干旱
环境科学
土壤碳
生态系统
人类受精
土壤水分
生态学
气候变化
优势(遗传学)
农学
风化作用
全球变暖
碳循环
土壤有机质
总有机碳
全球变化
水分
营养物
土壤生态学
土壤科学
土壤肥力
土壤生物多样性
农林复合经营
全球气候
生物量(生态学)
地球科学
土壤生物学
含水量
氮气循环
亚热带
生长季节
土壤退化
成土作用
作者
Li‐Xin Xu,Guang‐Hui Yu,Cong‐Qiang Liu,Georg Guggenberger
摘要
Microbial necromass-mineral interactions are vital for soil organic carbon (C) persistence, but their response to concurrent climate and fertilization legacies in croplands remains unclear. Using six long-term field sites (27-38 years) across a pronounced aridity gradient, we show that stabilization of microbial necromass is coupled with short-range ordered (SRO) minerals in humid zones (aridity index, AI < 1.3). In arid zones (AI > 1.3), this correlation strongly weakens, challenging the universality of SRO-associated C paradigms. While aridity controls mineral weathering and SRO abundance, we showed that long-term fertilization can supersede aridity-driven constraints on necromass C accrual. Spatial mapping of 6060 in situ μ-FTIR spectra revealed reduced organic C transformation in outer aggregate rims under aridity, aligning with diminished microbial processing and a consequent weakening of necromass-SRO associations. Our findings establish soil moisture as a critical regulator of fertilization-induced ecological memory in mineral-necromass interactions, urging climate-tailored practices to sustain soil C resilience in water-limited ecosystems under global aridification.
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