David Thompson
David Thompson is a Physical Scientist at the St. Petersburg Coastal and Marine Science Center in St. Petersburg, Florida.
Science and Products
Filter Total Items: 32
Appendix D: Use of wave scenarios to assess potential submerged oil mat (SOM) formation along the coast of Florida and Alabama
During the Deepwater Horizon oil spill, oil in the surf zone mixed with sediment in the surf zone to form heavier-than-water sediment oil agglomerates of various size, ranging from small (cm-scale) pieces (surface residual balls, SRBs) to large mats (100-m scale, surface residue mats, SR mats). Once SR mats formed in the nearshore or in the intertidal zone, they may have become buried by sand movi
Authors
P. Soupy Dalyander, Joseph W. Long, Nathaniel G. Plant, David M. Thompson
National assessment of hurricane-induced coastal erosion hazards--Gulf of Mexico
Sandy beaches provide a natural barrier between the ocean and inland communities, ecosystems, and resources. However, these dynamic environments move and change in response to winds, waves, and currents. During a hurricane, these changes can be large and sometimes catastrophic. High waves and storm surge act together to erode beaches and inundate low-lying lands, putting inland communities at risk
Authors
Hilary F. Stockdon, Kara S. Doran, David M. Thompson, Kristin L. Sopkin, Nathaniel G. Plant, Asbury H. Sallenger
Process-based model predictions of hurricane induced morphodynamic change on low-lying barrier islands
Using Delft3D, a Chandeleur Island model was constructed to examine the sediment-transport patterns and morphodynamic change caused by Hurricane Katrina and similar storm events. The model setup included a coarse Gulf of Mexico domain and a nested finer-resolution Chandeleur Island domain. The finer-resolution domain resolved morphodynamic processes driven by storms and tides. A sensitivity analys
Authors
Nathaniel G. Plant, David M. Thompson, Edwin Elias
Beach morphology monitoring in the Columbia River Littoral Cell: 1997-2005
This report describes methods used, data collected, and results of the Beach Morphology Monitoring Program in the Columbia River Littoral Cell (CRLC) from 1997 to 2005. A collaborative group primarily consisting of the US Geological Survey and the Washington State Department of Ecology performed this work. Beach Monitoring efforts consisted of collecting topographic and bathymetric horizontal and
Authors
Peter Ruggiero, Jodi L. Eshleman, Etienne Kingsley, David M. Thompson, Brian Voigt, George M. Kaminsky, Guy Gelfenbaum
Modeling dune response using measured and equilibrium bathymetric profiles
Coastal engineers typically use numerical models such as SBEACH to predict coastal change due to extreme storms. SBEACH model inputs include pre-storm profiles, wave heights and periods, and water levels. This study focuses on the sensitivity of SBEACH to the details of pre-storm bathymetry. The SBEACH model is tested with two initial conditions for bathymetry, including (1) measured bathymetry fr
Authors
Laura A. Fauver, David M. Thompson, Asbury H. Sallenger
Vulnerability of National Park Service beaches to inundation during a direct hurricane landfall: Cape Lookout National Seashore
Cape Lookout National Seashore, a barrier-island coastal park in North Carolina, is vulnerable to the powerful, sand-moving forces of hurricanes. Waves and storm surge associated with these strong tropical storms are part of a natural process in barrier-island evolution and can cause extensive morphologic changes in coastal parks, leading to road closures and reduced visitor accessibility. The vul
Authors
Hilary F. Stockdon, David M. Thompson
Vulnerability of National Park Service beaches to inundation during a direct hurricane landfall: Cumberland Island National Seashore
Cumberland Island National Seashore, a barrier-island coastal park in Georgia, is vulnerable to the powerful, sand-moving forces of hurricanes. Waves and storm surge associated with these strong tropical storms are part of the natural process of barrier-island evolution and can cause extensive morphologic changes in coastal parks, leading to reduced visitor accessibility and enjoyment. The vulnera
Authors
Hilary F. Stockdon, David M. Thompson, Laura A. Fauver
Vulnerability of National Park Service beaches to inundation during a direct hurricane landfall: Fire Island National Seashore
Waves and storm surge associated with strong tropical storms are part of the natural process of barrier-island evolution and can cause extensive morphologic changes in coastal parks, leading to reduced visitor accessibility and enjoyment. Even at Fire Island National Seashore, a barrier-island coastal park in New York where extratropical storms (northeasters) dominate storm activity, the beaches a
