Satellite altimetry data assimilation in the OCCAM global ocean model

A. D. Fox; K. Haines; B. A. De Cuevas

doi:10.1016/S1464-1895(99)00044-7

Satellite altimetry data assimilation in the OCCAM global ocean model

A. D. Fox
, K. Haines
, B. A. De Cuevas

SAMS UHI

Publikation: Article › Begutachtung

2 Zitate (Scopus)

Abstract

As part of the European AGORA programme we have been assimilating TOPEX/POSEIDON altimeter data into the Southampton Oceanography Centre's high resolution (1/4 degree, 36 level) global ocean model (OCCAM). The assimilation method used is that of Cooper and Haines, a dynamically based method which conserves water properties on isopycnal surfaces. Results of a one-year, 1993, run of this model, driven by ECMWF 6-hourly winds and assimilating 10-day mapped TOPEX/POSEIDON data are presented. A method to improve the model mean sea level for use in altimeter assimilation is described and implemented in the Gulf Stream and Kuroshio separation regions. Results demonstrate the model's ability to adjust to this new mean sea surface and to also propagate the assimilated altimeter signal realistically in time, an essential characteristic if ocean forecasting is to be attempted.

Originalsprache	English
Seiten (von - bis)	375-380
Seitenumfang	6
Fachzeitschrift	Physics and Chemistry of the Earth, Part A: Solid Earth and Geodesy
Jahrgang	24
Ausgabenummer	4
DOIs	https://doi.org/10.1016/S1464-1895(99)00044-7
Publikationsstatus	Published - 1 Juli 1999

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title = "Satellite altimetry data assimilation in the OCCAM global ocean model",

abstract = "As part of the European AGORA programme we have been assimilating TOPEX/POSEIDON altimeter data into the Southampton Oceanography Centre's high resolution (1/4 degree, 36 level) global ocean model (OCCAM). The assimilation method used is that of Cooper and Haines, a dynamically based method which conserves water properties on isopycnal surfaces. Results of a one-year, 1993, run of this model, driven by ECMWF 6-hourly winds and assimilating 10-day mapped TOPEX/POSEIDON data are presented. A method to improve the model mean sea level for use in altimeter assimilation is described and implemented in the Gulf Stream and Kuroshio separation regions. Results demonstrate the model's ability to adjust to this new mean sea surface and to also propagate the assimilated altimeter signal realistically in time, an essential characteristic if ocean forecasting is to be attempted.",

author = "Fox, \{A. D.\} and K. Haines and \{De Cuevas\}, \{B. A.\}",

note = "Copyright {\textcopyright} 1999 Published by Elsevier Ltd. Author was not affiliated to SAMS at the time of publication",

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doi = "10.1016/S1464-1895(99)00044-7",

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T1 - Satellite altimetry data assimilation in the OCCAM global ocean model

AU - Fox, A. D.

AU - Haines, K.

AU - De Cuevas, B. A.

PY - 1999/7/1

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N2 - As part of the European AGORA programme we have been assimilating TOPEX/POSEIDON altimeter data into the Southampton Oceanography Centre's high resolution (1/4 degree, 36 level) global ocean model (OCCAM). The assimilation method used is that of Cooper and Haines, a dynamically based method which conserves water properties on isopycnal surfaces. Results of a one-year, 1993, run of this model, driven by ECMWF 6-hourly winds and assimilating 10-day mapped TOPEX/POSEIDON data are presented. A method to improve the model mean sea level for use in altimeter assimilation is described and implemented in the Gulf Stream and Kuroshio separation regions. Results demonstrate the model's ability to adjust to this new mean sea surface and to also propagate the assimilated altimeter signal realistically in time, an essential characteristic if ocean forecasting is to be attempted.

AB - As part of the European AGORA programme we have been assimilating TOPEX/POSEIDON altimeter data into the Southampton Oceanography Centre's high resolution (1/4 degree, 36 level) global ocean model (OCCAM). The assimilation method used is that of Cooper and Haines, a dynamically based method which conserves water properties on isopycnal surfaces. Results of a one-year, 1993, run of this model, driven by ECMWF 6-hourly winds and assimilating 10-day mapped TOPEX/POSEIDON data are presented. A method to improve the model mean sea level for use in altimeter assimilation is described and implemented in the Gulf Stream and Kuroshio separation regions. Results demonstrate the model's ability to adjust to this new mean sea surface and to also propagate the assimilated altimeter signal realistically in time, an essential characteristic if ocean forecasting is to be attempted.

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Satellite altimetry data assimilation in the OCCAM global ocean model

Abstract

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