Model decay in the Australia-Antarctic basin

Weijer, Wilbert; Gille, Sarah T; Vivier, Frederic

doi:10.1175/2009JPO4209.1

Title: Model decay in the Australia-Antarctic basin

Journal Article · Tue Jan 01 00:00:00 EST 2008 · Journal of Physical Oceanography

DOI:https://doi.org/10.1175/2009JPO4209.1· OSTI ID:962285

Weijer, Wilbert ^[1]; Gille, Sarah T ^[2]; Vivier, Frederic ^[3]

Los Alamos National Laboratory
UCSD
LOCEAN-IPSL

The barotropic intraseasonal variability in the Australia-Antarctic Basin (AAB) is studied in terms of the excitation and decay of topographically-trapped barotropic modes. The main objective is to reconcile two widely differing estimates of the decay rate of SSH anomalies in the AAB that are assumed to be related to barotropic modes. First, an Empirical Orthogonal Function (EOF) analysis is applied to almost 15 years of altimeter data. The analysis suggests that several modes are involved in the variability of the AAB, each related to distinct areas with (almost) closed contours of potential vorticity. Second, the dominant normal modes of the AAB are determined in a barotropic shallow-water (SW) model. These stationary modes are confined by the closed contours of potential vorticity that surround the eastern AAB, and the crest of the Southeast Indian Ridge. For reasonable values of horizontal eddy viscosity and bottom friction, their decay time scale is of the order of several weeks. Third, the SW model is forced with realistic winds and integrated for several years. Projection of the modal velocity patterns onto the output fields shows that the barotropic modes are indeed excited in the model, and that they decay slowly on the frictional O(3 weeks) time scale. However, the SSH anomalies in the modal areas display rapid O(4 days) decay. Additional analysis shows that this rapid decay reflects the adjustment of unbalanced flow components through the emission of Rossby waves. Resonant excitation of the dominant free modes accounts for about 20% of the SSH variability in the forced model run. Other mechanisms are suggested to explain the region of high SSH variability in the AAB.

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Research Organization:: Los Alamos National Laboratory (LANL), Los Alamos, NM (United States)

Sponsoring Organization:: USDOE

DOE Contract Number:: AC52-06NA25396

OSTI ID:: 962285

Report Number(s):: LA-UR-08-07374; LA-UR-08-7374; TRN: US200919%%49

Journal Information:: Journal of Physical Oceanography, Journal Name: Journal of Physical Oceanography

Country of Publication:: United States

Language:: English

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