An Eddy-Permitting Southern Ocean State Estimate
An eddy-permitting general circulation model of the Southern Ocean is fit by constrained least squares to a large observational dataset during 2005–06. Data used include Argo float profiles, CTD synoptic sections, Southern Elephant Seals as Oceanographic Samplers (SEaOS) instrument-mounted seal prof...
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ftmit:oai:dspace.mit.edu:1721.1/62590 2023-06-11T04:11:19+02:00 An Eddy-Permitting Southern Ocean State Estimate Mazloff, Matthew R. Heimbach, Patrick Wunsch, Carl Massachusetts Institute of Technology. Department of Earth, Atmospheric, and Planetary Sciences Wunsch, Carl Heimbach, Patrick 2009-12 application/pdf http://hdl.handle.net/1721.1/62590 en_US eng American Meteorological Society http://dx.doi.org/10.1175/2009jpo4236.1 Journal of Physical Oceanography 0022-3670 1520-0485 http://hdl.handle.net/1721.1/62590 Mazloff, Matthew R, Patrick Heimbach, and Carl Wunsch. “An Eddy-Permitting Southern Ocean State Estimate.” Journal of Physical Oceanography 40.5 (2010) : 880-899. c2010 American Meteorological Society orcid:0000-0001-6808-3664 orcid:0000-0003-3925-6161 Article is made available in accordance with the publisher's policy and may be subject to US copyright law. Please refer to the publisher's site for terms of use. American Meteorological Society Article http://purl.org/eprint/type/JournalArticle 2009 ftmit https://doi.org/10.1175/2009jpo4236.1 2023-05-29T08:20:54Z An eddy-permitting general circulation model of the Southern Ocean is fit by constrained least squares to a large observational dataset during 2005–06. Data used include Argo float profiles, CTD synoptic sections, Southern Elephant Seals as Oceanographic Samplers (SEaOS) instrument-mounted seal profiles, XBTs, altimetric observations [Envisat, Geosat, Jason-1, and Ocean Topography Experiment (TOPEX)/Poseidon], and infrared and microwave radiometer observed sea surface temperature. An adjoint model is used to determine descent directions in minimizing a misfit function, each of whose elements has been weighted by an estimate of the observational plus model error. The model is brought into near agreement with the data by adjusting its control vector, here consisting of initial and meteorological boundary conditions. Although total consistency has not yet been achieved, the existing solution is in good agreement with the great majority of the 2005 and 2006 Southern Ocean observations and better represents these data than does the World Ocean Atlas 2001 (WOA01) climatological product. The estimate captures the oceanic temporal variability and in this respect represents a major improvement upon earlier static inverse estimates. During the estimation period, the Drake Passage volume transport is 153 ± 5 Sv (1 Sv ≡ 106 m3 s−1) [(1 Sv = 10 superscript 6 m superscript 3 superscript -1)]. The Ross and Weddell polar gyre transports are 20 ± 5 Sv and 40 ± 8 Sv, respectively. Across 32°S there is a surface meridional overturning cell of 12 ± 12 Sv, an intermediate cell of 17 ± 12 Sv, and an abyssal cell of 13 ± 6 Sv. The northward heat and freshwater anomaly transports across 30°S are −0.3 PW and 0.7 Sv, with estimated uncertainties of 0.5 PW and 0.2 Sv. The net rate of wind work is 2.1 ± 1.1 TW. Southern Ocean theories involving short temporal- and spatial-scale dynamics may now be tested with a dynamically and thermodynamically realistic general circulation model solution that is known to be compatible with the modern ... Article in Journal/Newspaper Drake Passage Elephant Seals Southern Elephant Seals Southern Ocean DSpace@MIT (Massachusetts Institute of Technology) Southern Ocean Drake Passage Weddell Journal of Physical Oceanography 40 5 880 899 |
institution |
Open Polar |
collection |
DSpace@MIT (Massachusetts Institute of Technology) |
op_collection_id |
ftmit |
language |
English |
description |
