底土
环境科学
土壤碳
表土
全球变暖
土壤科学
气候变化
碳纤维
碳储量
固碳
生物量(生态学)
土壤水分
总有机碳
土壤有机质
非生物成分
农学
土壤流失
温室气体
封闭
库存(枪支)
二氧化碳
生态系统
碳循环
全球变化
大气科学
土层
环境工程
一氧化二氮
作者
Zhi Li,Lichao Fan,Mingda Wang,Manoj Shukla,Kazem Zamanian
出处
期刊:
[Springer Science+Business Media]
日期:2026-02-15
卷期号:5 (1)
标识
DOI:10.1007/s44246-025-00250-4
摘要
Abstract Global warming may significantly reduce soil organic carbon (SOC) storage and stability, particularly in subsoil layers, where carbon loss mechanisms remain poorly understood. By synthesizing data from global whole-profile warming experiments, we demonstrate that CO 2 emissions from the whole-profile are 1.3 times stimulated. The extent of SOC loss is largely determined by standing SOC stocks, highlighting its vulnerability to climate warming. Significant SOC loss (26.4%) occurs in forests, but not in alpine grasslands and wetlands, highlighting ecosystem-dependent responses to warming. The relative losses of subsoil SOC stocks in forests exhibited a significant positive correlation with soil depth (Qm = 4.4, p = 0.0357), and warming leads to a greater proportional loss of SOC in the subsoil (30.6%) compared to the topsoil (14.5%). These depth-dependent responses can be attributed to the combination of biotic factors (e.g., higher microbial biomass but lower C use efficiency) and abiotic factors (e.g., reduced water content). The imbalance between reduced carbon input and increased decomposition rates drives SOC loss from the subsoil, which must be accounted for to make accurate predictions of SOC dynamics in a warming world. Graphical Abstract
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