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Differential effects of altered precipitation regimes on soil carbon cycles in arid versus humid terrestrial ecosystems

环境科学 干旱 生态系统 土壤碳 土壤水分 降水 碳循环 大气科学 土壤科学 生态学 生物 地质学 地理 地貌学 气象学
作者
Bin Wang,Yali Chen,Yan Li,Hui Zhang,Kai Yue,Xingchang Wang,Yuandan Ma,Jian Chen,Meng Sun,Zhuo Chen,Qiqian Wu
出处
期刊:Global Change Biology [Wiley]
卷期号:27 (24): 6348-6362 被引量:32
标识
DOI:10.1111/gcb.15875
摘要

Changes in precipitation regimes have significant effects on soil carbon (C) cycles; however, these effects may vary in arid versus humid areas. Additionally, the corresponding details of soil C cycles in response to altered precipitation regimes have not been well documented. Here, a meta-analysis was performed using 845 pairwise observations (control vs. increased or decreased precipitation) from 214 published articles to quantify the responses of the input process of exogenous C, the contents of various forms of C in soil, and the soil-atmosphere C fluxes relative to increased or decreased precipitation. The results showed that the effects of altered precipitation regimes did not differ between rainfall and snowfall. Increased precipitation significantly enhanced the soil C inputs, pools and outputs by 18.17%, 18.50%, and 21.04%, respectively, while decreased precipitation led to a significant decline in these soil C parameters by 10.18%, 9.96%, and 17.98%, respectively. The effects of increased precipitation on soil C cycles were more significant in arid areas (where mean annual precipitation, MAP <500 mm), but the effects of decreased precipitation were more significant in humid areas (where MAP ≥500 mm), indicating that the original MAP partially determined the responses of the soil C cycles to altered precipitation regimes. This study implies that for the same of precipitation variation, soil C cycles respond at different magnitudes: not only should the direction (decrease vs. increase) be counted but also the region (arid vs. humid) should be considered. These results deepened our understanding on regional differentiation in soil C cycles under climate change scenarios.

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