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Hunting paleoceanographic archives of ice sheet-ocean interaction in the northwestern Ross Sea, Antarctica

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Title
Hunting paleoceanographic archives of ice sheet-ocean interaction in the northwestern Ross Sea, Antarctica
Other Titles
로스해 북서부에서의 빙상과 해양의 상호작용에 대한 고해양학적 기록
Authors
Kim Sookwan
De Santis Laura
Hong, Jong Kuk
Colizza Ester
Kim, Sunghan
Bergamasco Andrea
Lee Sang-Hoon
Kang, Seung-Goo
Lee, Min Kyung
Kim, Hyung Jun
Choi, Yeonjin
Geniram Andrea
최형규
Lee, Jae Il
Yoo, Kyu-Cheul
Park, Yongcheol
Issue Date
2023
Citation
Kim Sookwan, et al. 2023. "Hunting paleoceanographic archives of ice sheet-ocean interaction in the northwestern Ross Sea, Antarctica". FRONTIERS IN EARTH SCIENCE, 11(1234347): 1-23.
Abstract
The analysis of sedimentary deposits influenced by bottom currents in glaciated continental margins provides crucial insights into paleo-depositional and oceanographic conditions. These reconstructions enable the assessment of interactions between advance and retreat of grounded ice sheets and past ocean circulation patterns. However, questions regarding these interactions and their specific mechanisms remain largely unanswered due to a lack of data in this remote area. In this study, we conducted a comprehensive analysis by integrating marine geophysical data, surficial sediment cores, oceanographic measurements, and ocean circulation models. Our aim was to understand spatial and temporal variations in sedimentary and oceanographic conditions during the past glacial and interglacial periods in combination with the long-term stratigraphic evolution. By integrating and cross-referencing diverse datasets, we were able to infer how bottom-current-controlled deposits (i.e., contourites) developed along the western bathymetric high of the Central Basin in the northwestern Ross Sea margin, Antarctica. Contouritic deposits lying over and along the flanks of bathymetric highs were identified through their mound-shaped external geometry and acoustically stratified facies, characterized by reflectors pinching toward the moat. Acoustic facies and multi-beam backscatter results, in conjunction with sedimentary core data, revealed contrasting patterns. Bathymetric highs exhibited thin (<10 m thick) coarser-grained sedimentary layers with higher backscatter, while the lower slope and rise displayed thick (>10 m thick), finer-grained stratified sediments with lower backscatter. These findings indicate that seabed winnowing occurred by strong bottom current during past glacial periods as supported by sedimentological analysis. The pathways of the westward-deflected dense shelf water outflow and the westward-flowing along-slope current, as simulated by oceanographic models, explain the distinctive development of contourites influenced by bottom-current processes. Moreover, the large accumulations of sediment in the contourites, resulting from bathymetric barriers in the north of the Central Basin, may contribute to submarine slope failures.
URI
https://repository.kopri.re.kr/handle/201206/14941
DOI
http://dx.doi.org/10.3389/feart.2023.1234347
Type
Article
Station
Araon
Indexed
SCIE
Appears in Collections  
2023-2023, Mantle dynamics and tectonic evolutions of Zealandia-Antarctic domain (23-23) / Park, Sung Hyun (PE23050)
2023-2023, Ice sheet retreat and ocean circulation in West Antarctica during the past warm periods (23-23) / Yoo, Kyu-Cheul (PE23090)
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