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A Fully Conserved Minimal Adjustment Scheme with (T, S) Coherency for Stabilization of Hydrographic Profiles

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Zeitschriftentitel: Journal of Atmospheric and Oceanic Technology
Personen und Körperschaften: Wang, Xidong, Chu, Peter C., Han, Guijun, Li, Wei, Zhang, Xuefeng, Li, Dong
In: Journal of Atmospheric and Oceanic Technology, 29, 2012, 12, S. 1854-1865
Format: E-Article
Sprache: Englisch
veröffentlicht:
American Meteorological Society
Schlagwörter:
Atmospheric Science
Ocean Engineering
author_facet Wang, Xidong
Chu, Peter C.
Han, Guijun
Li, Wei
Zhang, Xuefeng
Li, Dong
Wang, Xidong
Chu, Peter C.
Han, Guijun
Li, Wei
Zhang, Xuefeng
Li, Dong
author Wang, Xidong
Chu, Peter C.
Han, Guijun
Li, Wei
Zhang, Xuefeng
Li, Dong
spellingShingle Wang, Xidong
Chu, Peter C.
Han, Guijun
Li, Wei
Zhang, Xuefeng
Li, Dong
Journal of Atmospheric and Oceanic Technology
A Fully Conserved Minimal Adjustment Scheme with (T, S) Coherency for Stabilization of Hydrographic Profiles
Atmospheric Science
Ocean Engineering
author_sort wang, xidong
spelling Wang, Xidong Chu, Peter C. Han, Guijun Li, Wei Zhang, Xuefeng Li, Dong 0739-0572 1520-0426 American Meteorological Society Atmospheric Science Ocean Engineering http://dx.doi.org/10.1175/jtech-d-12-00025.1 <jats:title>Abstract</jats:title> <jats:p>A new, fully conserved minimal adjustment scheme with temperature and salinity (T, S) coherency is presented for eliminating false static instability generated from analyzing and assimilating stable ocean (T, S) profiles data, that is, from generalized averaging over purely observed data (data analysis) or over modeled/observed data (data assimilation). This approach consists of a variational method with (a) fully (heat, salt, and potential energy) conserved conditions, (b) minimal adjustment, and (c) (T, S) coherency. Comparison with three existing schemes (minimal adjustment, conserved minimal adjustment, and convective adjustment) using observational profiles and a simple one-dimensional ocean mixed layer model shows the superiority of this new scheme.</jats:p> A Fully Conserved Minimal Adjustment Scheme with (T, S) Coherency for Stabilization of Hydrographic Profiles Journal of Atmospheric and Oceanic Technology
doi_str_mv 10.1175/jtech-d-12-00025.1
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series Journal of Atmospheric and Oceanic Technology
source_id 49
title A Fully Conserved Minimal Adjustment Scheme with (T, S) Coherency for Stabilization of Hydrographic Profiles
title_unstemmed A Fully Conserved Minimal Adjustment Scheme with (T, S) Coherency for Stabilization of Hydrographic Profiles
title_full A Fully Conserved Minimal Adjustment Scheme with (T, S) Coherency for Stabilization of Hydrographic Profiles
title_fullStr A Fully Conserved Minimal Adjustment Scheme with (T, S) Coherency for Stabilization of Hydrographic Profiles
title_full_unstemmed A Fully Conserved Minimal Adjustment Scheme with (T, S) Coherency for Stabilization of Hydrographic Profiles
title_short A Fully Conserved Minimal Adjustment Scheme with (T, S) Coherency for Stabilization of Hydrographic Profiles
title_sort a fully conserved minimal adjustment scheme with (t, s) coherency for stabilization of hydrographic profiles
topic Atmospheric Science
Ocean Engineering
url http://dx.doi.org/10.1175/jtech-d-12-00025.1
publishDate 2012
physical 1854-1865
description <jats:title>Abstract</jats:title> <jats:p>A new, fully conserved minimal adjustment scheme with temperature and salinity (T, S) coherency is presented for eliminating false static instability generated from analyzing and assimilating stable ocean (T, S) profiles data, that is, from generalized averaging over purely observed data (data analysis) or over modeled/observed data (data assimilation). This approach consists of a variational method with (a) fully (heat, salt, and potential energy) conserved conditions, (b) minimal adjustment, and (c) (T, S) coherency. Comparison with three existing schemes (minimal adjustment, conserved minimal adjustment, and convective adjustment) using observational profiles and a simple one-dimensional ocean mixed layer model shows the superiority of this new scheme.</jats:p>
