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Original Articles

Multiple Satellite Missions Confirming the Theory of Seasonal Oceanic Variability in the Northern North Pacific

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Pages 477-490 | Received 10 Nov 2010, Accepted 02 Mar 2011, Published online: 22 Aug 2011
 

Abstract

Using ocean-bottom-pressure (OBP) data from the Gravity Recovery and Climate Experiment (GRACE) mission, sea-surface-height (SSH) data from satellite radar altimeters, wind data from QuikSCAT, and a derived steric-sea-level (SSL) product from Kuo Citation(2006), we have investigated the large-scale seasonal variations of the North Pacific. It is shown that the strong annual cycle of OBP variability in the northern North Pacific can be explained by the wind stress curl and the annual SSH variability is mostly due to steric changes. This confirms the classic theory of Gill and Niiler Citation(1973); that is, (1) the seasonal OBP variability is the barotropic response to changes in the wind stress, resulting from a small residual in mass divergence from the balance between Ekman and Sverdrup transport, and (2) the SSH variability is largely produced by expansion and contraction of the water column due to changing fluxes of heat and water across the surface. However, in the semiannual frequency, the steric effect becomes insignificant, leaving both OBP and SSH to vary with the wind stress. This is because the Ekman pumping creates a low/high-pressure center in the upper ocean, which projects onto the barotropic mode and leads to a negative/positive OBP and SSH anomaly. In addition, it is found the bottom pressure torque leads the density change and the Ekman pumping velocity term by 3.4 months, suggesting a transition period is needed for the sea level to fully respond to the wind forcing.

Acknowledgements

This research is carried out at the Jet Propulsion Laboratory, California Institute of Technology, under contract with NASA. T. Qu was supported by NSF through grant OCE-0623533. Additional support for T. Qu was provided by JAMSTEC, NOAA, and NASA through their sponsorship of the International Pacific Research Center (IPRC). SOEST contribution number 8110 and IPRC contribution number IPRC-766.

During the revision of this paper, we received the sad news that Peter Niiler died of a heart attack in San Diego. Peter and Adrian (A. E. Gill) were two gifted oceanographers. Their work has helped shape how scientists study the ocean. The discussed subject in this paper is a clear example. Peter had been a Distinguished Visiting Scientist at the Jet Propulsion Laboratory since 1979 and a frequent visitor to the IPRC in recent years, and the authors had received many inspirations from him. We would like to contribute this paper to honor the memory of Pearn Peter Niiler.

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