Eddy advective and diffusive transports of heat and salt in the Southern Ocean
Eddy advective and diffusive transports of heat and salt in the Southern Ocean
There are two distinct mechanisms by which eddies provide systematic transport of tracer on isopycnals: the advective transport, associated with the slumping of isopycnals, and the diffusive transport, associated with down-gradient diffusion. Depending on the large-scale tracer distribution, eddy advective transport has either the same direction as or opposite direction to eddy diffusive transport. As a consequence, eddy advection and eddy diffusion can reinforce each other for some tracers but oppose each other for other tracers. Using scaling analysis, it is argued that the relative directions of eddy advective and diffusive transports can be determined simply from the relative slopes of tracers and isopycnals. An eddy-resolving (1/12°) global ocean model is used to illustrate the two eddy transport mechanisms for temperature and salinity in the Southern Ocean. Applications to other tracers, such as oxygen, are discussed. The diagnosed eddy diffusivity for temperature (and salinity) is found to be considerably different from the eddy diffusivity for eddy advective transport velocity.
1376-1393
Lee, M-M.
1b073ef1-2eb9-45a6-862b-8dd8cb3df52d
Nurser, A.J.G.
2493ef9a-21e9-4d8b-9c32-08677e7e145a
Coward, A.C.
53b78140-2e65-476a-b287-e8384a65224b
de Cuevas, B.A.
01cc697c-2832-4de6-87bf-bf9f16c1f906
May 2007
Lee, M-M.
1b073ef1-2eb9-45a6-862b-8dd8cb3df52d
Nurser, A.J.G.
2493ef9a-21e9-4d8b-9c32-08677e7e145a
Coward, A.C.
53b78140-2e65-476a-b287-e8384a65224b
de Cuevas, B.A.
01cc697c-2832-4de6-87bf-bf9f16c1f906
Lee, M-M., Nurser, A.J.G., Coward, A.C. and de Cuevas, B.A.
(2007)
Eddy advective and diffusive transports of heat and salt in the Southern Ocean.
Journal of Physical Oceanography, 37 (5), .
(doi:10.1175/JPO3057.1).
Abstract
There are two distinct mechanisms by which eddies provide systematic transport of tracer on isopycnals: the advective transport, associated with the slumping of isopycnals, and the diffusive transport, associated with down-gradient diffusion. Depending on the large-scale tracer distribution, eddy advective transport has either the same direction as or opposite direction to eddy diffusive transport. As a consequence, eddy advection and eddy diffusion can reinforce each other for some tracers but oppose each other for other tracers. Using scaling analysis, it is argued that the relative directions of eddy advective and diffusive transports can be determined simply from the relative slopes of tracers and isopycnals. An eddy-resolving (1/12°) global ocean model is used to illustrate the two eddy transport mechanisms for temperature and salinity in the Southern Ocean. Applications to other tracers, such as oxygen, are discussed. The diagnosed eddy diffusivity for temperature (and salinity) is found to be considerably different from the eddy diffusivity for eddy advective transport velocity.
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Published date: May 2007
Additional Information:
Actually deposited by J. Conquer 27 Nov 2007
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Local EPrints ID: 49740
URI: http://eprints.soton.ac.uk/id/eprint/49740
ISSN: 0022-3670
PURE UUID: 60d4dab5-6467-4a20-b7ee-1d04987c2c9c
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Date deposited: 27 Nov 2007
Last modified: 15 Mar 2024 09:58
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Contributors
Author:
M-M. Lee
Author:
A.J.G. Nurser
Author:
A.C. Coward
Author:
B.A. de Cuevas
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