Sea Level Rise and Coastal Flooding Impacts Viewer

Contributing Partners:

Launch Viewer

Being able to visualize potential impacts from sea level rise is a powerful teaching and planning tool, and the Sea Level Rise Viewer brings this capability to coastal communities. A slider bar is used to show how various levels of sea level rise will impact coastal communities. Additional coastal counties will be added in the near future. Maps are not currently available for Alaska and Louisiana due to elevation data accuracy, hydraulic complexity, and vertical datum transformation gaps.

screen shot of sea level rise viewer

Features

  • Displays potential future sea levels
  • Provides simulations of sea level rise at local landmarks
  • Communicates the spatial uncertainty of mapped sea levels
  • Models potential marsh migration due to sea level rise
  • Overlays social and economic data onto potential sea level rise
  • Examines how tidal flooding will become more frequent with sea level rise

Acknowledgments

The NOAA Office for Coastal Management would like to acknowledge those organizations that provided direct content for this tool or feedback, ideas, and reviews over the course of the tool’s development. Specifically, the office acknowledges the following groups

The University of Hawaii School of Ocean and Earth Science and Technology through the NOAA Coastal Storms Program performed the mapping for Guam, the Commonwealth of the Northern Mariana Islands, and Hawaii.

The U.S. Geological Survey collaborated with the Office for Coastal Management on the development of two previous sea level rise mapping tools, one in Wilmington, Delaware, and one in Mississippi and Alabama. The lessons learned from these pilots led to the enhancement of the mapping methods and visual display used in this tool.

The Delaware Coastal Management Program provided content to and feedback on the development of the first of the pilots.

State Sea Grant programs―specifically Mississippi-Alabama, Texas, North Carolina, and South Carolina―provided valuable feedback on the development of the second pilot, content on the explanation of sea level rise, and grants for developing and providing Social Vulnerability Index data.

Attendees of the Sea Level Rise and Inundation Community Workshop, Landsdowne, Virginia, December 3-5, 2009.

Culver, M. E., J. R. Schubel, M.A. Davidson, J. Haines, and K.C. Texeira (editors). 2010. Proceedings from the Sea Level Rise and Inundation Community Workshop, Lansdowne, Virginia, December 3-5, 2009. Sponsored by the National Oceanic and Atmospheric Administration and U.S. Geological Survey.

The University of South Carolina Hazards and Vulnerability Research Institute for providing Social Vulnerability Index data.

The Bureau of Labor Statistics for providing the block group analysis of the Quarterly Census of Employment and Wages.

The North Carolina Sea Level Rise study team for providing a good forum for discussion of new sea-level-rise risk assessment techniques.

NOAA Center for Operational Oceanographic Products and Services for providing 3-year water level analysis for flood frequency content.

Special thanks are also extended to the NOAA Digital Coast Partnership for providing comments on the alpha review of the tool. The Nature Conservancy in particular provided helpful input on mapping-confidence methods and marsh migration results.

Story Maps

History Behind Flooding in Charleston, South Carolina
Data from the Sea Level Rise Viewer were used to create an interactive map that shows how areas vulnerable to flooding today were often marshlands in 1863.

Stories from the Field

Providing Climate Education Aids for a Changing Chesapeake Bay
Teachers used Digital Coast resources to educate local students on climate change.

Planning for Resilient Coastal Communities in New York
The Coastal Inundation Mapping training, Roadmap for Adapting to Coastal Risk approach, and other NOAA resources aided New York partners in mapping and assessing Post-Tropical Cyclone Sandy impacts and planning for long-term recovery and resilience.

Assessing Seagrass Vulnerability along Florida’s Gulf Coast
The Sea Level Rise and Coastal Flooding Impacts Viewer data helped local planners identify the impacts of shoreline armoring on seagrass habitats.

Providing Easily Accessible Maps to Aid Ecosystem Restoration in the Gulf of Mexico
MarineCadastre.gov and Coastal Change Analysis Program land cover data are helping to inform ecosystem restoration planning in the Gulf of Mexico.

Creating a Customized Sea Level Rise Viewer to Assist Planners in Florida
A customized viewer was designed using inundation data provided by the Sea Level Rise and Coastal Flooding Impacts Viewer.

Providing Easily Accessible Maps to Aid Ecosystem Restoration in the Gulf of Mexico
MarineCadastre.gov and Coastal Change Analysis Program land cover data are helping to inform ecosystem restoration planning in the Gulf of Mexico.

