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	Provedor de dados ArchiMer (61) Autor Cabanes, Cecile (61) Thierry, Virginie (52) Lagadec, Catherine (40) Le Traon, Pierre-yves (11) Coatanoan, Christine (10) Maze, Guillaume (10) Pouliquen, Sylvie (10) Carval, Thierry (8) D'Ortenzio, Fabrizio (8) Kolodziejczyk, Nicolas (5) Lebreton, Nathanaele (5) Poffa, Noe (5) Poteau, Antoine (5) Schmechtig, Catherine (5) Claustre, Hervé (4) De Boyer Montegut, Clement (4) Le Reste, Serge (4) Von Schuckmann, Karina (4) Mercier, Herle (3) Ferry, N. (2) Mais... Palavra-chave Argo (2) Arctic (1) Atlantic (1) Biogeochemistry (1) Climate change (1) Deep circulation (1) Deep ocean (1) Deep-Argo float (1) Iceland-Scotland Overflow Water (1) Mediterranean Sea (1) Mixing (1) North Atlantic Current (1) North Atlantic Ocean (1) Ocean warming (1) Profiling floats (1) Sea level (1) Thermal expansion (1) Mais... Tipo do documento Text (61) Ano 2021 (1) 2020 (1) 2019 (3) 2018 (2) 2017 (22) 2016 (2) 2015 (20) 2014 (3) 2013 (2) 2012 (1) 2011 (1) 2010 (2) 2006 (1) Mais... País France (61) Idioma Inglês (61)		Ordenar por:  Relevância Autor Título Ano Registros recuperados: 61 Primeira ... 1 2 3 4 ... Última Application file for renewal of the 'National Observation Service' label (INSU/CNRS) 2020-2024: SNO Argo-France ArchiMer Kolodziejczyk, Nicolas; Cabanes, Cecile; D'Ortenzio, Fabrizio; Maze, Guillaume; Pouliquen, Sylvie; Poteau, Antoine; Schmechtig, Catherine; Thierry, Virginie. Application file for renewal of labeling as National Observation Service of SNO Argo-France with INSU for the period 2020-2024. This document presents the results of SNO Argo France's activities over the 2015-2019 labeling period; and sets targets for the period 2020-2024. Tipo: Text Ano: 2019 URL: https://archimer.ifremer.fr/doc/00499/61055/64484.pdf Argo data management report 2014. Coriolis DAC & GDAC ArchiMer Carval, Thierry; Coatanoan, Christine; Cabanes, Cecile. This report covers the activity of Coriolis data centre for a one year period from October 1st 2013 to September 30th 2014. Tipo: Text Palavras-chave: Argo; Argo. Ano: 2014 URL: http://archimer.ifremer.fr/doc/00221/33248/31724.pdf Consistency of the current global ocean observing systems from an Argo perspective ArchiMer Von Schuckmann, Karina; Sallee, Jean-baptiste; Chambers, D.; Le Traon, Pierre-yves; Cabanes, Cecile; Gaillard, Fabienne; Speich, Sabrina; Hamon, Mathieu. Variations in the world's ocean heat storage and its associated volume changes are a key factor to gauge global warming and to assess the earth's energy and sea level budget. Estimating global ocean heat content (GOHC) and global steric sea level (GSSL) with temperature/salinity data from the Argo network reveals a positive change of 0.5 +/- 0.1 W m(-2) (applied to the surface area of the ocean) and 0.5 +/- 0.1 mm year(-1) during the years 2005 to 2012, averaged between 60 degrees S and 60 degrees N and the 10-1500m depth layer. In this study, we present an intercomparison of three global ocean observing systems: the Argo network, satellite gravimetry from GRACE and satellite altimetry. Their consistency is investigated from an Argo perspective at global... Tipo: Text Ano: 2014 URL: http://archimer.ifremer.fr/doc/00202/31365/29753.pdf Coriolis Ocean database for Re-Analyses ArchiMer Cabanes, Cecile; De Boyer Montegut, Clement; Coatanoan, Christine; Ferry, N.; Pertuisot, Cecile; Von Schuckmann, Karina; Petit De La Villeon, Loic; Carval, Thierry; Pouliquen, Sylvie; Le Traon, Pierre-yves. Tipo: Text Ano: 2010 URL: http://archimer.ifremer.fr/doc/00027/13849/10996.pdf Coriolis Ocean database for Re-Analyses, a new comprehensive and qualified ocean in-situ dataset from 1990 to 2008 ArchiMer Cabanes, Cecile; De Boyer Montegut, Clement; Von Schuckmann, Karina; Coatanoan, Christine; Pertuisot, Cecile; Petit De La Villeon, Loic; Carval, Thierry; Pouliquen, Sylvie; Le Traon, Pierre-yves. Tipo: Text Ano: 2010 URL: http://archimer.ifremer.fr/doc/00028/13889/11044.pdf Delayed mode analysis of DEEP ARVOR floats ArchiMer Cabanes, Cecile; Racape, Virginie; Thierry, Virginie. Delayed Mode analysis was performed for deep Arvor floats. First, salinity and temperature profiles were compared to nearby historical CTD profiles. Real time QC flags were