On the accuracy of North Atlantic temperature and heat storage fields from Argo
On the accuracy of North Atlantic temperature and heat storage fields from Argo
The accuracy with which the Argo profiling float dataset can estimate the upper ocean temperature and heat storage in the North Atlantic is investigated. A hydrographic section across 36°N is used to assess uncertainty in Argo-based estimates of the temperature field. The root-mean-square (RMS) difference in the Argo-based temperature field relative to the section measurements is about 0.6°C. The RMS difference is smaller, less than 0.4°C, in the eastern basin and larger, up to 2.0°C, toward the western boundary. In comparison, the difference of the section with respect to the World Ocean Atlas (WOA) is 0.8°C. For the upper 100 m, the improvement with Argo is more dramatic, the RMS difference being 0.56°C, compared to 1.13°C with WOA. The Ocean Circulation and Climate Advanced Model (OCCAM) is used to determine the Argo sampling error in mixed layer heat storage estimates. Using OCCAM subsampled to typical Argo sampling density, it is found that outside of the western boundary, the mixed layer monthly heat storage in the subtropical North Atlantic has a sampling error of 10–20 Wm-2 when averaged over a 10° Å~ 10° area. This error reduces to less than 10 Wm-2 when seasonal heat storage is considered. Errors of this magnitude suggest that the Argo dataset is of use for investigating variability in mixed layer heat storage on interannual timescales. However, the expected sampling error increases to more than 50 Wm-2 in the Gulf Stream region and north of 40°N, limiting the use of Argo in these areas.
heat storage, Argo, mixed layer
C01009-[17pp]
Hadfield, R.E.
deee59a5-9bb8-4ab0-a6ab-19d167eff0cd
Wells, N.C.
4c27167c-f972-4822-9614-d6ca8d8223b5
Josey, S.A.
2252ab7f-5cd2-49fd-a951-aece44553d93
Hirschi, J.
c8a45006-a6e3-4319-b5f5-648e8ef98906
2007
Hadfield, R.E.
deee59a5-9bb8-4ab0-a6ab-19d167eff0cd
Wells, N.C.
4c27167c-f972-4822-9614-d6ca8d8223b5
Josey, S.A.
2252ab7f-5cd2-49fd-a951-aece44553d93
Hirschi, J.
c8a45006-a6e3-4319-b5f5-648e8ef98906
Hadfield, R.E., Wells, N.C., Josey, S.A. and Hirschi, J.
(2007)
On the accuracy of North Atlantic temperature and heat storage fields from Argo.
Journal of Geophysical Research, 112 (C1), .
(doi:10.1029/2006JC003825).
Abstract
The accuracy with which the Argo profiling float dataset can estimate the upper ocean temperature and heat storage in the North Atlantic is investigated. A hydrographic section across 36°N is used to assess uncertainty in Argo-based estimates of the temperature field. The root-mean-square (RMS) difference in the Argo-based temperature field relative to the section measurements is about 0.6°C. The RMS difference is smaller, less than 0.4°C, in the eastern basin and larger, up to 2.0°C, toward the western boundary. In comparison, the difference of the section with respect to the World Ocean Atlas (WOA) is 0.8°C. For the upper 100 m, the improvement with Argo is more dramatic, the RMS difference being 0.56°C, compared to 1.13°C with WOA. The Ocean Circulation and Climate Advanced Model (OCCAM) is used to determine the Argo sampling error in mixed layer heat storage estimates. Using OCCAM subsampled to typical Argo sampling density, it is found that outside of the western boundary, the mixed layer monthly heat storage in the subtropical North Atlantic has a sampling error of 10–20 Wm-2 when averaged over a 10° Å~ 10° area. This error reduces to less than 10 Wm-2 when seasonal heat storage is considered. Errors of this magnitude suggest that the Argo dataset is of use for investigating variability in mixed layer heat storage on interannual timescales. However, the expected sampling error increases to more than 50 Wm-2 in the Gulf Stream region and north of 40°N, limiting the use of Argo in these areas.
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Published date: 2007
Keywords:
heat storage, Argo, mixed layer
Identifiers
Local EPrints ID: 44071
URI: http://eprints.soton.ac.uk/id/eprint/44071
ISSN: 0148-0227
PURE UUID: 618de85e-1f9f-4db6-953a-4c6b1b71e9d5
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Date deposited: 12 Feb 2007
Last modified: 15 Mar 2024 09:00
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Author:
R.E. Hadfield
Author:
S.A. Josey
Author:
J. Hirschi
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