential low use habitat types, and an index of 1 represents habitat types that would be used only incidentally. Habitat types with an index of 0 or no index preprent habitat types that would not be used at all for that particular species.For more information please see: Smith, E. H., F. Chavez-Ramirez, J. Gibeaut, L. Lumb, 2014. Employing the conservation design approach on sea-level rise impacts on coastal avian habitats along the Central Texas Coast. The Wildlife Management Institute, Final report.; http://gulfcoastprairielcc.org/science/science-projects/studying-the-effects-of-sea-level-rise-in-coastal-texas/.
Definition Expression: N/A
Copyright Text: U. S. Fish and Wildlife Service, Harte Research Institute at Texas A&M-Corpus Christi, International Crane Foundation
Name: Potential Habitat for the Whooping Crane Under SLAMM Scenario: 2 m Sea Level Rise by 2050
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Description: Changes in tidal marsh area and habitat type in response to sea-level rise were modeled using the Sea Level Affecting Marshes Model (SLAMM 6) that accounts for the dominant processes involved in wetland conversion and shoreline modifications during long-term sea level rise (Park et al. 1989; Successive versions of the model have been used to estimate the impacts of sea level rise on the coasts of the U.S. The model was produced by Warren Pinnacle Consulting, Inc. for the U.S. Fish and Wildlife Service. The SLAMM version 6 technical document can be accessed at http://warrenpinacle.com/prof/SLAMM. SLAMM outputs were converted from raster to vector features. Land cover (wetland) types were generalized to MesoHabitat type to coincide with the Composite Habitat Type Database. Using qualititative avian habitat use information from literature as well as spatially explicit habitat use data when available, MicroHabitat Types were then indexed for potential use by each avian species considered. An index of 3 represents potential high use habitat types, an index of 2 represents potential low use habitat types, and an index of 1 represents habitat types that would be used only incidentally. Habitat types with an index of 0 or no index preprent habitat types that would not be used at all for that particular species.For more information please see: Smith, E. H., F. Chavez-Ramirez, J. Gibeaut, L. Lumb, 2014. Employing the conservation design approach on sea-level rise impacts on coastal avian habitats along the Central Texas Coast. The Wildlife Management Institute, Final report.; http://gulfcoastprairielcc.org/science/science-projects/studying-the-effects-of-sea-level-rise-in-coastal-texas/.
Definition Expression: N/A
Copyright Text: U. S. Fish and Wildlife Service, Harte Research Institute at Texas A&M-Corpus Christi, International Crane Foundation
Name: Potential Habitat for the Whooping Crane Under SLAMM Scenario: A1B Maximum Sea Level Rise by 2050
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Description: Changes in tidal marsh area and habitat type in response to sea-level rise were modeled using the Sea Level Affecting Marshes Model (SLAMM 6) that accounts for the dominant processes involved in wetland conversion and shoreline modifications during long-term sea level rise (Park et al. 1989; Successive versions of the model have been used to estimate the impacts of sea level rise on the coasts of the U.S. The model was produced by Warren Pinnacle Consulting, Inc. for the U.S. Fish and Wildlife Service. The SLAMM version 6 technical document can be accessed at http://warrenpinacle.com/prof/SLAMM. SLAMM outputs were converted from raster to vector features. Land cover (wetland) types were generalized to MesoHabitat type to coincide with the Composite Habitat Type Database. Using qualititative avian habitat use information from literature as well as spatially explicit habitat use data when available, MicroHabitat Types were then indexed for potential use by each avian species considered. An index of 3 represents potential high use habitat types, an index of 2 represents potential low use habitat types, and an index of 1 represents habitat types that would be used only incidentally. Habitat types with an index of 0 or no index preprent habitat types that would not be used at all for that particular species.For more information please see: Smith, E. H., F. Chavez-Ramirez, J. Gibeaut, L. Lumb, 2014. Employing the conservation design approach on sea-level rise impacts on coastal avian habitats along the Central Texas Coast. The Wildlife Management Institute, Final report.; http://gulfcoastprairielcc.org/science/science-projects/studying-the-effects-of-sea-level-rise-in-coastal-texas/.
