On the role of eddies and surface forcing in the heat transport and overturning circulation in marginal seas
On the role of eddies and surface forcing in the heat transport and overturning circulation in marginal seas
Date
2011-09-15
Authors
Spall, Michael A.
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DOI
10.1175/2011JCLI4130.1
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Keywords
Eddies
Forcing
Meridional overturning circulation
Transport
North Atlantic Ocean
Seas/gulfs/bays
Forcing
Meridional overturning circulation
Transport
North Atlantic Ocean
Seas/gulfs/bays
Abstract
The factors that determine the heat transport and overturning circulation in marginal seas subject to wind forcing and heat loss to the atmosphere are explored using a combination of a high-resolution ocean circulation model and a simple conceptual model. The study is motivated by the exchange between the subpolar North Atlantic Ocean and the Nordic Seas, a region that is of central importance to the oceanic thermohaline circulation. It is shown that mesoscale eddies formed in the marginal sea play a major role in determining the mean meridional heat transport and meridional overturning circulation across the sill. The balance between the oceanic eddy heat flux and atmospheric cooling, as characterized by a nondimensional number, is shown to be the primary factor in determining the properties of the exchange. Results from a series of eddy-resolving primitive equation model calculations for the meridional heat transport, overturning circulation, density of convective waters, and density of exported waters compare well with predictions from the conceptual model over a wide range of parameter space. Scaling and model results indicate that wind effects are small and the mean exchange is primarily buoyancy forced. These results imply that one must accurately resolve or parameterize eddy fluxes in order to properly represent the mean exchange between the North Atlantic and the Nordic Seas, and thus between the Nordic Seas and the atmosphere, in climate models.
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Author Posting. © American Meteorological Society, 2011. 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 Climate 24 (2011): 4844–4858, doi:10.1175/2011JCLI4130.1.
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Journal of Climate 24 (2011): 4844–4858