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Planetary wave response to surface forcing and to instability in the presence of mean flow and topography

Killworth, P.D.; Blundell, J.R.. 2007 Planetary wave response to surface forcing and to instability in the presence of mean flow and topography. Journal of Physical Oceanography, 37 (5). 1297-1320. 10.1175/JPO3055.1

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Abstract/Summary

The local response of an ocean with slowly varying mean flow, stratification, and topography to two sources of disturbance is examined, concentrating on whether the resulting surface elevations are observable. The first is the ocean response to surface forcing (Ekman pumping or buoyancy forcing). For typical amplitudes of random forcing, while much of the ocean response is small (surface elevations less than 1 mm), there are sufficient near resonances (or pseudoresonances involving a critical layer) to produce elevations of 1 cm or more in much of the ocean. The second source is baroclinic instability. The fastest linear growth rate, as well as those for specific wavelengths, is computed globally. Almost all of the ocean is baroclinically unstable, and the most unstable waves are found to possess a small wavelength (often less than 10 km) with a disturbance concentrated near the surface: e-folding times O(20 days) are frequently found. However, the phase speed for the disturbances is almost everywhere slower westward than free planetary waves with mean flow and topography. Since the free waves propagate at speeds similar to observations, instability may be a good source of variability but is probably not responsible directly for observed wave propagation.

Item Type: Publication - Article
Digital Object Identifier (DOI): 10.1175/JPO3055.1
ISSN: 0022-3670
Date made live: 07 Feb 2007 +0 (UTC)
URI: https://nora.nerc.ac.uk/id/eprint/144018

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