Methane(CH4)is the second largest long-lived greenhouse gas after the CO2,which contributes 20％of global warming forcing.Global aerated soils remove CH4 from the troposphere,but the quantification of its magnitude and spatial variability is still of a large uncertainty.This study collected 1240 records of the CH4 uptake by soils across the globe.Our estimates update the global soil CH4 sink to 31.9+/-0.16 Tg CH4 a-1,42％higher than the previous inventory-based estimation,with 56％from temperate regions.Also,our dataset revealed that the global drylands dominated the soil CH4 sink,which is different from traditional forest-dominated view.During the past four decades,the soil porosity affected by soil moisture controls the variation in the uptake in the tropics,while warming temperatures benefit methanotrophs in temperate and boreal soils,especially the drylands,where the soil porosity is not limiting.Our simulations indicate that the CH4 uptake will increase by 11％-31％by the end of the 21st century,much lower than the previous estimations.This study substantially constrains the global soil CH4 sink estimates and reveals the warming temperate northern hemisphere is a dominant CH4 uptake region in the past and future,while the uptake decreases in tropical soils under increasing precipitation.

XU Xin;WEI Da;QI Ya-hui;WANG Xiao-dan

Institute of Mountain Hazards and Environment,Chinese Academy of Sciences,Chengdu 610041,China;University of Chinese Academy of Sciences,Beijing 100049,China

山地科学学报（英文版）

[1]XU Xin;WEI Da;QI Ya-hui;WANG Xiao-dan-.Temperate northern hemisphere dominates the global soil CH4 sink)[J].山地科学学报（英文版）,2022(11):3051-3062

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