Estimation of interbasin transport using ocean bottom pressure: Theory and model for Asian marginal seas
Abstract
The Asian Marginal Seas are interconnected by a number of narrow straits, such as the Makassar Strait connecting the Pacific Ocean with the Indian Ocean, the Luzon Strait connecting the South China Sea with the Pacific Ocean, and the Korea/Tsushima Strait connecting the East China Sea with the Japan/East Sea. Here we propose a method, the combination of the "geostrophic control" formula of Garrett and Toulany (1982) and the "hydraulic control" theory of Whitehead et al. (1974), allowing the use of satellite-observed sea-surface-height (SSH) and ocean-bottom-pressure (OBP) data for estimating interbasin transport. The new method also allows separating the interbasin transport into surface and bottom fluxes that play an important role in maintaining the mass balance of the regional oceans. Comparison with model results demonstrates that the combined method can estimate the seasonal variability of the strait transports and is significantly better than the method of using SSH or OBP alone.
- Publication:
-
Journal of Geophysical Research (Oceans)
- Pub Date:
- November 2006
- DOI:
- 10.1029/2005JC003189
- Bibcode:
- 2006JGRC..11111S19S
- Keywords:
-
- Oceanography: General: Marginal and semi-enclosed seas;
- Oceanography: General: Numerical modeling (0545;
- 0560);
- Oceanography: Physical: Currents;
- Oceanography: Physical: Topographic/bathymetric interactions;
- interbasin transport;
- ocean bottom pressure;
- hydraulic control