Description: This file was created for The Nature Conservancy's Sea Level Rise Project for the northern Gulf of Mexico. The map represents the gain, losses, and persistence for a specific landcover category in Jefferson County, Texas between two landcover maps representing two points in time. The landcover maps used for the study area were derived from Sea Level Rise Affecting Marsh Model (SLAMM) using the 1m of sea-level rise by 2100 scenario and show how marshes are predicted to migrate inland due to rises in sea level by 2100.
<a href='xml/gulfmex_TX_JC_IFMarshChange_1mSLR_2100.xml' target='_blank'><b>Metadata</b><a></br>
Description: This file was created for The Nature Conservancy's Sea Level Rise Project for the northern Gulf of Mexico. The map represents the gain, losses, and persistence for a specific landcover category in Jefferson County, Texas between two landcover maps representing two points in time. The landcover maps used for the study area were derived from Sea Level Rise Affecting Marsh Model (SLAMM) using the 1m of sea-level rise by 2100 scenario and show how marshes are predicted to migrate inland due to rises in sea level by 2100.
<a href='xml/gulfmex_TX_JC_RFMarshChange_1mSLR_2100.xml' target='_blank'><b>Metadata</b><a></br>
Name: Salt Marshes (regularly and irregularly flooded) in 2100
Display Field:
Type: Raster Layer
Geometry Type: null
Description: The file was created by determining salt marsh (regularly and irregularly flooded) landcover in 2100 using a 1 meter of SLR by 2100 scenario, which was derived from the SLAMM models of southern Jefferson County, Texas.
<a href='xml/gulfmex_TX_JC_SaltMarshes_1mSLR_2100.xml' target='_blank'><b>Metadata</b><a></br>
Description: The image shows the initial condition SLAMM landcover map for southern Jefferson County, Texas which was derived from 2004 National Wetland Inventory (NWI) data and was used for the Sea Level Rise Affecting Marsh Model (SLAMM) version 6.
<a href='xml/gulfmex_TX_JC_SLAMM_base_2004.xml' target='_blank'><b>Metadata</b><a></br>
Copyright Text: The Nature Conservancy and Warren Pinnacle Consulting
Description: The image shows the SLAMM landcover cateogories for southern Jefferson County, Texas in 2025 derived from the the Sea Level Rise Affecting Marsh Model (SLAMM) version 6. The model used the IPCC A1B-Mean (0.39m) sea-level rise by 2100 scenario and was produced by Warren Pinnacle Consulting, Inc. for the Nature Conservancy. The purpose of this map was to show how marshes are predicted to migrate inland due to increases in sea level by 2100. The SLAMM model produced landcover maps for 5 points in time for this specific sea level rise scenario, which included the starting point in 2004 and predicted landcover maps for 2025, 2050, 2075 and 2100.
<a href='xml/gulfmex_TX_JC_SLAMM_IPCCmean_2025.xml' target='_blank'><b>Metadata</b><a></br>
Copyright Text: The Nature Conservancy and Warren Pinnacle Consulting
Description: The image shows the SLAMM landcover cateogories for southern Jefferson County, Texas in 2050 derived from the the Sea Level Rise Affecting Marsh Model (SLAMM) version 6. The model used the IPCC A1B-Mean (0.39m) sea-level rise by 2100 scenario and was produced by Warren Pinnacle Consulting, Inc. for the Nature Conservancy. The purpose of this map was to show how marshes are predicted to migrate inland due to increases in sea level by 2100. The SLAMM model produced landcover maps for 5 points in time for this specific sea level rise scenario, which included the starting point in 2004 and predicted landcover maps for 2025, 2050, 2075 and 2100.
<a href='xml/gulfmex_TX_JC_SLAMM_IPCCmean_2050.xml' target='_blank'><b>Metadata</b><a></br>
Copyright Text: The Nature Conservancy and Warren Pinnacle Consulting
Description: The image shows the SLAMM landcover cateogories for southern Jefferson County, Texas in 2075 derived from the the Sea Level Rise Affecting Marsh Model (SLAMM) version 6. The model used the IPCC A1B-Mean (0.39m) sea-level rise by 2100 scenario and was produced by Warren Pinnacle Consulting, Inc. for the Nature Conservancy. The purpose of this map was to show how marshes are predicted to migrate inland due to increases in sea level by 2100. The SLAMM model produced landcover maps for 5 points in time for this specific sea level rise scenario, which included the starting point in 2004 and predicted landcover maps for 2025, 2050, 2075 and 2100.
