Labrador seawater: pathways, CFC inventory and formation rates
Labrador seawater: pathways, CFC inventory and formation rates
In 1997, a unique hydrographic and chlorofluorocarbon (CFC: component CFC-11) dataset was obtained in the subpolar North Atlantic. To estimate the synopticity of the 1997 data, the recent temporal evolution of the CFC and Labrador Sea Water (LSW) thickness fields are examined. In the western Atlantic north of 50°N, the LSW thickness decreased considerably from 1994–97, while the mean CFC concentrations did not change much. South of 50°N and in the eastern Atlantic, the CFC concentration increased with little or no change in the LSW thickness. On shorter timescales, local anomalies due to the presence of eddies are observed, but for space scales larger than the eddies the dataset can be treated as being synoptic over the 1997 observation period.
The spreading of LSW in the subpolar North Atlantic is described in detail using gridded CFC and LSW thickness fields combined with Profiling Autonomous Lagrangian Circulation Explorer (PALACE) float trajectories. The gridded fields are also used to calculate the CFC-11 inventory in the LSW from 40° to 65°N, and from 10° to 60°W. In total, 2300 ± 250 tons of CFC-11 (equivalent to 16.6 million moles) were brought into the LSW by deep convection. In 1997, 28% of the inventory was still found in the Labrador Sea west of 45°W and 31% of the inventory was located in the eastern Atlantic.
The CFC inventory in the LSW was used to estimate the lower limits of LSW formation rates. At a constant formation rate, a value of 4.4–5.6 Sv (Sv 106 m3 s?1) is obtained. If the denser modes of LSW are ventilated only in periods with intense convection, the minimum formation rate of LSW in 1988–94 is 8.1–10.8 Sv, and 1.8–2.4 Sv in 1995–97.
648-665
Rhein, M.
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Fischer, J.
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Smethie, W.M.
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Smythe-Wright, D.
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Weiss, R.F.
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Mertens, C.
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Min, D.H.
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Fleischmann, U.
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Putzka, A.
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February 2002
Rhein, M.
b4e0a63d-8dee-4199-bb18-3455b3519a3e
Fischer, J.
dfc0e6e3-5b30-4940-9454-dee6381a0dcc
Smethie, W.M.
c72759fc-9e8a-44a3-a942-842a62b72a23
Smythe-Wright, D.
18f22519-f0f3-4144-ad0d-051fd3374fe8
Weiss, R.F.
3e95f645-8d2b-4f13-9e50-2fb602511f99
Mertens, C.
7efcbcae-b7f9-4622-ae94-397c875d3a8b
Min, D.H.
7e47d91a-4087-48f6-9312-b540b1c089cb
Fleischmann, U.
1787603b-6ecc-48f2-8253-cd4798deacdd
Putzka, A.
7112154d-0c2c-4b54-828c-6cb6b7056d3c
Rhein, M., Fischer, J., Smethie, W.M., Smythe-Wright, D., Weiss, R.F., Mertens, C., Min, D.H., Fleischmann, U. and Putzka, A.
(2002)
Labrador seawater: pathways, CFC inventory and formation rates.
Journal of Physical Oceanography, 32 (2), .
(doi:10.1175/1520-0485(2002)032<0648:LSWPCI>2.0.CO;2).
Abstract
In 1997, a unique hydrographic and chlorofluorocarbon (CFC: component CFC-11) dataset was obtained in the subpolar North Atlantic. To estimate the synopticity of the 1997 data, the recent temporal evolution of the CFC and Labrador Sea Water (LSW) thickness fields are examined. In the western Atlantic north of 50°N, the LSW thickness decreased considerably from 1994–97, while the mean CFC concentrations did not change much. South of 50°N and in the eastern Atlantic, the CFC concentration increased with little or no change in the LSW thickness. On shorter timescales, local anomalies due to the presence of eddies are observed, but for space scales larger than the eddies the dataset can be treated as being synoptic over the 1997 observation period.
The spreading of LSW in the subpolar North Atlantic is described in detail using gridded CFC and LSW thickness fields combined with Profiling Autonomous Lagrangian Circulation Explorer (PALACE) float trajectories. The gridded fields are also used to calculate the CFC-11 inventory in the LSW from 40° to 65°N, and from 10° to 60°W. In total, 2300 ± 250 tons of CFC-11 (equivalent to 16.6 million moles) were brought into the LSW by deep convection. In 1997, 28% of the inventory was still found in the Labrador Sea west of 45°W and 31% of the inventory was located in the eastern Atlantic.
The CFC inventory in the LSW was used to estimate the lower limits of LSW formation rates. At a constant formation rate, a value of 4.4–5.6 Sv (Sv 106 m3 s?1) is obtained. If the denser modes of LSW are ventilated only in periods with intense convection, the minimum formation rate of LSW in 1988–94 is 8.1–10.8 Sv, and 1.8–2.4 Sv in 1995–97.
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Published date: February 2002
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Local EPrints ID: 59200
URI: http://eprints.soton.ac.uk/id/eprint/59200
ISSN: 0022-3670
PURE UUID: 955b7007-c532-41dd-8cec-c42941f5b409
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Date deposited: 27 Aug 2008
Last modified: 15 Mar 2024 11:14
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Author:
M. Rhein
Author:
J. Fischer
Author:
W.M. Smethie
Author:
D. Smythe-Wright
Author:
R.F. Weiss
Author:
C. Mertens
Author:
D.H. Min
Author:
U. Fleischmann
Author:
A. Putzka
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