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  3. U.S. Geological Survey simulations of 3D-hydrodynamics in Delaware Bay (2019) to improve understanding of the mechanisms driving salinity intrusion
  4. 3D-hydrodynamic simulations in Delaware Bay (2019) forced with river discharge and tides

3D-hydrodynamic simulations in Delaware Bay (2019) forced with river discharge and tides

Dates

Metadata Creation Date
2023-01-24
Publication Date

Citation

Cook, S.E., and Warner, J.C., 2023, U.S. Geological Survey simulations of 3D-hydrodynamics in Delaware Bay (2019) to improve understanding of the mechanisms driving salinity intrusion: U.S. Geological Survey data release, https://doi.org/10.5066/P9GU07FL.

Summary

The Coupled Ocean-Atmosphere-Wave-Sediment Transport (COAWST Warner and others, 2019; Warner and others, 2010) model was used to simulate three-dimensional hydrodynamics and waves to study salinity intrusion in the Delaware Bay estuary for 2019. Salinity intrusion in coastal systems is due in part to extreme events like drought or low-pressure storms and longer-term sea level rise, threatening economic infrastructure and ecological health. Along the eastern seaboard of the United States, approximately 13 million people rely on the water resources of the Delaware River basin, which is actively managed to suppress the salt front (or ~0.52 daily averaged psu line) through river discharge targets. However, river discharge is only part [...]

Contacts

Contact :
Salme E Cook
Author :
Salme E Cook, John C Warner
Data Owner :
Woods Hole Coastal and Marine Science Center
USGS Program :
Coastal and Marine Hazards and Resources Program
Distributor :
U.S. Geological Survey - ScienceBase

Attached Files

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deb_sta_run07C_tide.xml
Original ISO Metadata
View 		198.66 KB application/vnd.iso.19139-2+xml
8.22 GB application/zip
SiteFigure.png
“Delaware Bay model grid” 		thumbnail 1.48 MB image/png
Delaware_Input_tide.zip 51.84 MB application/zip

Purpose

This simulation focused on the impacts of tidal forcing and river discharge on salinity intrusion in 2019 in the Delaware Estuary
Delaware Bay model grid
Delaware Bay model grid

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Type Scheme Key
File Identifier file identifier USGS:6356eb31d34ebe442502d946
File Identifier file identifier USGS:6356eb31d34ebe442502d946
File Identifier file identifier USGS:6356eb31d34ebe442502d946
File Identifier file identifier USGS:6356eb31d34ebe442502d946
File Identifier file identifier USGS:6356eb31d34ebe442502d946
File Identifier file identifier vortexfs1/usgs/Projects/delaware/tide/Output/ocean_deb_sta_run07C_tsvar_testcoawst_tide.nc
File Identifier file identifier USGS:6356eb31d34ebe442502d946
File Identifier file identifier USGS:6356eb31d34ebe442502d946
File Identifier file identifier USGS:6356eb31d34ebe442502d946
File Identifier file identifier USGS:6356eb31d34ebe442502d946
File Identifier file identifier USGS:6356eb31d34ebe442502d946

NetCDF OPeNDAP Service Extension

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summaryThe Coupled Ocean-Atmosphere-Wave-Sediment Transport (COAWST Warner and others, 2019; Warner and others, 2010) model was used to simulate three-dimensional hydrodynamics and waves to study salinity intrusion in the Delaware Bay estuary for 2019. Salinity intrusion in coastal systems is due in part to extreme events like drought or low-pressure storms and longer-term sea level rise, threatening economic infrastructure and ecological health. Along the eastern seaboard of the United States, approximately 13 million people rely on the water resources of the Delaware River basin, which is actively managed to suppress the salt front (or ~0.52 daily averaged psu line) through river discharge targets. However, river discharge is only part of the story. The other mechanisms controlling salinity intrusion include tidal motions on daily and spring-neap cycles, bathymetric and topographic features, and meteorological events. It is the interaction of these mechanisms that ultimately determines the distribution of salt in an estuary, particularly during periods of low discharge. The purpose of this study is to examine the mechanisms controlling the location of the salt front in the Delaware Bay estuary using a calibrated three-dimensional hydrodynamic model, the Coupled Ocean Atmosphere Wave and Sediment Transport (COAWST; v. 3.6) modeling system. The model was forced with tides, subtidal water levels, bulk atmospheric conditions, and waves. Compared with the observation-based location of the salt front line the model captured the major dynamics throughout the year and performed well during times of low discharge. The daily average salt front moved almost 16 km (10 mi) within a neap-spring tidal cycle, while low pressure storm systems were found to move the daily averaged salt front by 13-16 km in one event.
title3D-hydrodynamic simulations in Delaware Bay (2019) forced with river discharge and tides
urlhttps://geoport.usgs.esipfed.org/thredds/dodsC/vortexfs1/usgs/Projects/delaware/tide/Output/ocean_deb_sta_run07C_tsvar_testcoawst_tide.nc
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OGC Web Service Extension

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layersTobc_in, Tobc_out, zeta, ubar, vbar, u, v, w, omega, temp, salt, dye_01, dye_02, dye_03, AKv, tke, gls, sustr, svstr, bustr, bvstr
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