Background: The vertebrate gut microbiome (GM) can vary substantially across individuals within the same natural population. Although there is evidence linking the GM to health in captive animals, very little is known about the consequences of GM variation for host fitness in the wild. Here, we explore the relationship between faecal microbiome diversity, body condition and survival using data from the long-term study of a discrete natural population of the Seychelles warbler ( Acrocephalus sechellensis ) on Cousin Island. To our knowledge, this is the first time that GM differences associated with survival have been fully characterised for a natural vertebrate species, across multiple age groups and breeding seasons.
Results: We identified substantial variation in GM community structure among sampled individuals, which was partially explained by breeding season (7% of the variance), and host age class (up to 1% of the variance). We also identified significant differences in GM community membership between individuals that survived, versus those that had died by the following breeding season. Individuals that died carried reduced abundances of beneficial taxa in the bacterial order Clostridiales , but increased abundances of taxa that are known to be opportunistic pathogens (e.g. members of the Chloroflexi and Propionibacteriales ). However, there was no association between GM alpha diversity (the diversity of bacterial taxa within a sample) and survival to the next breeding season, or with individual body condition. Additionally, we found no association between GM community membership and individual body condition.
Conclusions: These results demonstrate that components of the vertebrate GM can be associated with host fitness in the wild, although whether changes in bacterial abundance contribute to, or are only correlated with, the differential survival observed remains unclear. Importantly, it suggests that components of the GM may be under selection, and, thus, could have the potential to influence the evolution of host species living in natural populations.