Geosat Data Assimilation with Application to the Eastern North Atlantic

An attempt is made to determine the three-dimensional ocean circulation from satellite altimeter measurements by assimilating Geosat sea surface height data into an eddy-resolving QuasiGeostrophic (QG) model of the eastern North Atlantic Ocean. Results are tested against independent information from...

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Bibliographic Details
Main Author: Stammer, Detlef
Format: Other/Unknown Material
Language:unknown
Published: 1997
Subjects:
Oceanography
North Atlantic
Online Access:http://hdl.handle.net/2060/19970025697
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record_format openpolar
spelling ftnasantrs:oai:casi.ntrs.nasa.gov:19970025697 2023-05-15T17:29:43+02:00 Geosat Data Assimilation with Application to the Eastern North Atlantic Stammer, Detlef Unclassified, Unlimited, Publicly available 1997 application/pdf http://hdl.handle.net/2060/19970025697 unknown Document ID: 19970025697 Accession ID: 97N25167 http://hdl.handle.net/2060/19970025697 Copyright, Distribution as joint owner in the copyright CASI Oceanography NASA-CR-204674 NAS 1.26:204674 Journal of Physical Oceanography; 27; 1; 40-61 1997 ftnasantrs 2019-08-31T23:06:22Z An attempt is made to determine the three-dimensional ocean circulation from satellite altimeter measurements by assimilating Geosat sea surface height data into an eddy-resolving QuasiGeostrophic (QG) model of the eastern North Atlantic Ocean. Results are tested against independent information from hydrographic field observations and moored current meter data collected during the Geosat ERM. The comparison supports the concept of inferring aspects of the three-dimensional flow field from sea surface height observations by combining altimetric measurements with the dynamics of ocean circulation models. A Holland-type QG model with open boundaries is set up on a 2000 km X 2000 km domain of the eastern North Atlantic between 25 deg. and 45 deg. N, 32 deg. and 8 deg. W. By using a simple nudging technique, about two years of Geosat altimeter data are assimilated into the model every five days as space-time objective analyses on the model grid. The error information resulting from the analysis is used during the assimilation procedure to account for data uncertainties. Results show an intense eddy field, which in the surface layer interacts with a meandering Azores Front. Compared to Geosat, the model leads to smoothed fields that follow the observations. Model simulations are significantly correlated with hydrographic data from March 1988 and June 1989, both close to the surface and in the subsurface. Good agreement is also found between the model velocity fields and moored current meter data in the top two model layers. The agreement is visually weak in the bottom layer, although a coherence analysis reveals an agreement between the model simulation and current meter data over the full water column at periods exceeding 80 days. Other/Unknown Material North Atlantic NASA Technical Reports Server (NTRS)
institution Open Polar
collection NASA Technical Reports Server (NTRS)
op_collection_id ftnasantrs
language unknown
topic Oceanography
spellingShingle Oceanography
Stammer, Detlef
Geosat Data Assimilation with Application to the Eastern North Atlantic
topic_facet Oceanography
description An attempt is made to determine the three-dimensional ocean circulation from satellite altimeter measurements by assimilating Geosat sea surface height data into an eddy-resolving QuasiGeostrophic (QG) model of the eastern North Atlantic Ocean. Results are tested against independent information from hydrographic field observations and moored current meter data collected during the Geosat ERM. The comparison supports the concept of inferring aspects of the three-dimensional flow field from sea surface height observations by combining altimetric measurements with the dynamics of ocean circulation models. A Holland-type QG model with open boundaries is set up on a 2000 km X 2000 km domain of the eastern North Atlantic between 25 deg. and 45 deg. N, 32 deg. and 8 deg. W. By using a simple nudging technique, about two years of Geosat altimeter data are assimilated into the model every five days as space-time objective analyses on the model grid. The error information resulting from the analysis is used during the assimilation procedure to account for data uncertainties. Results show an intense eddy field, which in the surface layer interacts with a meandering Azores Front. Compared to Geosat, the model leads to smoothed fields that follow the observations. Model simulations are significantly correlated with hydrographic data from March 1988 and June 1989, both close to the surface and in the subsurface. Good agreement is also found between the model velocity fields and moored current meter data in the top two model layers. The agreement is visually weak in the bottom layer, although a coherence analysis reveals an agreement between the model simulation and current meter data over the full water column at periods exceeding 80 days.
format Other/Unknown Material
author Stammer, Detlef
author_facet Stammer, Detlef
author_sort Stammer, Detlef
title Geosat Data Assimilation with Application to the Eastern North Atlantic
title_short Geosat Data Assimilation with Application to the Eastern North Atlantic
title_full Geosat Data Assimilation with Application to the Eastern North Atlantic
title_fullStr Geosat Data Assimilation with Application to the Eastern North Atlantic
title_full_unstemmed Geosat Data Assimilation with Application to the Eastern North Atlantic
title_sort geosat data assimilation with application to the eastern north atlantic
publishDate 1997
url http://hdl.handle.net/2060/19970025697
op_coverage Unclassified, Unlimited, Publicly available
genre North Atlantic
genre_facet North Atlantic
op_source CASI
op_relation Document ID: 19970025697
Accession ID: 97N25167
http://hdl.handle.net/2060/19970025697
op_rights Copyright, Distribution as joint owner in the copyright
_version_ 1766124506457309184

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