生态演替
时序
土壤碳
菌丝
热带森林
外生菌根
环境科学
菌根
碳循环
碳纤维
植物
生态学
热带和亚热带湿润阔叶林
大块土
δ13C
农学
土壤有机质
生物
土壤生物学
启动(农业)
化学
共生
丛枝菌根
亚热带
森林生态学
非生物成分
总有机碳
土壤水分
生态系统
作者
Lin Chen,Zhijian Mou,Jing Zhang,Yue Li,Wenjia Wu,Tao Wang,Xiaomin Zhu,Donghai Wu,Daniel F. Petticord,Dafeng Hui,Hans Lambers,Jordi Sardans,Josep Peñuelas,Hai Ren,Jun Wang,Zhanfeng Liu
摘要
ABSTRACT Plant roots and their mycorrhizal symbionts regulate soil organic carbon (SOC) dynamics in tropical forests, where succession‐driven shifts in mycorrhizal associations alter carbon allocation patterns. However, the relative contributions of roots versus extraradical mycorrhizal hyphae to SOC accumulation and decomposition across forest succession remain unclear. Using a 2‐year isotopic ingrowth‐core field experiment along a tropical forest chronosequence (70–400 years), we quantified the roles of roots and extraradical hyphae in new SOC accumulation and priming effects. After 2 years, roots contributed nearly four times more to SOC accumulation than hyphae across tropical forest succession. Roots enhanced new SOC accumulation while suppressing the positive priming effect on native SOC, leading to a net gain of 1.6 mg C g −1 soil yr. −1 , predominantly as particulate organic carbon. In contrast, extraradical hyphae had a marginal effect, contributing only 0.4 mg C g −1 soil yr. −1 . Root‐driven SOC input peaked in early succession, whereas hyphal contributions remained consistent. Our findings highlight the dominant role of roots—rather than mycorrhizal hyphae—in SOC accumulation and stabilization during tropical forest succession, emphasizing the need to incorporate root traits into management strategies to enhance SOC sequestration, particularly in tropical forests under increasing land‐use pressures.
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