Decay of eddies at the South-West Indian Ridge

The South-West Indian Ridge in the Indian sector of the Southern Ocean is a region recognised for the creation of particularly intense eddy disturbances in the mean flow of the Antarctic Circumpolar Current. Eddies formed at this ridge have been extensively studied over the past decade using hydrogr...

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Bibliographic Details
Main Authors: Durgadoo, Jonathan V, Ansorge, Isabelle J, de Cuevas, Beverly A, Lutjeharms, Johann R E, Coward, Andrew C
Format: Article in Journal/Newspaper
Language:English
Published: Faculty of Science 2011
Subjects:
South-West Indian Ridge
Indian sector
Southern Ocean
eddy disturbances
Antarctic Circumpolar Current
Antarctic
Indian
The Antarctic
Antarc*
Online Access:http://hdl.handle.net/11427/29910
https://open.uct.ac.za/bitstream/11427/29910/1/Durgadoo_Decay_eddies_at_South_2011.pdf
Description
Summary:The South-West Indian Ridge in the Indian sector of the Southern Ocean is a region recognised for the creation of particularly intense eddy disturbances in the mean flow of the Antarctic Circumpolar Current. Eddies formed at this ridge have been extensively studied over the past decade using hydrographic, satellite, drifter and float data and it is hypothesised that they could provide a vehicle for localised meridional heat and salt exchange. The effectiveness of this process is dependent on the rate of decay of the eddies. However, in order to investigate eddy decay, logistically difficult hydrographic monitoring is required. This study presents the decay of cold eddies at the South-West Indian Ridge, using outputs from a highresolution ocean model. The model's representation of the dynamic nature of this region is fully characteristic of observations. On average, 3-4 intense and well-defined cold eddies are generated per year; these eddies have mean longevities of 5.0±2.2 months with average advection speeds of 5±2 km/day. Most simulated eddies reach their peak intensity within 1.5-2.5 months after genesis and have depths of 2000 m - 3000 m. Thereafter they dissipate within approximately 3 months. The decay of eddies is generally characterised by a decrease in their sea surface height signature, a weakening in their rotation rates and a modification in their temperature-salinity characteristics. Subantarctic top predators are suspected to forage preferentially along the edges of eddies. The process of eddy dissipation may thus influence their feeding behaviour.

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