Weakly forced atmospheric GCMs: lessons from model comparisons
Weakly forced atmospheric GCMs: lessons from model comparisons
Even when forced with mostly identical physical parametrizations, general circulation models (GCMs) of Venus produce significant dispersion in the simulated zonal wind fields and meridional circulations. Horizontal resolution, lower boundary layer parametrization and initial state are among the most sensitive aspects, and consistent trends are not obtained between models (or even by the same model at varying resolution).
When comparing simplified temperature forcing with realistic radiative transfer in the LMD Venus GCM, it is also clear that the description of this forcing is critical to understand the meridional circulation, and therefore the dynamical cycle of angular momentum in this sensitive atmosphere. The role of numerical aspects is also obvious in the case of Titan, another weakly forced atmosphere in superrotation. Modeling Titan’s stratospheric superrotation has proved difficult, and recent GCM successes highlight that our ability to model these processes correctly is highly sensitive to numerical aspects, especially horizontal dissipation.
These studies show us that modelers need to keep humble and aware of the difficulty to assess robust behaviour with only one GCM. Intercomparison of different GCMs is a useful way to identify robust interpretations from model-dependent aspects.
Lebonnois, S.
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Lee, Christopher
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Yamamoto, M.
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Dawson, J.
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Lewis, S.R.
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Mendonca, J.
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Read, Peter L.
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Parish, H.
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October 2011
Lebonnois, S.
1a1f9387-fb0c-411e-b729-16c5bf2ade62
Lee, Christopher
f04a8b45-0c48-4678-bf51-95ae42744ed6
Yamamoto, M.
65a94f94-5427-4983-a54a-a1ac534e6b2a
Dawson, J.
54c7df91-6d46-4602-aa2d-6944697a85eb
Lewis, S.R.
c6731362-ff40-4921-81ac-de6ae053589e
Mendonca, J.
cb29fe08-eb94-4fad-8eba-eac1c5de491b
Read, Peter L.
0c70516f-56ef-4f86-91e7-c55f9b49d8ba
Parish, H.
9eacc4dc-13e7-4a00-a95b-3925733ee03a
Lebonnois, S., Lee, Christopher, Yamamoto, M., Dawson, J., Lewis, S.R., Mendonca, J., Read, Peter L. and Parish, H.
(2011)
Weakly forced atmospheric GCMs: lessons from model comparisons.
In EPSC Abstracts.
vol. 6
Record type:
Conference or Workshop Item
(Paper)
Abstract
Even when forced with mostly identical physical parametrizations, general circulation models (GCMs) of Venus produce significant dispersion in the simulated zonal wind fields and meridional circulations. Horizontal resolution, lower boundary layer parametrization and initial state are among the most sensitive aspects, and consistent trends are not obtained between models (or even by the same model at varying resolution).
When comparing simplified temperature forcing with realistic radiative transfer in the LMD Venus GCM, it is also clear that the description of this forcing is critical to understand the meridional circulation, and therefore the dynamical cycle of angular momentum in this sensitive atmosphere. The role of numerical aspects is also obvious in the case of Titan, another weakly forced atmosphere in superrotation. Modeling Titan’s stratospheric superrotation has proved difficult, and recent GCM successes highlight that our ability to model these processes correctly is highly sensitive to numerical aspects, especially horizontal dissipation.
These studies show us that modelers need to keep humble and aware of the difficulty to assess robust behaviour with only one GCM. Intercomparison of different GCMs is a useful way to identify robust interpretations from model-dependent aspects.
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Published date: October 2011
Venue - Dates:
EPSC-DPS Joint Meeting 2011, La Cité Internationale des Congrès Nantes Métropole, Nantes, France, 2011-10-02 - 2011-10-07
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Local EPrints ID: 496792
URI: http://eprints.soton.ac.uk/id/eprint/496792
PURE UUID: d97ca6c9-1985-4584-be6b-5508d6649394
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Date deposited: 08 Jan 2025 05:26
Last modified: 10 Jan 2025 03:21
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Contributors
Author:
S. Lebonnois
Author:
Christopher Lee
Author:
M. Yamamoto
Author:
J. Dawson
Author:
S.R. Lewis
Author:
J. Mendonca
Author:
Peter L. Read
Author:
H. Parish
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