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- Title
Wind-Forced Intraseasonal Sea Level Variability of the Extratropical Oceans.
- Authors
Fu, Lee-Lueng
- Abstract
Seven years' worth of sea level observations from the TOPEX/Poseidon altimeters and wind observations from the European Remote-Sensing Satellites (ERS-½) scatterometers were used to investigate the dynamics of large-scale intraseasonal sea level variability at mid- and high latitudes. Coherent patterns of sea level variability with spatial scales of 1000 km and timescales of 20 days to 1 year are identified in three particular regions: the Bellingshausen Basin west of Drake Passage, the Australian-Antarctic Basin, and the central North Pacific Ocean (30°-50°N) near the date line. Significant coherence is found between wind stress curt and the sea level variability. A simple barotropic vorticity equation, in which the time rate of relative vorticity variation is balanced by the wind stress curt and a damping term, is used to simulate the sea level anomalies with a significant degree of correlation with the observations. Although the coherence between the simulation and the observation is significant from periods of 30 days to 1 yr, the variance of the simulation is too low at periods shorter than 100 days. This is probably caused by the errors in the wind forcing as well as the other terms neglected in the vorticity equation. The simulation requires a damping timescale generally longer than 20 days, consistent with theoretical estimates of the dissipation timescales of a frictional bottom boundary layer. In the Bellingshausen Basin, the phase of the coherence between sea level and wind stress curt also shows dependence on frequency according to the dissipation mechanism and estimated damping timescales. However, the results at the other two locations are less conclusive.
- Subjects
SEA level; OCEANOGRAPHY
- Publication
Journal of Physical Oceanography, 2003, Vol 33, Issue 2, p436
- ISSN
0022-3670
- Publication type
Article
- DOI
10.1175/1520-0485(2003)033<0436:WFISLV>2.0.CO;2