Variations in upper water structure during MIS 3 from the western South China Sea
Core 17954 is located in the modern summer upwelling area in western South China Sea, its sediments recorded the variations of upwelling generated by East Asia Summer Monsoon (EASM) during MIS 3. Based on the strict age model of AMS (14)C dating, the paleo-Sea Surface Temperature (SST) and Salinity...
Published in: | Chinese Science Bulletin |
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Main Authors: | , |
Other Authors: | , |
Format: | Journal/Newspaper |
Language: | English |
Published: |
科学通报 英文版
2010
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Subjects: | |
Online Access: | https://hdl.handle.net/20.500.11897/155893 https://doi.org/10.1007/s11434-009-0388-8 |
Summary: | Core 17954 is located in the modern summer upwelling area in western South China Sea, its sediments recorded the variations of upwelling generated by East Asia Summer Monsoon (EASM) during MIS 3. Based on the strict age model of AMS (14)C dating, the paleo-Sea Surface Temperature (SST) and Salinity (SSS) are reconstructed by pairing Mg/Ca-Paleothermometer and delta(18)O of planktonic foraminifera Globigerinoides ruber (white s.s.). Results show that in Core 17954, the delta(18)O record of G.ruber has significant millennium fluctuations as the delta(18)O records from NGRIP icecore and Hulu Cave stalagmites, this indicates that the climate changes of western SCS contains both signals from High Latitude of Northern Hemisphere as well as EASM. In order to get more information on upwelling changes, previous records of thermocline and foraminiferal primary productivity in Core 17954 are collected, restudied and compared. Five distinct shallowing periods of thermocline (referred to as S1-S5) are identified in this study. In S1-S4, SST is lower and productivity is higher, these indicate to an enhanced upwelling and strengthened EASM during these periods. And the lower SSS, caused by increasing precipitation or fresh water input, also prove this standpoint. Multidisciplinary Sciences SCI(E) 2 ARTICLE 3 301-307 55 |
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