Please use this identifier to cite or link to this item: https://hdl.handle.net/11681/1883
Title: Idealized marsh simulations: sensitivity of hurricane surge and wave height to bottom friction
Authors: Loder, Nicholas M.
Cialone, Mary A.
Irish, Jennifer L.
Wamsley, Ty V.
Keywords: ADCIRC
Elevation
Height
Hurricane
Marsh
STWAVE
Waves
Publisher: Coastal and Hydraulics Laboratory (U.S.)
Engineer Research and Development Center (U.S.)
Series/Report no.: Technical note (Coastal and Hydraulics Engineering (U.S.)) ; I-79.
Description: Technical note
PURPOSE: The purpose of this CHETN is to examine changes in peak surge elevation and wave height due to changes in the frictional resistance of a marsh. Landscape features with vegetation have the potential to reduce storm surge elevations and dissipate wave energy. Land elevations greater than the storm surge elevation act as a physical barrier and create bathymetric resistance for the surge and waves. Landscape features such as marshes also have the potential to create frictional resistance and affect storm surge and wave energy even when below the surge elevation. This is the third in a series of technical notes on the influence of marshes on storm surge and waves. The analysis in this note isolates the sensitivity of the modeled storm surge elevation and wave height to the magnitude of bottom friction change and indicates, in a qualitative sense, the degree to which a marsh density may reduce storm surge elevation and wave height on the coast. The magnitude of bottom friction was systematically increased within a hypothetical marsh area to understand how marsh vegetation type and density may modify storm parameters (surge elevation and wave height) on the coast immediately landward of the marsh.
Rights: Approved for public release; distribution is unlimited.
URI: http://hdl.handle.net/11681/1883
Appears in Collections:Technical Note

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