Literature DB >> 29050374

Taxonomic structure and functional association of foxtail millet root microbiome.

Tao Jin1,2, Yayu Wang1, Yueying Huang1, Jin Xu1,3, Pengfan Zhang1,4, Nian Wang3, Xin Liu1,2, Haiyan Chu5, Guang Liu1, Honggang Jiang1, Yuzhen Li1, Jing Xu1, Karsten Kristiansen1,6, Liang Xiao1, Yunzeng Zhang3, Gengyun Zhang1, Guohua Du1, Houbao Zhang1, Hongfeng Zou1,7, Haifeng Zhang1, Zhuye Jie1, Suisha Liang1, Huijue Jia1, Jingwang Wan1, Dechun Lin1, Jinying Li1, Guangyi Fan1,2, Huanming Yang1,8, Jian Wang1,8, Yang Bai9,10,11, Xun Xu1,2.   

Abstract

The root microbes play pivotal roles in plant productivity, nutrient uptakes, and disease resistance. The root microbial community structure has been extensively investigated by 16S/18S/ITS amplicons and metagenomic sequencing in crops and model plants. However, the functional associations between root microbes and host plant growth are poorly understood. This work investigates the root bacterial community of foxtail millet (Setaria italica) and its potential effects on host plant productivity. We determined the bacterial composition of 2882 samples from foxtail millet rhizoplane, rhizosphere and corresponding bulk soils from 2 well-separated geographic locations by 16S rRNA gene amplicon sequencing. We identified 16 109 operational taxonomic units (OTUs), and defined 187 OTUs as shared rhizoplane core OTUs. The β-diversity analysis revealed that microhabitat was the major factor shaping foxtail millet root bacterial community, followed by geographic locations. Large-scale association analysis identified the potential beneficial bacteria correlated with plant high productivity. Besides, the functional prediction revealed specific pathways enriched in foxtail millet rhizoplane bacterial community. We systematically described the root bacterial community structure of foxtail millet and found its core rhizoplane bacterial members. Our results demonstrated that host plants enrich specific bacteria and functions in the rhizoplane. The potentially beneficial bacteria may serve as a valuable knowledge foundation for bio-fertilizer development in agriculture.
© The Author 2017. Published by Oxford University Press.

Entities:  

Keywords:  16S rRNA; Setaria italica; microbiome; productivity; root

Mesh:

Substances:

Year:  2017        PMID: 29050374      PMCID: PMC7059795          DOI: 10.1093/gigascience/gix089

Source DB:  PubMed          Journal:  Gigascience        ISSN: 2047-217X            Impact factor:   6.524


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