East Asia Winter Monsoon changes inferred from environmentally sensitive grain-size component records during the last 2300 years in mud area southwest off Cheju Island, ECS

East Asia Winter Monsoon changes inferred from environmentally sensitive grain-size component records during the last 2300 years in mud area southwest off Cheju Island, ECS

Environmentally sensitive grain-size component (ESGSC) extracted from grain-size data of a sediment core B2, which were retrieved from mud area southwest off Cheju Island (MACI), East China Sea (ECS), can be used to indicate the variations of East Asia Winter Monsoon (EAWM), with high (low) content/...

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Bibliographic Details
Published in:Science China. Earth sciences Vol. 49; no. 6; pp. 604 - 614
Main Authors: Xiang, Rong, Yang, Zuosheng, Saito, Yoshiki, Guo, Zhigang, Fan, Dejiang, Li, Yunhai, Xiao, Shangbin, Shi, Xuefa, Chen, Muhong
Format: Journal Article
Language:English
Published: Dordrecht Springer Nature B.V 01-06-2006
Subjects:
Age
area
Asia
Atmospheric circulation
China
Climate change
component
East
environmentally
grain-size
Holocene
Ice
Ice ages
Late
Little
Monsoon
Monsoons
mud
Particle size
Sea
sensitive
Wind
Winter
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Summary:Environmentally sensitive grain-size component (ESGSC) extracted from grain-size data of a sediment core B2, which were retrieved from mud area southwest off Cheju Island (MACI), East China Sea (ECS), can be used to indicate the variations of East Asia Winter Monsoon (EAWM), with high (low) content/mean-size of ESGCS denote to strong (weak) EAWM. Combined with AMS14C datings core B2 provides a continuous high-resolution record of EAWM changes over the past 2300years, with an average resolution of 13 years. The results show that the variations of EAWM are consistent with temperature changes inferred from historical documents in eastern China over the past 2300 years, from which four climate stages may be identified. In stages before 1900 aBP (50 AD) and 1450-780 aBP (50- 1170 AD) the EAWM were comparatively weak, corresponding to warm climate periods in eastern China, respectively. And in stages of 1900-1450 aBP (50-500 AD) and 780-219aBP (1170-1731 AD) the EAWM were strongly developed, which correspond well to climate changes of two cold periods in eastern China. It is also shown from this study that the stage at 780-219 aBP (1170-1731 AD) was the coldest climate period during the last 2300 years and could be, therefore,related to the Little Ice Age (LIA). Climatic fluctuations appeared obviously in all the four stages, and two climate events of abrupt changes from warm to cold occurred at around 1900 aBP (50 AD) and 780 aBP (1170 AD), of which the latter is probably related to globe-scale changes of atmospheric circulation at that time.
Bibliography:11-5843/P
N
ISSN:1674-7313
1869-1897
DOI:10.1007/s11430-006-0604-1