Definition Expression: N/A
Copyright Text: U. S. Fish and Wildlife Service, Harte Research Institute at Texas A&M-Corpus Christi, International Crane Foundation
Name: Potential Habitat for the Whooping Crane Under SLAMM Scenario: A1B Mean Sea Level Rise by 2050
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Type: Raster Layer
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Description: Changes in tidal marsh area and habitat type in response to sea-level rise were modeled using the Sea Level Affecting Marshes Model (SLAMM 6) that accounts for the dominant processes involved in wetland conversion and shoreline modifications during long-term sea level rise (Park et al. 1989; Successive versions of the model have been used to estimate the impacts of sea level rise on the coasts of the U.S. The model was produced by Warren Pinnacle Consulting, Inc. for the U.S. Fish and Wildlife Service. The SLAMM version 6 technical document can be accessed at http://warrenpinacle.com/prof/SLAMM. SLAMM outputs were converted from raster to vector features. Land cover (wetland) types were generalized to MesoHabitat type to coincide with the Composite Habitat Type Database. Using qualititative avian habitat use information from literature as well as spatially explicit habitat use data when available, MicroHabitat Types were then indexed for potential use by each avian species considered. An index of 3 represents potential high use habitat types, an index of 2 represents potential low use habitat types, and an index of 1 represents habitat types that would be used only incidentally. Habitat types with an index of 0 or no index preprent habitat types that would not be used at all for that particular species.For more information please see: Smith, E. H., F. Chavez-Ramirez, J. Gibeaut, L. Lumb, 2014. Employing the conservation design approach on sea-level rise impacts on coastal avian habitats along the Central Texas Coast. The Wildlife Management Institute, Final report.; http://gulfcoastprairielcc.org/science/science-projects/studying-the-effects-of-sea-level-rise-in-coastal-texas/.
Definition Expression: N/A
Copyright Text: U. S. Fish and Wildlife Service, Harte Research Institute at Texas A&M-Corpus Christi, International Crane Foundation
Name: Potential Habitat for the Whooping Crane Under SLAMM Scenario: 1 m Sea Level Rise by 2075
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Type: Raster Layer
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Description: Changes in tidal marsh area and habitat type in response to sea-level rise were modeled using the Sea Level Affecting Marshes Model (SLAMM 6) that accounts for the dominant processes involved in wetland conversion and shoreline modifications during long-term sea level rise (Park et al. 1989; Successive versions of the model have been used to estimate the impacts of sea level rise on the coasts of the U.S. The model was produced by Warren Pinnacle Consulting, Inc. for the U.S. Fish and Wildlife Service. The SLAMM version 6 technical document can be accessed at http://warrenpinacle.com/prof/SLAMM. SLAMM outputs were converted from raster to vector features. Land cover (wetland) types were generalized to MesoHabitat type to coincide with the Composite Habitat Type Database. Using qualititative avian habitat use information from literature as well as spatially explicit habitat use data when available, MicroHabitat Types were then indexed for potential use by each avian species considered. An index of 3 represents potential high use habitat types, an index of 2 represents potential low use habitat types, and an index of 1 represents habitat types that would be used only incidentally. Habitat types with an index of 0 or no index preprent habitat types that would not be used at all for that particular species.For more information please see: Smith, E. H., F. Chavez-Ramirez, J. Gibeaut, L. Lumb, 2014. Employing the conservation design approach on sea-level rise impacts on coastal avian habitats along the Central Texas Coast. The Wildlife Management Institute, Final report.; http://gulfcoastprairielcc.org/science/science-projects/studying-the-effects-of-sea-level-rise-in-coastal-texas/.
