Seasonal variability of the Red Sea, from satellite gravity, radar altimetry, and in situ observations
Seasonal variability of the Red Sea, from satellite gravity, radar altimetry, and in situ observations
Seasonal variations of sea surface height (SSH) and mass within the Red Sea are caused mostly by exchange of heat with the atmosphere and by flow through the strait opening into the Gulf of Aden to the south. That flow involves a net mass transfer into the Red Sea during fall and out during spring, though in summer there is an influx of cool water at intermediate depths. Thus, summer water in the south is warmer near the surface due to higher air temperatures, but cooler at intermediate depths. Summer water in the north experiences warming by air-sea exchange only. The temperature affects water density, which impacts SSH but has no effect on mass. We study this seasonal cycle by combining GRACE mass estimates, altimeter SSH measurements, and steric contributions derived from the World Ocean Atlas temperature climatology. Among our conclusions are: mass contributions are much larger than steric contributions; the mass is largest in winter, consistent with winds pushing water into the Red Sea in fall and out during spring; the steric signal is largest in summer, consistent with surface warming; and the cool, intermediate-depth water flowing into the Red Sea in spring has little impact on the steric signal, because contributions from the lowered temperature are offset by effects of decreased salinity. The results suggest that the combined use of altimeter and GRACE measurements can provide a useful alternative to in situ data for monitoring the steric signal.
Red Sea, altimeter, GRACE
5091-5104
Wahr, John
752ddf02-56fc-47e8-9bd2-c446886f9538
Smeed, David A.
79eece5a-c870-47f9-bba0-0a4ef0369490
Leuliette, Eric
bd9f6a95-e08c-4395-b76a-1ed0f144f820
Swenson, Sean
faff453f-8b7a-426b-bc3d-bb38298e868d
August 2014
Wahr, John
752ddf02-56fc-47e8-9bd2-c446886f9538
Smeed, David A.
79eece5a-c870-47f9-bba0-0a4ef0369490
Leuliette, Eric
bd9f6a95-e08c-4395-b76a-1ed0f144f820
Swenson, Sean
faff453f-8b7a-426b-bc3d-bb38298e868d
Wahr, John, Smeed, David A., Leuliette, Eric and Swenson, Sean
(2014)
Seasonal variability of the Red Sea, from satellite gravity, radar altimetry, and in situ observations.
Journal of Geophysical Research: Oceans, 119 (8), .
(doi:10.1002/2014JC010161).
Abstract
Seasonal variations of sea surface height (SSH) and mass within the Red Sea are caused mostly by exchange of heat with the atmosphere and by flow through the strait opening into the Gulf of Aden to the south. That flow involves a net mass transfer into the Red Sea during fall and out during spring, though in summer there is an influx of cool water at intermediate depths. Thus, summer water in the south is warmer near the surface due to higher air temperatures, but cooler at intermediate depths. Summer water in the north experiences warming by air-sea exchange only. The temperature affects water density, which impacts SSH but has no effect on mass. We study this seasonal cycle by combining GRACE mass estimates, altimeter SSH measurements, and steric contributions derived from the World Ocean Atlas temperature climatology. Among our conclusions are: mass contributions are much larger than steric contributions; the mass is largest in winter, consistent with winds pushing water into the Red Sea in fall and out during spring; the steric signal is largest in summer, consistent with surface warming; and the cool, intermediate-depth water flowing into the Red Sea in spring has little impact on the steric signal, because contributions from the lowered temperature are offset by effects of decreased salinity. The results suggest that the combined use of altimeter and GRACE measurements can provide a useful alternative to in situ data for monitoring the steric signal.
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jgrc20803_Wahr.pdf
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Accepted/In Press date: 12 August 2014
Published date: August 2014
Keywords:
Red Sea, altimeter, GRACE
Organisations:
Marine Systems Modelling
Identifiers
Local EPrints ID: 368003
URI: http://eprints.soton.ac.uk/id/eprint/368003
ISSN: 2169-9275
PURE UUID: 766cf0c7-ee53-4939-b441-8a4238fb8182
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Date deposited: 13 Aug 2014 08:39
Last modified: 14 Mar 2024 17:40
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Contributors
Author:
John Wahr
Author:
David A. Smeed
Author:
Eric Leuliette
Author:
Sean Swenson
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