Age-related changes in the gut microbiota of a long-lived seabird suggest divergence from mammalian models

Gut microbiota plays key roles in shaping host development, immunity, and physiology. The assembly of vertebrate gut microbiota during early life follows relatively predictable trajectories across several mammalian species, largely driven by maternal transmission routes. However, birds lack these transmission mechanisms due to their oviparity, potentially leading to different age-related microbiota patterns. Here, we investigate gut microbiota variation in Atlantic puffin ( Fratercula arctica ) chicks and adults across six British populations using 16S rRNA amplicon sequencing. We find that chick microbiotas show strong population-level structuring that disappears in adults, with spatial patterns particularly pronounced in anaerobic bacteria. Puffin microbiotas become increasingly individualised and aerotolerant with age, while taxonomic richness remains stable – patterns that contrast with the convergent, richness-increasing trajectories observed in several mammalian species. Our results suggest that environmental exposure drives early-life microbiota assembly in birds, highlighting the value of avian systems for understanding vertebrate microbiota development beyond mammals.