Definition Expression: N/A
Copyright Text: U. S. Fish and Wildlife Service, Harte Research Institute at Texas A&M-Corpus Christi, International Crane Foundation
Name: Potential Habitat for the Whooping Crane Under SLAMM Scenario: 1.5 m Sea Level Rise by 2075
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Type: Raster Layer
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Description: Changes in tidal marsh area and habitat type in response to sea-level rise were modeled using the Sea Level Affecting Marshes Model (SLAMM 6) that accounts for the dominant processes involved in wetland conversion and shoreline modifications during long-term sea level rise (Park et al. 1989; Successive versions of the model have been used to estimate the impacts of sea level rise on the coasts of the U.S. The model was produced by Warren Pinnacle Consulting, Inc. for the U.S. Fish and Wildlife Service. The SLAMM version 6 technical document can be accessed at http://warrenpinacle.com/prof/SLAMM. SLAMM outputs were converted from raster to vector features. Land cover (wetland) types were generalized to MesoHabitat type to coincide with the Composite Habitat Type Database. Using qualititative avian habitat use information from literature as well as spatially explicit habitat use data when available, MicroHabitat Types were then indexed for potential use by each avian species considered. An index of 3 represents potential high use habitat types, an index of 2 represents potential low use habitat types, and an index of 1 represents habitat types that would be used only incidentally. Habitat types with an index of 0 or no index preprent habitat types that would not be used at all for that particular species.For more information please see: Smith, E. H., F. Chavez-Ramirez, J. Gibeaut, L. Lumb, 2014. Employing the conservation design approach on sea-level rise impacts on coastal avian habitats along the Central Texas Coast. The Wildlife Management Institute, Final report.; http://gulfcoastprairielcc.org/science/science-projects/studying-the-effects-of-sea-level-rise-in-coastal-texas/.
Definition Expression: N/A
Copyright Text: U. S. Fish and Wildlife Service, Harte Research Institute at Texas A&M-Corpus Christi, International Crane Foundation
Name: Potential Habitat for the Whooping Crane Under SLAMM Scenario: 2 m Sea Level Rise by 2075
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Type: Raster Layer
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Description: Changes in tidal marsh area and habitat type in response to sea-level rise were modeled using the Sea Level Affecting Marshes Model (SLAMM 6) that accounts for the dominant processes involved in wetland conversion and shoreline modifications during long-term sea level rise (Park et al. 1989; Successive versions of the model have been used to estimate the impacts of sea level rise on the coasts of the U.S. The model was produced by Warren Pinnacle Consulting, Inc. for the U.S. Fish and Wildlife Service. The SLAMM version 6 technical document can be accessed at http://warrenpinacle.com/prof/SLAMM. SLAMM outputs were converted from raster to vector features. Land cover (wetland) types were generalized to MesoHabitat type to coincide with the Composite Habitat Type Database. Using qualititative avian habitat use information from literature as well as spatially explicit habitat use data when available, MicroHabitat Types were then indexed for potential use by each avian species considered. An index of 3 represents potential high use habitat types, an index of 2 represents potential low use habitat types, and an index of 1 represents habitat types that would be used only incidentally. Habitat types with an index of 0 or no index preprent habitat types that would not be used at all for that particular species.For more information please see: Smith, E. H., F. Chavez-Ramirez, J. Gibeaut, L. Lumb, 2014. Employing the conservation design approach on sea-level rise impacts on coastal avian habitats along the Central Texas Coast. The Wildlife Management Institute, Final report.; http://gulfcoastprairielcc.org/science/science-projects/studying-the-effects-of-sea-level-rise-in-coastal-texas/.
