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Globally elevated chemical weathering rates beneath glaciers

Xiangying Li, Ninglian Wang, Yongjian Ding, Jon Hawkings, Jacob C. Yde, R. Raiswell, Jintao Liu, Shiqiang Zhang, Shichang Kang, Rongjun Wang, Qiao Liu, Shiyin Liu, Roland Bol, Xiaoni You, Guoyu Li

2022Nature Communications68 citationsDOIOpen Access PDF

Abstract

Abstract Physical erosion and chemical weathering rates beneath glaciers are expected to increase in a warming climate with enhanced melting but are poorly constrained. We present a global dataset of cations in meltwaters of 77 glaciers, including new data from 19 Asian glaciers. Our study shows that contemporary cation denudation rates (CDRs) beneath glaciers (2174 ± 977 Σ*meq + m − 2 year − 1 ) are ~3 times higher than two decades ago, up to 10 times higher than ice sheet catchments (~150-2000 Σ*meq + m − 2 year − 1 ), up to 50 times higher than whole ice sheet means (~30-45 Σ*meq + m − 2 year − 1 ) and ~4 times higher than major non-glacial riverine means (~500 Σ*meq + m −2 year − 1 ). Glacial CDRs are positively correlated with air temperature, suggesting glacial chemical weathering yields are likely to increase in future. Our findings highlight that chemical weathering beneath glaciers is more intense than many other terrestrial systems and may become increasingly important for regional biogeochemical cycles.

Topics & Concepts

GlacierWeatheringGlacial periodDenudationPhysical geographyBiogeochemical cycleGeologyClimate changeEarth scienceErosionSurgeGlobal warmingIce sheetOceanographyGeochemistryGeomorphologyEnvironmental chemistryChemistryGeographyPaleontologyTectonicsCryospheric studies and observationsSmart Materials for ConstructionClimate change and permafrost