Litcius/Paper detail

Tibetan Dust Accumulation Linked to Ecological and Landscape Response to Global Climate Change

Xianmei Huang, Xiaodong Miao, Qiufang Chang, Jiemei Zhong, Joseph A. Mason, Paul R. Hanson, Xianjiao Ou, Liubing Xu, Zhongping Lai

2021Geophysical Research Letters28 citationsDOIOpen Access PDF

Abstract

Abstract The Tibetan Plateau (TP) is a hotspot of earth system research, and understanding its landscape and ecosystem evolution has been hampered by the lack of time‐constrained geological records. Geochronological data from 14 loess sites covering a large region in the Tibetan interior show that the TP loess, rather than accumulating during glacial periods, began aggrading at either 13.4 ± 0.4 or 9.9 ± 0.2 ka. An ecological threshold was crossed, when warmer and wetter conditions resulted in increased vegetation cover enabling dust trapping. This dust accumulation model is out of phase with that of the Chinese Loess Plateau (CLP) where high sedimentation rates occurred during the cold/dry glacial stages. The TP loess accumulation is in response to global climate change, at both orbital (glacial/interglacial) and millennial (e.g., Younger Dryas event) time scales, despite more complexity via ecological and landscape processes than the CLP loess.

Topics & Concepts

LoessGlacial periodPhysical geographyClimate changeInterglacialEarth scienceGeologyEcosystemAbrupt climate changeEcologyYounger DryasLoess plateauEnvironmental scienceGlobal warmingEffects of global warmingGeographyGeomorphologySoil scienceOceanographyBiologyGeology and Paleoclimatology ResearchAeolian processes and effectsLandslides and related hazards