<a href='xml/gulfmex_TX_JC_SLAMM_IPCCmean_2075.xml' target='_blank'><b>Metadata</b><a></br>
Copyright Text: The Nature Conservancy and Warren Pinnacle Consulting
Description: The image shows the SLAMM landcover cateogories for southern Jefferson County, Texas in 2100 derived from the the Sea Level Rise Affecting Marsh Model (SLAMM) version 6. The model used the IPCC A1B-Mean (0.39m) sea-level rise by 2100 scenario and was produced by Warren Pinnacle Consulting, Inc. for the Nature Conservancy. The purpose of this map was to show how marshes are predicted to migrate inland due to increases in sea level by 2100. The SLAMM model produced landcover maps for 5 points in time for this specific sea level rise scenario, which included the starting point in 2004 and predicted landcover maps for 2025, 2050, 2075 and 2100.
<a href='xml/gulfmex_TX_JC_SLAMM_IPCCmean_2100.xml' target='_blank'><b>Metadata</b><a></br>
Copyright Text: The Nature Conservancy and Warren Pinnacle Consulting
Description: The image shows the SLAMM landcover cateogories for southern Jefferson County, Texas in 2025 derived from the the Sea Level Rise Affecting Marsh Model (SLAMM) version 6. The model used the IPCC A1B-Max (0.69m) sea-level rise by 2100 scenario and was produced by Warren Pinnacle Consulting, Inc. for the Nature Conservancy. The purpose of this map was to show how marshes are predicted to migrate inland due to increases in sea level by 2100. The SLAMM model produced landcover maps for 5 points in time for this specific sea level rise scenario, which included the starting point in 2004 and predicted landcover maps for 2025, 2050, 2075 and 2100.
<a href='xml/gulfmex_TX_JC_SLAMM_IPCCmax_2025.xml' target='_blank'><b>Metadata</b><a></br>
Copyright Text: The Nature Conservancy and Warren Pinnacle Consulting
Description: The image shows the SLAMM landcover cateogories for southern Jefferson County, Texas in 2050 derived from the the Sea Level Rise Affecting Marsh Model (SLAMM) version 6. The model used the IPCC A1B-Max (0.69m) sea-level rise by 2100 scenario and was produced by Warren Pinnacle Consulting, Inc. for the Nature Conservancy. The purpose of this map was to show how marshes are predicted to migrate inland due to increases in sea level by 2100. The SLAMM model produced landcover maps for 5 points in time for this specific sea level rise scenario, which included the starting point in 2004 and predicted landcover maps for 2025, 2050, 2075 and 2100.
<a href='xml/gulfmex_TX_JC_SLAMM_IPCCmax_2050.xml' target='_blank'><b>Metadata</b><a></br>
Copyright Text: The Nature Conservancy and Warren Pinnacle Consulting
Description: The image shows the SLAMM landcover cateogories for southern Jefferson County, Texas in 2075 derived from the the Sea Level Rise Affecting Marsh Model (SLAMM) version 6. The model used the IPCC A1B-Max (0.69m) sea-level rise by 2100 scenario and was produced by Warren Pinnacle Consulting, Inc. for the Nature Conservancy. The purpose of this map was to show how marshes are predicted to migrate inland due to increases in sea level by 2100. The SLAMM model produced landcover maps for 5 points in time for this specific sea level rise scenario, which included the starting point in 2004 and predicted landcover maps for 2025, 2050, 2075 and 2100.
