Temperature–salinity distribution in the northeastern Atlantic from ship and Argo vertical casts

Temperature–salinity distribution in the northeastern Atlantic from ship and Argo vertical casts

The present study defines new interpolation functions for hydrological data. These functions are applied to generate climatological maps of temperature–salinity distribution with a 25 m depth interval and a 30 km space interval (MEDTRANS data set). The data undergo rigorous initial data quality cont...

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Main Authors: I. Bashmachnikov, F. Neves, Â. Nascimento, J. Medeiros, I. Ambar, J. Dias, X. Carton
Format: Article
Language:English
Published: Copernicus Publications 2015-03-01
Series:Ocean Science
Online Access:http://www.ocean-sci.net/11/215/2015/os-11-215-2015.pdf
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spelling doaj-4b3b407491634bef83eb5e83b100fd6f2020-11-25T01:27:13ZengCopernicus PublicationsOcean Science1812-07841812-07922015-03-0111221523610.5194/os-11-215-2015Temperature–salinity distribution in the northeastern Atlantic from ship and Argo vertical castsI. Bashmachnikov0F. Neves1Â. Nascimento2J. Medeiros3I. Ambar4J. Dias5X. Carton6MARE – Marine and Environmental Sciences Centre/Centro de Oceanografia, Faculdade de Ciências, Universidade de Lisboa, Campo Grande, 1749-016, Lisbon, PortugalMARE – Marine and Environmental Sciences Centre/Centro de Oceanografia, Faculdade de Ciências, Universidade de Lisboa, Campo Grande, 1749-016, Lisbon, PortugalMARE – Marine and Environmental Sciences Centre/Centro de Oceanografia, Faculdade de Ciências, Universidade de Lisboa, Campo Grande, 1749-016, Lisbon, PortugalMARE – Marine and Environmental Sciences Centre/Centro de Oceanografia, Faculdade de Ciências, Universidade de Lisboa, Campo Grande, 1749-016, Lisbon, PortugalMARE – Marine and Environmental Sciences Centre/Centro de Oceanografia, Faculdade de Ciências, Universidade de Lisboa, Campo Grande, 1749-016, Lisbon, PortugalMARE – Marine and Environmental Sciences Centre/Centro de Oceanografia, Faculdade de Ciências, Universidade de Lisboa, Campo Grande, 1749-016, Lisbon, PortugalLaboratoire de Physique des Océans, UMR 6523, Université de Bretagne Occidentale, 6 avenue Le Gorgeu, 29200 Brest, FranceThe present study defines new interpolation functions for hydrological data. These functions are applied to generate climatological maps of temperature–salinity distribution with a 25 m depth interval and a 30 km space interval (MEDTRANS data set). The data undergo rigorous initial data quality control, having passed several filtering procedures. The gridding is done on neutral density surfaces, which allows better representation of thermohaline fronts for the same gridding radius. The multi-pass Barnes optimum interpolation procedure with spatially variable size of the gridding window is used. The shape of the window accounts for the dominant along-isobath direction of water mass transport over steeply sloping topography. A local ratio of topographic to planetary β-effects is used to define the shape of the window as a function of the relative importance of the topographic influence. The <i>N</i>/<i>f</i> ratio is applied to account for the baroclinic compensation decay of the topographic influence on water mass transport with the distance from the bottom. The gridded fields are available at the website of the Centre of Oceanography of the University of Lisbon (<a href="http://co.fc.ul.pt/en/data"target="_blank">http://co.fc.ul.pt/en/data</a>). <br><br> The MEDTRANS climatology gives more details of the distribution of water characteristics in the subtropical northeastern Atlantic than other alternative climatologies and is able to reproduce a number of dynamic features described in the literature: the acceleration in the meanders of the Azores current; the cyclonic gyre in the Gulf of Cadiz; and the splitting and separation of the Mediterranean Water (MW) outflow in two veins near the Gorringe and Galicia banks. Seasonal climatologies, computed for the warm (May–October) and cold (November–April) seasons, reveal stronger zonal extension of the upper ocean patterns during the warm season, as compared to the cold one.http://www.ocean-sci.net/11/215/2015/os-11-215-2015.pdf
collection DOAJ
language English
format Article
sources DOAJ
author I. Bashmachnikov
F. Neves
Â. Nascimento
J. Medeiros
I. Ambar
J. Dias
X. Carton
spellingShingle I. Bashmachnikov
F. Neves
Â. Nascimento
J. Medeiros
I. Ambar
J. Dias
X. Carton
Temperature–salinity distribution in the northeastern Atlantic from ship and Argo vertical casts
Ocean Science
author_facet I. Bashmachnikov
F. Neves
Â. Nascimento
J. Medeiros
I. Ambar
J. Dias
X. Carton
author_sort I. Bashmachnikov
title Temperature–salinity distribution in the northeastern Atlantic from ship and Argo vertical casts
title_short Temperature–salinity distribution in the northeastern Atlantic from ship and Argo vertical casts
title_full Temperature–salinity distribution in the northeastern Atlantic from ship and Argo vertical casts
title_fullStr Temperature–salinity distribution in the northeastern Atlantic from ship and Argo vertical casts
title_full_unstemmed Temperature–salinity distribution in the northeastern Atlantic from ship and Argo vertical casts
title_sort temperature–salinity distribution in the northeastern atlantic from ship and argo vertical casts
publisher Copernicus Publications
series Ocean Science
issn 1812-0784
1812-0792
publishDate 2015-03-01
description The present study defines new interpolation functions for hydrological data. These functions are applied to generate climatological maps of temperature–salinity distribution with a 25 m depth interval and a 30 km space interval (MEDTRANS data set). The data undergo rigorous initial data quality control, having passed several filtering procedures. The gridding is done on neutral density surfaces, which allows better representation of thermohaline fronts for the same gridding radius. The multi-pass Barnes optimum interpolation procedure with spatially variable size of the gridding window is used. The shape of the window accounts for the dominant along-isobath direction of water mass transport over steeply sloping topography. A local ratio of topographic to planetary β-effects is used to define the shape of the window as a function of the relative importance of the topographic influence. The <i>N</i>/<i>f</i> ratio is applied to account for the baroclinic compensation decay of the topographic influence on water mass transport with the distance from the bottom. The gridded fields are available at the website of the Centre of Oceanography of the University of Lisbon (<a href="http://co.fc.ul.pt/en/data"target="_blank">http://co.fc.ul.pt/en/data</a>). <br><br> The MEDTRANS climatology gives more details of the distribution of water characteristics in the subtropical northeastern Atlantic than other alternative climatologies and is able to reproduce a number of dynamic features described in the literature: the acceleration in the meanders of the Azores current; the cyclonic gyre in the Gulf of Cadiz; and the splitting and separation of the Mediterranean Water (MW) outflow in two veins near the Gorringe and Galicia banks. Seasonal climatologies, computed for the warm (May–October) and cold (November–April) seasons, reveal stronger zonal extension of the upper ocean patterns during the warm season, as compared to the cold one.
url http://www.ocean-sci.net/11/215/2015/os-11-215-2015.pdf
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