Description: This is the U.S. Fish & Wildife Service critical habitat for the Loggerhead Turtle. Critical Habitat is a specific geographic area(s) that contains features essential for the conservation of a threatened or endangered species and that may require special management and protection.
<a href='xml/sefl_critical_hab_loggerhead_turtle.xml' target='_blank'><b>Metadata</b><a></br>
Description: This is the U.S. Fish & Wildife Service critical habitat for the Florida Leafwing butterfly. Critical Habitat is a specific geographic area(s) that contains features essential for the conservation of a threatened or endangered species and that may require special management and protection.
<a href='xml/sefl_critical_hab_Florida_leafwing_export.xml' target='_blank'><b>Metadata</b><a></br>
Copyright Text: U. S. Fish & Wildlife Service, South Florida Ecological Services Field Office
Description: This is the U.S. Fish & Wildife Service critical habitat for the Bartrams Scrub-hairstreak butterfly. Critical Habitat is a specific geographic area(s) that contains features essential for the conservation of a threatened or endangered species and that may require special management and protection.
<a href='xml/sefl_critical_hab_Bartrams_scrub_hairstreak_export.xml' target='_blank'><b>Metadata</b><a></br>
Copyright Text: U. S. Fish & Wildlife Service, South Florida Ecological Services Field Office
Description: This is the U.S. Fish & Wildife Service critical habitat for the Cape Sable Thoroughwort. Critical Habitat is a specific geographic area(s) that contains features essential for the conservation of a threatened or endangered species and that may require special management and protection.
<a href='xml/sefl_critical_hab_cape_sable_thoroughwort_export.xml' target='_blank'><b>Metadata</b><a></br>
Copyright Text: U. S. Fish & Wildlife Service, South Florida Ecological Services Field Office
Description: This is the U.S. Fish & Wildife Service critical habitat for the Silver Rice Rat. Critical Habitat is a specific geographic area(s) that contains features essential for the conservation of a threatened or endangered species and that may require special management and protection.
<a href='xml/sefl_critical_hab_silver_rice_rat.xml' target='_blank'><b>Metadata</b><a></br>
Description: This is the U.S. Fish & Wildife Service critical habitat for the Manatee. Critical Habitat is a specific geographic area(s) that contains features essential for the conservation of a threatened or endangered species and that may require special management and protection. This layer shows only the habitat in southeast Florida, not the statewide habitat.
<a href='xml/sefl_critical_hab_manatee.xml' target='_blank'><b>Metadata</b><a></br>
Name: American Crocodile critical habitat (only SE FL shown)
Display Field: AREA
Type: Feature Layer
Geometry Type: esriGeometryPolygon
Description: This is the U.S. Fish & Wildife Service critical habitat for the American Crocodile. Critical Habitat is a specific geographic area(s) that contains features essential for the conservation of a threatened or endangered species and that may require special management and protection. This layer shows only the habitat in southeast Florida, not the statewide habitat.
<a href='xml/sefl_critical_hab_american_crocodile_export.xml' target='_blank'><b>Metadata</b><a></br>
Description: Each point in this GIS data set represents a single deployment event (either a uniquely located artificial reef or deployments of the same reef on different days). Division of Marine Fisheries Management maintains and updates the source database. This data set represents deployments through April 10, 2014.
<a href='xml/gulfmex_fl_artreef_jul14.xml' target='_blank'><b>Metadata</b><a></br>
Copyright Text: FWC Division of Marine Fisheries Management
Description: Live Coral Cover (LCC) is a widely used indicator across coral monitoring programs and is a good evaluator of long-term condition and structure. Percent LCC was derived from the reef monitoring data collected by the Florida Reef Resilience Program (FRRP) and the Coral Reef Evaluation and Monitoring Project (CREMP). <a href='methods/Coral_Cover_Index_Report_Draft.pdf' target='_blank'><b>Coral Cover Index Report (Draft)</b><a></br>
Copyright Text: Shelby Jo Hammett, Rosenstiel School of Marine and Atmospheric Science, University of Miami
Description: The Unified Florida Reef Tract Map (Unified Reef Map-Version 2.0) integrates existing benthic habitat maps of Martin, Palm Beach, Broward, and Miami Counties, Biscayne National Park, Florida Bay, and the Florida Keys, including the Dry Tortugas. This map of the seafloor uses a Unified Classification (UC) system to provide a common and consistent picture of the entire area. UC Level 0 is the coarsest classification level that provides a consistent view of the entire area. Florida Fish and Wildlife Conservation Commission-Fish and Wildlife Research Institute (FWC-FWRI ) is the source. For more information visit: <a href='http://ocean.floridamarine.org/IntegratedReefMap/UnifiedReefTract.htm' target='_blank'><b>FWC Unified Reef Tract</b><a></br>
<a href='xml/sefl_UnifiedReefMap_v20_Lvl0.xml' target='_blank'><b>Metadata</b><a></br>
Copyright Text: This project was made possible by the contribution of data and expertise from partners and funded by NOAA's Office of Ocean and Coastal Resource Management in partnership with the Florida Department of Environmental Protection's Coastal Management Program. See project metadata for individual source map credits.
