posted on 2018-02-23, 00:00authored byTao Lu, Mingjing Ke, W. J. G. M. Peijnenburg, Youchao Zhu, Meng Zhang, Liwei Sun, Zhengwei Fu, Haifeng Qian
The plant rhizosphere microbiota
plays multiple roles in plant
growth. We investigated the taxonomic and functional variations in
the rhizosphere microbial community, examining both prokaryotes and
eukaryotes, of four crops at the seedling stage: wheat, barley, and
two rice varieties (indica and japonica) seeded in paddy soil. The diversity of
rhizosphere communities in these four species was determined. Results
showed that wheat and barley had much stronger selection effects than
rice for the rhizosphere microbial community. Functional metagenomic
profiling indicated that a series of sequences related to glycan,
limonene, and pinene degradation pathways as well as some relatively
rare functions related to N or S metabolism were enriched in the rhizosphere
soil. We conclude that the four tested crops induced the formation
of the microbial community with specific features that may influence
the plant growth but stochastic processes also appreciably influenced
the functional selection.