Evidence for the plant recruitment of beneficial microbes to suppress soil-borne pathogens

An emerging experimental framework suggests that plants under biotic stress may actively seek help from soil microbes, but empirical evidence underlying such a 'cry for help' strategy is limited. We used integrated microbial community profiling, pathogen and plant transcriptive gene quantification and culture-based methods to systematically investigate a three-way interaction between the wheat plant, wheat-associated microbiomes and Fusarium pseudograminearum (Fp). A clear enrichment of a dominant bacterium, Stenotrophomonas rhizophila (SR80), was observed in both the rhizosphere and root endosphere of Fp-infected wheat. SR80 reached 3.7 x 10(7) cells g(-1) in the rhizosphere and accounted for up to 11.4% of the microbes in the root endosphere. Its abundance had a positive linear correlation with the pathogen load at base stems and expression of multiple defence genes in top leaves. Upon re-introduction in soils, SR80 enhanced plant growth, both the below-ground and above-ground, and induced strong disease resistance by boosting plant defence in the above-ground plant parts, but only when the pathogen was present. Together, the bacterium SR80 seems to have acted as an early warning system for plant defence. This work provides novel evidence for the potential protection of plants against pathogens by an enriched beneficial microbe via modulation of the plant immune system.

Automated summary

A new experimental framework suggests that plants under biotic stress can actively seek help from soil microbes to enhance their resistance to pathogens. By examining the interaction between wheat plants, wheat-associated microbiomes, and Fusarium pseudograminearum, researchers found that a specific bacterium, Stenotrophomonas rhizophila (SR80), enriched in infected wheat plants, acted as an early warning system for plant defense by modulating the plant immune system and increasing resistance to pathogens. The study provides novel evidence for potential protection of plants against pathogens through the enrichment of beneficial microbes.