Description: This data set represents mangroves in Florida. The Florida Fish and Wildlife Conservation Commission (FWC) compiled mangroves from land use/land cover data developed by Florida's water management districts.
<a href='xml/sefl_mangrove_3.xml' target='_blank'><b>Metadata</b><a></br>
Copyright Text: The data are reselected from land use land cover data from the Southwest Florida Water Management District, St. Johns River Water Management District, Suwannee River Water Management District, and South Florida Water Management District, and additional mangroves mapped by Coastal Planning & Engineering, Inc in the Marquesas.
Description: The Salt Marsh land cover category from the South Florida Water Management District (SFWMD) land cover of 2008-2009. <a href='xml/sefl_SFWMD_2008_09_LCLU_SaltMarsh_only.xml' target='_blank'><b>Metadata</b><a></br>
Copyright Text: SFWMD IT-GIS is responisble for the 2008-09 Land Cover / Land Use Mapping Update project
Description: South Florida Water Management District (SFWMD) land cover from 2008-2009. The land cover was classified using the Florida Land Use, Cover and Forms Classification System (FLUCCS). For display here, the land cover is grouped into broad categories.
<a href='xml/sefl_SFWMD_2008_09_LCLU.xml' target='_blank'><b>Metadata</b><a></br>
Description: Points in this layer locate potential places where dune restoration or enhancment may be suitable. In Broward County, points represent locations of projects already identified by Broward County staff. In other counties, points locate gaps between vegetated dunes that are > 20 feet in length. These locations may be suitable for dune projects.
<a href='xml/sefl_Dune_Gaps_PB_BR_MD_centroids.xml' target='_blank'><b>Metadata</b><a></br>
Name: Potential Hardbottom Restoration or Enhancement
Display Field: Label
Type: Feature Layer
Geometry Type: esriGeometryPolygon
Description: Conceptual boundaries for potential hardbottom restoration or enhancement areas. Suitable locations were considered to be about one-half mile away from existing beach nourishment projects and about one-quarter mile away from mitigation reef areas. The potential area for hardbottom placement was defined by buffering existing mapped nearshore reef by 50 feet to form the seaward extent and using either the ~6 foot depth contour or the middle of the existing nearshore reef as the landward boundary.
<a href='xml/sefl_HB_potential_wm.xml' target='_blank'><b>Metadata</b><a></br>
Copyright Text: Paul Davis. The Nature Conservancy
Description: Shoreline restoration, enhancement and stabilization projects in Palm Beach County. Project footprints are from the South Florida Living Shorelines Spatial Database v1.0 developed by Florida Atlantic University. <a href='methods/FAU_Living_Shorelines_Report.pdf' target='_blank'><b>FAU Living Shorelines Report</b><a></br>
Description: Shoreline restoration, enhancement and stabilization projects in Broward County. Project footprints are from the South Florida Living Shorelines Spatial Database v1.0 developed by Florida Atlantic University.
<a href='methods/FAU_Living_Shorelines_Report.pdf' target='_blank'><b>FAU Living Shorelines Report</b><a></br>
Description: Shoreline restoration, enhancement and stabilization projects in Miami-Dade County. Project footprints are from the South Florida Living Shorelines Spatial Database v1.0 developed by Florida Atlantic University.
<a href='methods/FAU_Living_Shorelines_Report.pdf' target='_blank'><b>FAU Living Shorelines Report</b><a></br>
Description: This feature class was created to show the locations of vegetated areas along the Atlantic Ocean shoreline in Palm Beach, Broward, and Miami-Dade Counties. These data were developed by Broward County Environmental Planning Community Resilience Division and the Shoreline Resilience Working Group as a planning tool to identify potential sites for dune restoration projects.
