Interdecadal variability in an idealized model of the North Atlantic

A coarse resolution model is developed to study the thermohaline circulation of the North Atlantic. This model is driven by the annual mean Hellerman and Rosenstein wind stress field, Levitus sea surface restoring temperatures, and Schmitt, Bogden, and Dorman freshwater flux fields (mixed boundary c...

Full description

Bibliographic Details
Main Authors:	Aura, Stella M., Myers, Paul G., Weaver, Andrew J.
Format:	Other/Unknown Material
Language:	English
Published:	1994
Subjects:	Anomalies Oscillations Oceanic Variability General-Circulation Model Temperature Interpentadal Variability Boundary-Conditions Salinity Sea-Level Thermohaline Circulation Arctic Canadian Archipelago Labrador Sea North Atlantic
Online Access:	https://era.library.ualberta.ca/items/71a091eb-bec5-4429-b955-ac534a11f242 https://doi.org/10.7939/R3H41K225

id	ftunivalberta:oai:era.library.ualberta.ca:71a091eb-bec5-4429-b955-ac534a11f242
record_format	openpolar
spelling	ftunivalberta:oai:era.library.ualberta.ca:71a091eb-bec5-4429-b955-ac534a11f242 2023-05-15T14:58:34+02:00 Interdecadal variability in an idealized model of the North Atlantic Aura, Stella M. Myers, Paul G. Weaver, Andrew J. 1994 https://era.library.ualberta.ca/items/71a091eb-bec5-4429-b955-ac534a11f242 https://doi.org/10.7939/R3H41K225 English eng https://era.library.ualberta.ca/items/71a091eb-bec5-4429-b955-ac534a11f242 doi:10.7939/R3H41K225 © 1994 by the American Geophysical Union. Anomalies Oscillations Oceanic Variability General-Circulation Model Temperature Interpentadal Variability Boundary-Conditions Salinity Sea-Level Thermohaline Circulation Article (Published) 1994 ftunivalberta https://doi.org/10.7939/R3H41K225 2022-08-22T20:11:32Z A coarse resolution model is developed to study the thermohaline circulation of the North Atlantic. This model is driven by the annual mean Hellerman and Rosenstein wind stress field, Levitus sea surface restoring temperatures, and Schmitt, Bogden, and Dorman freshwater flux fields (mixed boundary conditions) together with various parameterizations of Arctic freshwater export into the North Atlantic. The model simulations indicate the existence of self-sustained, internal variability of the thermohaline circulation with a period of about 20 years. Associated with the variability is a large variation in the deep-water formation rate in the Labrador Sea and hence the poleward heat transport in the North Atlantic. It is shown that the variability is insensitive to the freshwater flux and wind forcing used and that the timescale for this thermally driven convective/advective oscillation is set by the cooling time of the Labrador Sea. The variability is robust to various parameterizations of Arctic freshwater export but may be suppressed if there is a strong freshwater flux through the Canadian Archipelago (or equivalently, large precipitation) into the Labrador Sea. The importance of topography, although poorly resolved in this coarse resolution study, is addressed and the results are compared with a coupled atmosphere-ocean simulation and observations taken over the North Atlantic. Other/Unknown Material Arctic Canadian Archipelago Labrador Sea North Atlantic University of Alberta: Era - Education and Research Archive Arctic
institution	Open Polar
collection	University of Alberta: Era - Education and Research Archive
op_collection_id	ftunivalberta
language	English
topic	Anomalies Oscillations Oceanic Variability General-Circulation Model Temperature Interpentadal Variability Boundary-Conditions Salinity Sea-Level Thermohaline Circulation
spellingShingle	Anomalies Oscillations Oceanic Variability General-Circulation Model Temperature Interpentadal Variability Boundary-Conditions Salinity Sea-Level Thermohaline Circulation Aura, Stella M. Myers, Paul G. Weaver, Andrew J. Interdecadal variability in an idealized model of the North Atlantic
topic_facet	Anomalies Oscillations Oceanic Variability General-Circulation Model Temperature Interpentadal Variability Boundary-Conditions Salinity Sea-Level Thermohaline Circulation
description	A coarse resolution model is developed to study the thermohaline circulation of the North Atlantic. This model is driven by the annual mean Hellerman and Rosenstein wind stress field, Levitus sea surface restoring temperatures, and Schmitt, Bogden, and Dorman freshwater flux fields (mixed boundary conditions) together with various parameterizations of Arctic freshwater export into the North Atlantic. The model simulations indicate the existence of self-sustained, internal variability of the thermohaline circulation with a period of about 20 years. Associated with the variability is a large variation in the deep-water formation rate in the Labrador Sea and hence the poleward heat transport in the North Atlantic. It is shown that the variability is insensitive to the freshwater flux and wind forcing used and that the timescale for this thermally driven convective/advective oscillation is set by the cooling time of the Labrador Sea. The variability is robust to various parameterizations of Arctic freshwater export but may be suppressed if there is a strong freshwater flux through the Canadian Archipelago (or equivalently, large precipitation) into the Labrador Sea. The importance of topography, although poorly resolved in this coarse resolution study, is addressed and the results are compared with a coupled atmosphere-ocean simulation and observations taken over the North Atlantic.
format	Other/Unknown Material
author	Aura, Stella M. Myers, Paul G. Weaver, Andrew J.
author_facet	Aura, Stella M. Myers, Paul G. Weaver, Andrew J.
author_sort	Aura, Stella M.
title	Interdecadal variability in an idealized model of the North Atlantic
title_short	Interdecadal variability in an idealized model of the North Atlantic
title_full	Interdecadal variability in an idealized model of the North Atlantic
title_fullStr	Interdecadal variability in an idealized model of the North Atlantic
title_full_unstemmed	Interdecadal variability in an idealized model of the North Atlantic
title_sort	interdecadal variability in an idealized model of the north atlantic
publishDate	1994
url	https://era.library.ualberta.ca/items/71a091eb-bec5-4429-b955-ac534a11f242 https://doi.org/10.7939/R3H41K225
geographic	Arctic
geographic_facet	Arctic
genre	Arctic Canadian Archipelago Labrador Sea North Atlantic
genre_facet	Arctic Canadian Archipelago Labrador Sea North Atlantic
op_relation	https://era.library.ualberta.ca/items/71a091eb-bec5-4429-b955-ac534a11f242 doi:10.7939/R3H41K225
op_rights	© 1994 by the American Geophysical Union.
op_doi	https://doi.org/10.7939/R3H41K225
_version_	1766330709094432768

Interdecadal variability in an idealized model of the North Atlantic

Similar Items