Definition Expression: N/A
Copyright Text: U. S. Fish and Wildlife Service, Harte Research Institute at Texas A&M-Corpus Christi, International Crane Foundation
Name: Potential Habitat for the Whooping Crane Under SLAMM Scenario: A1B Maximum Sea Level Rise by 2075
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Description: Changes in tidal marsh area and habitat type in response to sea-level rise were modeled using the Sea Level Affecting Marshes Model (SLAMM 6) that accounts for the dominant processes involved in wetland conversion and shoreline modifications during long-term sea level rise (Park et al. 1989; Successive versions of the model have been used to estimate the impacts of sea level rise on the coasts of the U.S. The model was produced by Warren Pinnacle Consulting, Inc. for the U.S. Fish and Wildlife Service. The SLAMM version 6 technical document can be accessed at http://warrenpinacle.com/prof/SLAMM. SLAMM outputs were converted from raster to vector features. Land cover (wetland) types were generalized to MesoHabitat type to coincide with the Composite Habitat Type Database. Using qualititative avian habitat use information from literature as well as spatially explicit habitat use data when available, MicroHabitat Types were then indexed for potential use by each avian species considered. An index of 3 represents potential high use habitat types, an index of 2 represents potential low use habitat types, and an index of 1 represents habitat types that would be used only incidentally. Habitat types with an index of 0 or no index preprent habitat types that would not be used at all for that particular species.For more information please see: Smith, E. H., F. Chavez-Ramirez, J. Gibeaut, L. Lumb, 2014. Employing the conservation design approach on sea-level rise impacts on coastal avian habitats along the Central Texas Coast. The Wildlife Management Institute, Final report.; http://gulfcoastprairielcc.org/science/science-projects/studying-the-effects-of-sea-level-rise-in-coastal-texas/.
Definition Expression: N/A
Copyright Text: U. S. Fish and Wildlife Service, Harte Research Institute at Texas A&M-Corpus Christi, International Crane Foundation
Name: Potential Habitat for the Whooping Crane Under SLAMM Scenario: A1B Mean Sea Level Rise by 2075
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Description: Changes in tidal marsh area and habitat type in response to sea-level rise were modeled using the Sea Level Affecting Marshes Model (SLAMM 6) that accounts for the dominant processes involved in wetland conversion and shoreline modifications during long-term sea level rise (Park et al. 1989; Successive versions of the model have been used to estimate the impacts of sea level rise on the coasts of the U.S. The model was produced by Warren Pinnacle Consulting, Inc. for the U.S. Fish and Wildlife Service. The SLAMM version 6 technical document can be accessed at http://warrenpinacle.com/prof/SLAMM. SLAMM outputs were converted from raster to vector features. Land cover (wetland) types were generalized to MesoHabitat type to coincide with the Composite Habitat Type Database. Using qualititative avian habitat use information from literature as well as spatially explicit habitat use data when available, MicroHabitat Types were then indexed for potential use by each avian species considered. An index of 3 represents potential high use habitat types, an index of 2 represents potential low use habitat types, and an index of 1 represents habitat types that would be used only incidentally. Habitat types with an index of 0 or no index preprent habitat types that would not be used at all for that particular species.For more information please see: Smith, E. H., F. Chavez-Ramirez, J. Gibeaut, L. Lumb, 2014. Employing the conservation design approach on sea-level rise impacts on coastal avian habitats along the Central Texas Coast. The Wildlife Management Institute, Final report.; http://gulfcoastprairielcc.org/science/science-projects/studying-the-effects-of-sea-level-rise-in-coastal-texas/.
Definition Expression: N/A
Copyright Text: U. S. Fish and Wildlife Service, Harte Research Institute at Texas A&M-Corpus Christi, International Crane Foundation
Name: Potential Habitat for the Whooping Crane Under SLAMM Scenario: 1 m Sea Level Rise by 2100
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Description: Changes in tidal marsh area and habitat type in response to sea-level rise were modeled using the Sea Level Affecting Marshes Model (SLAMM 6) that accounts for the dominant processes involved in wetland conversion and shoreline modifications during long-term sea level rise (Park et al. 1989; Successive versions of the model have been used to estimate the impacts of sea level rise on the coasts of the U.S. The model was produced by Warren Pinnacle Consulting, Inc. for the U.S. Fish and Wildlife Service. The SLAMM version 6 technical document can be accessed at http://warrenpinacle.com/prof/SLAMM. SLAMM outputs were converted from raster to vector features. Land cover (wetland) types were generalized to MesoHabitat type to coincide with the Composite Habitat Type Database. Using qualititative avian habitat use information from literature as well as spatially explicit habitat use data when available, MicroHabitat Types were then indexed for potential use by each avian species considered. An index of 3 represents potential high use habitat types, an index of 2 represents potential low use habitat types, and an index of 1 represents habitat types that would be used only incidentally. Habitat types with an index of 0 or no index preprent habitat types that would not be used at all for that particular species.For more information please see: Smith, E. H., F. Chavez-Ramirez, J. Gibeaut, L. Lumb, 2014. Employing the conservation design approach on sea-level rise impacts on coastal avian habitats along the Central Texas Coast. The Wildlife Management Institute, Final report.; http://gulfcoastprairielcc.org/science/science-projects/studying-the-effects-of-sea-level-rise-in-coastal-texas/.