Authors
Hilary F. Stockdon, David M. Thompson
Science and Products
Filter Total Items: 32
Appendix D: Use of wave scenarios to assess potential submerged oil mat (SOM) formation along the coast of Florida and Alabama
During the Deepwater Horizon oil spill, oil in the surf zone mixed with sediment in the surf zone to form heavier-than-water sediment oil agglomerates of various size, ranging from small (cm-scale) pieces (surface residual balls, SRBs) to large mats (100-m scale, surface residue mats, SR mats). Once SR mats formed in the nearshore or in the intertidal zone, they may have become buried by sand movi
Authors
P. Soupy Dalyander, Joseph W. Long, Nathaniel G. Plant, David M. Thompson
National assessment of hurricane-induced coastal erosion hazards--Gulf of Mexico
Sandy beaches provide a natural barrier between the ocean and inland communities, ecosystems, and resources. However, these dynamic environments move and change in response to winds, waves, and currents. During a hurricane, these changes can be large and sometimes catastrophic. High waves and storm surge act together to erode beaches and inundate low-lying lands, putting inland communities at risk
Authors
Hilary F. Stockdon, Kara S. Doran, David M. Thompson, Kristin L. Sopkin, Nathaniel G. Plant, Asbury H. Sallenger
Process-based model predictions of hurricane induced morphodynamic change on low-lying barrier islands
Using Delft3D, a Chandeleur Island model was constructed to examine the sediment-transport patterns and morphodynamic change caused by Hurricane Katrina and similar storm events. The model setup included a coarse Gulf of Mexico domain and a nested finer-resolution Chandeleur Island domain. The finer-resolution domain resolved morphodynamic processes driven by storms and tides. A sensitivity analys
Authors
Nathaniel G. Plant, David M. Thompson, Edwin Elias
Beach morphology monitoring in the Columbia River Littoral Cell: 1997-2005
This report describes methods used, data collected, and results of the Beach Morphology Monitoring Program in the Columbia River Littoral Cell (CRLC) from 1997 to 2005. A collaborative group primarily consisting of the US Geological Survey and the Washington State Department of Ecology performed this work. Beach Monitoring efforts consisted of collecting topographic and bathymetric horizontal and
Authors
Peter Ruggiero, Jodi L. Eshleman, Etienne Kingsley, David M. Thompson, Brian Voigt, George M. Kaminsky, Guy Gelfenbaum
Modeling dune response using measured and equilibrium bathymetric profiles
Coastal engineers typically use numerical models such as SBEACH to predict coastal change due to extreme storms. SBEACH model inputs include pre-storm profiles, wave heights and periods, and water levels. This study focuses on the sensitivity of SBEACH to the details of pre-storm bathymetry. The SBEACH model is tested with two initial conditions for bathymetry, including (1) measured bathymetry fr
Authors
Laura A. Fauver, David M. Thompson, Asbury H. Sallenger
Vulnerability of National Park Service beaches to inundation during a direct hurricane landfall: Cape Lookout National Seashore
Cape Lookout National Seashore, a barrier-island coastal park in North Carolina, is vulnerable to the powerful, sand-moving forces of hurricanes. Waves and storm surge associated with these strong tropical storms are part of a natural process in barrier-island evolution and can cause extensive morphologic changes in coastal parks, leading to road closures and reduced visitor accessibility. The vul
Authors
Hilary F. Stockdon, David M. Thompson
Vulnerability of National Park Service beaches to inundation during a direct hurricane landfall: Cumberland Island National Seashore
Cumberland Island National Seashore, a barrier-island coastal park in Georgia, is vulnerable to the powerful, sand-moving forces of hurricanes. Waves and storm surge associated with these strong tropical storms are part of the natural process of barrier-island evolution and can cause extensive morphologic changes in coastal parks, leading to reduced visitor accessibility and enjoyment. The vulnera
Authors
Hilary F. Stockdon, David M. Thompson, Laura A. Fauver
Vulnerability of National Park Service beaches to inundation during a direct hurricane landfall: Fire Island National Seashore
Waves and storm surge associated with strong tropical storms are part of the natural process of barrier-island evolution and can cause extensive morphologic changes in coastal parks, leading to reduced visitor accessibility and enjoyment. Even at Fire Island National Seashore, a barrier-island coastal park in New York where extratropical storms (northeasters) dominate storm activity, the beaches a
Authors
Hilary F. Stockdon, David M. Thompson