Journal
GEOPHYSICAL RESEARCH LETTERS
Volume 49, Issue 23, Pages -Publisher
AMER GEOPHYSICAL UNION
DOI: 10.1029/2022GL100818
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Funding
- Natural Science Foundation of Jiangsu Province [BK20210991]
- State Key Laboratory of Palaeobiology and Stratigraphy (Nanjing Institute of Geology and Palaeontology Chinese Academy of Sciences) [20202104]
- National Natural Science Foundation of China [41702162]
- Research Grants Council of Hong Kong [HKU 17300720, HKU 17300821]
- University of Hong Kong
- Faculty of Science RAE Improvement Fund of the University of Hong Kong
- Seed Funding Programme for Basic Research of the University of Hong Kong [202011159122, 202111159167]
- Germany/Hong Kong Joint Research Scheme [G-HKU709/21]
- SKLMP Seed Collaborative Research Fund [SKLMP/SCRF/0031]
- Seed Funding of the HKU-TCL Joint Research Centre for Artificial Intelligence
- Ecology and Biodiversity Division Fund
- Peter Buck Postdoc Fellowship, Smithsonian Institution
- Nanjing Institute of Geology and Palaeontology, Chinese Academy of Sciences [203108]
- 45th Round of the Post-doctoral Fellow Scheme of the University of Hong Kong
- China Geological Survey [DD20190818, DD20160152]
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This study analyzed fossil ostracods from the northwestern Pacific Ocean and found that the intensity of the East Asian winter monsoon affected the formation of Yellow Sea Bottom Cold Water and the southward migration of Arctic ostracods.
The East Asian winter monsoon (EAWM) is associated with northerly surface winds affecting crop and livestock productivity and social and economic activities across East Asia. However, the relationship between EAWM dynamics and marine biota remains poorly understood. In this study, we analyzed fossil ostracods from sediment cores collected in the northwestern Pacific Ocean to detect the appearance/disappearance of circumpolar species during the late Quaternary. We compared our ostracod records, including dating results, with ice-rafted debris records from the Sea of Japan, and identified two southward migration events of Arctic ostracods at 120-100 ka (Marine Isotope Stage [MIS] 5d stadial) and 30-15 ka (MIS 3 and 2, peak Last Glacial), which corresponded to a strengthened EAWM system. Our results indicate that an intensified EAWM influenced the Yellow Sea Bottom Cold Water formation, lowered the winter water temperatures, and allowed Arctic ostracods to migrate southward into the Yellow Sea.
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