<a href='xml/sefl_CoastalDunes2013.xml' target='_blank'><b>Metadata</b><a></br>
Copyright Text: Aneese Williams, David Stout, David Rubin, Diana Mitsova
,Katie Lelis
Description: This feature class was created to show the locations of the large-scale shoreline protection projects along the Atlantic Ocean shoreline in Palm Beach, Broward, and Miami-Dade Counties. These data were developed by the Broward County Environmental Planning Community Resilience Division and the Shoreline Resilience Working Group as a planning tool to identify potential sites for dune restoration projects. This feature class is to be used with the Coastal Dunes 2013 feature class for planning purposes only.
<a href='xml/sefl_ShoreProtectionProjects.xml' target='_blank'><b>Metadata</b><a></br>
Name: Estuarine Shoreline Suitability for Resilience Projects
Display Field: Suitability
Type: Feature Layer
Geometry Type: esriGeometryPolyline
Description: This layer depicts proposed stabilization options for estuarine shorelines based on extensive suitability modeling done by Florida Atlantic University for the project “Suitability Analysis for Living Shorelines in Southeast Florida Estuarine Systems”. The project's technical report provides the concepts and methodology behind the modeling.
<a href='http://maps.coastalresilience.org/seflorida/methods/Living_Shorelines_Final_Report_05_06_16.pdf' target='_blank'><b>FAU Living Shorelines Report</b><a></br>
Name: Shoreline Suitability for Resilience Projects
Display Field: DESC_
Type: Feature Layer
Geometry Type: esriGeometryPolyline
Description: This layer depicts proposed stabilization options for shorelines in the Florida Keys based on extensive suitability modeling done by Florida Atlantic University. The project's final technical report providing the concepts and methodology behind the modeling will be available online soon.
Copyright Text: Florida Atlantic University and The Nature Conservancy
Description: Generalized county boundaries for Monroe, Miami-Dade, Broward and Palm Beach from the U.S. Census 1:20m dataset.U.S. Census metadata description:The 2013 cartographic boundary shapefiles are simplified representations of selected geographic areas from the U.S. Census Bureau's Master Address File / Topologically Integrated Geographic Encoding and Referencing (MAF/TIGER) Database (MTDB). <a href='xml/sefl_cntbnd_census_20m.xml' target='_blank'><b>Metadata</b><a></br>
Description: NOAA's Environmental Sensitivity Index (ESI) shoreline ranks are grouped to characterize the coastline.
<a href='xml/sefl_ESI.xml' target='_blank'><b>Metadata</b><a></br>
For the ESI code list see:
<a href='http://response.restoration.noaa.gov/maps-and-spatial-data/shoreline-sensitivity-rankings-list.html' target='_blank'><b>NOAA Office of Response and Restoration </b><a></br>
Value: Beach and vegetated shoreline (vegetation in back or front of beach) Label: Beach and vegetated shoreline (vegetation in back or front of beach) Description: Symbol:
Description: Data layer depicting critical erosion areas developed by the Florida Dept. of Environmental Protection, Division of Water Resource Management <a href='xml/gulfmex_fl_critbeach_jul14.xml' target='_blank'><b>Metadata</b><a></br>
Copyright Text: Florida Dept. of Environmental Protection, Division of Water Resource Management
Description: This dataset contains city limits for southeast Florida. It is a subset of a statewide dataset. The data was compiled by the GeoPlan Center using tax code boundaries as defined in 2010 county parcel data from the Florida Department of Revenue (FDOR).
<a href='xml/sefl_citylm_2011_FGDL.xml' target='_blank'><b>Metadata</b><a></br>
Description: These are the aquatic preserves for Palm Beach, Broward, Miami-Dade and Monroe counties extracted from the Florida Dept. of Environmental Protection (FDEP) data layer named aquatic_preserves with a publication date of 2011.
