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Service Description: <div style='text-align:Left;'><div><div><p><span>SLAMM uses elevation, accumulation of sediments, wetland accretion and erosion rates, and sea level rise to predicatively model long-term wetland and shoreline changes. In Maryland, SLAMM was run using the best available science, including sea level rise rates identified at 1.37 feet by year 2050, using base sea levels in the year 2010. The resulting changes to coastal marshes and shorelines can be visualized in their future states by 2050, 2070, and 2100 under a scenario of growing global greenhouse gas emissions with a probability of at least 17%. These results will be used to help frame new land conservation targeting in Maryland's coastal zone. To learn more about Maryland's 2021 SLAMM run, please refer to Warren Pinnacle Consulting, Inc. https://warrenpinnacle.com/prof/SLAMM/EESLR_MD/ Last Updated: 05/23/2023</span></p></div></div></div>

Map Name: MD_CoastalFloodSLAMM2050

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• SLAMM2050 (1)

Description: SLAMM uses elevation, accumulation of sediments, wetland accretion and erosion rates, and sea level rise to predicatively model long-term wetland and shoreline changes. In Maryland, SLAMM was run using the best available science, including sea level rise rates identified at 1.37 feet by year 2050, using base sea levels in the year 2010. The resulting changes to coastal marshes and shorelines can be visualized in their future states by 2050, 2070, and 2100 under a scenario of growing global greenhouse gas emissions with a probability of at least 17%. These results will be used to help frame new land conservation targeting in Maryland's coastal zone. To learn more about Maryland's 2021 SLAMM run, please refer to Warren Pinnacle Consulting, Inc. https://warrenpinnacle.com/prof/SLAMM/EESLR_MD/ Last Updated: 05/23/2023

Copyright Text: MD Department of Natural Resources, MD iMAP

Spatial Reference: 102100  (3857)  LatestVCSWkid(0)


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Initial Extent:

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Spatial Reference: 102100  (3857)  LatestVCSWkid(0)

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Spatial Reference: 102100  (3857)  LatestVCSWkid(0)

Units: esriMeters

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Document Info:

Title: Coastal Flood Explorer Sea Level Affecting Marshes Model (SLAMM) by 2050
Author:
Comments: SLAMM uses elevation, accumulation of sediments, wetland accretion and erosion rates, and sea level rise to predicatively model long-term wetland and shoreline changes. In Maryland, SLAMM was run using the best available science, including sea level rise rates identified at 1.37 feet by year 2050, using base sea levels in the year 2010. The resulting changes to coastal marshes and shorelines can be visualized in their future states by 2050, 2070, and 2100 under a scenario of growing global greenhouse gas emissions with a probability of at least 17%. These results will be used to help frame new land conservation targeting in Maryland's coastal zone. To learn more about Maryland's 2021 SLAMM run, please refer to Warren Pinnacle Consulting, Inc. https://warrenpinnacle.com/prof/SLAMM/EESLR_MD/ Last Updated: 05/23/2023
Subject: SLAMM uses elevation, accumulation of sediments, wetland accretion and erosion rates, and sea level rise to predicatively model long-term wetland and shoreline changes. In Maryland, SLAMM was run using the best available science, including sea level rise rates identified at 1.37 feet by year 2050, using base sea levels in the year 2010. The resulting changes to coastal marshes and shorelines can be visualized in their future states by 2050, 2070, and 2100 under a scenario of growing global greenhouse gas emissions with a probability of at least 17%. These results will be used to help frame new land conservation targeting in Maryland's coastal zone. To learn more about Maryland's 2021 SLAMM run, please refer to Warren Pinnacle Consulting, Inc. https://warrenpinnacle.com/prof/SLAMM/EESLR_MD/ Last Updated: 05/23/2023
Category:
Keywords: MD,SLAMM,Wetlands,2050,Modeling,Flood,Statistics,Wetlands,Future Wetlands,Coastal Flood Explorer
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