Guo Xue, Zhou Xishu, Hale Lauren, Yuan Mengting, Feng Jiajie, Ning Daliang, Shi Zhou, Qin Yujia, Liu Feifei, Wu Liyou, He Zhili, Van Nostrand Joy D, Liu Xueduan, Luo Yiqi, Tiedje James M, Zhou Jizhong
School of Minerals Processing and Bioengineering, Central South University, Changsha, China.
Institute for Environmental Genomics, University of Oklahoma, Norman, OK, United States.
Front Microbiol. 2018 May 31;9:954. doi: 10.3389/fmicb.2018.00954. eCollection 2018.
Clipping, removal of aboveground plant biomass, is an important issue in grassland ecology. However, few studies have focused on the effect of clipping on belowground microbial communities. Using integrated metagenomic technologies, we examined the taxonomic and functional responses of soil microbial communities to annual clipping (2010-2014) in a grassland ecosystem of the Great Plains of North America. Our results indicated that clipping significantly ( < 0.05) increased root and microbial respiration rates. Annual temporal variation within the microbial communities was much greater than the significant changes introduced by clipping, but cumulative effects of clipping were still observed in the long-term scale. The abundances of some bacterial and fungal lineages including and were significantly ( < 0.05) changed by clipping. Clipping significantly ( < 0.05) increased the abundances of labile carbon (C) degrading genes. More importantly, the abundances of recalcitrant C degrading genes were consistently and significantly ( < 0.05) increased by clipping in the last 2 years, which could accelerate recalcitrant C degradation and weaken long-term soil carbon stability. Furthermore, genes involved in nutrient-cycling processes including nitrogen cycling and phosphorus utilization were also significantly increased by clipping. The shifts of microbial communities were significantly correlated with soil respiration and plant productivity. Intriguingly, clipping effects on microbial function may be highly regulated by precipitation at the interannual scale. Altogether, our results illustrated the potential of soil microbial communities for increased soil organic matter decomposition under clipping land-use practices.
刈割,即去除地上植物生物量,是草地生态学中的一个重要问题。然而,很少有研究关注刈割对地下微生物群落的影响。利用综合宏基因组技术,我们研究了北美大平原草地生态系统中土壤微生物群落对年度刈割(2010 - 2014年)的分类和功能响应。我们的结果表明,刈割显著(<0.05)提高了根系和微生物呼吸速率。微生物群落的年度时间变化远大于刈割带来的显著变化,但在长期尺度上仍观察到刈割的累积效应。包括[具体菌属1]和[具体菌属2]在内的一些细菌和真菌谱系的丰度因刈割而发生显著(<0.05)变化。刈割显著(<0.05)增加了易分解碳(C)降解基因的丰度。更重要的是,在过去两年中,难分解C降解基因的丰度因刈割而持续且显著(<0.05)增加,这可能加速难分解C的降解并削弱土壤碳的长期稳定性。此外,参与包括氮循环和磷利用在内的养分循环过程的基因也因刈割而显著增加。微生物群落的变化与土壤呼吸和植物生产力显著相关。有趣的是,在年际尺度上,刈割对微生物功能的影响可能受到降水的高度调节。总之,我们的结果说明了在刈割土地利用方式下土壤微生物群落促进土壤有机质分解的潜力。