<a href='xml/sefl_only_FDEP_Aquatic_Preserves.xml' target='_blank'><b>Metadata</b><a></br>
Copyright Text: Bureau of Survey & Mapping, Division of State Lands
Name: FEMA National Flood Hazard Layer - Flood Zones
Display Field: DFIRM_ID
Type: Feature Layer
Geometry Type: esriGeometryPolygon
Description: This dataset is the Federal Emergency Management Agency (FEMA) National Flood Hazard Layer (October 2017) from the Florida Geographic Data Library, restricted to the southeast Florida counties. This layer depicts the flood zones in these counties. Visit the <a href='https://www.fema.gov/flood-zones' target='_blank'><b>FEMA webpage for Flood Zones</b><a> to find definitions of the zones.</br>
<a href='xml/sefl_S_Fld_Haz_Ar_Oct2017.xml' target='_blank'><b>Metadata</b><a></br>
Description: These are the conservation lands for Palm Beach, Broward, Miami-Dade and Monroe counties extracted from the Florida Natural Areas Inventory (FNAI)
January 2018 conservation lands data layer (flma_201801). This is a subset of the statewide data layer developed and maintained by FNAI. See the <a href='http://fnai.org/gisdata.cfm' target='_blank'><b>FNAI website</b><a> for more information.</br> <a href='xml/sefl_FNAI_flma_201801.xml' target='_blank'><b>Metadata</b><a>
Name: Predicted Road Flooding with High Sea Level Rise
Display Field:
Type: Group Layer
Geometry Type: null
Description: These layers are scale dependent and not visible below 1:10,000. These layers show predicted road flooding during annual highest tides (king tides) and mean highest high tides observed each day (MHHW) under high sea level rise (24 inches of sea level rise from a 2010 baseline).
Description: This dataset provides a spatial extent of road centerlines in Monroe County, Florida that overlap with digital elevation model (DEM) heights of 39 inches above 1992 MHHW or lower, as identified through the University of Florida's GeoPlan Sea Level Scenario Sketch Planning Tool (http://sls.geoplan.ufl.edu/). This height of 39 inches generally corresponds to a predicted king tide (annual highest tide) under a High range of sea level rise, as projected for 2060 by the Southeast Florida Regional Climate Compact. The dataset was developed in 2014-2015 at Stetson University and the University of Georgia Carl Vinson Institute of Government through the GreenKeys! planning process, as sponsored by Monroe County's Sustainability Program.
<a href='xml/flkeys_Monroe_H_2060_Nuisance_export.xml' target='_blank'><b>Metadata</b><a></br>
Copyright Text: Jason M. Evans, PhD, Stetson University, Department of Environmental Science and Studies; University of Georgia, Carl Vinson Institute of Government; Monroe County, Florida; Florida Department of Transportation; University of Florida, GeoPlan Center
Description: This dataset provides a spatial extent of road centerlines in Monroe County, Florida that overlap with digital elevation model (DEM) heights of 26 inches above 1992 MHHW or lower, as identified through the UF GeoPlan Sea Level Scenario Sketch Planning Tool (http://sls.geoplan.ufl.edu/). This height of 26 inches corresponds to the High range of sea level rise projected for 2060 by the Southeast Florida Regional Climate Compact. The dataset was developed in 2014-2015 at Stetson University and the University of Georgia Carl Vinson Institute of Government through the GreenKeys! planning process, as sponsored by Monroe County's Sustainability Program.
<a href='xml/flkeys_Monroe_H_2060_MHHW_export.xml' target='_blank'><b>Metadata</b><a></br>
Copyright Text: Jason M. Evans, PhD, Stetson University, Department of Environmental Science and Studies; University of Georgia, Carl Vinson Institute of Government; Monroe County, Florida; Florida Department of Transportation; University of Florida, GeoPlan Center
Description: This dataset provides a spatial extent of road centerlines in Monroe County, Florida that overlap with digital elevation model (DEM) heights of 22 inches above 1992 MHHW or lower, as identified through the University of Florida's GeoPlan Sea Level Scenario Sketch Planning Tool (http://sls.geoplan.ufl.edu/). This height of 22 inches generally corresponds to a predicted king tide (annual highest tide) under a High range of sea level rise, as projected for 2030 by the Southeast Florida Regional Climate Compact. The dataset was developed in 2014-2015 at Stetson University and the University of Georgia Carl Vinson Institute of Government through the GreenKeys! planning process, as sponsored by Monroe County's Sustainability Program.