Definition Expression: N/A
Copyright Text: U. S. Fish and Wildlife Service, Harte Research Institute at Texas A&M-Corpus Christi, International Crane Foundation
Name: Potential Habitat for the Whooping Crane Under SLAMM Scenario: 1.5 m Sea Level Rise by 2100
Display Field:
Type: Raster Layer
Geometry Type: null
Description: Changes in tidal marsh area and habitat type in response to sea-level rise were modeled using the Sea Level Affecting Marshes Model (SLAMM 6) that accounts for the dominant processes involved in wetland conversion and shoreline modifications during long-term sea level rise (Park et al. 1989; Successive versions of the model have been used to estimate the impacts of sea level rise on the coasts of the U.S. The model was produced by Warren Pinnacle Consulting, Inc. for the U.S. Fish and Wildlife Service. The SLAMM version 6 technical document can be accessed at http://warrenpinacle.com/prof/SLAMM. SLAMM outputs were converted from raster to vector features. Land cover (wetland) types were generalized to MesoHabitat type to coincide with the Composite Habitat Type Database. Using qualititative avian habitat use information from literature as well as spatially explicit habitat use data when available, MicroHabitat Types were then indexed for potential use by each avian species considered. An index of 3 represents potential high use habitat types, an index of 2 represents potential low use habitat types, and an index of 1 represents habitat types that would be used only incidentally. Habitat types with an index of 0 or no index preprent habitat types that would not be used at all for that particular species.For more information please see: Smith, E. H., F. Chavez-Ramirez, J. Gibeaut, L. Lumb, 2014. Employing the conservation design approach on sea-level rise impacts on coastal avian habitats along the Central Texas Coast. The Wildlife Management Institute, Final report.; http://gulfcoastprairielcc.org/science/science-projects/studying-the-effects-of-sea-level-rise-in-coastal-texas/.
Definition Expression: N/A
Copyright Text: U. S. Fish and Wildlife Service, Harte Research Institute at Texas A&M-Corpus Christi, International Crane Foundation
Name: Potential Habitat for the Whooping Crane Under SLAMM Scenario: 2 m Sea Level Rise by 2100
Display Field:
Type: Raster Layer
Geometry Type: null
Description: Changes in tidal marsh area and habitat type in response to sea-level rise were modeled using the Sea Level Affecting Marshes Model (SLAMM 6) that accounts for the dominant processes involved in wetland conversion and shoreline modifications during long-term sea level rise (Park et al. 1989; Successive versions of the model have been used to estimate the impacts of sea level rise on the coasts of the U.S. The model was produced by Warren Pinnacle Consulting, Inc. for the U.S. Fish and Wildlife Service. The SLAMM version 6 technical document can be accessed at http://warrenpinacle.com/prof/SLAMM. SLAMM outputs were converted from raster to vector features. Land cover (wetland) types were generalized to MesoHabitat type to coincide with the Composite Habitat Type Database. Using qualititative avian habitat use information from literature as well as spatially explicit habitat use data when available, MicroHabitat Types were then indexed for potential use by each avian species considered. An index of 3 represents potential high use habitat types, an index of 2 represents potential low use habitat types, and an index of 1 represents habitat types that would be used only incidentally. Habitat types with an index of 0 or no index preprent habitat types that would not be used at all for that particular species.For more information please see: Smith, E. H., F. Chavez-Ramirez, J. Gibeaut, L. Lumb, 2014. Employing the conservation design approach on sea-level rise impacts on coastal avian habitats along the Central Texas Coast. The Wildlife Management Institute, Final report.; http://gulfcoastprairielcc.org/science/science-projects/studying-the-effects-of-sea-level-rise-in-coastal-texas/.
