p-Coumaric can alter the composition of cucumber rhizosphere microbial communities and induce negative plant-microbial interactions

Phenolics from root exudates or decaying residues are usually referred as autotoxins of several plant species. However, how phenolics affect soil microbial communities and their functional significances are poorly understood. Rhizosphere bacterial and fungal communities from cucumber ( Cucumis sativ...

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Bibliographic Details
Published in:Biology and fertility of soils 2018-04, Vol.54 (3), p.363-372
Main Authors: Zhou, Xingang, Zhang, Jianhui, Pan, Dandan, Ge, Xin, Jin, Xue, Chen, Shaocan, Wu, Fengzhi
Format: Article
Language:English
Subjects:
Acids
Agriculture
Bacteria
Biomedical and Life Sciences
Biota
Composition
Coumaric acid
Exudates
Exudation
Fungi
Gene sequencing
Growth
Inoculation
Interactions
Life Sciences
Microbial activity
Microbiomes
Microbiota
Microorganisms
Next-generation sequencing
Original Paper
p-Coumaric acid
Pathogens
Phenols
Phytotoxicity
Plant species
Rhizosphere
rRNA 16S
Seedlings
Soil
Soil microorganisms
Soil Science & Conservation
Spacer
Taxa
Vegetables
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Summary:Phenolics from root exudates or decaying residues are usually referred as autotoxins of several plant species. However, how phenolics affect soil microbial communities and their functional significances are poorly understood. Rhizosphere bacterial and fungal communities from cucumber ( Cucumis sativus L.) seedlings treated with p -coumaric acid, an autotoxin of cucumber, were analyzed by high-throughput sequencing of 16S rRNA gene and internal transcribed spacer amplicons. Then, feedback effects of the rhizosphere biota on cucumber seedlings were evaluated by inoculating non-sterilized and sterilized rhizosphere soils to sterilized background soils. p -Coumaric acid decreased the bacterial diversity of rhizosphere but increased fungal diversity and altered the compositions of both the bacterial and fungal communities. p -Coumaric acid increased the relative abundances of microbial taxa with phenol-degrading capability (such as Chaetomium , Humicola , and Mortierella spp.) and microbial taxa which contained plant pathogens (such as Fusarium spp.). However, p -coumaric acid inhibited the relative abundances of Lysobacter , Haliangium , and Gymnoascus spp., whose species can have pathogen-antagonistic and/or plant-growth-promoting effects. The positive effect of cucumber rhizosphere microbiota on cucumber seedling growth was reduced by p -coumaric acid. Overall, our results showed that, besides its direct phytotoxicity, p -coumaric acid can inhibit cucumber seedling growth through generating negative plant-soil microbial interactions.
ISSN:0178-2762
1432-0789
DOI:10.1007/s00374-018-1265-x