Coastal Model Applications and Field Measurements
Numerical models are used by scientists, engineers, coastal managers, and the public to understand and predict processes in the coastal ocean. This project supports the development and application of open-source coastal models and has several objectives: 1) improve the code of numerical sediment-transport models by implementing new or improved algorithms; 2) obtain measurements of coastal ocean processes to test and verify models; 3) develop new instruments or analysis techniques to make these measurements; and 4) develop software tools and standards to facilitate analysis, comparison, and visualization of observations and models. Study sites are selected for characteristics needed for model development and testing, as well as to address issues of national or regional importance.
This project houses several components, including: model code development; advances in instrumentation, field measurements, and analysis; development of standards and software tools for analysis of model output and comparison with observations; and model applications intended to test model capabilities, capitalize on unique partnering opportunities or field experiments, or address problems of societal relevance that are urgent and/or require new modeling capabilities.
Numerical ocean models are used by scientists, engineers, and coastal managers to understand and predict the effects of physical, biological, and chemical processes in the coastal ocean. This project has four objectives: 1) improve the code of open-source numerical models by implementing new or improved algorithms for processes related to sediment transport; 2) provide measurements of coastal ocean processes to test and verify models; and 3) develop new instruments or analysis techniques to make these measurements; and 4) develop software tools and standards to facilitate incorporation of observations with models and comparison among models. The overall objective is to support development of open-source models that are useful for addressing important problems related to natural hazards and ecosystem change in the coastal ocean.
Below are other science projects associated with this project.
Coastal Model Applications and Field Measurements- Ocean Model Contributions
Below are multimedia items associated with this project.
Below are publications associated with this project.
Alexandrium fundyense cysts in the Gulf of Maine: long-term time series of abundance and distribution, and linkages to past and future blooms
Near-bottom circulation and dispersion of sediment containing Alexandrium fundyense cysts in the Gulf of Maine during 2010-2011
Seasonal circulation over the Catalan inner-shelf (northwest Mediterranean Sea)
Sediment transport due to extreme events: The Hudson River estuary after tropical storms Irene and Lee
Along-shelf current variability on the Catalan inner-shelf (NW Mediterranean)
Bathymetric controls on sediment transport in the Hudson River estuary: Lateral asymmetry and frontal trapping
Summary of oceanographic and water-quality measurements near the Blackwater National Wildlife Refuge, Maryland, 2011
Profile measurements and data from the 2011 Optics, Acoustics, and Stress In Situ (OASIS) project at the Martha's Vineyard Coastal Observatory
Tidal and groundwater fluxes to a shallow, microtidal estuary: Constraining inputs through field observations and hydrodynamic modeling
Exploring the erodibility of sediments and harmful algal blooms in the Gulf of Maine
Palos Verdes Shelf oceanographic study; data report for observations December 2007–April 2008
Summary of oceanographic and water–quality measurements in West Falmouth Harbor and Buzzards Bay, Massachusetts, 2009–2010
Formation dynamics of subsurface hydrocarbon intrusions following the Deepwater Horizon blowout
Experiment descriptions, site locations and EPIC format data products are available at U.S. Geological Survey Oceanographic Time-Series Data Collection
U.S. Geological Survey Oceanographic Time-Series Data Collection
Oceanographic time-series measurements made by the U.S. Geological Survey between 1975 and the present as part of research programs. The data were collected to address specific research questions and were primarily collected over durations less than a year, using stationary platforms, with sensors near the sea floor. These data have been used to study of ocean dynamics and to validate ocean models
Numerical models are used by scientists, engineers, coastal managers, and the public to understand and predict processes in the coastal ocean. This project supports the development and application of open-source coastal models and has several objectives: 1) improve the code of numerical sediment-transport models by implementing new or improved algorithms; 2) obtain measurements of coastal ocean processes to test and verify models; 3) develop new instruments or analysis techniques to make these measurements; and 4) develop software tools and standards to facilitate analysis, comparison, and visualization of observations and models. Study sites are selected for characteristics needed for model development and testing, as well as to address issues of national or regional importance.
This project houses several components, including: model code development; advances in instrumentation, field measurements, and analysis; development of standards and software tools for analysis of model output and comparison with observations; and model applications intended to test model capabilities, capitalize on unique partnering opportunities or field experiments, or address problems of societal relevance that are urgent and/or require new modeling capabilities.
Numerical ocean models are used by scientists, engineers, and coastal managers to understand and predict the effects of physical, biological, and chemical processes in the coastal ocean. This project has four objectives: 1) improve the code of open-source numerical models by implementing new or improved algorithms for processes related to sediment transport; 2) provide measurements of coastal ocean processes to test and verify models; and 3) develop new instruments or analysis techniques to make these measurements; and 4) develop software tools and standards to facilitate incorporation of observations with models and comparison among models. The overall objective is to support development of open-source models that are useful for addressing important problems related to natural hazards and ecosystem change in the coastal ocean.
Below are other science projects associated with this project.
Coastal Model Applications and Field Measurements- Ocean Model Contributions
Below are multimedia items associated with this project.
Below are publications associated with this project.
Alexandrium fundyense cysts in the Gulf of Maine: long-term time series of abundance and distribution, and linkages to past and future blooms
Near-bottom circulation and dispersion of sediment containing Alexandrium fundyense cysts in the Gulf of Maine during 2010-2011
Seasonal circulation over the Catalan inner-shelf (northwest Mediterranean Sea)
Sediment transport due to extreme events: The Hudson River estuary after tropical storms Irene and Lee
Along-shelf current variability on the Catalan inner-shelf (NW Mediterranean)
Bathymetric controls on sediment transport in the Hudson River estuary: Lateral asymmetry and frontal trapping
Summary of oceanographic and water-quality measurements near the Blackwater National Wildlife Refuge, Maryland, 2011
Profile measurements and data from the 2011 Optics, Acoustics, and Stress In Situ (OASIS) project at the Martha's Vineyard Coastal Observatory
Tidal and groundwater fluxes to a shallow, microtidal estuary: Constraining inputs through field observations and hydrodynamic modeling
Exploring the erodibility of sediments and harmful algal blooms in the Gulf of Maine
Palos Verdes Shelf oceanographic study; data report for observations December 2007–April 2008
Summary of oceanographic and water–quality measurements in West Falmouth Harbor and Buzzards Bay, Massachusetts, 2009–2010
Formation dynamics of subsurface hydrocarbon intrusions following the Deepwater Horizon blowout
Experiment descriptions, site locations and EPIC format data products are available at U.S. Geological Survey Oceanographic Time-Series Data Collection
U.S. Geological Survey Oceanographic Time-Series Data Collection
Oceanographic time-series measurements made by the U.S. Geological Survey between 1975 and the present as part of research programs. The data were collected to address specific research questions and were primarily collected over durations less than a year, using stationary platforms, with sensors near the sea floor. These data have been used to study of ocean dynamics and to validate ocean models