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author Wang, Xidong, Chu, Peter C., Han, Guijun, Li, Wei, Zhang, Xuefeng, Li, Dong
author_facet Wang, Xidong, Chu, Peter C., Han, Guijun, Li, Wei, Zhang, Xuefeng, Li, Dong, Wang, Xidong, Chu, Peter C., Han, Guijun, Li, Wei, Zhang, Xuefeng, Li, Dong
author_sort wang, xidong
container_issue 12
container_start_page 1854
container_title Journal of Atmospheric and Oceanic Technology
container_volume 29
description <jats:title>Abstract</jats:title> <jats:p>A new, fully conserved minimal adjustment scheme with temperature and salinity (T, S) coherency is presented for eliminating false static instability generated from analyzing and assimilating stable ocean (T, S) profiles data, that is, from generalized averaging over purely observed data (data analysis) or over modeled/observed data (data assimilation). This approach consists of a variational method with (a) fully (heat, salt, and potential energy) conserved conditions, (b) minimal adjustment, and (c) (T, S) coherency. Comparison with three existing schemes (minimal adjustment, conserved minimal adjustment, and convective adjustment) using observational profiles and a simple one-dimensional ocean mixed layer model shows the superiority of this new scheme.</jats:p>
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imprint American Meteorological Society, 2012
imprint_str_mv American Meteorological Society, 2012
institution DE-L229, DE-D275, DE-Bn3, DE-Brt1, DE-Zwi2, DE-D161, DE-Gla1, DE-Zi4, DE-15, DE-Pl11, DE-Rs1, DE-105, DE-14, DE-Ch1
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spelling Wang, Xidong Chu, Peter C. Han, Guijun Li, Wei Zhang, Xuefeng Li, Dong 0739-0572 1520-0426 American Meteorological Society Atmospheric Science Ocean Engineering http://dx.doi.org/10.1175/jtech-d-12-00025.1 <jats:title>Abstract</jats:title> <jats:p>A new, fully conserved minimal adjustment scheme with temperature and salinity (T, S) coherency is presented for eliminating false static instability generated from analyzing and assimilating stable ocean (T, S) profiles data, that is, from generalized averaging over purely observed data (data analysis) or over modeled/observed data (data assimilation). This approach consists of a variational method with (a) fully (heat, salt, and potential energy) conserved conditions, (b) minimal adjustment, and (c) (T, S) coherency. Comparison with three existing schemes (minimal adjustment, conserved minimal adjustment, and convective adjustment) using observational profiles and a simple one-dimensional ocean mixed layer model shows the superiority of this new scheme.</jats:p> A Fully Conserved Minimal Adjustment Scheme with (T, S) Coherency for Stabilization of Hydrographic Profiles Journal of Atmospheric and Oceanic Technology
spellingShingle Wang, Xidong, Chu, Peter C., Han, Guijun, Li, Wei, Zhang, Xuefeng, Li, Dong, Journal of Atmospheric and Oceanic Technology, A Fully Conserved Minimal Adjustment Scheme with (T, S) Coherency for Stabilization of Hydrographic Profiles, Atmospheric Science, Ocean Engineering
title A Fully Conserved Minimal Adjustment Scheme with (T, S) Coherency for Stabilization of Hydrographic Profiles
title_full A Fully Conserved Minimal Adjustment Scheme with (T, S) Coherency for Stabilization of Hydrographic Profiles
title_fullStr A Fully Conserved Minimal Adjustment Scheme with (T, S) Coherency for Stabilization of Hydrographic Profiles
title_full_unstemmed A Fully Conserved Minimal Adjustment Scheme with (T, S) Coherency for Stabilization of Hydrographic Profiles
title_short A Fully Conserved Minimal Adjustment Scheme with (T, S) Coherency for Stabilization of Hydrographic Profiles
title_sort a fully conserved minimal adjustment scheme with (t, s) coherency for stabilization of hydrographic profiles
title_unstemmed A Fully Conserved Minimal Adjustment Scheme with (T, S) Coherency for Stabilization of Hydrographic Profiles
topic Atmospheric Science, Ocean Engineering
url http://dx.doi.org/10.1175/jtech-d-12-00025.1