Labrador Sea subsurface density as a precursor of multidecadal variability in the North Atlantic: a multi-model study

Labrador Sea subsurface density as a precursor of multidecadal variability in the North Atlantic: a multi-model study

<p>The subpolar North Atlantic (SPNA) is a region with prominent decadal variability that has experienced remarkable warming and cooling trends in the last few decades. These observed trends have been preceded by slow-paced increases and decreases in the Labrador Sea density (LSD), which are t...

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Main Authors: P. Ortega, J. I. Robson, M. Menary, R. T. Sutton, A. Blaker, A. Germe, J. J.-M. Hirschi, B. Sinha, L. Hermanson, S. Yeager
Format: Article
Language:English
Published: Copernicus Publications 2021-04-01
Series:Earth System Dynamics
Online Access:https://esd.copernicus.org/articles/12/419/2021/esd-12-419-2021.pdf
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spelling doaj-849840d696af40f1bab39bf04b737b622021-04-26T10:45:30ZengCopernicus PublicationsEarth System Dynamics2190-49792190-49872021-04-011241943810.5194/esd-12-419-2021Labrador Sea subsurface density as a precursor of multidecadal variability in the North Atlantic: a multi-model studyP. Ortega0P. Ortega1J. I. Robson2M. Menary3R. T. Sutton4A. Blaker5A. Germe6J. J.-M. Hirschi7B. Sinha8L. Hermanson9S. Yeager10S. Yeager11National Centre for Atmospheric Science, University of Reading, Reading, UKBarcelona Supercomputing Center, Barcelona, SpainNational Centre for Atmospheric Science, University of Reading, Reading, UKLOCEAN, Sorbonne Universités, Paris, FranceNational Centre for Atmospheric Science, University of Reading, Reading, UKNational Oceanography Centre, European Way, Southampton, UKNational Oceanography Centre, European Way, Southampton, UKNational Oceanography Centre, European Way, Southampton, UKNational Oceanography Centre, European Way, Southampton, UKMet Office Hadley Centre, Exeter, UKNational Center for Atmospheric Research, Boulder, CO, USAInternational Laboratory for High-Resolution Earth System Prediction, College Station, TX, USA<p>The subpolar North Atlantic (SPNA) is a region with prominent decadal variability that has experienced remarkable warming and cooling trends in the last few decades. These observed trends have been preceded by slow-paced increases and decreases in the Labrador Sea density (LSD), which are thought to be a precursor of large-scale ocean circulation changes. This article analyses the interrelationships between the LSD and the wider North Atlantic across an ensemble of coupled climate model simulations. In particular, it analyses the link between subsurface density and the deep boundary density, the Atlantic Meridional Overturning Circulation (AMOC), the subpolar gyre (SPG) circulation, and the upper-ocean temperature in the eastern SPNA.</p> <p>All simulations exhibit considerable multidecadal variability in the LSD and the ocean circulation indices, which are found to be interrelated. LSD is strongly linked to the strength of the subpolar AMOC and gyre circulation, and it is also linked to the subtropical AMOC, although the strength of this relationship is model-dependent and affected by the inclusion of the Ekman component. The connectivity of LSD with the subtropics is found to be sensitive to different model features, including the mean density stratification in the Labrador Sea, the strength and depth of the AMOC, and the depth at which the LSD propagates southward along the western boundary. Several of these quantities can also be computed from observations, and comparison with these observation-based quantities suggests that models representing a weaker link to the subtropical AMOC might be more realistic.</p>https://esd.copernicus.org/articles/12/419/2021/esd-12-419-2021.pdf
collection DOAJ
language English
format Article
sources DOAJ
author P. Ortega
P. Ortega
J. I. Robson
M. Menary
R. T. Sutton
A. Blaker
A. Germe
J. J.-M. Hirschi
B. Sinha
L. Hermanson
S. Yeager
S. Yeager
spellingShingle P. Ortega
P. Ortega
J. I. Robson
M. Menary
R. T. Sutton
A. Blaker
A. Germe
J. J.-M. Hirschi
B. Sinha
L. Hermanson
S. Yeager
S. Yeager
Labrador Sea subsurface density as a precursor of multidecadal variability in the North Atlantic: a multi-model study
Earth System Dynamics
author_facet P. Ortega
P. Ortega
J. I. Robson
M. Menary
R. T. Sutton
A. Blaker
A. Germe
J. J.-M. Hirschi
B. Sinha
L. Hermanson
S. Yeager
S. Yeager
author_sort P. Ortega
title Labrador Sea subsurface density as a precursor of multidecadal variability in the North Atlantic: a multi-model study
title_short Labrador Sea subsurface density as a precursor of multidecadal variability in the North Atlantic: a multi-model study
title_full Labrador Sea subsurface density as a precursor of multidecadal variability in the North Atlantic: a multi-model study
title_fullStr Labrador Sea subsurface density as a precursor of multidecadal variability in the North Atlantic: a multi-model study
title_full_unstemmed Labrador Sea subsurface density as a precursor of multidecadal variability in the North Atlantic: a multi-model study
title_sort labrador sea subsurface density as a precursor of multidecadal variability in the north atlantic: a multi-model study
publisher Copernicus Publications
series Earth System Dynamics
issn 2190-4979
2190-4987
publishDate 2021-04-01
description <p>The subpolar North Atlantic (SPNA) is a region with prominent decadal variability that has experienced remarkable warming and cooling trends in the last few decades. These observed trends have been preceded by slow-paced increases and decreases in the Labrador Sea density (LSD), which are thought to be a precursor of large-scale ocean circulation changes. This article analyses the interrelationships between the LSD and the wider North Atlantic across an ensemble of coupled climate model simulations. In particular, it analyses the link between subsurface density and the deep boundary density, the Atlantic Meridional Overturning Circulation (AMOC), the subpolar gyre (SPG) circulation, and the upper-ocean temperature in the eastern SPNA.</p> <p>All simulations exhibit considerable multidecadal variability in the LSD and the ocean circulation indices, which are found to be interrelated. LSD is strongly linked to the strength of the subpolar AMOC and gyre circulation, and it is also linked to the subtropical AMOC, although the strength of this relationship is model-dependent and affected by the inclusion of the Ekman component. The connectivity of LSD with the subtropics is found to be sensitive to different model features, including the mean density stratification in the Labrador Sea, the strength and depth of the AMOC, and the depth at which the LSD propagates southward along the western boundary. Several of these quantities can also be computed from observations, and comparison with these observation-based quantities suggests that models representing a weaker link to the subtropical AMOC might be more realistic.</p>
url https://esd.copernicus.org/articles/12/419/2021/esd-12-419-2021.pdf
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