土壤碳
总有机碳
碳纤维
微生物种群生物学
环境科学
环境化学
磷
碳循环
土壤有机质
吸附
微生物
农学
营养物
土壤科学
化学
土壤化学
土壤生态学
生态系统
草原
生态学
大块土
高原(数学)
生物地球化学循环
无机碳总量
固碳
土壤分类
作者
Yuting Wang,Wei Ye,Gangsheng Wang,Yang Ruan,Ling Li,Mu Liu,Yunfeng Yang,Qirong Shen,Ning Ling
标识
DOI:10.1002/advs.202513917
摘要
Microbial carbon use efficiency (CUE) mediates soil organic carbon (SOC) turnover, yet its drivers and role in carbon stabilization in alpine grasslands remain unclear. Using data from 45 sites across the Qinghai-Tibetan Plateau and 18O-water to analyze substrate-independent CUE, this study reveals a hump-shaped relationship between microbial CUE and SOC. Below an SOC threshold of 54 g C kg-1, increases in precipitation, plant biomass, soil total nitrogen, and phosphorus contents raise CUE, supporting microbial in vivo turnover. High CUE implies more carbon incorporation into microbial cells, facilitating mineral-associated organic carbon (MAOC) formation via sorption on clays. This process is reflected by rising MAOC/SOC ratios with increasing clay content. Above the SOC threshold of 54 g C kg-1, phosphorus limitation and high clay content suppress CUE, with the influence of clay amplifying under wetter conditions. In carbon-rich soils, the newly discovered inverse correlation between MAOC and microbial efficiency in alpine systems highlights that CUE only reflects the potential for carbon sequestration. These findings emphasize the need to balance soil carbon accumulation and nutrient availability for microorganisms to maintain the soil carbon storage capacity of climate-sensitive ecosystems.
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