<a href='xml/gulfmex_TX_JC_SLAMM_IPCCmax_2075.xml' target='_blank'><b>Metadata</b><a></br>
Copyright Text: The Nature Conservancy and Warren Pinnacle Consulting
Description: The image shows the SLAMM landcover cateogories for southern Jefferson County, Texas in 2100 derived from the the Sea Level Rise Affecting Marsh Model (SLAMM) version 6. The model used the IPCC A1B-Max (0.69m) sea-level rise by 2100 scenario and was produced by Warren Pinnacle Consulting, Inc. for the Nature Conservancy. The purpose of this map was to show how marshes are predicted to migrate inland due to increases in sea level by 2100. The SLAMM model produced landcover maps for 5 points in time for this specific sea level rise scenario, which included the starting point in 2004 and predicted landcover maps for 2025, 2050, 2075 and 2100.
<a href='xml/gulfmex_TX_JC_SLAMM_IPCCmax_2100.xml' target='_blank'><b>Metadata</b><a></br>
Copyright Text: The Nature Conservancy and Warren Pinnacle Consulting
Description: The image shows the SLAMM landcover cateogories for southern Jefferson County, Texas in 2025 derived from the the Sea Level Rise Affecting Marsh Model (SLAMM) version 6. The model used the1 meter sea-level rise by 2100 scenario and was produced by Warren Pinnacle Consulting, Inc. for the Nature Conservancy. The purpose of this map was to show how marshes are predicted to migrate inland due to increases in sea level by 2100. The SLAMM model produced landcover maps for 5 points in time for this specific sea level rise scenario, which included the starting point in 2004 and predicted landcover maps for 2025, 2050, 2075 and 2100.
<a href='xml/gulfmex_TX_JC_SLAMM_1m_2025.xml' target='_blank'><b>Metadata</b><a></br>
Copyright Text: The Nature Conservancy and Warren Pinnacle Consulting
Description: The image shows the SLAMM landcover cateogories for southern Jefferson County, Texas in 2050 derived from the the Sea Level Rise Affecting Marsh Model (SLAMM) version 6. The model used the1 meter sea-level rise by 2100 scenario and was produced by Warren Pinnacle Consulting, Inc. for the Nature Conservancy. The purpose of this map was to show how marshes are predicted to migrate inland due to increases in sea level by 2100. The SLAMM model produced landcover maps for 5 points in time for this specific sea level rise scenario, which included the starting point in 2004 and predicted landcover maps for 2025, 2050, 2075 and 2100.
<a href='xml/gulfmex_TX_JC_SLAMM_1m_2050.xml' target='_blank'><b>Metadata</b><a></br>
Copyright Text: The Nature Conservancy and Warren Pinnacle Consulting
Description: The image shows the SLAMM landcover cateogories for southern Jefferson County, Texas in 2075 derived from the the Sea Level Rise Affecting Marsh Model (SLAMM) version 6. The model used the1 meter sea-level rise by 2100 scenario and was produced by Warren Pinnacle Consulting, Inc. for the Nature Conservancy. The purpose of this map was to show how marshes are predicted to migrate inland due to increases in sea level by 2100. The SLAMM model produced landcover maps for 5 points in time for this specific sea level rise scenario, which included the starting point in 2004 and predicted landcover maps for 2025, 2050, 2075 and 2100.
<a href='xml/gulfmex_TX_JC_SLAMM_1m_2075.xml' target='_blank'><b>Metadata</b><a></br>
Copyright Text: The Nature Conservancy and Warren Pinnacle Consulting
Description: The image shows the SLAMM landcover cateogories for southern Jefferson County, Texas in 2100 derived from the the Sea Level Rise Affecting Marsh Model (SLAMM) version 6. The model used the1 meter sea-level rise by 2100 scenario and was produced by Warren Pinnacle Consulting, Inc. for the Nature Conservancy. The purpose of this map was to show how marshes are predicted to migrate inland due to increases in sea level by 2100. The SLAMM model produced landcover maps for 5 points in time for this specific sea level rise scenario, which included the starting point in 2004 and predicted landcover maps for 2025, 2050, 2075 and 2100.
<a href='xml/gulfmex_TX_JC_SLAMM_1m_2100.xml' target='_blank'><b>Metadata</b><a></br>
Copyright Text: The Nature Conservancy and Warren Pinnacle Consulting
Description: The image shows the SLAMM landcover cateogories for southern Jefferson County, Texas in 2025 derived from the the Sea Level Rise Affecting Marsh Model (SLAMM) version 6. The model used the1.5 meter sea-level rise by 2100 scenario and was produced by Warren Pinnacle Consulting, Inc. for the Nature Conservancy. The purpose of this map was to show how marshes are predicted to migrate inland due to increases in sea level by 2100. The SLAMM model produced landcover maps for 5 points in time for this specific sea level rise scenario, which included the starting point in 2004 and predicted landcover maps for 2025, 2050, 2075 and 2100.
