Litcius/Paper detail

High abundance of Ralstonia solanacearum changed tomato rhizosphere microbiome and metabolome

Tao Wen, Mengli Zhao, Ting Liu, Qiwei Huang, Jun Yuan, Qirong Shen

2020BMC Plant Biology78 citationsDOIOpen Access PDF

Abstract

BACKGROUND: Rhizosphere microbiome is dynamic and influenced by environment factors surrounded including pathogen invasion. We studied the effects of Ralstonia solanacearum pathogen abundance on rhizosphere microbiome and metabolome by using high throughput sequencing and GC-MS technology. RESULTS: There is significant difference between two rhizosphere bacterial communities of higher or lower pathogen abundance, and this difference of microbiomes was significant even ignoring the existence of pathogen. Higher pathogen abundance decreased the alpha diversity of rhizosphere bacterial community as well as connections in co-occurrence networks. Several bacterial groups such as Bacillus and Chitinophaga were negatively related to the pathogen abundance. The GC-MS analysis revealed significantly different metabolomes in two groups of rhizosphere soils, i.e., the rhizosphere soil of lower harbored more sugars such as fructose, sucrose and melibiose than that in high pathogen abundance. CONCLUSIONS: The dissimilar metabolomes in two rhizosphere soils likely explained the difference of bacterial communities with Mantel test. Bacillus and Chitinophaga as well as sugar compounds negatively correlated with high abundance of pathogen indicated their potential biocontrol ability.

Topics & Concepts

RhizosphereBiologyRalstonia solanacearumMicrobiomeAbundance (ecology)MetabolomePathogenRelative species abundanceBotanyRalstoniaEcologyMicrobiologyBacteriaMetabolomicsGeneticsBioinformaticsPlant-Microbe Interactions and ImmunityPlant Pathogenic Bacteria StudiesLegume Nitrogen Fixing Symbiosis