2010
DOI: 10.1038/ngeo842
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Strong export of Antarctic Bottom Water east of the Kerguelen plateau

Abstract: The horizontal coherence and duration of the array allowed accurate estimates of the transport and structure of the Kerguelen DWBC.The DWBC forms a narrow (~50 km wide), intense, bottom-intensified flow to the northwest over the lower flank of the plateau, with a flow to the southeast further offshore (Fig. 2). The currents are remarkably strong for these depths: maximum two-year mean speed exceeds 20 cm s -1 at ~3500 m depth at M6 (the largest DWBC speeds yet observed at similar depths; Supplementary Table 1 … Show more

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Cited by 69 publications
(74 citation statements)
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“…At I8S section across the western side of the basin at 82-93 • E, the repeated sections were within 2 to 3 months of each other. This section is the furthest from the source regions (over 2500 km) and so we expect the seasonal variability to be negligible, as reported for a two-year mooring array close to I8S section by Fukamachi et al (2010). Decadal changes in the AA-AABW are examined by comparing the meridional variation of potential temperature ( • C), salinity, neutral density (γ n kg m −3 ) and apparent oxygen utilization (AOU µmol kg −1 ) averaged over a 100 m-thick layer at the bottom (Fig.…”
Section: Water Mass Propertiesmentioning
confidence: 83%
See 1 more Smart Citation
“…At I8S section across the western side of the basin at 82-93 • E, the repeated sections were within 2 to 3 months of each other. This section is the furthest from the source regions (over 2500 km) and so we expect the seasonal variability to be negligible, as reported for a two-year mooring array close to I8S section by Fukamachi et al (2010). Decadal changes in the AA-AABW are examined by comparing the meridional variation of potential temperature ( • C), salinity, neutral density (γ n kg m −3 ) and apparent oxygen utilization (AOU µmol kg −1 ) averaged over a 100 m-thick layer at the bottom (Fig.…”
Section: Water Mass Propertiesmentioning
confidence: 83%
“…AA-AABW flows westward over the continental slope and rise of Wilkes Land towards the Kerguelen Plateau, where it turns north along the plateau (e.g. Fukamachi et al, 2010) until it joins the lower part of the Antarctic Circumpolar Current (ACC) that flows to the east (Orsi et 1999). AA-AABW exits the basin through the Princess Elisabeth Trough (PET) and the Australian-Antarctic Discordance (e.g.…”
Section: Water Mass Propertiesmentioning
confidence: 99%
“…In the ocean, AABW is transported to the global abyssal ocean in deep western boundary currents east of the Kerguelen Plateau (Fukamachi et al 2010) and off the Antarctic Peninsula in the Weddell Sea (Gordon et al 2001;Fahrbach et al 2001). The CCSM4 features a strong northward current off the Kerguelen Plateau in the Australian-Antarctic Basin (AAB; not shown).…”
Section: B Export Of Aabwmentioning
confidence: 99%
“…Entrainment processes increase the volume and modify the properties of the dense shelf water masses as they overflow off the Antarctic continental shelves into the abyssal ocean (Legg et al 2009). AABW is transported to the global abyssal ocean in deep western boundary currents east of the Kerguelen Plateau (Fukamachi et al 2010) and off the FIG. 1.…”
Section: Introductionmentioning
confidence: 99%
“…Several authors have postulated that oxygen-depleted 610 Antarctic Bottom Water (AABW) occupying the abyssal zones of the oceans can change the redox conditions in the sediment, trapping and preserving dissolved and particulate organic matter and, consequently reducing and dissolving both, biogenic and detrital magnetite (Florindo et al, 2003;Hepp et al, 2009;Korff et al, 2016). At present, Site U1356 is influenced by AABW forming in the adjacent Wilkes Land shelf (Orsi et al, 1999;Fukamachi et al, 2000) and in the Ross Sea spilling over to the 615 Wilkes Land continental shelf (Fukamachi et al, 2010) (Fig. 1).…”
mentioning
confidence: 99%