Storm Surges: Difference between revisions

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|[https://tidesandcurrents.noaa.gov/inundationdb/ View]
|[https://tidesandcurrents.noaa.gov/inundationdb/ View]
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|USGS Coastal Change Hazards Portal
|USGS Coastal Change Hazards Portal<ref>https://www.usgs.gov/tools/coastal-change-hazards-portal</ref>
|This portal provides a comprehensive collection of data related to coastal hazards, including storm surge, from a wide range of historical storms. These data are suitable for use in land use planning projects, storm response and recovery protocols, and infrastructure, ecosystem, and cultural resource management decision-making. Resources are organized under three coastal hazard themes: extreme storms, shoreline change, and sea level rise.
|This portal provides a comprehensive collection of data related to coastal hazards, including storm surge, from a wide range of historical storms. These data are suitable for use in land use planning projects, storm response and recovery protocols, and infrastructure, ecosystem, and cultural resource management decision-making. Resources are organized under three coastal hazard themes: extreme storms, shoreline change, and sea level rise.
|[https://marine.usgs.gov/coastalchangehazardsportal/ View]
|[https://marine.usgs.gov/coastalchangehazardsportal/ View]

Revision as of 19:19, 15 August 2024

What is Storm Surge?

Storm surge is the abnormal rise in seawater level during a storm, measured as the height of the water above the normal predicted astronomical tide. The surge is caused primarily by a storm’s winds pushing water onshore. The amplitude of the storm surge at any given location depends on the orientation of the coast line with the storm track; the intensity, size, and speed of the storm; and the local bathymetry.

Storm tide is the total observed seawater level during a storm, resulting from the combination of storm surge and the astronomical tide. Astronomical tides are caused by the gravitational pull of the sun and the moon and have their greatest effects on seawater level during new and full moons—when the sun, the moon, and the Earth are in alignment. As a result, the highest storm tides are often observed during storms that coincide with a new or full moon.[1]

Storm surges are a significant coastal hazard associated with low-pressure weather systems, such as cyclones, hurricanes, and typhoons, which can lead to severe flooding and are a risk for coastal communities. As of February 2015, the dataset comprises over 700 recorded storm surge events.

Datasets

Dataset Description Map viewer link Data access link
Global Peak Storm Surge Map[2] The Global Peak Storm Surge Map is a comprehensive resource that documents the location and magnitude of storm surges worldwide since 1880. View Access
NOAA storm surge data[3] Storm surge forecast generated by a physics-based model SLOSH. Access
National storm surge risk maps[4] An inundation maps for Category 1-5 hurricanes using the SLOSH model. View Access
Global storm surge reconstructions (GSSR) A database of daily maximum surge values for the past at 882 tide gauges distributed along the global coastline. The reconstruction is based on a data-driven model, utilizing five different atmospheric reanalysis products with varying spatial and temporal resolutions to generate surge information for the periods covered by each reanalysis[5]. View Access
NOAA’s Coastal Inundation Dashboard[6] It provides near real-time water level information, as well as storm track and intensity forecast, active coastal flood and storm surge watches and warnings. Storm surge inundation datasets are created using the high tide scenario SLOSH MOM products for all regions. View
USGS Coastal Change Hazards Portal[7] This portal provides a comprehensive collection of data related to coastal hazards, including storm surge, from a wide range of historical storms. These data are suitable for use in land use planning projects, storm response and recovery protocols, and infrastructure, ecosystem, and cultural resource management decision-making. Resources are organized under three coastal hazard themes: extreme storms, shoreline change, and sea level rise. View
Sea level rise inundation[8] These data illustrate potential flooding from future sea level rise—from current mean higher high water to a six-foot rise. View

References