Intermediate water flows in the western South Pacific : as revealed by individual Argo floats trajectories and a model re-analysis

Thanks to the autonomous Argo floats of the OUTPACE cruise (Oligotrophy to UlTra-oligotrophy PACific Experiment) and of the THOT (TaHitian Ocean Time series) project, some features of intermediate-flow dynamics, at around 1000 m depth, within the central and western South Pacific Ocean (around 19 de...

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Main Authors: Barbot, S., Petrenko, A., /Maes, Christophe
Format: Text
Language:English
Published: 2018
Subjects:
Antarc*
Antarctic
Online Access:https://www.documentation.ird.fr/hor/fdi:010073225
id ftird:oai:ird.fr:fdi:010073225
record_format openpolar
spelling ftird:oai:ird.fr:fdi:010073225 2024-09-15T17:46:25+00:00 Intermediate water flows in the western South Pacific : as revealed by individual Argo floats trajectories and a model re-analysis Barbot, S. Petrenko, A. /Maes, Christophe MER DE CORAIL NOUVELLE CALEDONIE VANUATU 2018 https://www.documentation.ird.fr/hor/fdi:010073225 EN eng https://www.documentation.ird.fr/hor/fdi:010073225 oai:ird.fr:fdi:010073225 Barbot S., Petrenko A., Maes Christophe. Intermediate water flows in the western South Pacific : as revealed by individual Argo floats trajectories and a model re-analysis. 2018, 15 (13), p. 4103-4124 text 2018 ftird 2024-08-15T05:57:41Z Thanks to the autonomous Argo floats of the OUTPACE cruise (Oligotrophy to UlTra-oligotrophy PACific Experiment) and of the THOT (TaHitian Ocean Time series) project, some features of intermediate-flow dynamics, at around 1000 m depth, within the central and western South Pacific Ocean (around 19 degrees S, 156 degrees E-150 degrees W) are described. In the Coral Sea, we highlight minima in dissolved oxygen of 140 mu mol kg(-1) that are associated with the signature of a southward transport of waters between two zonal jets: from the North Vanuatu Jet to the North Caledonia Jet. This transport takes place in the core of a cyclonic eddy or via the path between a cyclonic eddy and an anticyclonic one, highlighting the importance of mesoscale dynamics in upper thermocline and surface layers. Further east, we observe a strong meridional velocity shear with long-term float trajectories going either eastward or westward in the lower thermocline. More interestingly, these trajectories also exhibit some oscillatory features. Those trajectories can be explained by a single Rossby wave of 160-day duration and 855 km wavelength. Considering the thermohaline context, we confirm the meridional shear of zonal velocity and highlight a permanent density front that corresponds to the interface between Antarctic intermediate waters and North Pacific deep waters. Hence both circulation and thermohaline contexts are highly prone to instabilities and wave propagation. Text Antarc* Antarctic IRD (Institute de recherche pour le développement): Horizon
institution Open Polar
collection IRD (Institute de recherche pour le développement): Horizon
op_collection_id ftird
language English
description Thanks to the autonomous Argo floats of the OUTPACE cruise (Oligotrophy to UlTra-oligotrophy PACific Experiment) and of the THOT (TaHitian Ocean Time series) project, some features of intermediate-flow dynamics, at around 1000 m depth, within the central and western South Pacific Ocean (around 19 degrees S, 156 degrees E-150 degrees W) are described. In the Coral Sea, we highlight minima in dissolved oxygen of 140 mu mol kg(-1) that are associated with the signature of a southward transport of waters between two zonal jets: from the North Vanuatu Jet to the North Caledonia Jet. This transport takes place in the core of a cyclonic eddy or via the path between a cyclonic eddy and an anticyclonic one, highlighting the importance of mesoscale dynamics in upper thermocline and surface layers. Further east, we observe a strong meridional velocity shear with long-term float trajectories going either eastward or westward in the lower thermocline. More interestingly, these trajectories also exhibit some oscillatory features. Those trajectories can be explained by a single Rossby wave of 160-day duration and 855 km wavelength. Considering the thermohaline context, we confirm the meridional shear of zonal velocity and highlight a permanent density front that corresponds to the interface between Antarctic intermediate waters and North Pacific deep waters. Hence both circulation and thermohaline contexts are highly prone to instabilities and wave propagation.
format Text
author Barbot, S.
Petrenko, A.
/Maes, Christophe
spellingShingle Barbot, S.
Petrenko, A.
/Maes, Christophe
Intermediate water flows in the western South Pacific : as revealed by individual Argo floats trajectories and a model re-analysis
author_facet Barbot, S.
Petrenko, A.
/Maes, Christophe
author_sort Barbot, S.
title Intermediate water flows in the western South Pacific : as revealed by individual Argo floats trajectories and a model re-analysis
title_short Intermediate water flows in the western South Pacific : as revealed by individual Argo floats trajectories and a model re-analysis
title_full Intermediate water flows in the western South Pacific : as revealed by individual Argo floats trajectories and a model re-analysis
title_fullStr Intermediate water flows in the western South Pacific : as revealed by individual Argo floats trajectories and a model re-analysis
title_full_unstemmed Intermediate water flows in the western South Pacific : as revealed by individual Argo floats trajectories and a model re-analysis
title_sort intermediate water flows in the western south pacific : as revealed by individual argo floats trajectories and a model re-analysis
publishDate 2018
url https://www.documentation.ird.fr/hor/fdi:010073225
op_coverage MER DE CORAIL
NOUVELLE CALEDONIE
VANUATU
genre Antarc*
Antarctic
genre_facet Antarc*
Antarctic
op_relation https://www.documentation.ird.fr/hor/fdi:010073225
oai:ird.fr:fdi:010073225
Barbot S., Petrenko A., Maes Christophe. Intermediate water flows in the western South Pacific : as revealed by individual Argo floats trajectories and a model re-analysis. 2018, 15 (13), p. 4103-4124
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