Forced and intrinsic variability in the response to increased wind stress of an idealized Southern Ocean
Forced and intrinsic variability in the response to increased wind stress of an idealized Southern Ocean
We use ensemble runs of a three-layer, quasigeostrophic idealized Southern Ocean model to explore the roles of forced and intrinsic variability in response to a linear increase of wind stress imposed over a 30-year period. We find no increase of eastward circumpolar volume transport in response to the increased wind stress. A large part of the resulting time series can be explained by a response in which the eddy kinetic energy is linearly proportional to the wind stress with a possible time lag, but no statistically significant lag is found. However, this simple relationship is not the whole story: several intrinsic timescales also influence the response. We find an e-folding timescale for growth of small perturbations of 1-2 weeks. The energy budget for intrinsic variability at periods shorter than a year is dominated by exchange between kinetic and potential energy. At longer timescales, we find an intrinsic mode with period in the region of 15 years, which is dominated by changes in potential energy and frictional dissipation in a manner consistent with that seen by Hogg and Blundell [2006]. A similar mode influences the response to changing wind stress. This influence, robust to perturbations, is different from the supposed linear relationship between wind stress and eddy kinetic energy, and persists for 5-10 years in this model, suggestive of a forced oscillatory mode with period of around 15 years. If present in the real ocean, such a mode would imply a degree of predictability of Southern Ocean dynamics on multi-year timescales.
Southern Ocean, intrinsic variability, nonlinear dynamics, wind stress, eddy saturation, decadal
113-130
Wilson, Chris
fadc83b7-f240-485b-8734-51099d02775a
Hughes, Christopher W.
0d3eb70a-e31a-445b-b346-3b6b6f7ed4d1
Blundell, Jeffrey R.
88114f32-6b76-46b2-b2d8-d6ef64a82b0d
21 January 2015
Wilson, Chris
fadc83b7-f240-485b-8734-51099d02775a
Hughes, Christopher W.
0d3eb70a-e31a-445b-b346-3b6b6f7ed4d1
Blundell, Jeffrey R.
88114f32-6b76-46b2-b2d8-d6ef64a82b0d
Wilson, Chris, Hughes, Christopher W. and Blundell, Jeffrey R.
(2015)
Forced and intrinsic variability in the response to increased wind stress of an idealized Southern Ocean.
Journal of Geophysical Research: Oceans, 120 (1), .
(doi:10.1002/2014JC010315).
Abstract
We use ensemble runs of a three-layer, quasigeostrophic idealized Southern Ocean model to explore the roles of forced and intrinsic variability in response to a linear increase of wind stress imposed over a 30-year period. We find no increase of eastward circumpolar volume transport in response to the increased wind stress. A large part of the resulting time series can be explained by a response in which the eddy kinetic energy is linearly proportional to the wind stress with a possible time lag, but no statistically significant lag is found. However, this simple relationship is not the whole story: several intrinsic timescales also influence the response. We find an e-folding timescale for growth of small perturbations of 1-2 weeks. The energy budget for intrinsic variability at periods shorter than a year is dominated by exchange between kinetic and potential energy. At longer timescales, we find an intrinsic mode with period in the region of 15 years, which is dominated by changes in potential energy and frictional dissipation in a manner consistent with that seen by Hogg and Blundell [2006]. A similar mode influences the response to changing wind stress. This influence, robust to perturbations, is different from the supposed linear relationship between wind stress and eddy kinetic energy, and persists for 5-10 years in this model, suggestive of a forced oscillatory mode with period of around 15 years. If present in the real ocean, such a mode would imply a degree of predictability of Southern Ocean dynamics on multi-year timescales.
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Wilson_et_al-2015-Journal_of_Geophysical_Research__Oceans.pdf
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Accepted/In Press date: 3 December 2014
Published date: 21 January 2015
Keywords:
Southern Ocean, intrinsic variability, nonlinear dynamics, wind stress, eddy saturation, decadal
Organisations:
Physical Oceanography, Marine Physics and Ocean Climate
Identifiers
Local EPrints ID: 372680
URI: http://eprints.soton.ac.uk/id/eprint/372680
ISSN: 2169-9275
PURE UUID: 8d72e22b-2585-4ddd-ae3c-85569d9748b4
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Date deposited: 11 Dec 2014 14:42
Last modified: 14 Mar 2024 18:40
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Author:
Chris Wilson
Author:
Christopher W. Hughes
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