Atmospheric Dust Variations in the Ili Basin, Northwest China, During the Last Glacial Period as Revealed by a High Mountain Loess-Paleosol Sequence

Atmospheric dust emission is closely related to conditions in the source area. Typically, loess deposits represent the accumulation of locally derived dust, providing the opportunity to reconstruct past variations in dust emission and hence insights into dust-climate linkages and the underlying mech...

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Bibliographic Details
Published in:Journal of Geophysical Research: Atmospheres
Main Authors: Li, Yue, Song, Yougui, Qiang, Mingrui, Miao, Yunfa, Zeng, Mengxiu
Format: Report
Language:English
Published: AMER GEOPHYSICAL UNION 2019
Subjects:
Central Asia
loess
last glacial
dust-climate linkage
dynamic mechanism
ARID CENTRAL-ASIA
CHRONOLOGICALLY ORDERED SAMPLES
HOLOCENE MOISTURE EVOLUTION
QINGHAI-TIBETAN PLATEAU
ABRUPT CLIMATIC EVENTS
MASS ACCUMULATION RATE
LATE QUATERNARY LOESS
GREENLAND ICE-CORE
GRAIN-SIZE
NORTHERN CHINA
Meteorology & Atmospheric Sciences
Greenland
Pacific
Greenland ice core
ice core
Online Access:http://ir.ieecas.cn/handle/361006/13521
http://ir.ieecas.cn/handle/361006/13522
https://doi.org/10.1029/2019JD030470
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Summary:Atmospheric dust emission is closely related to conditions in the source area. Typically, loess deposits represent the accumulation of locally derived dust, providing the opportunity to reconstruct past variations in dust emission and hence insights into dust-climate linkages and the underlying mechanisms of dust mobilization, transport, and deposition. As yet, however, information on patterns of dust emission in Central Asia is sparse. Here we present the last glacial sedimentological data of a loess section from the Ili Basin, northwest China. Our results show that the variations in sand-sized fraction can indicate frequencies of occurring strong winds, which was likely driven by the Eurasian ice sheets during Marine Isotope Stage Stage 2 (MIS2) and MIS4 and by the boreal summer insolation during MIS3. The mass accumulation rate (MAR) reflects an integration of sediment availability in the provenance, vegetation cover in the deposition area, and wind regime. The differences of driving factors potentially explain the observed mismatches between variations in grain size and MAR. Comparison of dust fluxes observed in Greenland ice core and the North Pacific deep-sea sediment with the Central/East Asian MAR records supports the idea that the high flux of long-distance export of Asian dust is closely associated with the Siberian High and also influenced by changes in the atmospheric transport efficiency and likely by the source strength.

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