碎石
土壤碳
环境科学
碳纤维
表土
总有机碳
土壤有机质
生态系统
生物量(生态学)
碳循环
环境化学
陆地生态系统
土壤生物学
固碳
有机质
溶解有机碳
农学
生态学
底土
无机碳总量
大气碳循环
蓝炭
土壤科学
土壤分类
作者
Zhen Peng,Tian Ma,Allan Degen,Peipei Liu,Binyu Luo,Lingyan Qi,Tianyun Qi,Zhuoma Dengzeng,Dongmei Li,Chunyan Wang,Di Lu,Yue Qi,Pengwei Zheng,Xianrong Guan,Zhanhuan Shang
标识
DOI:10.1038/s43247-025-02860-7
摘要
Abstract Determining microbial necromass carbon and plant detritus carbon is essential for accurate global soil organic carbon modeling. Yet soil organic carbon precursors are usually ignored in alpine assessments. We examined 363 samples from dominant Himalayan ecosystems and determined the distribution of microbial necromass carbon and plant detritus carbon in 0-30 cm soil and their responses to land use changes. Plant detritus carbon was 6.75 times greater than microbial necromass carbon and dominant across soil depths and ecosystems. Microbial biomass carbon strongly influenced soil organic carbon precursors. Plant detritus carbon exhibited greater sensitivity to land use change than microbial necromass carbon and decomposed preferentially, thus, buffering against fluctuations of the stable soil organic carbon fraction. Our results highlight plant detritus carbon’s key role in maintaining soil organic carbon persistence and suggest that incorporating both residual carbons and land use responses into Earth system models could improve future soil organic carbon projections.
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