Dynamic Adjustment of the Ocean Circulation to Self-Attraction and Loading Effects
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The oceanic response to surface loading, such as that related to atmospheric pressure, freshwater exchange, and changes in the gravity field, is essential to our understanding of sea level variability. In particular, so-called self-attraction and loading (SAL) effects caused by the redistribution of mass within the land–atmosphere–ocean system can have a measurable impact on sea level. In this study, the nature of SAL-induced variability in sea level is examined in terms of its equilibrium (static) and nonequilibrium (dynamic) components, using a general circulation model that implicitly includes the physics of SAL. The additional SAL forcing is derived by decomposing ocean mass anomalies into spherical harmonics and then applying Love numbers to infer associated crustal displacements and gravitational shifts. This implementation of SAL physics incurs only a relatively small computational cost. Effects of SAL on sea level amount to about 10% of the applied surface loading on average but depend strongly on location. The dynamic component exhibits large-scale basinwide patterns, with considerable contributions from subweekly time scales. Departures from equilibrium decrease toward longer time scales but are not totally negligible in many places. Ocean modeling studies should benefit from using a dynamical implementation of SAL as used here.
Date issued
2015-03Department
Massachusetts Institute of Technology. Department of Earth, Atmospheric, and Planetary SciencesJournal
Journal of Physical Oceanography
Publisher
American Meteorological Society
Citation
Vinogradova, Nadya T., Rui M. Ponte, Katherine J. Quinn, Mark E. Tamisiea, Jean-Michel Campin, and James L. Davis. “Dynamic Adjustment of the Ocean Circulation to Self-Attraction and Loading Effects.” Journal of Physical Oceanography 45, no. 3 (March 2015): 678–689. © 2015 American Meteorological Society
Version: Final published version
ISSN
0022-3670
1520-0485