Plants rely on root-associated microbiota for growth and pathogen protection, yet the community properties underlying stable beneficial functions remain unclear. Here, we show that low intra-microbiota antagonism is associated with stability and pathogen protection in the barley root microbiota. Using a comprehensive culture collection of barley root endophytes, we reconstructed bacterial synthetic communities (SynComs) and compared a core SynCom resembling the natural microbiota with a trait-prioritized SynCom assembled from strains selected for predicted host benefits. Although strains from both communities exhibited broad pathogen-inhibitory potential, the communities behaved differently in planta. The core SynCom showed low internal antagonism, remained stable, and protected barley roots against fungal pathogens without impairing growth. In contrast, the trait-prioritized SynCom exhibited strong internal antagonism, unstable assembly, loss of protection, and reduced root growth. Together, our findings indicate that microbiota function cannot be predicted from individual strain traits alone. Rather, low intra-microbiota antagonism promotes community stability and enables protective functions to emerge in barley roots.
Mahdi, L. K., Peltz, N., Anderssen, S., Kopriva, S. P., Alskief, G., Langen, G., Zuccaro, A.
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