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Himalayan‐Tibetan Erosion Is Not the Cause of Neogene Global Cooling

Peter D. Clift, Tara N. Jonell

2021Geophysical Research Letters31 citationsDOIOpen Access PDF

Abstract

Abstract Uplift and erosion of the Himalayas and Tibetan Plateau have resulted in the deposition of some of the largest sedimentary masses on Earth. Chemical weathering of these materials has been invoked as a primary driver of long‐term global cooling because weathering of silicate material consumes atmospheric CO 2 . We here combine geochemical data from scientific drill sites in the Arabian and South China Seas, together with sediment mass flux budgets, to estimate changes in chemical weathering fluxes for the Indus, Mekong, and Pearl river systems. The rate of CO 2 consumption decreased by 50% between ∼16 and 5.3 Ma, especially in the Indus system, as onshore erosion slowed and provenance shifted away from mafic arc units in the suture zone. Falling chemical weathering fluxes during a period of global cooling refutes the idea that Himalaya–Tibetan Plateau uplift drove Neogene global cooling.

Topics & Concepts

WeatheringGeologyNeogeneProvenanceErosionPlateau (mathematics)DenudationEarth scienceSedimentary rockIndusGeochemistryGlobal coolingSedimentGeomorphologyStructural basinClimate changeOceanographyPaleontologyMathematical analysisTectonicsMathematicsGeology and Paleoclimatology ResearchGeological and Geochemical AnalysisPaleontology and Stratigraphy of Fossils
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