Increasing Resilience in the San Francisco Bay Area
Lidar data, the Sea Level Rise Viewer, and other Digital Coast resources were critical to the success of the Adapting to Rising Tides project.

Planning for Sea Level Rise Adaptation at the Site Scale in New Jersey
Data from the Sea Level Rise and Coastal Flooding Impacts Viewer was used to assess vulnerability and provide recommendations at three publicly accessible waterfront recreation areas.

Visualizing Coastal Flooding Vulnerabilities to Plan for Resilience in New Jersey
The NJ Flood Mapper has been widely adopted in Sandy’s aftermath to assess coastal vulnerability and plan for resilience.

Communicating the Importance of Regional Marsh Systems in the Northeast
A custom Wetland Benefits Snapshot and sea level rise maps were used to educate residents of several counties in Maine, Massachusetts, and New Hampshire.

Understanding Vulnerability to Sea Level Rise in Southeast Florida
Data from the Sea Level Rise and Coastal Flooding Impacts Viewer helped in the development of policies and programs to address sea level rise.

Bringing Data and Tools to the Restoration Community at a National Conference
Partners unite to put the right Digital Coast data, tools, and training into the hands of communities working to restore vital estuary habitat.

Developing Consistent Methods for Mapping Sea Level Rise in Southeast Florida
Four counties joined forces with other agencies and organizations to agree upon consistent methods for mapping sea level rise to better prepare for sea level rise-related issues.

Visualizing Flood Hazards with Residents and Floodplain Managers in Mississippi
A demonstration of the Sea Level Rise and Coastal Flooding Impacts Viewer spurred discussion at a hazards awareness exhibit.

Identifying Areas Vulnerable to Sea Level Rise in Georgia
The Sea Level Rise and Coastal Flooding Impacts Viewer helped a barrier island community develop an adaptation plan to prepare for and adapt to sea level rise.

Support

Mapping Methods

Reference

"Incorporating Sea Level Change Scenarios at the Local Level"
Outlines eight steps to help communities calculate sea level change scenarios and communicate impacts

"Marshes on the Move"
Provides a basic understanding of the parameters and uncertainties involved in modeling the future impacts of sea level rise on coastal wetlands. This guide is intended for people who use model outputs for decision-making but do not build models themselves.

"New Mapping Tool and Techniques for Visualizing Sea Level Rise and Coastal Flooding Impacts"
Provides a brief history of previous sea level change visualization pilot projects, a detailed discussion of new methods, and future plans for expanding the Sea Level Rise and Coastal Flooding Impacts Viewer to the rest of the U.S.

Citation
Marcy, Douglas, William Brooks, Kyle Draganov, Brian Hadley, Chris Haynes, Nate Herold, John McCombs, Matt Pendleton, Sean Ryan, Keil Schmid, Mike Sutherland, and Kirk Waters. 2011. “New Mapping Tool and Techniques for Visualizing Sea Level Rise and Coastal Flooding Impacts.” In Proceedings of the 2011 Solutions to Coastal Disasters Conference, Anchorage, Alaska, June 26 to June 29, 2011, edited by Louise A. Wallendorf, Chris Jones, Lesley Ewing, and Bob Battalio, 474–90. Reston, VA: American Society of Civil Engineers.

Technical Considerations for Use of Geospatial Data in Sea Level Change Mapping and Assessment
Provides access to a wide range of potential solutions from NOAA and others to assist with planning for sea level change

Citation
National Oceanic and Atmospheric Administration (NOAA) National Ocean Service (NOS). 2010. Technical Considerations for Use of Geospatial Data in Sea Level Change Mapping and Assessment. NOAA NOS Technical Report. Silver Spring, MD: NOAA NOS.

Global Sea Level Rise Scenarios for the United States National Climate Assessment
Synthesizes the scientific literature on global sea level rise and provides four global scenarios. The report includes input from national experts in climate science, physical coastal processes, and coastal management. The website includes frequently asked questions about sea level rise scenarios.

"Vertical Accuracy and Use of Topographic Lidar Data in Coastal Marshes"
Describes elevation accuracy issues with lidar data in coastal marsh environments.

Get It Now

Version 2.0

Launch

  • Mobile-friendly
  • New features! We want your feedback.

Download Data

Provides access to the data used by the tool. These data include:

  • DEMs
  • Sea level rise inundation polygons and rasters
  • Low-lying area polygons
  • Mapping confidence polygons
  • Flood frequency area rasters

Also available:

For technical assistance, or to let us know how you are using the viewer or data, email coastal.info@noaa.gov. In your use of the viewer or data, please credit NOAA's Digital Coast.