The evolution of density currents and nepheloid bottom layers in the Ross Sea (Antarctica)

In this study we have analyzed the thermohaline, light transmission and particulate matter data, obtained in the western sector of the Ross Sea during the X Italian Expedition, for the purpose of investigating the evolution of the High Salinity Shelf Water in this area. In particular CTD data were u...

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Main Authors: BUDILLON G, SALUSTI E, TUCCI, SERGIO
Other Authors: Budillon, G, Salusti, E, Tucci, Sergio
Format: Article in Journal/Newspaper
Language:English
Published: Kline Geology Laboratory:Yale University, PO Box 208109:New Haven, CT 06520:(203)432-3154, (203)432-5668, EMAIL: ajs@yale.edu, INTERNET: http://www.geology.yale.edu/kgl/Dept_Information/directory.html, Fax: (203)432-3134 2006
Subjects:
Antarctic
The Antarctic
Ross Sea
Antarc*
Antarctica
Online Access:http://hdl.handle.net/11567/221938
id ftunivgenova:oai:iris.unige.it:11567/221938
record_format openpolar
spelling ftunivgenova:oai:iris.unige.it:11567/221938 2023-11-12T04:07:40+01:00 The evolution of density currents and nepheloid bottom layers in the Ross Sea (Antarctica) BUDILLON G SALUSTI E TUCCI, SERGIO Budillon, G Salusti, E Tucci, Sergio 2006 STAMPA http://hdl.handle.net/11567/221938 eng eng Kline Geology Laboratory:Yale University, PO Box 208109:New Haven, CT 06520:(203)432-3154, (203)432-5668, EMAIL: ajs@yale.edu, INTERNET: http://www.geology.yale.edu/kgl/Dept_Information/directory.html, Fax: (203)432-3134 volume:64 firstpage:517 lastpage:540 numberofpages:24 journal:JOURNAL OF MARINE RESEARCH http://hdl.handle.net/11567/221938 info:eu-repo/semantics/article 2006 ftunivgenova 2023-10-18T21:03:49Z In this study we have analyzed the thermohaline, light transmission and particulate matter data, obtained in the western sector of the Ross Sea during the X Italian Expedition, for the purpose of investigating the evolution of the High Salinity Shelf Water in this area. In particular CTD data were used to estimate the baroclinic velocity field. Light transmission and total particulate matter data (from Niskin bottles mounted on a Carousel water sampler) were used to analyze the nepheloid layers and the evolution of the suspended sediments. This basin is characterized by a northward flow of very dense High Salinity Shelf Water (Ø = 1.95°C, S = 34.90), much colder than the incoming Circumpolar Deep Water (Ø = 1.20°C, S = 34.70). We obtained a scenario in which the High Salinity Shelf Water interacts with the Circumpolar Deep Water along the Antarctic Slope Front, and deviates from its geostrophic equilibrium. Interestingly, this cold dense water mixes with Circumpolar Deep Water at the shelf break and flows downward until it seems to disappear. Below this cold flow, a thin turbulent current has been observed, again moving northward with a high velocity 0.2–1.0 m s/1. This thin flow also contains high concentration of suspended matter produced by the interaction of the dense water and the bottom sediments. The various elementary mechanisms ruling the dynamics of such down-flows, namely the effects of topographic irregularities, bottom friction, Ekman benthic boundary layers or the effect of the variability of the Antarctic Circumpolar Current, which can push offshore the dense water, are discussed in this paper. Article in Journal/Newspaper Antarc* Antarctic Antarctica Ross Sea Università degli Studi di Genova: CINECA IRIS Antarctic The Antarctic Ross Sea
institution Open Polar
collection Università degli Studi di Genova: CINECA IRIS
op_collection_id ftunivgenova
language English
description In this study we have analyzed the thermohaline, light transmission and particulate matter data, obtained in the western sector of the Ross Sea during the X Italian Expedition, for the purpose of investigating the evolution of the High Salinity Shelf Water in this area. In particular CTD data were used to estimate the baroclinic velocity field. Light transmission and total particulate matter data (from Niskin bottles mounted on a Carousel water sampler) were used to analyze the nepheloid layers and the evolution of the suspended sediments. This basin is characterized by a northward flow of very dense High Salinity Shelf Water (Ø = 1.95°C, S = 34.90), much colder than the incoming Circumpolar Deep Water (Ø = 1.20°C, S = 34.70). We obtained a scenario in which the High Salinity Shelf Water interacts with the Circumpolar Deep Water along the Antarctic Slope Front, and deviates from its geostrophic equilibrium. Interestingly, this cold dense water mixes with Circumpolar Deep Water at the shelf break and flows downward until it seems to disappear. Below this cold flow, a thin turbulent current has been observed, again moving northward with a high velocity 0.2–1.0 m s/1. This thin flow also contains high concentration of suspended matter produced by the interaction of the dense water and the bottom sediments. The various elementary mechanisms ruling the dynamics of such down-flows, namely the effects of topographic irregularities, bottom friction, Ekman benthic boundary layers or the effect of the variability of the Antarctic Circumpolar Current, which can push offshore the dense water, are discussed in this paper.
author2 Budillon, G
Salusti, E
Tucci, Sergio
format Article in Journal/Newspaper
author BUDILLON G
SALUSTI E
TUCCI, SERGIO
spellingShingle BUDILLON G
SALUSTI E
TUCCI, SERGIO
The evolution of density currents and nepheloid bottom layers in the Ross Sea (Antarctica)
author_facet BUDILLON G
SALUSTI E
TUCCI, SERGIO
author_sort BUDILLON G
title The evolution of density currents and nepheloid bottom layers in the Ross Sea (Antarctica)
title_short The evolution of density currents and nepheloid bottom layers in the Ross Sea (Antarctica)
title_full The evolution of density currents and nepheloid bottom layers in the Ross Sea (Antarctica)
title_fullStr The evolution of density currents and nepheloid bottom layers in the Ross Sea (Antarctica)
title_full_unstemmed The evolution of density currents and nepheloid bottom layers in the Ross Sea (Antarctica)
title_sort evolution of density currents and nepheloid bottom layers in the ross sea (antarctica)
publisher Kline Geology Laboratory:Yale University, PO Box 208109:New Haven, CT 06520:(203)432-3154, (203)432-5668, EMAIL: ajs@yale.edu, INTERNET: http://www.geology.yale.edu/kgl/Dept_Information/directory.html, Fax: (203)432-3134
publishDate 2006
url http://hdl.handle.net/11567/221938
geographic Antarctic
The Antarctic
Ross Sea
geographic_facet Antarctic
The Antarctic
Ross Sea
genre Antarc*
Antarctic
Antarctica
Ross Sea
genre_facet Antarc*
Antarctic
Antarctica
Ross Sea
op_relation volume:64
firstpage:517
lastpage:540
numberofpages:24
journal:JOURNAL OF MARINE RESEARCH
http://hdl.handle.net/11567/221938
_version_ 1782328254485495808

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