Litcius/Paper detail

Magnetic Proxy of Eurasian Loess Revealing Enhanced Physical Erosion Since the Mid‐Pleistocene Transition

Wenxiao Ning, Jinbo Zan, Friedrich Heller, Xiaomin Fang, Yu-Ao Zhang, Weilin Zhang, Jian Kang, Miaomiao Shen

2023Geophysical Research Letters20 citationsDOIOpen Access PDF

Abstract

Abstract Eolian loess deposits contain valuable information about past climate changes and erosion history in dust source regions. In contrast to the extensive investigations of paleoclimatic implications of Eurasian loess, continental erosion information in the loess deposits has received less attention, particularly on the global or hemispheric scales. The present study combines citrate‐bicarbonate‐dithionite (CBD) magnetic mineral extraction procedures and linear regression of magnetic parameters to analyze Eurasian loess. We find that lithogenic susceptibility of Quaternary loess deposits in Central Asia, Europe and the Chinese Loess Plateau shows synchronous long‐term increases since ∼0.6–0.5 Ma, suggesting intensive glacial erosion and/or river incision to have occurred in the surrounding mountains of dust source regions after the mid‐Pleistocene climate Transition. The dramatic increase in lithogenic susceptibility of Eurasian loess provides new insights into the close relationships between global climate changes and dust source erosion since the late Cenozoic.

Topics & Concepts

LoessGeologyAeolian processesQuaternaryPleistoceneEarth scienceErosionGlacial periodCenozoicPhysical geographyGeochemistryGeomorphologyPaleontologyStructural basinGeographyGeology and Paleoclimatology ResearchGeological formations and processesAeolian processes and effects
Magnetic Proxy of Eurasian Loess Revealing Enhanced Physical Erosion Since the Mid‐Pleistocene Transition | Litcius