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U.S. Department of the Interior U.S. Geological Survey Marie C. Peppler USGS FIM Program Liaison Flood Inundation Mapping Program Project needs overview.

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Presentation on theme: "U.S. Department of the Interior U.S. Geological Survey Marie C. Peppler USGS FIM Program Liaison Flood Inundation Mapping Program Project needs overview."— Presentation transcript:

1 U.S. Department of the Interior U.S. Geological Survey Marie C. Peppler USGS FIM Program Liaison Flood Inundation Mapping Program Project needs overview

2 Flood Inundation Maps translate a hydrograph into operational maps that communicate risk and consequences

3 Over 8,000 USGS Gages reporting current stream conditions in NWIS Over 4,000 NWS Flood Forecast/Warning locations in AHPS USGS and NWS Data Networks The FIM Program is built upon these existing data and all of the expertise that is required to develop and maintain them.

4 Creation of Flood Inundation Maps 1. Choose Stream Reach  Streamflow information  Flood Forecast information  Elevation data availability  Topography  Bathymetry  Structure Data Availability  Flood Impact Locations  Critical infrastructure  Routes of egress  Population locations

5 Gather Data  Real-time streamflow information from a gage within the selected reach  Historical flood levels at that gage  Current and historical rating curves at that gage  Short-term probabilistic forecasts at that gage  High-resolution elevation data (dictates the quality of the maps more than any other factor)  Existing hydraulic models (if available and recent)

6 Creation of Flood Inundation Maps 2. Hydraulic Modeling  Calibrate model to streamgage record and current land cover  Well developed rating curves are crucial  Any appropriate model is accepted  USACE HEC-RAS is common  Model must be peer- reviewed and documented  Modeled flood scenarios are chosen to reflect local conditions (bridge conditions, levees, temporary structures, etc.)  In highly complex flow situations, a 2D model might be warranted

7 Creation of Flood Inundation Maps 3. Geospatial Processing  Create TIN models using cross sections and the modeled water surface profile  Intersect the TIN with the DEM to generate predicted inundated areas depth grids  Clean up and QA data  Repeat for all modeled water surface profiles to generate a library of maps

8 Peer-Reviewed Documentation  Required:  Uncertainty and Use Limitations  Study area and scope  Hydrologic data  Hydraulic model calibration and performance  Accuracy assessment  Metadata  Recommended:  Technical Summary Notebook of the hydraulic model  Project QA/QC checklist completed by the project team  Published to a public website http://water.usgs.gov/osw/flood_inundation/toolbox/librarytools.html

9 FIM Mapper – more than just maps http://wim.usgs.gov/FIMI/ ++ USGS Real-time streamgageNWS Flood ForecastFlood Library Turns the modeled map data into an operational tool by combining data together with tools that enhance the utility and don’t require any Modeling or GIS software or skills

10 Questions Marie C. Peppler USGS Wisconsin Water Science Center mpeppler@usgs.gov http://water.usgs.gov/osw/flood_inundation/

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