Phosphorus availability increases pathobiome abundance and invasion of rhizosphere microbial networks by Ralstonia.

Pengfa Li, Ming Liu, Guilong Li, Kai Liu, Tianshun Liu, Meng Wu, Muhammad Saleem, Zhongpei Li

Environmental microbiology 2021 Oct

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Soil disease-suppressiveness depends on complex interactions among pathogens, native microbiota, and physicochemical properties, while these interactions remain understudied. Comparing field and microcosm experiments, we investigated the significance of these interactions in disease emergence or suppression using structural equation modelling (SEM) and receiver operating characteristic curve (ROC) analyses. We observed significant differences in the relative abundance of pathogenic and beneficial microbes, alpha and beta diversity indices between disease-conducive and -suppressive rhizosphere soils. The pathogenic (Ralstonia) and beneficial (Bacillus) taxa dominated disease-conducive and -suppressive rhizosphere soils, respectively. Moreover, the co-occurrences of Ralstonia with native microorganisms were positive and negative in the disease-conducive and -suppressive soils, respectively. These results suggest the supportive (Rudaea) and suppressive (Enterobacter, Bacillus) role of indigenous microbes in the invasion of soil and plant systems by Ralstonia. The SEM and ROC analysis predicted that Ralstonia invaded rhizospheric microbial networks and caused peanut wilt under high than low soil phosphorus conditions. Our results suggest the importance of soil phosphorus availability in altering the microbial interactions, thus leading to soil invasion by Ralstonia. Thus, we conclude by saying that feeding soil with high amounts of available phosphorus could deplete plant-beneficial microbes and increase the pathobiome abundance that may compromise plant health. © 2021 Society for Applied Microbiology and John Wiley & Sons Ltd.

Citation

Pengfa Li, Ming Liu, Guilong Li, Kai Liu, Tianshun Liu, Meng Wu, Muhammad Saleem, Zhongpei Li. Phosphorus availability increases pathobiome abundance and invasion of rhizosphere microbial networks by Ralstonia. Environmental microbiology. 2021 Oct;23(10):5992-6003