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Mass‐Wasting‐Inferred Dramatic Variability of 130,000‐Year Indian Summer Monsoon Intensity From Deposits in the Southeast Tibetan Plateau

Wen Zhang, Jia Wang, Jianping Chen, Mohamad Reza Soltanian, Zhenxue Dai, Giday WoldeGabriel

2022Geophysical Research Letters27 citationsDOIOpen Access PDF

Abstract

Abstract A large proportion (∼80%) of the Indian subcontinent's precipitation comes from the Indian summer monsoon (ISM), which influences one‐fifth of the world's population. A long‐term reliable proxy for ISM is fundamental to understanding previous global climate change. We establish a mass‐wasting‐inferred proxy to examine the paleo‐hydrogeology (river undercutting history) of the Southeast Tibetan Plateau and reconstruct the dramatic variability of ISM intensity (precipitation) in the past 130,000 years. Our data suggest that mass‐wasting events, which provides us sufficient samples for paleoclimate research, are prone to dramatic climate changes, especially extreme climate environments. The Southeast Tibetan Plateau was subjected to at least four distinct ISM intensity phases in the past 130,000 years. We conclude that ISM intensity has a cyclicity featured by the Earth's orbit with obliquity, and that ISM intensity transition lags the global ice volume (sea level) change by 8–15 kyrs.

Topics & Concepts

Mass wastingMonsoonPlateau (mathematics)ClimatologyClimate changeProxy (statistics)PrecipitationPaleoclimatologyGeologyPhysical geographyEnvironmental scienceGeographyOceanographySedimentMeteorologyPaleontologyMathematical analysisComputer scienceMachine learningMathematicsGeology and Paleoclimatology ResearchTree-ring climate responsesArchaeology and ancient environmental studies
Mass‐Wasting‐Inferred Dramatic Variability of 130,000‐Year Indian Summer Monsoon Intensity From Deposits in the Southeast Tibetan Plateau | Litcius