These data were created as part of the National Oceanic and Atmospheric Administration Office for Coastal Management's efforts to create an online mapping viewer called the NOAA Lake Level Viewer. It depicts potential lake level rise and fall and its associated impacts on the nation's coastal areas. The purpose of the mapping viewer is to provide coastal managers and scientists with a preliminary look at lake level change, coastal flooding impacts, and exposed lakeshore. The viewer is a screening-level tool that uses nationally consistent data sets and analyses. Data and maps provided can be used at several scales to help gauge trends and prioritize actions for different scenarios. The NOAA Lake Level Viewer may be accessed at: https://coast.noaa.gov/llv.
This metadata record describes the Lake Superior digital elevation model (DEM), which is a part of a series of DEMs produced for the National Oceanic and Atmospheric Administration Office for Coastal Management's Lake Level Viewer described above. This DEM includes the best available lidar, US Army Corps of Engineer dredge surveys, and National Park Service multibeam data known to exist at the time of DEM creation that met project specifications. This DEM includes data for Alger, Baraga, Chippewa, Gogebic, Houghton, Keweenaw, Luce, Marquette, and Ontonagon counties in Michigan; Cook, Lake, and St. Louis counties in Minnesota; and Ashland, Bayfield, Douglas, and Iron counties in Wisconsin.
The DEM was produced from the following lidar data sets:
1. 2007, USACE NCMP Topobathy Lidar: Lake Superior (Apostle Islands) and Lake Ontario (NY, WI)
2. 2008, USACE NCMP Topobathy Lidar: Lake Superior (Wisconsin and Michigan)
3. 2009, USACE NCMP Topobathy Lidar: Lake Superior (Duluth, MN)
4. 2009, USACE NCMP Topobathy Lidar: Isle Royale (MI)
5. 2009, USACE NCMP Topobathy Lidar: Apostle Islands, Wisconsin
6. 2009, USACE Lidar: Duluth, MN and Superior, WI (Including shoreline in Douglas, Bayfield, Ashland, and Iron Counties)
7. 2010, EPA Great Lakes Restoration Initiative (GLRI) Bathymetric Lidar: Lake Superior (MI, MN, WI)
8. 2011, USACE NCMP Topobathy Lidar: MI/NY Great Lakes
9. 2011, Northeast Minnesota / Arrowhead Lidar
10. 2013, USACE NCMP Topobathy Lidar: Stamp Sands, Lake Superior (MI)
11. 2013, USACE NCMP Topobathy Lidar: St. Marys River (MI)
12. 2013, USACE NCMP Topobathy Lidar: Lake Superior (MI)
13. 2015, FEMA Ashland County
14. 2016, USACE NCMP Topobathy Lidar: Stamp Sands (MI)
The DEM was produced from the following sonar data sets:
15. USACE Harbor Dredge Surveys (9 surveys)
16. 2013, National Park Service, Pictured Rocks National Lakeshore Multibeam Sonar
17. 2014, National Park Service, Pictured Rocks National Lakeshore Multibeam Sonar
The DEM is referenced vertically to the North American Vertical Datum of 1988 (NAVD88) with vertical units of meters and horizontally to the North American Datum of 1983 (NAD83). The resolution of the DEM is approximately 3 meters.
About this Dataset
| Title | NOAA Office for Coastal Management Coastal Digital Elevation Model: Lake Superior |
|---|---|
| Description | These data were created as part of the National Oceanic and Atmospheric Administration Office for Coastal Management's efforts to create an online mapping viewer called the NOAA Lake Level Viewer. It depicts potential lake level rise and fall and its associated impacts on the nation's coastal areas. The purpose of the mapping viewer is to provide coastal managers and scientists with a preliminary look at lake level change, coastal flooding impacts, and exposed lakeshore. The viewer is a screening-level tool that uses nationally consistent data sets and analyses. Data and maps provided can be used at several scales to help gauge trends and prioritize actions for different scenarios. The NOAA Lake Level Viewer may be accessed at: https://coast.noaa.gov/llv. This metadata record describes the Lake Superior digital elevation model (DEM), which is a part of a series of DEMs produced for the National Oceanic and Atmospheric Administration Office for Coastal Management's Lake Level Viewer described above. This DEM includes the best available lidar, US Army Corps of Engineer dredge surveys, and National Park Service multibeam data known to exist at the time of DEM creation that met project specifications. This DEM includes data for Alger, Baraga, Chippewa, Gogebic, Houghton, Keweenaw, Luce, Marquette, and Ontonagon counties in Michigan; Cook, Lake, and St. Louis counties in Minnesota; and Ashland, Bayfield, Douglas, and Iron counties in Wisconsin. The DEM was produced from the following lidar data sets: 1. 2007, USACE NCMP Topobathy Lidar: Lake Superior (Apostle Islands) and Lake Ontario (NY, WI) 2. 2008, USACE NCMP Topobathy Lidar: Lake Superior (Wisconsin and Michigan) 3. 2009, USACE NCMP Topobathy Lidar: Lake Superior (Duluth, MN) 4. 2009, USACE NCMP Topobathy Lidar: Isle Royale (MI) 5. 2009, USACE NCMP Topobathy Lidar: Apostle Islands, Wisconsin 6. 2009, USACE Lidar: Duluth, MN and Superior, WI (Including shoreline in Douglas, Bayfield, Ashland, and Iron Counties) 7. 2010, EPA Great Lakes Restoration Initiative (GLRI) Bathymetric Lidar: Lake Superior (MI, MN, WI) 8. 