Recent declines in bumble bee populations are of great concern, and have prompted critical evaluations of the role of pathogen introductions and host resistance in bee health. One factor that may influence host resilience when facing infection is the gut microbiota. Previous experiments with , a European bumble bee, showed that the gut microbiota can protect against, a widespread trypanosomatid parasite of bumble bees. However, the particular characteristics of the microbiome responsible for this protective effect have thus far eluded identification. Using wild and commercially-sourced , an important North American pollinator, we conducted cross-wise microbiota transplants to naïve hosts of both backgrounds, and challenged them with As with , we find that microbiota-dependent protection against operates in Lower infection loads were experimentally associated with high microbiome diversity, large gut bacterial populations, and the presence of , Firm-5, and in the gut community. These results indicate that even subtle differences between gut community structures can have a significant impact on the microbiome's ability to defend against parasite infections. Many wild bumble bee populations are under threat by human activity, including through introductions of pathogens via commercially-raised bees. Recently, it was found that the bumble bee gut microbiota can help defend against a common parasite, , but the particular factors contributing to this protection are unknown. Using both wild and commercially-raised bees, we conduct microbiota transplants to show that microbiome diversity, total gut bacterial load, and the presence of certain core members of the microbiota may all impact bee susceptibility to infection. Bee origin (genetic background) was also a factor. Finally, by examining this phenomenon in a previously uninvestigated bee species, our study demonstrates that microbiome-mediated resistance to is conserved across multiple bumble bee species. These findings highlight how intricate interactions between hosts, microbiomes, and parasites can have wide-ranging consequences for the health of ecologically important species.
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