<a href='xml/flkeys_Monroe_H_2030_MHHW_xs1.xml' target='_blank'><b>Metadata</b><a></br>
Copyright Text: Jason M. Evans, PhD, Stetson University, Department of Environmental Science and Studies; University of Georgia, Carl Vinson Institute of Government; Monroe County, Florida; Florida Department of Transportation; University of Florida, GeoPlan Center
Description: Summary
This dataset provides a spatial extent of road centerlines in Monroe County, Florida that overlap with digital elevation model (DEM) heights of 9 inches above 1992 MHHW or lower, as identified through the University of Florida's GeoPlan Sea Level Scenario Sketch Planning Tool (http://sls.geoplan.ufl.edu/). This height of 9 inches corresponds to the High range of sea level rise projected for 2030 by the Southeast Florida Regional Climate Compact. The dataset was developed in 2014-2015 at Stetson University and the University of Georgia Carl Vinson Institute of Government through the GreenKeys! planning process, as sponsored by Monroe County's Sustainability Program.
<a href='xml/flkeys_Monroe_H_2030_MHHW_xs1.xml' target='_blank'><b>Metadata</b><a></br>
Copyright Text: Jason M. Evans, PhD, Stetson University, Department of Environmental Science and Studies; University of Georgia, Carl Vinson Institute of Government; Monroe County, Florida; Florida Department of Transportation; University of Florida, GeoPlan Center
Name: Predicted Road Flooding with Low Sea Level Rise
Display Field:
Type: Group Layer
Geometry Type: null
Description: These layers are scale dependent and not visible below 1:10,000. These layers show predicted road flooding during annual highest tides (king tides) and mean highest high tides observed each day (MHHW) under low sea level rise (9 inches of sea level rise from a 2010 baseline).
Description: This dataset provides a spatial extent of road centerlines in Monroe County, Florida that overlap with digital elevation model (DEM) heights of 23 inches above 1992 MHHW or lower, as identified through the University of Florida's GeoPlan Sea Level Scenario Sketch Planning Tool (http://sls.geoplan.ufl.edu/). This height of 23 inches generally corresponds to a predicted king tide (annual highest tide) under a Low range of sea level rise, as projected for 2060 by the Southeast Florida Regional Climate Compact. The dataset was developed in 2014-2015 at Stetson University and the University of Georgia Carl Vinson Institute of Government through the GreenKeys! planning process, as sponsored by Monroe County's Sustainability Program.
<a href='xml/flkeys_Monroe_L_2060_Nuisance_export.xml' target='_blank'><b>Metadata</b><a></br>
Copyright Text: Jason M. Evans, PhD, Stetson University, Department of Environmental Science and Studies; University of Georgia, Carl Vinson Institute of Government; Monroe County, Florida; Florida Department of Transportation; University of Florida, GeoPlan Center
Description: This dataset provides a spatial extent of road centerlines in Monroe County, Florida that overlap with digital elevation model (DEM) heights of 10 inches above 1992 MHHW or lower, as identified through the UF GeoPlan Sea Level Scenario Sketch Planning Tool (http://sls.geoplan.ufl.edu/). This height of 10 inches corresponds to the Low range of sea level rise projected for 2060 by the Southeast Florida Regional Climate Compact. The dataset was developed in 2014-2015 at Stetson University and the University of Georgia Carl Vinson Institute of Government through the GreenKeys! planning process, as sponsored by Monroe County's Sustainability Program.
<a href='xml/flkeys_Monroe_L_2060_MHHW_export.xml' target='_blank'><b>Metadata</b><a></br>
Copyright Text: Jason M. Evans, PhD, Stetson University, Department of Environmental Science and Studies; University of Georgia, Carl Vinson Institute of Government; Monroe County, Florida; Florida Department of Transportation; University of Florida, GeoPlan Center
Description: This dataset provides a spatial extent of road centerlines in Monroe County, Florida that overlap with digital elevation model (DEM) heights of 17 inches above 1992 MHHW or lower, as identified through the University of Florida's GeoPlan Sea Level Scenario Sketch Planning Tool (http://sls.geoplan.ufl.edu/). This height of 17 inches generally corresponds to a predicted king tide (annual highest tide) under a Low range of sea level rise, as projected for 2030 by the Southeast Florida Regional Climate Compact. The dataset was developed in 2014-2015 at Stetson University and the University of Georgia Carl Vinson Institute of Government through the GreenKeys! planning process, as sponsored by Monroe County's Sustainability Program.
