Sea Level Expression of Intrinsic and Forced Ocean Variabilities at Interannual Time Scales
Sea Level Expression of Intrinsic and Forced Ocean Variabilities at Interannual Time Scales
This paper evaluates in a realistic context the local contributions of direct atmospheric forcing and intrinsic oceanic processes on interannual sea level anomalies (SLAs). A ¼° global ocean–sea ice general circulation model, driven over 47 yr by the full range of atmospheric time scales, is quantitatively assessed against altimetry and shown to reproduce most observed features of the interannual SLA variability from 1993 to 2004. Comparing this simulation with a second driven only by the climatological annual cycle reveals that the intrinsic part of the total interannual SLA variance exceeds 40% over half of the open-ocean area and exceeds 80% over one-fifth of it. This intrinsic contribution is particularly strong in eddy-active regions (more than 70%–80% in the Southern Ocean and western boundary current extensions) as predicted by idealized studies, as well as within the 20°–35° latitude bands. The atmosphere directly forces most of the interannual SLA variance at low latitudes and in most midlatitude eastern basins, in particular north of about 40°N in the Pacific. The interannual SLA variance is almost entirely due to intrinsic processes south of the Antarctic Circumpolar Current in the Indian Ocean sector, while half of this variance is forced by the atmosphere north of it. The same simulations were performed and analyzed at 2° resolution as well: switching to this laminar regime yields a comparable forced variability (large-scale distribution and magnitude) but almost suppresses the intrinsic variability. This likely explains why laminar ocean models largely underestimate the interannual SLA variance.
Eddies, Forcing, Nonlinear dynamics, Sea level, Interannual variability, Oceanic variability
5652-5670
Penduff, Thierry
8b85eadc-4bb4-436a-a58a-9b2e279363bc
Juza, Mélanie
e74553ca-ed88-45d7-ad25-13d233b87ab6
Barnier, Bernard
af67a33e-f7c3-4681-b37b-1fbebf74983a
Zika, Jan
1843cce7-77ce-4ef6-9f79-bcf4f9db30e5
Dewar, William K.
ed593c67-a30c-4480-86db-4ab4941c445b
Treguier, Anne-Marie
da10082e-a592-4999-bb92-49b8f5aa66b1
Molines, Jean-Marc
ff0e29c2-d4e8-4c72-995c-6e53801d823f
Audiffren, Nicole
4a550fc1-05eb-4f42-9dc8-edfcdc37a04b
November 2011
Penduff, Thierry
8b85eadc-4bb4-436a-a58a-9b2e279363bc
Juza, Mélanie
e74553ca-ed88-45d7-ad25-13d233b87ab6
Barnier, Bernard
af67a33e-f7c3-4681-b37b-1fbebf74983a
Zika, Jan
1843cce7-77ce-4ef6-9f79-bcf4f9db30e5
Dewar, William K.
ed593c67-a30c-4480-86db-4ab4941c445b
Treguier, Anne-Marie
da10082e-a592-4999-bb92-49b8f5aa66b1
Molines, Jean-Marc
ff0e29c2-d4e8-4c72-995c-6e53801d823f
Audiffren, Nicole
4a550fc1-05eb-4f42-9dc8-edfcdc37a04b
Penduff, Thierry, Juza, Mélanie, Barnier, Bernard, Zika, Jan, Dewar, William K., Treguier, Anne-Marie, Molines, Jean-Marc and Audiffren, Nicole
(2011)
Sea Level Expression of Intrinsic and Forced Ocean Variabilities at Interannual Time Scales.
Journal of Climate, 24 (21), .
(doi:10.1175/JCLI-D-11-00077.1).
Abstract
This paper evaluates in a realistic context the local contributions of direct atmospheric forcing and intrinsic oceanic processes on interannual sea level anomalies (SLAs). A ¼° global ocean–sea ice general circulation model, driven over 47 yr by the full range of atmospheric time scales, is quantitatively assessed against altimetry and shown to reproduce most observed features of the interannual SLA variability from 1993 to 2004. Comparing this simulation with a second driven only by the climatological annual cycle reveals that the intrinsic part of the total interannual SLA variance exceeds 40% over half of the open-ocean area and exceeds 80% over one-fifth of it. This intrinsic contribution is particularly strong in eddy-active regions (more than 70%–80% in the Southern Ocean and western boundary current extensions) as predicted by idealized studies, as well as within the 20°–35° latitude bands. The atmosphere directly forces most of the interannual SLA variance at low latitudes and in most midlatitude eastern basins, in particular north of about 40°N in the Pacific. The interannual SLA variance is almost entirely due to intrinsic processes south of the Antarctic Circumpolar Current in the Indian Ocean sector, while half of this variance is forced by the atmosphere north of it. The same simulations were performed and analyzed at 2° resolution as well: switching to this laminar regime yields a comparable forced variability (large-scale distribution and magnitude) but almost suppresses the intrinsic variability. This likely explains why laminar ocean models largely underestimate the interannual SLA variance.
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Published date: November 2011
Keywords:
Eddies, Forcing, Nonlinear dynamics, Sea level, Interannual variability, Oceanic variability
Organisations:
Physical Oceanography
Identifiers
Local EPrints ID: 337470
URI: http://eprints.soton.ac.uk/id/eprint/337470
ISSN: 0894-8755
PURE UUID: 3f96ac90-97ce-4746-9e1e-98b417221c3d
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Date deposited: 25 Apr 2012 13:13
Last modified: 14 Mar 2024 10:53
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Contributors
Author:
Thierry Penduff
Author:
Mélanie Juza
Author:
Bernard Barnier
Author:
Jan Zika
Author:
William K. Dewar
Author:
Anne-Marie Treguier
Author:
Jean-Marc Molines
Author:
Nicole Audiffren
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