Enhanced Mineral Preservation Rather Than Microbial Residue Production Dictates the Accrual of Mineral-Associated Organic Carbon Along a Weathering Gradient
作 者:Zhu ER#, Liu ZG#, Ma LX, Luo JN, Kang EZ, Wang Y, Zhao YP, Jia J, Feng XJ* |
影响因子:5.2 |
刊物名称:Geophysical Research Letters |
出版年份:2024 |
卷:51 期:6 页码:e2024GL108466 |
Mineral preservation and microbial residue production are vital for the accumulation of mineral-associated organic carbon (MAOC) in soils. However, their relative importance and interactive effects remain unclear. Here MAOC content and composition are analyzed in tandem with soil mineral and microbial attributes along a weathering gradient on a volcanic soil sequence. We find that MAOC content increases with increasing mineral weathering states, accompanied by increasing microbial contribution to MAOC. Mineral attributes rather than microbial physiological traits are strongly related to MAOC contents, suggesting that weathering-enhanced mineral preservation capacity overrides microbial residue production in governing MAOC accumulation by increasing reactive minerals. Furthermore, mineral attributes have a strong interactive effect with microbial traits on MAOC accumulation and composition, likely related to increasing fungal abundance in the microbial community with increasing weathering. These findings highlight that mineral weathering may effectively boost persistent SOC in synergy with microbial conversion in the long term.