<a href='xml/flkeys_Monroe_L_2030_Nuisance_export.xml' target='_blank'><b>Metadata</b><a></br>
Copyright Text: Jason M. Evans, PhD, Stetson University, Department of Environmental Science and Studies; University of Georgia, Carl Vinson Institute of Government; Monroe County, Florida; Florida Department of Transportation; University of Florida, GeoPlan Center
Description: This dataset provides a spatial extent of road centerlines in Monroe County, Florida that overlap with digital elevation model (DEM) heights of 4 inches above 1992 MHHW or lower, as identified through the University of Florida's GeoPlan Sea Level Scenario Sketch Planning Tool (http://sls.geoplan.ufl.edu/). This height of 4 inches corresponds to the Low range of sea level rise projected for 2030 by the Southeast Florida Regional Climate Compact. The dataset was developed in 2014-2015 at Stetson University and the University of Georgia Carl Vinson Institute of Government through the GreenKeys! planning process, as sponsored by Monroe County's Sustainability Program.
<a href='xml/flkeys_Monroe_L_2060_MHHW_export.xml' target='_blank'><b>Metadata</b><a></br>
Copyright Text: Jason M. Evans, PhD, Stetson University, Department of Environmental Science and Studies; University of Georgia, Carl Vinson Institute of Government; Monroe County, Florida; Florida Department of Transportation; University of Florida, GeoPlan Center
Description: This dataset provides a full set of road centerlines in Monroe County, Florida for use in sea level rise inundation modeling. The dataset was developed in 2014-2015 at Stetson University and the University of Georgia Carl Vinson Institute of Government through the GreenKeys! planning process, as sponsored by Monroe County's Sustainability Program.
<a href='xml/flkeys_Monroe_Original_Roads_export.xml' target='_blank'><b>Metadata</b><a></br>
Copyright Text: Jason M. Evans, PhD, Stetson University, Department of Environmental Science and Studies; University of Georgia, Carl Vinson Institute of Government; Monroe County, Florida; Florida Department of Transportation; University of Florida, GeoPlan Center
Name: Mangrove Change with High Sea Level Rise - 24 in. by 2060
Display Field:
Type: Group Layer
Geometry Type: null
Description: Possible shifts in mangrove habitat under a high sea level rise scenario are depicted. The software ‘Sea Level Affecting Marshes Model’ was used to simulate future habitat in the Florida Keys as part of the GreenKeys! planning process, as sponsored by Monroe County's Sustainability Program. These model results were used to assess the mangrove habitat change.
Description: The simulated change in Mangrove habitat between the current condition and the year 2030 under the high sea level rise scenario defined by the Southeast Florida Climate Compact, a rise of 24 inches by the year 2060. The software ‘Sea Level Affecting Marshes Model’ was used to simulate future habitat in the Florida Keys as part of the GreenKeys! planning process, as sponsored by Monroe County's Sustainability Program. These model results were used to assess the mangrove change.
Description: The simulated change in Mangrove habitat between the current condition and the year 2060 under the high sea level rise scenario defined by the Southeast Florida Climate Compact, a rise of 24 inches by the year 2060. The software ‘Sea Level Affecting Marshes Model’ was used to simulate future habitat in the Florida Keys as part of the GreenKeys! planning process, as sponsored by Monroe County's Sustainability Program. These model results were used to assess the mangrove change.
Description: The simulated change in Mangrove habitat between the current condition and the year 2030 under the high sea level rise scenario defined by the Southeast Florida Climate Compact, a rise of 24 inches by the year 2060. The software ‘Sea Level Affecting Marshes Model’ was used to simulate future habitat in the Florida Keys as part of the GreenKeys! planning process, as sponsored by Monroe County's Sustainability Program. These model results were used to assess the mangrove change.
Description: The simulated change in Mangrove habitat between the current condition and the year 2060 under the high sea level rise scenario defined by the Southeast Florida Climate Compact, a rise of 24 inches by the year 2060. The software ‘Sea Level Affecting Marshes Model’ was used to simulate future habitat in the Florida Keys as part of the GreenKeys! planning process, as sponsored by Monroe County's Sustainability Program. These model results were used to assess the mangrove change.
Description: The simulated change in Mangrove habitat between the current condition and the year 2030 under the high sea level rise scenario defined by the Southeast Florida Climate Compact, a rise of 24 inches by the year 2060. The software ‘Sea Level Affecting Marshes Model’ was used to simulate future habitat in the Florida Keys as part of the GreenKeys! planning process, as sponsored by Monroe County's Sustainability Program. These model results were used to assess the mangrove change.
Description: The simulated change in Mangrove habitat between the current condition and the year 2060 under the high sea level rise scenario defined by the Southeast Florida Climate Compact, a rise of 24 inches by the year 2060. The software ‘Sea Level Affecting Marshes Model’ was used to simulate future habitat in the Florida Keys as part of the GreenKeys! planning process, as sponsored by Monroe County's Sustainability Program. These model results were used to assess the mangrove change.
