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Stopover habitat selection drives variation in the gut microbiome composition and pathogen acquisition by migrating shorebirds.

Radosław WłodarczykJoanna Drzewińska-ChańkoMaciej KamińskiWłodzimierz MeissnerJan RapczyńskiKatarzyna Janik-SupersonDawid KrawczykDominik StrapagielAgnieszka OżarowskaKatarzyna StępniewskaPiotr Minias
Published in: FEMS microbiology ecology (2024)
Long-distance host movements play a major regulatory role in shaping microbial communities of their digestive tract. Here, we studied gut microbiota composition during seasonal migration in five shorebird species (Charadrii) that use different migratory (stopover) habitats. Our analyses revealed significant interspecific variation in both composition and diversity of gut microbiome, but the effect of host identity was weak. A strong variation in gut microbiota was observed between coastal and inland (dam reservoir and river valley) stopover habitats within species. Comparisons between host age classes provided support for an increasing alpha diversity of gut microbiota during ontogeny and an age-related remodeling of microbiome composition. There was, however, no correlation between microbiome and diet composition across study species. Finally, we detected high prevalence of avian pathogens, which may cause zoonotic diseases in humans (e.g. Vibrio cholerae) and we identified stopover habitat as one of the major axes of variation in the bacterial pathogen exposure risk in shorebirds. Our study not only sheds new light on ecological processes that shape avian gut microbiota, but also has implications for our better understanding of host-pathogen interface and the role of birds in long-distance transmission of pathogens.
Keyphrases
  • climate change
  • physical activity
  • transcription factor
  • human health
  • risk assessment
  • water quality
  • weight loss
  • heavy metals