verified and modified if necessary. The OW method was  run to estimate a salinity offset or/and a salinity drift using historical CTD profiles as a reference database. Finally, if necessary, the corrections were applied and corrected files were sent to the Coriolis DAC. Tipo: Text Ano: 2018 URL: http://archimer.ifremer.fr/doc/00443/55464/57000.pdf Delayed mode quality control and Oxygen correction of Ovide Argo data. Float WMO 1901205 ArchiMer Lagadec, Catherine; Thierry, Virginie; Cabanes, Cecile. This report presents the delayed mode analysis of an Argo float. Real time quality control are checked and interesting profiles are plotted. The OW method (objective analysis) is used to detect a conductivity sensor drift and correct it, if any. In this report, are also explained and plotted Oxygen corrections with LOCODOX software. Tipo: Text Ano: 2017 URL: http://archimer.ifremer.fr/doc/00409/52035/52701.pdf Delayed mode quality control and Oxygen correction of Ovide Argo data. Float WMO 1901206 ArchiMer Lagadec, Catherine; Thierry, Virginie; Cabanes, Cecile. This report presents the delayed mode analysis of an Argo float. Real time quality control are checked and interesting profiles are plotted. The OW method (objective analysis) is used to detect a conductivity sensor drift and correct it, if any. In this report, are also explained and plotted Oxygen corrections with LOCODOX software. Tipo: Text Ano: 2017 URL: http://archimer.ifremer.fr/doc/00409/52036/52702.pdf Delayed mode quality control and Oxygen correction of Ovide Argo data. Float WMO 1901208 ArchiMer Lagadec, Catherine; Thierry, Virginie; Cabanes, Cecile. This report presents the delayed mode analysis of an Argo float. Real time quality control are checked and interesting profiles are plotted. The OW method (objective analysis) is used to detect a conductivity sensor drift and correct it, if any. In this report, are also explained and plotted Oxygen corrections with LOCODOX software. Tipo: Text Ano: 2017 URL: http://archimer.ifremer.fr/doc/00409/52038/52703.pdf Delayed mode quality control and Oxygen correction of Ovide Argo data. Float WMO 1901209 ArchiMer Lagadec, Catherine; Thierry, Virginie; Cabanes, Cecile. This report presents the delayed mode analysis of an Argo float. Real time quality control are checked and interesting profiles are plotted. The OW method (objective analysis) is used to detect a conductivity sensor drift and correct it, if any. In this report, are also explained and plotted Oxygen corrections with LOCODOX software. Cruise reference : METEOR 85/2. 2011. PI :  Johannes Karstensen   Tipo: Text Ano: 2017 URL: http://archimer.ifremer.fr/doc/00406/51747/52344.pdf Delayed mode quality control and Oxygen correction of Ovide Argo data. Float WMO 1901211 ArchiMer Lagadec, Catherine; Thierry, Virginie; Cabanes, Cecile. This report presents the delayed mode analysis of an Argo float. Real time quality control are checked and interesting profiles are plotted. The OW method (objective analysis) is used to detect a conductivity sensor drift and correct it, if any. In this report, are also explained and plotted Oxygen corrections with LOCODOX software. Cruise reference : M85/1. 2011. Tipo: Text Ano: 2017 URL: http://archimer.ifremer.fr/doc/00406/51748/52345.pdf Delayed mode quality control and Oxygen correction of Ovide Argo data. Float WMO 1901213 ArchiMer Lagadec, Catherine; Thierry, Virginie; Cabanes, Cecile. This report presents the delayed mode analysis of an Argo float. Real time quality control are checked and interesting profiles are plotted. The OW method (objective analysis) is used to detect a conductivity sensor drift and correct it, if any. In this report, are also explained and plotted Oxygen corrections with LOCODOX software. Cruise reference : M85/1. 