An eddy-permitting general circulation model of the Southern Ocean is fit by constrained least squares to a large observational dataset during 2005–06. Data used include Argo float profiles, CTD synoptic sections, Southern Elephant Seals as Oceanographic Samplers (SEaOS) instrument-mounted seal profiles, XBTs, altimetric observations [Envisat, Geosat, Jason-1, and Ocean Topography Experiment (TOPEX)/Poseidon], and infrared and microwave radiometer observed sea surface temperature. An adjoint model is used to determine descent directions in minimizing a misfit function, each of whose elements has been weighted by an estimate of the observational plus model error. The model is brought into near agreement with the data by adjusting its control vector, here consisting of initial and meteorological boundary conditions. Although total consistency has not yet been achieved, the existing solution is in good agreement with the great majority of the 2005 and 2006 Southern Ocean observations and better represents these data than does the World Ocean Atlas 2001 (WOA01) climatological product. The estimate captures the oceanic temporal variability and in this respect represents a major improvement upon earlier static inverse estimates. During the estimation period, the Drake Passage volume transport is 153 ± 5 Sv (1 Sv ≡ 106 m3 s−1) [(1 Sv = 10 superscript 6 m superscript 3 superscript -1)]. The Ross and Weddell polar gyre transports are 20 ± 5 Sv and 40 ± 8 Sv, respectively. Across 32°S there is a surface meridional overturning cell of 12 ± 12 Sv, an intermediate cell of 17 ± 12 Sv, and an abyssal cell of 13 ± 6 Sv. The northward heat and freshwater anomaly transports across 30°S are −0.3 PW and 0.7 Sv, with estimated uncertainties of 0.5 PW and 0.2 Sv. The net rate of wind work is 2.1 ± 1.1 TW. Southern Ocean theories involving short temporal- and spatial-scale dynamics may now be tested with a dynamically and thermodynamically realistic general circulation model solution that is known to be compatible with the modern ... |
author2 |
Massachusetts Institute of Technology. Department of Earth, Atmospheric, and Planetary Sciences Wunsch, Carl Heimbach, Patrick |
format |
Article in Journal/Newspaper |
author |
Mazloff, Matthew R. Heimbach, Patrick Wunsch, Carl |
spellingShingle |
Mazloff, Matthew R. Heimbach, Patrick Wunsch, Carl An Eddy-Permitting Southern Ocean State Estimate |
author_facet |
Mazloff, Matthew R. Heimbach, Patrick Wunsch, Carl |
author_sort |
Mazloff, Matthew R. |
title |
An Eddy-Permitting Southern Ocean State Estimate |
title_short |
An Eddy-Permitting Southern Ocean State Estimate |
title_full |
An Eddy-Permitting Southern Ocean State Estimate |
title_fullStr |
An Eddy-Permitting Southern Ocean State Estimate |
title_full_unstemmed |
An Eddy-Permitting Southern Ocean State Estimate |
title_sort |
eddy-permitting southern ocean state estimate |
publisher |
American Meteorological Society |
publishDate |
2009 |
url |
http://hdl.handle.net/1721.1/62590 |
geographic |
Southern Ocean Drake Passage Weddell |
geographic_facet |
Southern Ocean Drake Passage Weddell |
genre |
Drake Passage Elephant Seals Southern Elephant Seals Southern Ocean |
genre_facet |
Drake Passage Elephant Seals Southern Elephant Seals Southern Ocean |
op_source |
American Meteorological Society |
op_relation |
http://dx.doi.org/10.1175/2009jpo4236.1 Journal of Physical Oceanography 0022-3670 1520-0485 http://hdl.handle.net/1721.1/62590 Mazloff, Matthew R, Patrick Heimbach, and Carl Wunsch. “An Eddy-Permitting Southern Ocean State Estimate.” Journal of Physical Oceanography 40.5 (2010) : 880-899. c2010 American Meteorological Society orcid:0000-0001-6808-3664 orcid:0000-0003-3925-6161 |
op_rights |
Article is made available in accordance with the publisher's policy and may be subject to US copyright law. Please refer to the publisher's site for terms of use. |
op_doi |
https://doi.org/10.1175/2009jpo4236.1 |
container_title |
Journal of Physical Oceanography |
container_volume |
40 |
container_issue |
5 |
container_start_page |
880 |
op_container_end_page |
899 |
_version_ |
1768386292073103360 |