Southern Ocean overturning across streamlines in an eddying
simulation of the Antarctic Circumpolar Current
Southern Ocean overturning across streamlines in an eddying
simulation of the Antarctic Circumpolar Current
An eddying global model is used to study the characteristics
of the Antarctic Circumpolar Current (ACC) in a
streamline-following framework. Previous model-based estimates
of the meridional circulation were calculated using
zonal averages: this method leads to a counter-intuitive poleward
circulation of the less dense waters, and underestimates
the eddy effects. We show that on the contrary, the upper
ocean circulation across streamlines agrees with the theoretical
view: an equatorward mean flow partially cancelled by a
poleward eddy mass flux. Two model simulations, in which
the buoyancy forcing above the ACC changes from positive
to negative, suggest that the relationship between the residual
meridional circulation and the surface buoyancy flux is
not as straightforward as assumed by the simplest theoretical
models: the sign of the residual circulation cannot be
inferred from the surface buoyancy forcing only. Among the
other processes that likely play a part in setting the meridional
circulation, our model results emphasize the complex
three-dimensional structure of the ACC (probably not well
accounted for in streamline-averaged, two-dimensional models)
and the distinct role of temperature and salinity in the
definition of the density field. Heat and salt transports by the
time-mean flow are important even across time-mean streamlines.
Heat and salt are balanced in the ACC, the model drift
being small, but the nonlinearity of the equation of state cannot
be ignored in the density balance.
491-507
Treguier, A.M.
bb921a5f-42da-4c8c-9d0b-1af3b5254a33
England, M.H.
da9f30fc-0523-44a3-b00f-a0027af7ef69
Rintoul, S.R.
77f41e1c-4d26-44c3-ba5d-1ae96ec60195
Madec, G.
7e2ec04b-896a-4861-b2d0-b74f39d748c2
Le Sommer, J.
b2f7856c-9030-4d9e-bda6-dbfea753d329
Molines, J-M.
ab7d1ff4-3ef2-4cba-9347-f3b66ba16f0b
2007
Treguier, A.M.
bb921a5f-42da-4c8c-9d0b-1af3b5254a33
England, M.H.
da9f30fc-0523-44a3-b00f-a0027af7ef69
Rintoul, S.R.
77f41e1c-4d26-44c3-ba5d-1ae96ec60195
Madec, G.
7e2ec04b-896a-4861-b2d0-b74f39d748c2
Le Sommer, J.
b2f7856c-9030-4d9e-bda6-dbfea753d329
Molines, J-M.
ab7d1ff4-3ef2-4cba-9347-f3b66ba16f0b
Treguier, A.M., England, M.H., Rintoul, S.R., Madec, G., Le Sommer, J. and Molines, J-M.
(2007)
Southern Ocean overturning across streamlines in an eddying
simulation of the Antarctic Circumpolar Current.
Ocean Science, 3 (4), .
Abstract
An eddying global model is used to study the characteristics
of the Antarctic Circumpolar Current (ACC) in a
streamline-following framework. Previous model-based estimates
of the meridional circulation were calculated using
zonal averages: this method leads to a counter-intuitive poleward
circulation of the less dense waters, and underestimates
the eddy effects. We show that on the contrary, the upper
ocean circulation across streamlines agrees with the theoretical
view: an equatorward mean flow partially cancelled by a
poleward eddy mass flux. Two model simulations, in which
the buoyancy forcing above the ACC changes from positive
to negative, suggest that the relationship between the residual
meridional circulation and the surface buoyancy flux is
not as straightforward as assumed by the simplest theoretical
models: the sign of the residual circulation cannot be
inferred from the surface buoyancy forcing only. Among the
other processes that likely play a part in setting the meridional
circulation, our model results emphasize the complex
three-dimensional structure of the ACC (probably not well
accounted for in streamline-averaged, two-dimensional models)
and the distinct role of temperature and salinity in the
definition of the density field. Heat and salt transports by the
time-mean flow are important even across time-mean streamlines.
Heat and salt are balanced in the ACC, the model drift
being small, but the nonlinearity of the equation of state cannot
be ignored in the density balance.
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More information
Published date: 2007
Identifiers
Local EPrints ID: 64346
URI: http://eprints.soton.ac.uk/id/eprint/64346
ISSN: 1812-0792
PURE UUID: 7c3b955e-8352-471f-b4c2-cff04ac7a87a
Catalogue record
Date deposited: 10 Dec 2008
Last modified: 08 Jan 2022 16:05
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Contributors
Author:
A.M. Treguier
Author:
M.H. England
Author:
S.R. Rintoul
Author:
G. Madec
Author:
J. Le Sommer
Author:
J-M. Molines
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