High resolution OSL dating of the late quaternary loess from Central Shandong Mountains in eastern China and the paleoclimatic implications

The loess deposits widely distributed in the Central Shandong Mountains are significant terrestrial palaeoclimatic archives in the alluvial plain of eastern China. It is also sensitive records of East Asian monsoon changes for situating in a key region connected to the Eurasian plate and the Pacific...

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Bibliographic Details
Published in:IOP conference series. Earth and environmental science 2019-10, Vol.349 (1), p.12037
Main Authors: Zhao, Qiuyue, Ding, Min, Peng, Shuzhen, Zhang, Wei, Song, Bo, Zhou, Rui, Yue, Junsheng, Liang, Mingying, Zhang, Dongmei
Format: Article
Language:English
Subjects:
Alluvial plains
Archives & records
Climate change
Dating
High resolution
Holocene
Loess
Monsoons
Mountains
Pleistocene
Quaternary
Sedimentation
Sedimentation & deposition
Sedimentation rates
Wind erosion
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Summary:The loess deposits widely distributed in the Central Shandong Mountains are significant terrestrial palaeoclimatic archives in the alluvial plain of eastern China. It is also sensitive records of East Asian monsoon changes for situating in a key region connected to the Eurasian plate and the Pacific Ocean. However, research into the climate changes in CSM loess is restricted by the lack of independent age control. High resolution samples of Optically Stimulated Luminescence (OSL) dating results are presented from a new Heishan loess section over ~34 ka. Our results reveal the following: (1) The boundary age defined by the sedimentation rates model between the Pleistocene and the Holocene at Heishan loess section is 10.9±0.6 ka. (2) A marked hiatus in the record is identified between ~30 and ~17 ka, probably resulting from deflation; this has never been raised in previous CSM loess researches and indicates that the study area is the wind erosion area during this time. (3) The relatively rapid sedimentation rate spanning 10.9±0.6 to 8.5±0.4 ka may be related to the post-depositional disturbance induced by more monsoon precipitation in the CSM region.
ISSN:1755-1307
1755-1315
DOI:10.1088/1755-1315/349/1/012037