More sensitive microbial responses to the interactive effects of warming and altered precipitation in subsoil than topsoil of an alpine grassland ecosystem

底土 表土 环境科学 土壤碳 降水 全球变暖 碳循环 草原 气候变化 土壤科学 农学 生态学 生态系统 土壤水分 生物 地理 气象学
作者
Qi Qi,Shijie Ning,Xue Guo,Jianshu Zhao,Renmao Tian,Haoran Gui,Jin He,Hao Wang,Zhenhua Zhang,Konstantinos T. Konstantinidis,Qun Gao,Yuxin Wang,Shunyi Li,Weishu Zhao,Yunfeng Yang,Jizhong Zhou
出处
期刊:Global Change Biology [Wiley]
卷期号:30 (9) 被引量:9
标识
DOI:10.1111/gcb.17487
摘要

Abstract Subsoil is a large organic carbon reservoir, storing more than half of the total soil organic carbon (SOC) globally. Conventionally, subsoil is assumed to not be susceptible to climate change, but recent studies document that climate change could significantly alter subsoil carbon cycling. However, little is known about subsoil microbial responses to the interactive effects of climate warming and altered precipitation. Here, we investigated carbon cycling and associated microbial responses in both subsoil (30–40 cm) and topsoil (0–10 cm) in a Tibetan alpine grassland over 4 years of warming and altered precipitation. Compared to the unchanged topsoil carbon ( β = .55, p = .587), subsoil carbon exhibited a stronger response to the interactive effect of warming and altered precipitation ( β = 2.04, p = .021), that is, warming decreased subsoil carbon content by 28.20% under decreased precipitation while warming increased subsoil carbon content by 18.02% under increased precipitation.Furthermore, 512 metagenome‐assembled genomes (MAGs) were recovered, including representatives of phyla with poor genomic representation. Compared to only one changed topsoil MAG, 16 subsoil MAGs were significantly affected by altered precipitation, and 5 subsoil MAGs were significantly affected by the interactive effect of warming and precipitation. More than twice as many populations whose MAG abundances correlated significantly with the variations of carbon content, components and fluxes were observed in the subsoil than topsoil, suggesting their potential contribution in mediating subsoil carbon cycling. Collectively, our findings highlight the more sensitive responses of specific microbial lineages to the interactive effects of warming and altered precipitation in the subsoil than topsoil, and provide key information for predicting subsoil carbon cycling under future climate change scenarios.
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