Dauphin Island Storms and Sea Level Rise Assessment: XBeach Model Input and Results for the Hurricane Katrina Intermediate-Low Sea Level Rise Scenario

Using the numerical model XBeach version 4926 (Roelvink and others, 2009), hurricanes Ivan (2004) and Katrina (2005) were simulated at Dauphin Island, Alabama, under present-day conditions and future sea level rise scenarios as described in Passeri and others, 2018. The XBeach model setup requires the input of a merged topographic and bathymetric digital elevation model (DEM), and inputs of wave spectra (based on significant wave height, peak wave period and wave direction) and water level (tide and surge) time series. Model inputs and outputs in the form of topography and bathymetry are provided in this data release. For further information regarding model input generation and visualization of model output topography and bathymetry, refer to Passeri and others, 2018.

Data and Resources

Field Value
accessLevel public
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identifier USGS:bbfdcf36-97e4-43ab-b51c-c4459d8821c3
metadata_type geospatial
modified 20201013
old-spatial -88.8654564994, 29.7867685543, -88.7366845091, 30.0633577357
publisher U.S. Geological Survey
publisher_hierarchy Department of the Interior > U.S. Geological Survey
resource-type Dataset
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source_hash c5f9de2bb176440ba93c712ba3d4ed7266475f4d
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spatial {"type": "Polygon", "coordinates": [[[-88.8654564994, 29.7867685543], [-88.8654564994, 30.0633577357], [ -88.7366845091, 30.0633577357], [ -88.7366845091, 29.7867685543], [-88.8654564994, 29.7867685543]]]}
theme {geospatial}
Groups
  • AmeriGEOSS
  • National Provider
  • North America
Tags
  • alabama
  • amerigeo
  • amerigeoss
  • barrier-island
  • bathymetry
  • ckan
  • coastal
  • coastal-ecosystems
  • dauphin-island
  • digital-elevation-models
  • elevation
  • estuaries
  • estuarine-ecosystems
  • geo
  • geomorphology
  • geoscientificinformation
  • geoss
  • gulf-of-mexico
  • hurricane-ivan
  • hurricane-katrina
  • marine-geology
  • marine-sediment-transport
  • morphologic-change
  • national
  • north-america
  • ocean-processes
  • oceans
  • sea-level-change
  • sea-level-rise
  • sediment-transport
  • spcmsc
  • st-petersburg-coastal-and-marine-science-center
  • storm-impact
  • storm-surge
  • tides-oceanic
  • topography
  • u-s-geological-survey
  • united-states
  • usgs
  • usgs-bbfdcf36-97e4-43ab-b51c-c4459d8821c3
isopen False
license_id notspecified
license_title License not specified
maintainer Davina Passeri
maintainer_email dpasseri@usgs.gov
metadata_created 2025-11-21T20:12:18.011186
metadata_modified 2025-11-21T20:12:18.011193
notes Using the numerical model XBeach version 4926 (Roelvink and others, 2009), hurricanes Ivan (2004) and Katrina (2005) were simulated at Dauphin Island, Alabama, under present-day conditions and future sea level rise scenarios as described in Passeri and others, 2018. The XBeach model setup requires the input of a merged topographic and bathymetric digital elevation model (DEM), and inputs of wave spectra (based on significant wave height, peak wave period and wave direction) and water level (tide and surge) time series. Model inputs and outputs in the form of topography and bathymetry are provided in this data release. For further information regarding model input generation and visualization of model output topography and bathymetry, refer to Passeri and others, 2018.
num_resources 2
num_tags 40
title Dauphin Island Storms and Sea Level Rise Assessment: XBeach Model Input and Results for the Hurricane Katrina Intermediate-Low Sea Level Rise Scenario