Re-emergence of North Atlantic subsurface ocean temperature anomalies in a seasonal forecast system
Re-emergence of North Atlantic subsurface ocean temperature anomalies in a seasonal forecast system
A high-resolution coupled ocean atmosphere model is used to study the effects of seasonal re-emergence of North Atlantic subsurface ocean temperature anomalies on northern hemisphere winter climate. A 50-member control ensemble is integrated from 1 September 2007 to 28 February 2008 and compared with a parallel ensemble with perturbed ocean initial conditions. The perturbation consists of a density-compensated subsurface Atlantic temperature anomaly corresponding to the observed subsurface temperature anomaly for September 2010. The experiment is repeated for two atmosphere horizontal resolutions (~ 60 km and ~ 25 km) in order to determine whether the sensitivity of the atmosphere to re-emerging temperature anomalies is dependent on resolution. A wide range of re-emergence behavior is found within the perturbed ensembles. While the observations seem to indicate that most of the re-emergence is occurring in November, most members of the ensemble show re-emergence occurring later in the winter. However, when re-emergence does occur it is preceded by an atmospheric pressure pattern that induces a strong flow of cold, dry air over the mid-latitude Atlantic, and enhances oceanic latent heat loss. In response to re-emergence (negative SST anomalies), there is reduced latent heat loss, less atmospheric convection, a reduction in eddy kinetic energy and positive low-level pressure anomalies downstream. Within the framework of a seasonal forecast system the results highlight the atmospheric conditions required for re-emergence to take place and the physical processes that may lead to a significant effect on the winter atmospheric circulation.
1-22
Grist, Jeremy P.
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Sinha, Bablu
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Hewitt, Helene. T.
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Duchez, Aurélie
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Maclachlan, Craig
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Hyder, Patrick
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Josey, Simon A.
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Hirschi, Joël J.-M.
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Blaker, Adam T.
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New, Adrian. L.
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Scaife, Adam A.
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Roberts, Chris D.
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Grist, Jeremy P.
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Sinha, Bablu
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Hewitt, Helene. T.
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Duchez, Aurélie
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Maclachlan, Craig
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Hyder, Patrick
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Josey, Simon A.
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Hirschi, Joël J.-M.
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Blaker, Adam T.
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New, Adrian. L.
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Scaife, Adam A.
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Roberts, Chris D.
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Grist, Jeremy P., Sinha, Bablu, Hewitt, Helene. T., Duchez, Aurélie, Maclachlan, Craig, Hyder, Patrick, Josey, Simon A., Hirschi, Joël J.-M., Blaker, Adam T., New, Adrian. L., Scaife, Adam A. and Roberts, Chris D.
(2019)
Re-emergence of North Atlantic subsurface ocean temperature anomalies in a seasonal forecast system.
Climate Dynamics, .
(doi:10.1007/s00382-019-04826-w).
Abstract
A high-resolution coupled ocean atmosphere model is used to study the effects of seasonal re-emergence of North Atlantic subsurface ocean temperature anomalies on northern hemisphere winter climate. A 50-member control ensemble is integrated from 1 September 2007 to 28 February 2008 and compared with a parallel ensemble with perturbed ocean initial conditions. The perturbation consists of a density-compensated subsurface Atlantic temperature anomaly corresponding to the observed subsurface temperature anomaly for September 2010. The experiment is repeated for two atmosphere horizontal resolutions (~ 60 km and ~ 25 km) in order to determine whether the sensitivity of the atmosphere to re-emerging temperature anomalies is dependent on resolution. A wide range of re-emergence behavior is found within the perturbed ensembles. While the observations seem to indicate that most of the re-emergence is occurring in November, most members of the ensemble show re-emergence occurring later in the winter. However, when re-emergence does occur it is preceded by an atmospheric pressure pattern that induces a strong flow of cold, dry air over the mid-latitude Atlantic, and enhances oceanic latent heat loss. In response to re-emergence (negative SST anomalies), there is reduced latent heat loss, less atmospheric convection, a reduction in eddy kinetic energy and positive low-level pressure anomalies downstream. Within the framework of a seasonal forecast system the results highlight the atmospheric conditions required for re-emergence to take place and the physical processes that may lead to a significant effect on the winter atmospheric circulation.
Text
Grist2019_Article_Re-emergenceOfNorthAtlanticSub
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Accepted/In Press date: 20 May 2019
e-pub ahead of print date: 4 June 2019
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Local EPrints ID: 433305
URI: http://eprints.soton.ac.uk/id/eprint/433305
ISSN: 0930-7575
PURE UUID: 74d265ce-f22a-47c6-8d35-72773b379bd1
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Date deposited: 13 Aug 2019 16:30
Last modified: 16 Mar 2024 03:20
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Contributors
Author:
Jeremy P. Grist
Author:
Bablu Sinha
Author:
Helene. T. Hewitt
Author:
Aurélie Duchez
Author:
Craig Maclachlan
Author:
Patrick Hyder
Author:
Simon A. Josey
Author:
Joël J.-M. Hirschi
Author:
Adam T. Blaker
Author:
Adrian. L. New
Author:
Adam A. Scaife
Author:
Chris D. Roberts
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