North Atlantic Barotropic Vorticity Balances in Numerical Models

Numerical simulations are conducted across model platforms and resolutions with a focus on the North Atlantic. Barotropic vorticity diagnostics confirm that the subtropical gyre is characterized by an inviscid balance primarily between the applied wind stress curl and bottom pressure torque. In an a...

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Published in:Journal of Physical Oceanography
Other Authors: Schoonover, Joseph (authoraut), Dewar, William (authoraut), Wienders, Nicolas (authoraut), Gula, Jonathan (authoraut), McWilliams, James C. (authoraut), Molemaker, M. Jeroen (authoraut), Bates, Susan C. (authoraut), Danabasoglu, Gokhan (authoraut), Yeager, Stephen (authoraut)
Format: Text
Language:English
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North Atlantic
Online Access:https://doi.org/10.1175/JPO-D-15-0133.1
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spelling ftfloridastunidc:oai:fsu.digital.flvc.org:fsu_405790 2023-05-15T17:30:55+02:00 North Atlantic Barotropic Vorticity Balances in Numerical Models Schoonover, Joseph (authoraut) Dewar, William (authoraut) Wienders, Nicolas (authoraut) Gula, Jonathan (authoraut) McWilliams, James C. (authoraut) Molemaker, M. Jeroen (authoraut) Bates, Susan C. (authoraut) Danabasoglu, Gokhan (authoraut) Yeager, Stephen (authoraut) 1 online resource computer application/pdf https://doi.org/10.1175/JPO-D-15-0133.1 http://purl.flvc.org/fsu/fd/FSU_libsubv1_wos_000368628500001 http://fsu.digital.flvc.org/islandora/object/fsu%3A405790/datastream/TN/view/North%20Atlantic%20Barotropic%20Vorticity%20Balances%20in%20Numerical%20Models.jpg English eng eng Journal of Physical Oceanography--0022-3670 Text ftfloridastunidc https://doi.org/10.1175/JPO-D-15-0133.1 2020-08-10T18:25:53Z Numerical simulations are conducted across model platforms and resolutions with a focus on the North Atlantic. Barotropic vorticity diagnostics confirm that the subtropical gyre is characterized by an inviscid balance primarily between the applied wind stress curl and bottom pressure torque. In an area-integrated budget over the Gulf Stream, the northward return flow is balanced by bottom pressure torque. These integrated budgets are shown to be consistent across model platforms and resolution, suggesting that these balances are robust. Two of the simulations, at 100- and 10-km resolutions, produce a more northerly separating Gulf Stream but obtain the correct integrated vorticity balances. In these simulations, viscous torque is nonnegligible on smaller scales, indicating that the separation is linked to the details of the local dynamics. These results are shown to be consistent with a scale analysis argument that suggests that the biharmonic viscous torque in particular is upsetting the inviscid balance in simulations with a more northerly separation. In addition to providing evidence for locally controlled inviscid separation, these results provide motivation to revisit the formulation of subgrid-scale parameterizations in general circulation models. anisotropic horizontal viscosity, Baroclinic flows, Barotropic flows, bottom pressure torques, Circulation, climatology, Coupled models, Dynamics, flows, General circulation models, Model comparison, Models and modeling, ocean circulation model, Ocean models, realistic oceans, Separation, system, topography, western boundary currents The publisher’s version of record is available at http://www.dx.doi.org/10.1175/JPO-D-15-0133.1 Text North Atlantic Florida State University Digital Library (FSUDL) Curl ENVELOPE(-63.071,-63.071,-70.797,-70.797) Journal of Physical Oceanography 46 1 289 303
institution Open Polar
collection Florida State University Digital Library (FSUDL)
op_collection_id ftfloridastunidc
language English
description Numerical simulations are conducted across model platforms and resolutions with a focus on the North Atlantic. Barotropic vorticity diagnostics confirm that the subtropical gyre is characterized by an inviscid balance primarily between the applied wind stress curl and bottom pressure torque. In an area-integrated budget over the Gulf Stream, the northward return flow is balanced by bottom pressure torque. These integrated budgets are shown to be consistent across model platforms and resolution, suggesting that these balances are robust. Two of the simulations, at 100- and 10-km resolutions, produce a more northerly separating Gulf Stream but obtain the correct integrated vorticity balances. In these simulations, viscous torque is nonnegligible on smaller scales, indicating that the separation is linked to the details of the local dynamics. These results are shown to be consistent with a scale analysis argument that suggests that the biharmonic viscous torque in particular is upsetting the inviscid balance in simulations with a more northerly separation. In addition to providing evidence for locally controlled inviscid separation, these results provide motivation to revisit the formulation of subgrid-scale parameterizations in general circulation models. anisotropic horizontal viscosity, Baroclinic flows, Barotropic flows, bottom pressure torques, Circulation, climatology, Coupled models, Dynamics, flows, General circulation models, Model comparison, Models and modeling, ocean circulation model, Ocean models, realistic oceans, Separation, system, topography, western boundary currents The publisher’s version of record is available at http://www.dx.doi.org/10.1175/JPO-D-15-0133.1
author2 Schoonover, Joseph (authoraut)
Dewar, William (authoraut)
Wienders, Nicolas (authoraut)
Gula, Jonathan (authoraut)
McWilliams, James C. (authoraut)
Molemaker, M. Jeroen (authoraut)
Bates, Susan C. (authoraut)
Danabasoglu, Gokhan (authoraut)
Yeager, Stephen (authoraut)
format Text
title North Atlantic Barotropic Vorticity Balances in Numerical Models
spellingShingle North Atlantic Barotropic Vorticity Balances in Numerical Models
title_short North Atlantic Barotropic Vorticity Balances in Numerical Models
title_full North Atlantic Barotropic Vorticity Balances in Numerical Models
title_fullStr North Atlantic Barotropic Vorticity Balances in Numerical Models
title_full_unstemmed North Atlantic Barotropic Vorticity Balances in Numerical Models
title_sort north atlantic barotropic vorticity balances in numerical models
url https://doi.org/10.1175/JPO-D-15-0133.1
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long_lat ENVELOPE(-63.071,-63.071,-70.797,-70.797)
geographic Curl
geographic_facet Curl
genre North Atlantic
genre_facet North Atlantic
op_relation Journal of Physical Oceanography--0022-3670
op_doi https://doi.org/10.1175/JPO-D-15-0133.1
container_title Journal of Physical Oceanography
container_volume 46
container_issue 1
container_start_page 289
op_container_end_page 303
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