2011, USACE NCMP Topobathy Lidar: MI/NY Great Lakes 9. 2011, Northeast Minnesota / Arrowhead Lidar 10. 2013, USACE NCMP Topobathy Lidar: Stamp Sands, Lake Superior (MI) 11. 2013, USACE NCMP Topobathy Lidar: St. Marys River (MI) 12. 2013, USACE NCMP Topobathy Lidar: Lake Superior (MI) 13. 2015, FEMA Ashland County 14. 2016, USACE NCMP Topobathy Lidar: Stamp Sands (MI) The DEM was produced from the following sonar data sets: 15. USACE Harbor Dredge Surveys (9 surveys) 16. 2013, National Park Service, Pictured Rocks National Lakeshore Multibeam Sonar 17. 2014, National Park Service, Pictured Rocks National Lakeshore Multibeam Sonar The DEM is referenced vertically to the North American Vertical Datum of 1988 (NAVD88) with vertical units of meters and horizontally to the North American Datum of 1983 (NAD83). The resolution of the DEM is approximately 3 meters. |
| Modified | 2025-04-04T13:48:52.333Z |
| Publisher Name | N/A |
| Contact | N/A |
| Keywords | EARTH SCIENCE > LAND SURFACE > GEOMORPHIC LANDFORMS/PROCESSES > COASTAL PROCESSES > FLOODING , EARTH SCIENCE > LAND SURFACE > GEOMORPHIC LANDFORMS/PROCESSES > COASTAL PROCESSES > SEA LEVEL CHANGES , EARTH SCIENCE > LAND SURFACE > TOPOGRAPHY > TERRAIN ELEVATION > DIGITAL ELEVATION/TERRAIN MODEL (DEM) , CONTINENT > NORTH AMERICA > UNITED STATES OF AMERICA > GREAT LAKES , Bathymetry/Topography , DEM , Digital Elevation Model , elevation , flooding , inundation , lidar , sonar , topography , water levels , Alger County , Ashland County , Baraga County , Bayfield County , Chippewa County , Cook County , Douglas County , Gogebic County , Great Lakes , Houghton County , Iron County , Keweenaw County , Lake County , Lake Superior , Luce County , Marquette County , Michigan , Minnesota , Ontonagon County , St. Louis County , US , Wisconsin , DOC/NOAA/NOS/OCM > Office of Coastal Management, National Ocean Service, NOAA, U.S. Department of Commerce , Inundation , elevation |
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"title": "NOAA Office for Coastal Management Coastal Digital Elevation Model: Lake Superior",
"description": "These data were created as part of the National Oceanic and Atmospheric Administration Office for Coastal Management's efforts to create an online mapping viewer called the NOAA Lake Level Viewer. It depicts potential lake level rise and fall and its associated impacts on the nation's coastal areas. The purpose of the mapping viewer is to provide coastal managers and scientists with a preliminary look at lake level change, coastal flooding impacts, and exposed lakeshore. The viewer is a screening-level tool that uses nationally consistent data sets and analyses. Data and maps provided can be used at several scales to help gauge trends and prioritize actions for different scenarios. The NOAA Lake Level Viewer may be accessed at: https:\/\/coast.noaa.gov\/llv.\n \n This metadata record describes the Lake Superior digital elevation model (DEM), which is a part of a series of DEMs produced for the National Oceanic and Atmospheric Administration Office for Coastal Management's Lake Level Viewer described above. This DEM includes the best available lidar, US Army Corps of Engineer dredge surveys, and National Park Service multibeam data known to exist at the time of DEM creation that met project specifications. This DEM includes data for Alger, Baraga, Chippewa, Gogebic, Houghton, Keweenaw, Luce, Marquette, and Ontonagon counties in Michigan; Cook, Lake, and St. Louis counties in Minnesota; and Ashland, Bayfield, Douglas, and Iron counties in Wisconsin.\n \n The DEM was produced from the following lidar data sets:\n 1. 2007, USACE NCMP Topobathy Lidar: Lake Superior (Apostle Islands) and Lake Ontario (NY, WI)\n 2. 2008, USACE NCMP Topobathy Lidar: Lake Superior (Wisconsin and Michigan)\n 3. 2009, USACE NCMP Topobathy Lidar: Lake Superior (Duluth, MN)\n 4. 2009, USACE NCMP Topobathy Lidar: Isle Royale (MI)\n 5. 2009, USACE NCMP Topobathy Lidar: Apostle Islands, Wisconsin\n 6. 2009, USACE Lidar: Duluth, MN and Superior, WI (Including shoreline in Douglas, Bayfield, Ashland, and Iron Counties)\n 7. 2010, EPA Great Lakes Restoration Initiative (GLRI) Bathymetric Lidar: Lake Superior (MI, MN, WI)\n 8. 2011, USACE NCMP Topobathy Lidar: MI\/NY Great Lakes\n 9. 2011, Northeast Minnesota \/ Arrowhead Lidar\n 10. 2013, USACE NCMP Topobathy Lidar: Stamp Sands, Lake Superior (MI)\n 11. 2013, USACE NCMP Topobathy Lidar: St. Marys River (MI)\n 12. 2013, USACE NCMP Topobathy Lidar: Lake Superior (MI)\n 13. 2015, FEMA Ashland County\n 14. 2016, USACE NCMP Topobathy Lidar: Stamp Sands (MI)\n\n The DEM was produced from the following sonar data sets:\n 15. USACE Harbor Dredge Surveys (9 surveys)\n 16. 2013, National Park Service, Pictured Rocks National Lakeshore Multibeam Sonar\n 17. 2014, National Park Service, Pictured Rocks National Lakeshore Multibeam Sonar\n\n The DEM is referenced vertically to the North American Vertical Datum of 1988 (NAVD88) with vertical units of meters and horizontally to the North American Datum of 1983 (NAD83). The resolution of the DEM is approximately 3 meters.",
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