Intermediate water flows in the western South Pacific: as revealed by individual Argo floats trajectories and a model re-analysis
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Published:2018-07-05
Issue:13
Volume:15
Page:4103-4124
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ISSN:1726-4189
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Container-title:Biogeosciences
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language:en
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Short-container-title:Biogeosciences
Author:
Barbot Simon,Petrenko Anne,Maes Christophe
Abstract
Abstract. 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∘ S,
156∘ E–150∘ W) are described. In the Coral Sea, we highlight minima in dissolved
oxygen of 140 µmol 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.
Publisher
Copernicus GmbH
Subject
Earth-Surface Processes,Ecology, Evolution, Behavior and Systematics
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