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Turbulence in the coastal environment during HYCODE (2005)

Fredericks, Janet J. ; Trowbridge, John H.

Woods Hole Oceanographic Institution

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Publication Date: 2022-05-25

Description: A tall tripod equipped with two acoustic Doppler velocimeters (ADVs) was deployed at a water depth of 15 m off the coast of New Jersey near the LEO-15 site. Sensors were co-located near the bottom to provide good estimates of Reynolds stress. Thermistors were located within several centimeters of the velocity sample volume to provide simultaneously sampled estimates of turbulent temperature variance and vertical temperature flux. One of the ADVs was equipped with a pressure and a temperature sensor. A wave/tide gauge was placed at 4 meters above bottom. The instruments were deployed late July through early December of 2000 and late June through early August of 2001. For the 2001 deployment, a single beam acoustic Doppler velocity sensor (DopBeam) was added to measure high frequency vertical velocity variance and echo intensity within the bottom boundary layer. A second tripod was deployed nearby and was equipped with an array of LISST sensors and an MSCAT. The purpose of this report is to document the instrumentation and deployment of the tripods and to document the tall tripod data by providing a description of the processing and data formats, time-series summaries of the burst averaged data along with preliminary analyses.

Description: Funding was provided by the Office of Naval Research under Contract No. N00014-99-1-0213.

Keywords: Turbulence ; Stress ; HYCODE ; Endeavor (Ship: 1976-) Cruise EN342 ; Endeavor (Ship: 1976-) Cruise EN344 ; Endeavor (Ship: 1976-) Cruise EN347 ; Endeavor (Ship: 1976-) Cruise EN356 ; Endeavor (Ship: 1976-) Cruise EN358

Repository Name: Woods Hole Open Access Server

Type: Technical Report

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Measurements of momentum and heat transfer across the air–sea interface (2010)

Gerbi, Gregory P. ; Trowbridge, John H. ; Edson, James B. ; [et al.]

American Meteorological Society

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Publication Date: 2022-05-25

Description: Author Posting. © American Meteorological Society, 2008. This article is posted here by permission of American Meteorological Society for personal use, not for redistribution. The definitive version was published in Journal of Physical Oceanography 38 (2008): 1054–1072, doi:10.1175/2007JPO3739.1.

Description: This study makes direct measurements of turbulent fluxes in the mixed layer in order to close heat and momentum budgets across the air–sea interface and to assess the ability of rigid-boundary turbulence models to predict mean vertical gradients beneath the ocean’s wavy surface. Observations were made at 20 Hz at nominal depths of 2.2 and 1.7 m in 16 m of water. A new method is developed to estimate the fluxes and the length scales of dominant flux-carrying eddies from cospectra at frequencies below the wave band. The results are compared to independent estimates of those quantities, with good agreement between the two sets of estimates. The observed temperature gradients were smaller than predicted by standard rigid-boundary closure models, consistent with the suggestion that wave breaking and Langmuir circulation increase turbulent diffusivity in the upper ocean. Similarly, the Monin–Obukhov stability function ϕh was smaller in the authors’ measurements than the stability functions used in rigid-boundary applications of the Monin–Obukhov similarity theory. The dominant horizontal length scales of flux-carrying turbulent eddies were found to be consistent with observations in the bottom boundary layer of the atmosphere and from laboratory experiments in three ways: 1) in statically unstable conditions, the eddy sizes scaled linearly with distance to the boundary; 2) in statically stable conditions, length scales decreased with increasing downward buoyancy flux; and 3) downwind length scales were larger than crosswind length scales.

Description: We are grateful to the Office of Naval Research for funding this work as a part of CBLAST-Low.

Keywords: Momentum ; Heating ; Air–sea interaction

Repository Name: Woods Hole Open Access Server

Type: Article

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Observations of cross-shelf flow driven by cross-shelf winds on the inner continental shelf (2010)

Fewings, Melanie R. ; Lentz, Steven J. ; Fredericks, Janet J.