<a href='xml/gulfmex_TX_JC_SLAMM_1_5m_2025.xml' target='_blank'><b>Metadata</b><a></br>
Copyright Text: The Nature Conservancy and Warren Pinnacle Consulting
Description: The image shows the SLAMM landcover cateogories for southern Jefferson County, Texas in 2050 derived from the the Sea Level Rise Affecting Marsh Model (SLAMM) version 6. The model used the1.5 meter sea-level rise by 2100 scenario and was produced by Warren Pinnacle Consulting, Inc. for the Nature Conservancy. The purpose of this map was to show how marshes are predicted to migrate inland due to increases in sea level by 2100. The SLAMM model produced landcover maps for 5 points in time for this specific sea level rise scenario, which included the starting point in 2004 and predicted landcover maps for 2025, 2050, 2075 and 2100.
<a href='xml/gulfmex_TX_JC_SLAMM_1_5m_2050.xml' target='_blank'><b>Metadata</b><a></br>
Copyright Text: The Nature Conservancy and Warren Pinnacle Consulting
Description: The image shows the SLAMM landcover cateogories for southern Jefferson County, Texas in 2075 derived from the the Sea Level Rise Affecting Marsh Model (SLAMM) version 6. The model used the1.5 meter sea-level rise by 2100 scenario and was produced by Warren Pinnacle Consulting, Inc. for the Nature Conservancy. The purpose of this map was to show how marshes are predicted to migrate inland due to increases in sea level by 2100. The SLAMM model produced landcover maps for 5 points in time for this specific sea level rise scenario, which included the starting point in 2004 and predicted landcover maps for 2025, 2050, 2075 and 2100.
<a href='xml/gulfmex_TX_JC_SLAMM_1_5m_2075.xml' target='_blank'><b>Metadata</b><a></br>
Copyright Text: The Nature Conservancy and Warren Pinnacle Consulting
Description: The image shows the SLAMM landcover cateogories for southern Jefferson County, Texas in 2100 derived from the the Sea Level Rise Affecting Marsh Model (SLAMM) version 6. The model used the1.5 meter sea-level rise by 2100 scenario and was produced by Warren Pinnacle Consulting, Inc. for the Nature Conservancy. The purpose of this map was to show how marshes are predicted to migrate inland due to increases in sea level by 2100. The SLAMM model produced landcover maps for 5 points in time for this specific sea level rise scenario, which included the starting point in 2004 and predicted landcover maps for 2025, 2050, 2075 and 2100.
<a href='xml/gulfmex_TX_JC_SLAMM_1_5m_2100.xml' target='_blank'><b>Metadata</b><a></br>
Copyright Text: The Nature Conservancy and Warren Pinnacle Consulting
Description: The image shows the SLAMM landcover cateogories for southern Jefferson County, Texas in 2025 derived from the the Sea Level Rise Affecting Marsh Model (SLAMM) version 6. The model used the2 meter sea-level rise by 2100 scenario and was produced by Warren Pinnacle Consulting, Inc. for the Nature Conservancy. The purpose of this map was to show how marshes are predicted to migrate inland due to increases in sea level by 2100. The SLAMM model produced landcover maps for 5 points in time for this specific sea level rise scenario, which included the starting point in 2004 and predicted landcover maps for 2025, 2050, 2075 and 2100.
<a href='xml/gulfmex_TX_JC_SLAMM_2m_2025.xml' target='_blank'><b>Metadata</b><a></br>
Copyright Text: The Nature Conservancy and Warren Pinnacle Consulting
Description: The image shows the SLAMM landcover cateogories for southern Jefferson County, Texas in 2050 derived from the the Sea Level Rise Affecting Marsh Model (SLAMM) version 6. The model used the2 meter sea-level rise by 2100 scenario and was produced by Warren Pinnacle Consulting, Inc. for the Nature Conservancy. The purpose of this map was to show how marshes are predicted to migrate inland due to increases in sea level by 2100. The SLAMM model produced landcover maps for 5 points in time for this specific sea level rise scenario, which included the starting point in 2004 and predicted landcover maps for 2025, 2050, 2075 and 2100.