Name: Mangrove Change with Low Sea Level Rise - 9 in. by 2060
Display Field:
Type: Group Layer
Geometry Type: null
Description: Possible shifts in mangrove habitat under a low sea level rise scenario are depicted. The software ‘Sea Level Affecting Marshes Model’ was used to simulate future habitat in the Florida Keys as part of the GreenKeys! planning process, as sponsored by Monroe County's Sustainability Program. These model results were used to assess the mangrove habitat change.
Description: The simulated change in Mangrove habitat between the current condition and the year 2030 under the low sea level rise scenario defined by the Southeast Florida Climate Compact, a rise of 9 inches by the year 2060. The software ‘Sea Level Affecting Marshes Model’ was used to simulate future habitat in the Florida Keys as part of the GreenKeys! planning process, as sponsored by Monroe County's Sustainability Program. These model results were used to assess the mangrove change.
Description: The simulated change in Mangrove habitat between the current condition and the year 2060 under the low sea level rise scenario defined by the Southeast Florida Climate Compact, a rise of 9 inches by the year 2060. The software ‘Sea Level Affecting Marshes Model’ was used to simulate future habitat in the Florida Keys as part of the GreenKeys! planning process, as sponsored by Monroe County's Sustainability Program. These model results were used to assess the mangrove change.
Description: The simulated change in Mangrove habitat between the current condition and the year 2030 under the low sea level rise scenario defined by the Southeast Florida Climate Compact, a rise of 9 inches by the year 2060. The software ‘Sea Level Affecting Marshes Model’ was used to simulate future habitat in the Florida Keys as part of the GreenKeys! planning process, as sponsored by Monroe County's Sustainability Program. These model results were used to assess the mangrove change.
Description: The simulated change in Mangrove habitat between the current condition and the year 2060 under the low sea level rise scenario defined by the Southeast Florida Climate Compact, a rise of 9 inches by the year 2060. The software ‘Sea Level Affecting Marshes Model’ was used to simulate future habitat in the Florida Keys as part of the GreenKeys! planning process, as sponsored by Monroe County's Sustainability Program. These model results were used to assess the mangrove change.
Description: The simulated change in Mangrove habitat between the current condition and the year 2030 under the low sea level rise scenario defined by the Southeast Florida Climate Compact, a rise of 9 inches by the year 2060. The software ‘Sea Level Affecting Marshes Model’ was used to simulate future habitat in the Florida Keys as part of the GreenKeys! planning process, as sponsored by Monroe County's Sustainability Program. These model results were used to assess the mangrove change.
Description: The simulated change in Mangrove habitat between the current condition and the year 2060 under the low sea level rise scenario defined by the Southeast Florida Climate Compact, a rise of 9 inches by the year 2060. The software ‘Sea Level Affecting Marshes Model’ was used to simulate future habitat in the Florida Keys as part of the GreenKeys! planning process, as sponsored by Monroe County's Sustainability Program. These model results were used to assess the mangrove change.
Description: The City Boundary layer, originally created by the Office of City Clerk, bounds the City of Miami to its current limits. The layer is edited and maintained by GIS Team of the City.
Copyright Text: Information Technology Department, GIS Team, City of Miami
Description: This layer depicts proposed stabilization options for estuarine shorelines in parcels owned by the city of Miami (June 2017). This data is a subset of the full data layer that was a result of suitability modeling done by Florida Atlantic University for the project “Suitability Analysis for Living Shorelines in Southeast Florida Estuarine Systems”. The project's technical report provides the concepts and methodology behind the modeling.