American Meteorological Society

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Publication Date: 2022-05-25

Description: Six-yr-long time series of winds, waves, and water velocity from a cabled coastal observatory in 12 m of water reveal the separate dependence of the cross-shelf velocity profile on cross-shelf and along-shelf winds, waves, and tides. During small waves, cross-shelf wind is the dominant mechanism driving the cross-shelf circulation after tides and tidal residual motions are removed. The along-shelf wind does not drive a substantial cross-shelf circulation. During offshore winds, the cross-shelf circulation is offshore in the upper water column and onshore in the lower water column, with roughly equal and opposite volume transports in the surface and bottom layers. During onshore winds, the circulation is nearly the reverse. The observed profiles and cross-shelf transport in the surface layer during winter agree with a simple two-dimensional unstratified model of cross-shelf wind stress forcing. The cross-shelf velocity profile is more vertically sheared and the surface layer transport is stronger in summer than in winter for a given offshore wind stress. During large waves, the cross-shelf circulation is no longer roughly symmetric in the wind direction. For onshore winds, the cross-shelf velocity profile is nearly vertically uniform, because the wind- and wave-driven shears cancel; for offshore winds, the profile is strongly vertically sheared because the wind- and wave-driven shears have the same sign. The Lagrangian velocity profile in winter is similar to the part of the Eulerian velocity profile due to cross-shelf wind stress alone, because the contribution of Stokes drift to the Lagrangian velocity approximately cancels the contribution of waves to the Eulerian velocity.

Description: This research was funded by the Ocean Sciences Division of the National Science Foundation under Grants OCE-0241292 and OCE-0548961 and by National Aeronautics and Space Administration Headquarters under Grant NNG04GL03G and the Earth System Science Fellowship Grant NNG04GQ14H. MVCO is partly funded by the Woods Hole Oceanographic Institution and the Jewett/EDUC/Harrison Foundation.

Keywords: Continental shelf ; Wind

Repository Name: Woods Hole Open Access Server

Type: Article

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Turbulence in the shallow nearshore environment during SANDYDUCK '97 (2005)

Fredericks, Janet J. ; Trowbridge, John H. ; Voulgaris, George

Woods Hole Oceanographic Institution

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Publication Date: 2022-05-26

Description: An array of five acoustic Doppler velocimeters (ADV), which produce high quality measurements of the three-dimensional velocity vector in a sample volume with a scale of one centimeter, was deployed from late August through late November of 1997 at a water depth of approximately 4.5 m off Duck, North Carolina. The sensors were deployed near the sea floor but above the centimeters-thick wave boundary layer, and the sampling scheme was designed to resolve turbulence statistics averaged over tens of minutes, much longer than typical wave periods but shorter than time scales associated with variablity of energetic wind-driven and wave-driven alongshore flows.

Description: Funding was provided by the National Science Foundation under Grant No. OCE-9810609, the Mellon Foundation and Rinehart Coastal Research Center.

Keywords: Turbulence ; Nearshore ; SANDYDUCK

Repository Name: Woods Hole Open Access Server

Type: Technical Report

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Martha's Vineyard Coastal Observatory 2022 (2023)

Cinquino, Eve ; Batchelder, Sidney ; Fredericks, Janet J. ; [et al.]

Woods Hole Oceanographic Institution

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Publication Date: 2023-01-31

Description: Martha's Vineyard Coastal Observatory (MVCO) is a leading research and engineering facility operated by Woods Hole Oceanographic Institution. MVCO has been collecting ocean and atmospheric data at 3 sites on and near Martha's Vineyard since 2001. A meteorological mast (met mast) on South Beach in Edgartown, MA has collected atmospheric data since May 31 2001. An Air Sea Interaction Tower (ASIT) has been collecting atmospheric and subsurface oceanic data since August 5, 2004. A seafloor node (12m node) has been collecting oceanic data from the seafloor since June 14, 2001. This dataset encompasses the core data (wind speed and direction, air pressure, temperature and relative humidity, water temperature and salinity, and wave data) that has been collected during this period. To learn more about the facility and see additional data collected during short term deployments, visit the MVCO Website (https://mvco.whoi.edu/).

Keywords: Coastal Ocean ; CTD data ; ADCP data ; Anemometer Data ; PTH data ; Ocean-Atmosphere Interaction ; Martha's Vineyard ; Northeast US Shelf ; NES ; Wind ; Air Temperature ; Relative Humidity ; Air Pressure ; Water Temperature ; Salinity ; Surface Waves ; MVCO

Repository Name: Woods Hole Open Access Server

Type: Dataset

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