Definition Expression: N/A
Copyright Text: U. S. Fish and Wildlife Service, Harte Research Institute at Texas A&M-Corpus Christi, International Crane Foundation
Name: Potential Habitat for the Whooping Crane Under SLAMM Scenario: A1B Maximum Sea Level Rise by 2100
Display Field:
Type: Raster Layer
Geometry Type: null
Description: Changes in tidal marsh area and habitat type in response to sea-level rise were modeled using the Sea Level Affecting Marshes Model (SLAMM 6) that accounts for the dominant processes involved in wetland conversion and shoreline modifications during long-term sea level rise (Park et al. 1989; Successive versions of the model have been used to estimate the impacts of sea level rise on the coasts of the U.S. The model was produced by Warren Pinnacle Consulting, Inc. for the U.S. Fish and Wildlife Service. The SLAMM version 6 technical document can be accessed at http://warrenpinacle.com/prof/SLAMM. SLAMM outputs were converted from raster to vector features. Land cover (wetland) types were generalized to MesoHabitat type to coincide with the Composite Habitat Type Database. Using qualititative avian habitat use information from literature as well as spatially explicit habitat use data when available, MicroHabitat Types were then indexed for potential use by each avian species considered. An index of 3 represents potential high use habitat types, an index of 2 represents potential low use habitat types, and an index of 1 represents habitat types that would be used only incidentally. Habitat types with an index of 0 or no index preprent habitat types that would not be used at all for that particular species.For more information please see: Smith, E. H., F. Chavez-Ramirez, J. Gibeaut, L. Lumb, 2014. Employing the conservation design approach on sea-level rise impacts on coastal avian habitats along the Central Texas Coast. The Wildlife Management Institute, Final report.; http://gulfcoastprairielcc.org/science/science-projects/studying-the-effects-of-sea-level-rise-in-coastal-texas/.
Definition Expression: N/A
Copyright Text: U. S. Fish and Wildlife Service, Harte Research Institute at Texas A&M-Corpus Christi, International Crane Foundation
Name: Potential Habitat for the Whooping Crane Under SLAMM Scenario: A1B Mean Sea Level Rise by 2100
Display Field:
Type: Raster Layer
Geometry Type: null
Description: Changes in tidal marsh area and habitat type in response to sea-level rise were modeled using the Sea Level Affecting Marshes Model (SLAMM 6) that accounts for the dominant processes involved in wetland conversion and shoreline modifications during long-term sea level rise (Park et al. 1989; Successive versions of the model have been used to estimate the impacts of sea level rise on the coasts of the U.S. The model was produced by Warren Pinnacle Consulting, Inc. for the U.S. Fish and Wildlife Service. The SLAMM version 6 technical document can be accessed at http://warrenpinacle.com/prof/SLAMM. SLAMM outputs were converted from raster to vector features. Land cover (wetland) types were generalized to MesoHabitat type to coincide with the Composite Habitat Type Database. Using qualititative avian habitat use information from literature as well as spatially explicit habitat use data when available, MicroHabitat Types were then indexed for potential use by each avian species considered. An index of 3 represents potential high use habitat types, an index of 2 represents potential low use habitat types, and an index of 1 represents habitat types that would be used only incidentally. Habitat types with an index of 0 or no index preprent habitat types that would not be used at all for that particular species.For more information please see: Smith, E. H., F. Chavez-Ramirez, J. Gibeaut, L. Lumb, 2014. Employing the conservation design approach on sea-level rise impacts on coastal avian habitats along the Central Texas Coast. The Wildlife Management Institute, Final report.; http://gulfcoastprairielcc.org/science/science-projects/studying-the-effects-of-sea-level-rise-in-coastal-texas/.
Definition Expression: N/A
Copyright Text: U. S. Fish and Wildlife Service, Harte Research Institute at Texas A&M-Corpus Christi, International Crane Foundation