Will high-resolution global ocean models benefit coupled predictions on short-range to climate timescales?
Will high-resolution global ocean models benefit coupled predictions on short-range to climate timescales?
As the importance of the ocean in the weather and climate system is increasingly recognised, operational systems are now moving towards coupled prediction not only for seasonal to climate timescales but also for short-range forecasts. A three-way tension exists between the allocation of computing resources to refine model resolution, the expansion of model complexity/capability, and the increase of ensemble size. Here we review evidence for the benefits of increased ocean resolution in global coupled models, where the ocean component explicitly represents transient mesoscale eddies and narrow boundary currents. We consider lessons learned from forced ocean/sea-ice simulations; from studies concerning the SST resolution required to impact atmospheric simulations; and from coupled predictions. Impacts of the mesoscale ocean in western boundary current regions on the large-scale atmospheric state have been identified. Understanding of air-sea feedback in western boundary currents is modifying our view of the dynamics in these key regions. It remains unclear whether variability associated with open ocean mesoscale eddies is equally important to the large-scale atmospheric state. We include a discussion of what processes can presently be parameterised in coupled models with coarse resolution non-eddying ocean models, and where parameterizations may fall short. We discuss the benefits of resolution and identify gaps in the current literature that leave important questions unanswered.
120-136
Hewitt, Helene T.
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Bell, Michael J.
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Chassignet, Eric P.
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Czaja, Arnaud
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Ferreira, David
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Griffies, Stephen M.
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Hyder, Pat
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Mcclean, Julie L.
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New, Adrian L.
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Roberts, Malcolm J.
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1 December 2017
Hewitt, Helene T.
c6c30d10-905e-4fdb-a021-37f63c5e92a4
Bell, Michael J.
eb37b7a9-b711-4612-a53b-73ed523bf255
Chassignet, Eric P.
e0a61164-bca4-49b4-9a7c-4e48b80100ce
Czaja, Arnaud
7662453e-3707-4273-a693-8ee7897eec19
Ferreira, David
47a79187-501a-4689-af4e-fc67ddc40c9a
Griffies, Stephen M.
bcc53ed0-1893-46cf-ac21-56259f8722f6
Hyder, Pat
3ecf7b44-00f5-4b4d-b689-71aab9907d98
Mcclean, Julie L.
42dbbabc-6679-45bd-b581-bf7bcefea10d
New, Adrian L.
69c2be8b-c6c2-408f-9612-6980b1a25802
Roberts, Malcolm J.
5577a257-2416-4760-b72a-711f3a2dee84
Hewitt, Helene T., Bell, Michael J., Chassignet, Eric P., Czaja, Arnaud, Ferreira, David, Griffies, Stephen M., Hyder, Pat, Mcclean, Julie L., New, Adrian L. and Roberts, Malcolm J.
(2017)
Will high-resolution global ocean models benefit coupled predictions on short-range to climate timescales?
Ocean Modelling, 120, .
(doi:10.1016/j.ocemod.2017.11.002).
Abstract
As the importance of the ocean in the weather and climate system is increasingly recognised, operational systems are now moving towards coupled prediction not only for seasonal to climate timescales but also for short-range forecasts. A three-way tension exists between the allocation of computing resources to refine model resolution, the expansion of model complexity/capability, and the increase of ensemble size. Here we review evidence for the benefits of increased ocean resolution in global coupled models, where the ocean component explicitly represents transient mesoscale eddies and narrow boundary currents. We consider lessons learned from forced ocean/sea-ice simulations; from studies concerning the SST resolution required to impact atmospheric simulations; and from coupled predictions. Impacts of the mesoscale ocean in western boundary current regions on the large-scale atmospheric state have been identified. Understanding of air-sea feedback in western boundary currents is modifying our view of the dynamics in these key regions. It remains unclear whether variability associated with open ocean mesoscale eddies is equally important to the large-scale atmospheric state. We include a discussion of what processes can presently be parameterised in coupled models with coarse resolution non-eddying ocean models, and where parameterizations may fall short. We discuss the benefits of resolution and identify gaps in the current literature that leave important questions unanswered.
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Accepted/In Press date: 6 November 2017
Published date: 1 December 2017
Identifiers
Local EPrints ID: 416293
URI: http://eprints.soton.ac.uk/id/eprint/416293
ISSN: 1463-5003
PURE UUID: 31b3c449-265a-492c-9700-c563916630b1
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Date deposited: 12 Dec 2017 17:30
Last modified: 16 Mar 2024 06:01
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Contributors
Author:
Helene T. Hewitt
Author:
Michael J. Bell
Author:
Eric P. Chassignet
Author:
Arnaud Czaja
Author:
David Ferreira
Author:
Stephen M. Griffies
Author:
Pat Hyder
Author:
Julie L. Mcclean
Author:
Adrian L. New
Author:
Malcolm J. Roberts
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