<a href='xml/gulfmex_TX_JC_SLAMM_2m_2050.xml' target='_blank'><b>Metadata</b><a></br>
Copyright Text: The Nature Conservancy and Warren Pinnacle Consulting
Description: The image shows the SLAMM landcover cateogories for southern Jefferson County, Texas in 2075 derived from the the Sea Level Rise Affecting Marsh Model (SLAMM) version 6. The model used the2 meter sea-level rise by 2100 scenario and was produced by Warren Pinnacle Consulting, Inc. for the Nature Conservancy. The purpose of this map was to show how marshes are predicted to migrate inland due to increases in sea level by 2100. The SLAMM model produced landcover maps for 5 points in time for this specific sea level rise scenario, which included the starting point in 2004 and predicted landcover maps for 2025, 2050, 2075 and 2100.
<a href='xml/gulfmex_TX_JC_SLAMM_2m_2075.xml' target='_blank'><b>Metadata</b><a></br>
Copyright Text: The Nature Conservancy and Warren Pinnacle Consulting
Description: The image shows the SLAMM landcover cateogories for southern Jefferson County, Texas in 2100 derived from the the Sea Level Rise Affecting Marsh Model (SLAMM) version 6. The model used the2 meter sea-level rise by 2100 scenario and was produced by Warren Pinnacle Consulting, Inc. for the Nature Conservancy. The purpose of this map was to show how marshes are predicted to migrate inland due to increases in sea level by 2100. The SLAMM model produced landcover maps for 5 points in time for this specific sea level rise scenario, which included the starting point in 2004 and predicted landcover maps for 2025, 2050, 2075 and 2100.
<a href='xml/gulfmex_TX_JC_SLAMM_2m_2100.xml' target='_blank'><b>Metadata</b><a></br>
Copyright Text: The Nature Conservancy and Warren Pinnacle Consulting
Name: Predicted Estuarine Water Gains in 2025 with 0.18m of SLR
Display Field:
Type: Raster Layer
Geometry Type: null
Description: The file was created by determining all new areas of the estuarine water category created by 1 meter of SLR by 2100 in the predicted 2025 landcover map, which was derived from the SLAMM model, as compared to initial conditions in the 2004 landcover map.
<a href='xml/gulfmex_TX_JC_EstuarineGain_1mSLR_2025.xml' target='_blank'><b>Metadata</b><a></br>
Name: Predicted Estuarine Water Gains in 2050 with 0.41m of SLR
Display Field:
Type: Raster Layer
Geometry Type: null
Description: The file was created by determining all new areas of the estuarine water category created by 1 meter of SLR by 2100 in the predicted 2050 landcover map, which was derived from the SLAMM model, as compared to initial conditions in the 2004 landcover map.
<a href='xml/gulfmex_TX_JC_EstuarineGain_1mSLR_2050.xml' target='_blank'><b>Metadata</b><a></br>
Name: Predicted Estuarine Water Gains in 2075 with 0.70m of SLR
Display Field:
Type: Raster Layer
Geometry Type: null
Description: The file was created by determining all new areas of the estuarine water category created by 1 meter of SLR by 2100 in the predicted 2075 landcover map, which was derived from the SLAMM model, as compared to initial conditions in the 2004 landcover map.
<a href='xml/gulfmex_TX_JC_EstuarineGain_1mSLR_2075.xml' target='_blank'><b>Metadata</b><a></br>
Name: Predicted Estuarine Water Gains in 2100 with 1m of SLR
Display Field:
Type: Raster Layer
Geometry Type: null
Description: The file was created by determining all new areas of the estuarine water category created by 1 meter of SLR by 2100 in the predicted 2100 landcover map, which was derived from the SLAMM model, as compared to initial conditions in the 2004 landcover map.
<a href='xml/gulfmex_TX_JC_EstuarineGain_1mSLR_2100.xml' target='_blank'><b>Metadata</b><a></br>