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Late glacial to Holocene climatic and oceanographic record of sediment facies from the South Scotia Sea off the northern Antarctic Peninsula

Two gravity cores were collected from the South Scotia Sea located off the northern Antarctic Peninsula during the 2002/2003 Korea Antarctic Research Program (KARP) expedition to determine the late Quaternary climatic and oceanographic history. Reassessment of previous sedimentological, geochemical...

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Bibliographic Details
Published in:Deep-sea research. Part 2. Topical studies in oceanography 2007-11, Vol.54 (21), p.2367-2387
Main Authors: Yoon, H.I., Khim, B.K., Yoo, K.-C., Bak, Y.S., Lee, J.I.
Format: Article
Language:English
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Summary:Two gravity cores were collected from the South Scotia Sea located off the northern Antarctic Peninsula during the 2002/2003 Korea Antarctic Research Program (KARP) expedition to determine the late Quaternary climatic and oceanographic history. Reassessment of previous sedimentological, geochemical and micropaleontological analyses combined with established age model of AMS 14C dates represent the reliable record of late Pleistocene climatic/oceanographic change for the Scotia Sea region of Antarctica. During the Last Glacial Maximum (LGM), the South Scotia Sea received large amounts of sorted terrigenous sediments and some of the reworked diatom fossils emplaced by bottom currents from an extensively glaciated Weddell Sea continental margin. Drifting icebergs calved from the glacial fronts have dispersed glacial dropstones throughout the study area. The bottom current deposits during the glacial phase comprise two lithologic units: (1) bioturbated gravelly sandy mud (Facies 1), formed by sluggish bottom current caused by reduced dense-water production originated from the ice sheet on the Weddell Shelf, (2) indistinctly layered diatomaceous mud as shown by total organic carbon (TOC) highs in the Facies 1, deposited by sporadic bottom currents caused by intensified sea–ice formation in polynya during the glacial stage. The LGM is characterized by greater and longer sea–ice coverage and a restricted Weddell/Scotia summer communication, as evidenced by a relative decrease in percentage Thalssiosira antarctica and Chaetoceros resting spores, which are more abundant close to the Weddell Ice Shelf. Deglaciation (about 13,000–9000 14C yr BP) in the South Scotia Sea was characterized by increasing TOC, diatom abundance, and decreasing magnetic susceptibility and sand contents up core. At this time, subglacial meltwater streams began to emanate from the Weddell Ice Sheet with peak of ice rafting. Sediment-laden turbid plumes from melting glacier and deglaciated Weddell Shelf have probably been joined into the realm of contour currents, Weddell Gyre circulation, ultimately forming indistinctly laminated gravelly mud (Facies 2) in the South Scotia Sea. These currents probably resulted from water exchange between the Weddell Ice Shelf and Circumpolar Warm Deep Water during the retreating phase of the last glaciation. The deglaciation was probably followed by a period of open-marine conditions with variable extent of sea ice (variable TOC content). Between about 9000 a
ISSN:0967-0645
1879-0100
DOI:10.1016/j.dsr2.2007.07.019