<a href='http://maps.coastalresilience.org/seflorida/methods/Living_Shorelines_Final_Report_05_06_16.pdf' target='_blank'><b>FAU Living Shorelines Report</b><a></br>
Description: This layer depicts proposed stabilization options for estuarine shorelines within the boundary of the city of Miami. This data is a subset of the full data layer that was a result of suitability modeling done by Florida Atlantic University for the project “Suitability Analysis for Living Shorelines in Southeast Florida Estuarine Systems”. The project's technical report provides the concepts and methodology behind the modeling. <a href='http://maps.coastalresilience.org/seflorida/methods/Living_Shorelines_Final_Report_05_06_16.pdf' target='_blank'><b>FAU Living Shorelines Report</b><a></br>
Description: These data were developed for the “Planning for Sea Level Rise in the Matanzas Basin” project conducted between 2011-2014 by staff from the University of Florida (UF), Guana Tolomato Matanzas National Estuarine Research Reserve (GTMNERR), and others
<a href='methods/planning-for-sea-level-rise-in-the-matanzas-basin1.pdf' target='_blank'><b>Matanzas Basin Planning Report</b><a></br>
Description: This layer represents the study area for the "Planning for Sea Level Rise in the Matanzas Basin" project, conducted by the University of Florida in collaboration with the Guana Tolomato Matanzas National Estuarine Research Reserve (GTM) from 2011-2014.
<a href='xml/nefl_GTM_Study_Area.xml' target='_blank'><b>Metadata</b><a></br>
Description: These data were developed for the “Planning for Sea Level Rise in the Matanzas Basin” project conducted between 2011-2014 by staff from the University of Florida (UF), Guana Tolomato Matanzas National Estuarine Research Reserve (GTMNERR), and others.
Description: Areas included in this shapefile represent areas inundated by a 0.5m sea level rise. Areas of inundation were identified using the digital elevation model produced for the project and a simple "bathtub" projection, which assumes that everything below the elevation of 0.5m is inundated. This data was developed for the “Planning for Sea Level Rise in the Matanzas Basin” project conducted between 2011-2014 by staff from the University of Florida (UF), Guana Tolomato Matanzas National Estuarine Research Reserve (GTMNERR), and others.
<a href='xml/05mSLR_bathtub.xml' target='_blank'><b>Metadata</b><a></br>
Description: Areas included in this shapefile represent areas inundated by a 1m sea level rise. Areas of inundation were identified using the digital elevation model produced for the project and a simple "bathtub" projection, which assumes that everything below the elevation of 1m is inundated. This data was developed for the “Planning for Sea Level Rise in the Matanzas Basin” project conducted between 2011-2014 by staff from the University of Florida (UF), Guana Tolomato Matanzas National Estuarine Research Reserve (GTMNERR), and others.
<a href='xml/1mSLR_bathtub.xml' target='_blank'><b>Metadata</b><a></br>
Description: These data were developed for the “Planning for Sea Level Rise in the Matanzas Basin” project conducted between 2011-2014 by staff from the University of Florida (UF), Guana Tolomato Matanzas National Estuarine Research Reserve (GTMNERR), and others.
Description: This data shows the results of a base 100 year storm surge inundation within St. Johns and Flagler counties in Florida. Areas included in this data are those that would be inundated. HAZUS software was used to produce this data. This data was developed for the “Planning for Sea Level Rise in the Matanzas Basin” project conducted between 2011-2014 by staff from the University of Florida (UF), Guana Tolomato Matanzas National Estuarine Research Reserve (GTMNERR), and others.
<a href='xml/Base100yrStormSurge.xml' target='_blank'><b>Metadata</b><a></br>
Name: Storm Surge (100 year) with 0.5m Sea Level Rise
Display Field: OBJECTID
Type: Feature Layer
Geometry Type: esriGeometryPolygon
Description: This data shows the results of 0.5m sea level rise and inundation from a 100 year storm surge within St Johns and Flagler counties in Florida. Areas included in this data are those that would be inundated. HAZUS software was used to produce this data. This data was developed for the “Planning for Sea Level Rise in the Matanzas Basin” project conducted between 2011-2014 by staff from the University of Florida (UF), Guana Tolomato Matanzas National Estuarine Research Reserve (GTMNERR) and others.
<a href='xml/05mSLRStormSurge.xml' target='_blank'><b>Metadata</b><a></br>
Name: Storm Surge (100 year) with 1m Sea Level Rise
Display Field: OBJECTID
Type: Feature Layer
Geometry Type: esriGeometryPolygon
Description: This data shows the results of a 1m sea level rise and inundation from a 100 year storm surge within St. Johns and Flagler counties in Florida. Areas included in this data are those that would be inundated. HAZUS software was used to produce this data. This data was developed for the “Planning for Sea Level Rise in the Matanzas Basin” project conducted between 2011-2014 by staff from the University of Florida (UF), Guana Tolomato Matanzas National Estuarine Research Reserve (GTMNERR), and others.
<a href='xml/1mSLRStormSurge.xml' target='_blank'><b>Metadata</b><a></br>