Upper ocean temperature and the baroclinic transport stream function relationship in Drake Passage
Upper ocean temperature and the baroclinic transport stream function relationship in Drake Passage
Repeat hydrographic sections across the Antarctic Circumpolar Current (ACC) in Drake Passage are used to derive an empirical relationship between upper ocean temperature and the baroclinic transport stream function. Cross validation shows this relationship can be used to infer baroclinic transport (above and relative to 2500 m) from expendable bathythermograph (XBT) temperature measurements with an error of a few per cent. Transport errors of less than 2 Sv are obtained if temperature at depths between 600 and 1600 m is used to define the relationship. Temperature at depths above 300 m provides an unreliable index of transport because of variability in temperature-salinity (T-S) properties produced by air-sea interaction. The scatter in the relationship between temperature and stream function from repeat observations along a single line is similar in magnitude to the scatter observed when data from the broader Drake Passage area are considered. In both cases, variability about the mean temperature-stream function relationship reflects advection of water with anomalous T-S properties. The tight relationship between temperature and stream function in Drake Passage and south of Australia suggests baroclinic transports can be inferred from XBT temperatures with high accuracy in the Southern Ocean, providing a cost-effective means of monitoring ACC variability. However, care must be taken at the end points, particularly in the Drake Passage where the strong flow of the Subantarctic Front sometimes lies over the continental slope.
Antarctic Circumpolar Current, baroclinic transport, Southern Ocean
C05001
Sokolov, S.
183ed02a-3d2c-4bbc-9abd-0df161a03cae
King, B.A.
d9d50671-3777-453b-9f85-c67a56a4d8b8
Rintoul, S.R.
77f41e1c-4d26-44c3-ba5d-1ae96ec60195
Rojas, R.L.
90bab4db-a10e-4f6c-bb45-908360bbf6e0
2004
Sokolov, S.
183ed02a-3d2c-4bbc-9abd-0df161a03cae
King, B.A.
d9d50671-3777-453b-9f85-c67a56a4d8b8
Rintoul, S.R.
77f41e1c-4d26-44c3-ba5d-1ae96ec60195
Rojas, R.L.
90bab4db-a10e-4f6c-bb45-908360bbf6e0
Sokolov, S., King, B.A., Rintoul, S.R. and Rojas, R.L.
(2004)
Upper ocean temperature and the baroclinic transport stream function relationship in Drake Passage.
Journal of Geophysical Research, 109 (C5), .
(doi:10.1029/2003JC002010).
Abstract
Repeat hydrographic sections across the Antarctic Circumpolar Current (ACC) in Drake Passage are used to derive an empirical relationship between upper ocean temperature and the baroclinic transport stream function. Cross validation shows this relationship can be used to infer baroclinic transport (above and relative to 2500 m) from expendable bathythermograph (XBT) temperature measurements with an error of a few per cent. Transport errors of less than 2 Sv are obtained if temperature at depths between 600 and 1600 m is used to define the relationship. Temperature at depths above 300 m provides an unreliable index of transport because of variability in temperature-salinity (T-S) properties produced by air-sea interaction. The scatter in the relationship between temperature and stream function from repeat observations along a single line is similar in magnitude to the scatter observed when data from the broader Drake Passage area are considered. In both cases, variability about the mean temperature-stream function relationship reflects advection of water with anomalous T-S properties. The tight relationship between temperature and stream function in Drake Passage and south of Australia suggests baroclinic transports can be inferred from XBT temperatures with high accuracy in the Southern Ocean, providing a cost-effective means of monitoring ACC variability. However, care must be taken at the end points, particularly in the Drake Passage where the strong flow of the Subantarctic Front sometimes lies over the continental slope.
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Published date: 2004
Keywords:
Antarctic Circumpolar Current, baroclinic transport, Southern Ocean
Identifiers
Local EPrints ID: 15822
URI: http://eprints.soton.ac.uk/id/eprint/15822
ISSN: 0148-0227
PURE UUID: 1466b946-43a3-4463-bc37-783d0753d1aa
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Date deposited: 02 Jun 2005
Last modified: 15 Mar 2024 05:43
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Contributors
Author:
S. Sokolov
Author:
B.A. King
Author:
S.R. Rintoul
Author:
R.L. Rojas
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