Yanzhong Yao, Youtao Song, Pinjie Su, Jing Wang, Congke Miao, Yifu Luo,

Qiqi Sun, Jiale Wang, Guohui Zhang, Naishun Bu, School of Environment

Zhaolei Li, Southwest University

Abstract: Plant invasion increases methane (CH₄) and nitrous oxide (N₂O) emissions, however, the changes of soil functional microbes governing CH₄ and N₂O emissions are poorly understood. We conducted a meta-analysis based on 112 published papers to explore soil functional microbes driving CH₄ and N₂O emissions under plant invasion. The result showed that CH₄ and N₂O emission rates were increased by 94.6% and 27.3% under plant invasion, respectively, and the increments of CH₄ and N₂O emission were ascended with time since invasion. The copies of soil functional microbes in the production of CH₄ (mcrA) and N₂O (nirS and nirK) were increased by 105.7%, 24.4%, and 55.1% under plant invasion, respectively, whereas the copies of soil functional microbes in the consumption of CH₄ (pmoA) and N₂O (nosZ) were decreased by 50.4% and 24.5%, respectively. Plant invasion influenced soil functional microbes via increasing above-ground biomass, soil organic carbon, total nitrogen, and microbial biomass carbon. This study highlighted the vital roles of soil functional microbes in CH₄ and N₂O emission rates under plant invasion. This study also revealed that the increased CH₄ and N₂O emission rates under plant invasion were time-dependent, which challenged the constant estimation of ecosystem warming

potential under plant invasion in the long term.

Read the article here:   142-Asymmetric responses of functional microbes in methane and nitrous oxide emissions to plant invasion A meta-analysis.pdf