Role of the Agulhas Current in Indian Ocean circulation and associated heat and freshwater fluxes
Role of the Agulhas Current in Indian Ocean circulation and associated heat and freshwater fluxes
A reduced estimate of Agulhas Current transport provides the motivation to examine the sensitivity of Indian Ocean circulation and meridional heat transport to the strength of the western boundary current. The new transport estimate is 70 Sv, much smaller than the previous value of 85 Sv. Consideration of three case studies for a large, medium and small Agulhas Current transport demonstrate that the divergence of heat transport over the Indian Ocean north of 32°S has a sensitivity of 0.08 PW per 10 Sv of Agulhas transport, and freshwater convergence has a sensitivity of 0.03×109 kg s?1 per 10 Sv of transport. Moreover, a smaller Agulhas Current leads to a better silica balance and a smaller meridional overturning circulation for the Indian Ocean. The mean Agulhas Current transport estimated from time-series current meter measurements is used to constrain the geostrophic transport in the western boundary region in order to re-evaluate the circulation, heat and freshwater transports across 32°S. The Indonesian Throughflow is taken to be 12 Sv at an average temperature of 18°C. The constrained circulation exhibits a vertical–meridional circulation with a net northward flow below 2000 dbar of 10.1 Sv. The heat transport divergence is estimated to be 0.66 PW, the freshwater convergence to be 0.54×109 kg s?1, and the silica convergence to be 335 kmol s?1. Meridional transports are separated into barotropic, baroclinic and horizontal components, with each component conserving mass. The barotropic component is strongly dependent on the estimated size of the Indonesian Throughflow. Surprisingly, the baroclinic component depends principally on the large-scale density distribution and is nearly invariant to the size of the overturning circulation. The horizontal heat and freshwater flux components are strongly influenced by the size of the Agulhas Current because it is warmer and saltier than the mid-ocean. The horizontal fluxes of heat and salt penetrate down to 1500 m depth, suggesting that warm and salty Red Sea Water may be involved in converting the intermediate and upper deep waters which enter the Indian Ocean from the Southern Ocean into warmer and saltier waters before they exit in the Agulhas Current.
HEAT TRANSPORT, AGULHAS CURRENT, INDIAN OCEAN, MERIDIONAL OCEAN CIRCULATION, LADCP, FRESHWATER, WOCE
1821-1845
Bryden, H.L.
7f823946-34e8-48a3-8bd4-a72d2d749184
Beal, L.M.
3939723a-86f3-4691-bd09-bf1ab2657c76
2001
Bryden, H.L.
7f823946-34e8-48a3-8bd4-a72d2d749184
Beal, L.M.
3939723a-86f3-4691-bd09-bf1ab2657c76
Bryden, H.L. and Beal, L.M.
(2001)
Role of the Agulhas Current in Indian Ocean circulation and associated heat and freshwater fluxes.
Deep Sea Research Part I: Oceanographic Research Papers, 48 (8), .
(doi:10.1016/S0967-0637(00)00111-4).
Abstract
A reduced estimate of Agulhas Current transport provides the motivation to examine the sensitivity of Indian Ocean circulation and meridional heat transport to the strength of the western boundary current. The new transport estimate is 70 Sv, much smaller than the previous value of 85 Sv. Consideration of three case studies for a large, medium and small Agulhas Current transport demonstrate that the divergence of heat transport over the Indian Ocean north of 32°S has a sensitivity of 0.08 PW per 10 Sv of Agulhas transport, and freshwater convergence has a sensitivity of 0.03×109 kg s?1 per 10 Sv of transport. Moreover, a smaller Agulhas Current leads to a better silica balance and a smaller meridional overturning circulation for the Indian Ocean. The mean Agulhas Current transport estimated from time-series current meter measurements is used to constrain the geostrophic transport in the western boundary region in order to re-evaluate the circulation, heat and freshwater transports across 32°S. The Indonesian Throughflow is taken to be 12 Sv at an average temperature of 18°C. The constrained circulation exhibits a vertical–meridional circulation with a net northward flow below 2000 dbar of 10.1 Sv. The heat transport divergence is estimated to be 0.66 PW, the freshwater convergence to be 0.54×109 kg s?1, and the silica convergence to be 335 kmol s?1. Meridional transports are separated into barotropic, baroclinic and horizontal components, with each component conserving mass. The barotropic component is strongly dependent on the estimated size of the Indonesian Throughflow. Surprisingly, the baroclinic component depends principally on the large-scale density distribution and is nearly invariant to the size of the overturning circulation. The horizontal heat and freshwater flux components are strongly influenced by the size of the Agulhas Current because it is warmer and saltier than the mid-ocean. The horizontal fluxes of heat and salt penetrate down to 1500 m depth, suggesting that warm and salty Red Sea Water may be involved in converting the intermediate and upper deep waters which enter the Indian Ocean from the Southern Ocean into warmer and saltier waters before they exit in the Agulhas Current.
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Published date: 2001
Keywords:
HEAT TRANSPORT, AGULHAS CURRENT, INDIAN OCEAN, MERIDIONAL OCEAN CIRCULATION, LADCP, FRESHWATER, WOCE
Identifiers
Local EPrints ID: 8001
URI: http://eprints.soton.ac.uk/id/eprint/8001
ISSN: 0967-0637
PURE UUID: 9afa75cc-41ea-47f0-bc2c-12803578b75e
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Date deposited: 19 Aug 2004
Last modified: 16 Mar 2024 02:53
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Author:
L.M. Beal
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