On the evolutionary origins of host-microbe associations

Many microorganisms with high prevalence in host populations are beneficial to the host and maintained by specialized transmission mechanisms. Although microbial promotion of host fitness and specificity of the associations undoubtedly enhance microbial prevalence, it is an open question whether these symbiotic traits are also a prerequisite for the evolutionary origin of prevalent microbial taxa. To address this issue, we investigate how processes without positive microbial effects on host fitness or host choice can influence the prevalence of certain microbes in a host population. Specifically, we develop a theoretical model to assess the conditions under which particular microbes can become enriched in animal hosts even when they are not providing a specific benefit to a particular host. We find increased prevalence of specific microbes in a host when both show some overlap in their lifecycles, and especially when both share dispersal routes across a patchy habitat distribution. Our results emphasize that host enrichment per se is not a reliable indicator of beneficial host-microbe interactions. The resulting increase in time spent associated with a host may nevertheless give rise to new selection conditions, which can favor microbial adaptations toward a host-associated lifestyle, and, thus, it could be the foundation for subsequent evolution of mutually beneficial coevolved symbioses.

Automated summary

The prevalence of specific microbes in a host population can increase even when they do not provide specific benefits to the host, especially when there is overlap in their lifecycles and they share dispersal routes. This suggests that host enrichment alone is not a reliable indicator of beneficial host-microbe interactions, but increased time spent associated with a host can lead to new selection conditions, potentially favoring microbial adaptations towards a host-associated lifestyle and laying the foundation for the evolution of mutually beneficial coevolved symbioses.