Estimating ocean transports with dynamic height moorings: an application in the Atlantic deep western boundary current
Estimating ocean transports with dynamic height moorings: an application in the Atlantic deep western boundary current
Efficient monitoring of large-scale current systems for climate research requires the development of new techniques to estimate ocean transports. Here, a methodology for continuous estimation of dynamic height profiles and geostrophic currents from moored temperature sensors is presented. The technique is applied to moorings deployed in the Atlantic Deep Western Boundary Current at 26.5°N, off Abaco, the Bahamas (WOCE ACM-1 array). Relative geostrophic currents are referenced using bottom pressure sensors and available shipboard direct velocity (lowered-ADCP) sections over the period of the deployment, to obtain a time series of absolute volume transport. Comparison with direct velocity measurements from a complete array of current meters shows good agreement for the mean transport and its variability on time scales longer than 10 days, but larger variability in the current meter derived transport at time scales shorter than 10 days. A rigorous error analysis assesses the contributions of various error sources in the geostrophic as well as direct transport estimates. Low-frequency drift of the bottom pressure sensors is found to be the largest error source in the geostrophic transport estimates and recommendations for improvement of the technique and related measurement technologies are made.
1542-1567
Johns, W.E.
e69b0088-c832-4ed8-94f6-9c5e9e6f62af
Kanzow, T.
ede4d92e-c4b2-48d0-83bf-a03f881aa819
Zantopp, R.
fd84bb02-7d7c-4450-97de-de304518ad97
2005
Johns, W.E.
e69b0088-c832-4ed8-94f6-9c5e9e6f62af
Kanzow, T.
ede4d92e-c4b2-48d0-83bf-a03f881aa819
Zantopp, R.
fd84bb02-7d7c-4450-97de-de304518ad97
Johns, W.E., Kanzow, T. and Zantopp, R.
(2005)
Estimating ocean transports with dynamic height moorings: an application in the Atlantic deep western boundary current.
Deep Sea Research Part I: Oceanographic Research Papers, 52 (8), .
(doi:10.1016/j.dsr.2005.02.002).
Abstract
Efficient monitoring of large-scale current systems for climate research requires the development of new techniques to estimate ocean transports. Here, a methodology for continuous estimation of dynamic height profiles and geostrophic currents from moored temperature sensors is presented. The technique is applied to moorings deployed in the Atlantic Deep Western Boundary Current at 26.5°N, off Abaco, the Bahamas (WOCE ACM-1 array). Relative geostrophic currents are referenced using bottom pressure sensors and available shipboard direct velocity (lowered-ADCP) sections over the period of the deployment, to obtain a time series of absolute volume transport. Comparison with direct velocity measurements from a complete array of current meters shows good agreement for the mean transport and its variability on time scales longer than 10 days, but larger variability in the current meter derived transport at time scales shorter than 10 days. A rigorous error analysis assesses the contributions of various error sources in the geostrophic as well as direct transport estimates. Low-frequency drift of the bottom pressure sensors is found to be the largest error source in the geostrophic transport estimates and recommendations for improvement of the technique and related measurement technologies are made.
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Published date: 2005
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Local EPrints ID: 47043
URI: http://eprints.soton.ac.uk/id/eprint/47043
ISSN: 0967-0637
PURE UUID: 94a6d460-e6a1-48f5-8e7b-445987fc13f8
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Date deposited: 24 Jul 2007
Last modified: 15 Mar 2024 09:29
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Author:
W.E. Johns
Author:
T. Kanzow
Author:
R. Zantopp
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