Wind work in a model of the northwest Atlantic Ocean
TLDR
In this paper, the work done by the wind over the northwest Atlantic Ocean is examined using a realistic high-resolution ocean model driven by synoptic wind forcing, and two model runs are conducted with the difference only in the way the wind stress is calculated.Abstract:
The work done by the wind over the northwest Atlantic Ocean is examined using a realistic high-resolution ocean model driven by synoptic wind forcing. Two model runs are conducted with the difference only in the way the wind stress is calculated. Our results show that the effect of including ocean surface currents in the wind stress formulation is to reduce the total wind work integrated over the model domain by about 17%. The reduction is caused by a sink term in the wind work calculation associated with the presence of ocean currents. In addition, the modelled eddy kinetic energy decreases by about 10%, in response to direct mechanical damping by the surface stress. A simple scaling argument shows that the latter can be expected to be more important than bottom friction in the energy budget.read more
Citations
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Ocean Circulation Kinetic Energy: Reservoirs, Sources, and Sinks
Raffaele Ferrari,Carl Wunsch +1 more
TL;DR: In this paper, the authors focus on the physically different kinetic energy (KE) reservoirs of the circulation and their maintenance, dissipation, and possible influence on the very small scales representing irreversible molecular mixing.
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An Eddy-Permitting Southern Ocean State Estimate
TL;DR: In this article, an eddy-permitting general circulation model of the Southern Ocean is fit by constrained least squares to a large observational dataset during 2005-06, where data used include Argo float profiles, CTD synoptic sections, Southern Elephant Seals as Oceanographic Samplers (SEaOS) instrument-mounted seal profiles, XBTs, altimetric observations, and infrared and microwave radiometer observed sea surface temperature.
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Satellite Observations of Mesoscale Eddy-Induced Ekman Pumping
TL;DR: In this paper, three mechanisms for self-induced Ekman pumping in the interiors of mesoscale ocean eddies are investigated, including the surface stress that occurs because of differences between surface wind and ocean velocities, resulting in Ekman upwelling and downwelling in the cores of anticyclones and cyclones, respectively.
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Significant sink of ocean-eddy energy near western boundaries
TL;DR: In this article, the authors used a simple reduced-gravity model along with satellite altimetry data to show that the western boundary acts as a "graveyard" for the westward-propagating ocean eddies.
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Parameterization of ocean eddies: Potential vorticity mixing, energetics and Arnold’s first stability theorem
TL;DR: In this paper, a family of eddy closures is studied that flux potential vorticity downgradient and solve an explicit budget for the eddy energy, following the approach developed by Eden and Greatbatch (2008, Ocean Modelling).
References
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Open Ocean Momentum Flux Measurements in Moderate to Strong Winds
W. G. Large,Stephen Pond +1 more
TL;DR: In this article, a comparison of the dissipation and Reynolds flux results shows excellent agreement on average, for wind speeds from 4 to 20 m s−1, for a modified Gill propeller-vane anemometer was used to measure the velocity.
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Walter Munk,Carl Wunsch +1 more
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TL;DR: Four-year averages of 25-kilometer-resolution measurements of near-surface wind speed and direction over the global ocean from the QuikSCAT satellite radar scatterometer reveal the existence of surprisingly persistent small-scale features in the dynamically and thermodynamically important curl and divergence of the wind stress.
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On the Ocean’s Large-Scale Circulation near the Limit of No Vertical Mixing
TL;DR: In this article, a formal energy analysis is applied to a series of ocean general circulation models to evaluate changes in the large-scale circulation over a range of vertical mixing rates, and two different model configurations are used.
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What Is the Thermohaline Circulation
TL;DR: Wunsch as mentioned in this paper argues that there are many different, and inconsistent, definitions for this term and defines ocean circulation in terms of mass fluxes which are largely driven by surface forces such as wind and tides, and argues that thermohaline circulation should only refer to the separate transport of heat and salinity in the ocean.