Continuous estimate of Atlantic oceanic freshwater flux at 26.5°N
Continuous estimate of Atlantic oceanic freshwater flux at 26.5°N
The first continuous estimates of freshwater flux across 26.5°N are calculated using observations from the RAPID–MOCHA–Western Boundary Time Series (WBTS) and Argo floats every 10 days between April 2004 and October 2012. The mean plus or minus the standard deviation of the freshwater flux (FW) is ?1.17 ± 0.20 Sv (1 Sv ? 106 m3 s?1; negative flux is southward), implying a freshwater divergence of ?0.37 ± 0.20 Sv between the Bering Strait and 26.5°N. This is in the sense of an input of 0.37 Sv of freshwater into the ocean, consistent with a region where precipitation dominates over evaporation. The sign and the variability of the freshwater divergence are dominated by the overturning component (?0.78 ± 0.21 Sv). The horizontal component of the freshwater divergence is smaller, associated with little variability and positive (0.35 ± 0.04 Sv). A linear relationship, describing 91% of the variance, exists between the strength of the meridional overturning circulation (MOC) and the freshwater flux (?0.37 ? 0.047 Sv of FW per Sverdrups of MOC). The time series of the residual to this relationship shows a small (0.02 Sv in 8.5 yr) but detectable decrease in the freshwater flux (i.e., an increase in the southward freshwater flux) for a given MOC strength. Historical analyses of observations at 24.5°N are consistent with a more negative freshwater divergence from ?0.03 to ?0.37 Sv since 1974. This change is associated with an increased southward freshwater flux at this latitude due to an increase in the Florida Straits salinity (and therefore the northward salinity flux).
Circulation/ Dynamics, Meridional overturning circulation, Atm/Ocean Structure/ Phenomena, Freshwater, Physical Meteorology and Climatology, Salinity
8888-8906
McDonagh, Elaine L.
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King, Brian A.
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Bryden, Harry L.
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Courtois, Peggy
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Szuts, Zoltan
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Baringer, Molly
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Cunningham, Stuart A.
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Atkinson, Chris
a98cf7b4-d10d-4705-80a1-ca505c6e44eb
McCarthy, Gerard
fd87927d-feb3-447a-9cda-9558916df99f
November 2015
McDonagh, Elaine L.
47e26eeb-b774-4068-af07-31847e42b977
King, Brian A.
960f44b4-cc9c-4f77-b3c8-775530ac0061
Bryden, Harry L.
7f823946-34e8-48a3-8bd4-a72d2d749184
Courtois, Peggy
016efb21-fb67-46e0-acae-a58b7223b6d1
Szuts, Zoltan
99c8f2d3-a7f9-4992-b927-92cf92380bea
Baringer, Molly
0545fbe8-165a-4a95-b53c-c62e61be329d
Cunningham, Stuart A.
b7d3a27c-733f-4bd7-80ef-23825ee56bdf
Atkinson, Chris
a98cf7b4-d10d-4705-80a1-ca505c6e44eb
McCarthy, Gerard
fd87927d-feb3-447a-9cda-9558916df99f
McDonagh, Elaine L., King, Brian A., Bryden, Harry L., Courtois, Peggy, Szuts, Zoltan, Baringer, Molly, Cunningham, Stuart A., Atkinson, Chris and McCarthy, Gerard
(2015)
Continuous estimate of Atlantic oceanic freshwater flux at 26.5°N.
Journal of Climate, 28 (22), .
(doi:10.1175/JCLI-D-14-00519.1).
Abstract
The first continuous estimates of freshwater flux across 26.5°N are calculated using observations from the RAPID–MOCHA–Western Boundary Time Series (WBTS) and Argo floats every 10 days between April 2004 and October 2012. The mean plus or minus the standard deviation of the freshwater flux (FW) is ?1.17 ± 0.20 Sv (1 Sv ? 106 m3 s?1; negative flux is southward), implying a freshwater divergence of ?0.37 ± 0.20 Sv between the Bering Strait and 26.5°N. This is in the sense of an input of 0.37 Sv of freshwater into the ocean, consistent with a region where precipitation dominates over evaporation. The sign and the variability of the freshwater divergence are dominated by the overturning component (?0.78 ± 0.21 Sv). The horizontal component of the freshwater divergence is smaller, associated with little variability and positive (0.35 ± 0.04 Sv). A linear relationship, describing 91% of the variance, exists between the strength of the meridional overturning circulation (MOC) and the freshwater flux (?0.37 ? 0.047 Sv of FW per Sverdrups of MOC). The time series of the residual to this relationship shows a small (0.02 Sv in 8.5 yr) but detectable decrease in the freshwater flux (i.e., an increase in the southward freshwater flux) for a given MOC strength. Historical analyses of observations at 24.5°N are consistent with a more negative freshwater divergence from ?0.03 to ?0.37 Sv since 1974. This change is associated with an increased southward freshwater flux at this latitude due to an increase in the Florida Straits salinity (and therefore the northward salinity flux).
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Published date: November 2015
Keywords:
Circulation/ Dynamics, Meridional overturning circulation, Atm/Ocean Structure/ Phenomena, Freshwater, Physical Meteorology and Climatology, Salinity
Organisations:
Physical Oceanography, Marine Physics and Ocean Climate
Identifiers
Local EPrints ID: 384868
URI: http://eprints.soton.ac.uk/id/eprint/384868
ISSN: 0894-8755
PURE UUID: c1bee072-395e-406e-ab3a-ffc68ad158a5
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Date deposited: 07 Dec 2015 16:23
Last modified: 15 Mar 2024 02:52
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Contributors
Author:
Elaine L. McDonagh
Author:
Brian A. King
Author:
Peggy Courtois
Author:
Zoltan Szuts
Author:
Molly Baringer
Author:
Stuart A. Cunningham
Author:
Chris Atkinson
Author:
Gerard McCarthy
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