Role of resolved and parameterized eddies in the Labrador Sea balance of heat and buoyancy

Deep convection in the Labrador Sea is an important component of the global ocean ventilation. The associated loss of heat to the atmosphere from the interior of the sea is thought to be mostly supplied by mesoscale eddies, generated either remotely or as a result of convection itself—processes that...

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Main Authors:	Smith, Gregory C., Yashayaev, Igor, Saenko, Oleg A., Dupont, Frédéric, Myers, Paul G., Yang, Duo
Format:	Other/Unknown Material
Language:	English
Published:	2014
Subjects:	Fluxes Models and modeling Eddies Physical Meteorology and Climatology Parameterization Currents Mesoscale Models Circulation/ Dynamics Greenland Labrador Sea
Online Access:	https://era.library.ualberta.ca/items/a86cb12d-9cef-451a-be34-a19437e814c0 https://doi.org/10.7939/R3F47H82P

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record_format	openpolar
spelling	ftunivalberta:oai:era.library.ualberta.ca:a86cb12d-9cef-451a-be34-a19437e814c0 2023-05-15T16:28:26+02:00 Role of resolved and parameterized eddies in the Labrador Sea balance of heat and buoyancy Smith, Gregory C. Yashayaev, Igor Saenko, Oleg A. Dupont, Frédéric Myers, Paul G. Yang, Duo 2014 https://era.library.ualberta.ca/items/a86cb12d-9cef-451a-be34-a19437e814c0 https://doi.org/10.7939/R3F47H82P English eng https://era.library.ualberta.ca/items/a86cb12d-9cef-451a-be34-a19437e814c0 doi:10.7939/R3F47H82P © 2014 American Meteorological Society Fluxes Models and modeling Eddies Physical Meteorology and Climatology Parameterization Currents Mesoscale Models Circulation/ Dynamics Article (Published) 2014 ftunivalberta https://doi.org/10.7939/R3F47H82P 2022-08-22T20:12:55Z Deep convection in the Labrador Sea is an important component of the global ocean ventilation. The associated loss of heat to the atmosphere from the interior of the sea is thought to be mostly supplied by mesoscale eddies, generated either remotely or as a result of convection itself—processes that are not resolved by low-resolution ocean climate models. The authors first employ a high-resolution (°) ocean model forced with high-resolution (33 km, 3 h) atmospheric fields to further elaborate on the role of mesoscale eddies in maintaining the balance of heat and buoyancy in the Labrador Sea. In general agreement with previous studies, it is found that eddies remove heat along the coast and supply it to the interior. Some of the eddies that are generated because of the barotropic instability off the west coast of Greenland are recaptured by the boundary current. In the region of deep convection, the convergence of heat and buoyancy by eddies significantly increases with the deepening of the winter mixed layer. In addition, the vertical eddy flux plays an important part in the heat budget of the upper Labrador Sea, accounting for up to half of the heat loss to the atmosphere north of 60°N. A low-resolution (1°) model with parameterized eddies is then applied to show that it does capture, qualitatively, the general structure of eddy buoyancy advection along the Labrador Current. However, the 1° model is deficient in this regard in the most eddy active region off the west coast of Greenland, although some improvements can be made by forcing it with the high-resolution atmospheric fields. Other/Unknown Material Greenland Labrador Sea University of Alberta: Era - Education and Research Archive Greenland
institution	Open Polar
collection	University of Alberta: Era - Education and Research Archive
op_collection_id	ftunivalberta
language	English
topic	Fluxes Models and modeling Eddies Physical Meteorology and Climatology Parameterization Currents Mesoscale Models Circulation/ Dynamics
spellingShingle	Fluxes Models and modeling Eddies Physical Meteorology and Climatology Parameterization Currents Mesoscale Models Circulation/ Dynamics Smith, Gregory C. Yashayaev, Igor Saenko, Oleg A. Dupont, Frédéric Myers, Paul G. Yang, Duo Role of resolved and parameterized eddies in the Labrador Sea balance of heat and buoyancy
topic_facet	Fluxes Models and modeling Eddies Physical Meteorology and Climatology Parameterization Currents Mesoscale Models Circulation/ Dynamics
description	Deep convection in the Labrador Sea is an important component of the global ocean ventilation. The associated loss of heat to the atmosphere from the interior of the sea is thought to be mostly supplied by mesoscale eddies, generated either remotely or as a result of convection itself—processes that are not resolved by low-resolution ocean climate models. The authors first employ a high-resolution (°) ocean model forced with high-resolution (33 km, 3 h) atmospheric fields to further elaborate on the role of mesoscale eddies in maintaining the balance of heat and buoyancy in the Labrador Sea. In general agreement with previous studies, it is found that eddies remove heat along the coast and supply it to the interior. Some of the eddies that are generated because of the barotropic instability off the west coast of Greenland are recaptured by the boundary current. In the region of deep convection, the convergence of heat and buoyancy by eddies significantly increases with the deepening of the winter mixed layer. In addition, the vertical eddy flux plays an important part in the heat budget of the upper Labrador Sea, accounting for up to half of the heat loss to the atmosphere north of 60°N. A low-resolution (1°) model with parameterized eddies is then applied to show that it does capture, qualitatively, the general structure of eddy buoyancy advection along the Labrador Current. However, the 1° model is deficient in this regard in the most eddy active region off the west coast of Greenland, although some improvements can be made by forcing it with the high-resolution atmospheric fields.
format	Other/Unknown Material
author	Smith, Gregory C. Yashayaev, Igor Saenko, Oleg A. Dupont, Frédéric Myers, Paul G. Yang, Duo
author_facet	Smith, Gregory C. Yashayaev, Igor Saenko, Oleg A. Dupont, Frédéric Myers, Paul G. Yang, Duo
author_sort	Smith, Gregory C.
title	Role of resolved and parameterized eddies in the Labrador Sea balance of heat and buoyancy
title_short	Role of resolved and parameterized eddies in the Labrador Sea balance of heat and buoyancy
title_full	Role of resolved and parameterized eddies in the Labrador Sea balance of heat and buoyancy
title_fullStr	Role of resolved and parameterized eddies in the Labrador Sea balance of heat and buoyancy
title_full_unstemmed	Role of resolved and parameterized eddies in the Labrador Sea balance of heat and buoyancy
title_sort	role of resolved and parameterized eddies in the labrador sea balance of heat and buoyancy
publishDate	2014
url	https://era.library.ualberta.ca/items/a86cb12d-9cef-451a-be34-a19437e814c0 https://doi.org/10.7939/R3F47H82P
geographic	Greenland
geographic_facet	Greenland
genre	Greenland Labrador Sea
genre_facet	Greenland Labrador Sea
op_relation	https://era.library.ualberta.ca/items/a86cb12d-9cef-451a-be34-a19437e814c0 doi:10.7939/R3F47H82P
op_rights	© 2014 American Meteorological Society
op_doi	https://doi.org/10.7939/R3F47H82P
_version_	1766018083796811776

Role of resolved and parameterized eddies in the Labrador Sea balance of heat and buoyancy

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