2011. Tipo: Text Ano: 2017 URL: http://archimer.ifremer.fr/doc/00406/51749/52346.pdf Delayed mode quality control and Oxygen correction of Ovide Argo data. Float WMO 1901214 ArchiMer Lagadec, Catherine; Thierry, Virginie; Cabanes, Cecile. This report presents the delayed mode analysis of an Argo float. Real time quality control are checked and interesting profiles are plotted. The OW method (objective analysis) is used to detect a conductivity sensor drift and correct it, if any. In this report, are also explained and plotted Oxygen corrections with LOCODOX software. Tipo: Text Ano: 2017 URL: http://archimer.ifremer.fr/doc/00409/52039/52705.pdf Delayed mode quality control and Oxygen correction of Ovide Argo data. Float WMO 5902269 ArchiMer Lagadec, Catherine; Thierry, Virginie; Cabanes, Cecile. This report presents the delayed mode analysis of an Argo float. Real time quality control flags are checked and interesting profiles are plotted. The OW method (objective analysis) is used to detect a conductivity sensor drift and correct it, if any. In this report, are also explained and plotted Oxygen corrections with LOCODOX software. Tipo: Text Ano: 2017 URL: http://archimer.ifremer.fr/doc/00390/50138/50752.pdf Delayed mode quality control and Oxygen correction of Ovide Argo data. Float WMO 5902297 ArchiMer Lagadec, Catherine; Thierry, Virginie; Cabanes, Cecile. This report presents the delayed mode analysis of an Argo float. Real time quality control flags are checked and interesting profiles are plotted. The OW methode (objective analysis) is used to detect a conductivity sensor drift and correct it, if any. In this report, are also explained and plotted Oxygen corrections with Locodox software. Tipo: Text Ano: 2017 URL: http://archimer.ifremer.fr/doc/00390/50107/50714.pdf Delayed mode quality control and Oxygen correction of Ovide Argo data. Float WMO 5902298 ArchiMer Lagadec, Catherine; Thierry, Virginie; Cabanes, Cecile. This report presents the delayed mode analysis of an Argo float. Real time quality control flags are checked and interesting profiles are plotted. The OW method (objective analysis) is used to detect a conductivity sensor drift and correct it, if any. In this report, are also explained and plotted Oxygen corrections with LOCODOX software. Tipo: Text Ano: 2017 URL: http://archimer.ifremer.fr/doc/00390/50175/50796.pdf Delayed mode quality control and Oxygen correction of Ovide Argo data. Float WMO 5902300 ArchiMer Lagadec, Catherine; Thierry, Virginie; Cabanes, Cecile. This report presents the delayed mode analysis of an Argo float. Real time quality control flags are checked and interesting profiles are plotted. The OW method (objective analysis) is used to detect a conductivity sensor drift and correct it, if any. In this report, are also explained and plotted Oxygen corrections with LOCODOX software. Tipo: Text Ano: 2017 URL: http://archimer.ifremer.fr/doc/00390/50133/50747.pdf Delayed mode quality control and Oxygen correction of Ovide Argo data. Float WMO 5902302 ArchiMer Lagadec, Catherine; Thierry, Virginie; Cabanes, Cecile. This report presents the delayed mode analysis of an Argo float. Real time quality control flags are checked and interesting profiles are plotted. The OW method (objective analysis) is used to detect a conductivity sensor drift and correct it, if any. In this report, are also explained and plotted Oxygen corrections with LOCODOX software. Tipo: Text Ano: 2017 URL: http://archimer.ifremer.fr/doc/00390/50134/50748.pdf Delayed mode quality control and Oxygen correction of Ovide Argo data. Float WMO 5902303 ArchiMer Lagadec, Catherine; Thierry, Virginie; Cabanes, Cecile. This report presents the delayed mode analysis of an Argo float. Real time quality control are checked and interesting profiles are plotted. The OW method (objective analysis) is used to detect a conductivity sensor drift and correct it, if any. In this report, are also explained and plotted Oxygen corrections with LOCODOX software. Tipo: Text Ano: 2017 URL: http://archimer.ifremer.fr/doc/00406/51751/52348.pdf Delayed mode quality control and Oxygen correction of Ovide Argo data. Float WMO 5902304 ArchiMer Lagadec, Catherine; Thierry, Virginie; Cabanes, Cecile. This report presents the delayed mode analysis of an Argo float. Real time quality control are checked and interesting profiles are plotted. The OW method (objective analysis) is used to detect a conductivity sensor drift and correct it, if any. In this report, are also explained and plotted Oxygen corrections with LOCODOX software. Tipo: Text Ano: 2017 URL: http://archimer.ifremer.fr/doc/00406/51750/52347.pdf Registros recuperados: 61 Primeira ... 1 2 3 4 ... Última

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