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Optimal surface salinity perturbations of the meridional overturning and heat transport in a global ocean general circulation model

Optimal surface salinity perturbations of the meridional overturning and heat transport in a global ocean general circulation model
Optimal surface salinity perturbations of the meridional overturning and heat transport in a global ocean general circulation model
Recent observations and modeling studies have stressed the influence of surface salinity perturbations on the North Atlantic circulation over the past few decades. As a step toward the estimation of the sensitivity of the thermohaline circulation to salinity anomalies, optimal initial surface salinity perturbations are computed and described for a realistic mean state of a global ocean general circulation model [Océan Parallélisé (OPA)]; optimality is defined successively with respect to the meridional overturning circulation intensity and the meridional heat transport maximum. Although the system is asymptotically stable, the nonnormality of the dynamics is able to produce a transient growth through an initial stimulation. Optimal perturbations are calculated subject to three constraints: the perturbation applies to surface salinity; the perturbation conserves the global salt content; and the perturbation is normalized, to remove the degeneracy in the linear maximization problem. Maximization using Lagrangian multipliers leads to explicit solutions (rather than eigenvalue problems), involving the integration of the model adjoint for each value to maximize.

The most efficient transient growth for the intensity of the meridional overturning circulation appears for a delay of 10.5 yr after the perturbation by the optimal surface salinity anomaly. This optimal growth is induced by an initial anomaly located north of 50°N. In the same way, the most efficient transient growth for the intensity of the meridional heat transport appears for a shorter delay of 2.2 yr after the perturbation by the optimal surface salinity anomaly. This initial optimal perturbation corresponds to a zonal salinity gradient around 24°N. The optimal surface salinity perturbations studied herein yield upper bounds on the intensity of the response in meridional overturning circulation and meridional heat transport. Using typical amplitudes of the Great Salinity Anomalies, the upper bounds for the associated variability are 0.8 Sv (1 Sv ? 106 m3 s?1) (11% of the mean circulation) and 0.03 PW (5% of the mean circulation), respectively.
0022-3670
2739-2754
Sévellec, Florian
01569d6c-65b0-4270-af2a-35b0a77c9140
Huck, Thierry
3de8511b-db7b-4ed1-bc27-92d2bbc7c6b9
Ben Jelloul, Mahdi
bb143e60-6a9a-4949-8a97-a0e52b79ec38
Grima, Nicolas
ae5671c6-1cc6-4833-86be-3b2f65b8d8e5
Vialard, Jérôme
165dd2c7-d5ec-4bd6-9f20-02e182e38f36
Weaver, Anthony
9e2118fd-080e-45db-ba0b-53ab69fa84ea
Sévellec, Florian
01569d6c-65b0-4270-af2a-35b0a77c9140
Huck, Thierry
3de8511b-db7b-4ed1-bc27-92d2bbc7c6b9
Ben Jelloul, Mahdi
bb143e60-6a9a-4949-8a97-a0e52b79ec38
Grima, Nicolas
ae5671c6-1cc6-4833-86be-3b2f65b8d8e5
Vialard, Jérôme
165dd2c7-d5ec-4bd6-9f20-02e182e38f36
Weaver, Anthony
9e2118fd-080e-45db-ba0b-53ab69fa84ea

Sévellec, Florian, Huck, Thierry, Ben Jelloul, Mahdi, Grima, Nicolas, Vialard, Jérôme and Weaver, Anthony (2008) Optimal surface salinity perturbations of the meridional overturning and heat transport in a global ocean general circulation model. Journal of Physical Oceanography, 38 (12), 2739-2754. (doi:10.1175/2008JPO3875.1).

Record type: Article

Abstract

Recent observations and modeling studies have stressed the influence of surface salinity perturbations on the North Atlantic circulation over the past few decades. As a step toward the estimation of the sensitivity of the thermohaline circulation to salinity anomalies, optimal initial surface salinity perturbations are computed and described for a realistic mean state of a global ocean general circulation model [Océan Parallélisé (OPA)]; optimality is defined successively with respect to the meridional overturning circulation intensity and the meridional heat transport maximum. Although the system is asymptotically stable, the nonnormality of the dynamics is able to produce a transient growth through an initial stimulation. Optimal perturbations are calculated subject to three constraints: the perturbation applies to surface salinity; the perturbation conserves the global salt content; and the perturbation is normalized, to remove the degeneracy in the linear maximization problem. Maximization using Lagrangian multipliers leads to explicit solutions (rather than eigenvalue problems), involving the integration of the model adjoint for each value to maximize.

The most efficient transient growth for the intensity of the meridional overturning circulation appears for a delay of 10.5 yr after the perturbation by the optimal surface salinity anomaly. This optimal growth is induced by an initial anomaly located north of 50°N. In the same way, the most efficient transient growth for the intensity of the meridional heat transport appears for a shorter delay of 2.2 yr after the perturbation by the optimal surface salinity anomaly. This initial optimal perturbation corresponds to a zonal salinity gradient around 24°N. The optimal surface salinity perturbations studied herein yield upper bounds on the intensity of the response in meridional overturning circulation and meridional heat transport. Using typical amplitudes of the Great Salinity Anomalies, the upper bounds for the associated variability are 0.8 Sv (1 Sv ? 106 m3 s?1) (11% of the mean circulation) and 0.03 PW (5% of the mean circulation), respectively.

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Published date: December 2008
Organisations: Physical Oceanography

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Local EPrints ID: 339734
URI: http://eprints.soton.ac.uk/id/eprint/339734
ISSN: 0022-3670
PURE UUID: 45443391-8722-4530-b172-5089fecfbeb1

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Date deposited: 29 May 2012 15:25
Last modified: 14 Mar 2024 11:14

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Contributors

Author: Thierry Huck
Author: Mahdi Ben Jelloul
Author: Nicolas Grima
Author: Jérôme Vialard
Author: Anthony Weaver

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