永久冻土
土壤碳
空间异质性
环境科学
土壤科学
空间变异性
总有机碳
碳储量
土壤有机质
地球科学
自然地理学
地质学
生态学
土壤水分
地理
气候变化
生物
统计
数学
作者
Umakant Mishra,Gustaf Hugelius,Eitan Shelef,Yuanhe Yang,Jens Strauß,A. V. Lupachev,J. W. Harden,Julie Jastrow,Chien‐Lu Ping,W. J. Riley,Edward A. G. Schuur,Roser Matamala,Matthias Siewert,L. E. Nave,Charles D. Koven,Matthias Fuchs,Juri Palmtag,Peter Kuhry,Claire C. Treat,Sebastian Zubrzycki
出处
期刊:Science Advances
[American Association for the Advancement of Science]
日期:2021-02-24
卷期号:7 (9)
被引量:367
标识
DOI:10.1126/sciadv.aaz5236
摘要
Large stocks of soil organic carbon (SOC) have accumulated in the Northern Hemisphere permafrost region, but their current amounts and future fate remain uncertain. By analyzing dataset combining >2700 soil profiles with environmental variables in a geospatial framework, we generated spatially explicit estimates of permafrost-region SOC stocks, quantified spatial heterogeneity, and identified key environmental predictors. We estimated that Pg C are stored in the top 3 m of permafrost region soils. The greatest uncertainties occurred in circumpolar toe-slope positions and in flat areas of the Tibetan region. We found that soil wetness index and elevation are the dominant topographic controllers and surface air temperature (circumpolar region) and precipitation (Tibetan region) are significant climatic controllers of SOC stocks. Our results provide first high-resolution geospatial assessment of permafrost region SOC stocks and their relationships with environmental factors, which are crucial for modeling the response of permafrost affected soils to changing climate.
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