Metagenomics insights into responses of rhizobacteria and their alleviation role in licorice allelopathy

化感作用 根际 根际细菌 生物 微生物菌剂 甘草甜素 植物 发芽 园艺 接种 细菌 遗传学 药理学
作者
Yang Liu,Hao Wang,Xiaoqing Qian,Jie Gu,Weimin Chen,Xihui Shen,Shiheng Tao,Shuo Jiao,Gehong Wei
出处
期刊:Microbiome [Springer Nature]
卷期号:11 (1) 被引量:7
标识
DOI:10.1186/s40168-023-01511-3
摘要

Abstract Background Allelopathy is closely associated with rhizosphere biological processes, and rhizosphere microbial communities are essential for plant development. However, our understanding of rhizobacterial communities under influence of allelochemicals in licorice remains limited. In the present study, the responses and effects of rhizobacterial communities on licorice allelopathy were investigated using a combination of multi-omics sequencing and pot experiments, under allelochemical addition and rhizobacterial inoculation treatments. Results Here, we demonstrated that exogenous glycyrrhizin inhibits licorice development, and reshapes and enriches specific rhizobacteria and corresponding functions related to glycyrrhizin degradation. Moreover, the Novosphingobium genus accounted for a relatively high proportion of the enriched taxa and appeared in metagenomic assembly genomes. We further characterized the different capacities of single and synthetic inoculants to degrade glycyrrhizin and elucidated their distinct potency for alleviating licorice allelopathy. Notably, the single replenished N ( Novosphingobium resinovorum ) inoculant had the greatest allelopathy alleviation effects in licorice seedlings. Conclusions Altogether, the findings highlight that exogenous glycyrrhizin simulates the allelopathic autotoxicity effects of licorice, and indigenous single rhizobacteria had greater effects than synthetic inoculants in protecting licorice growth from allelopathy. The results of the present study enhance our understanding of rhizobacterial community dynamics during licorice allelopathy, with potential implications for resolving continuous cropping obstacle in medicinal plant agriculture using rhizobacterial biofertilizers.
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