Abstract
The role of the gut microbiome is increasingly being recognized by health scientists and veterinarians, yet its role in wild animals remains understudied. Variations in the gut microbiome could be the result of differential diets among individuals, such as variation between sexes, across seasons, or across reproductive stages. We evaluated the hypothesis that diet alters the avian gut microbiome using stable isotope analysis (SIA) and 16S rRNA gene sequencing. We present the first description of the thick-billed murre (Uria lomvia) fecal microbiome. The murre microbiome was dominated by bacteria from the genus Catellicoccus, ubiquitous in the guts of many seabirds. Microbiome variation was explained by murre diet in terms of proportion of littoral carbon, trophic position, and sulfur isotopes, especially for the classes Actinobacteria, Bacilli, Bacteroidia, Clostridia, Alphaproteobacteria, and Gammaproteobacteria. We also observed differences in the abundance of bacterial genera such as Catellicoccus and Cetobacterium between sexes and reproductive stages. These results are in accordance with behavioural observations of changes in diet between sexes and across the reproductive season. We concluded that the observed variation in the gut microbiome may be caused by individual prey specialization and may also be reinforced by sexual and reproductive stage differences in diet.
Highlights
The role of the gut microbiome is increasingly being recognized by health scientists and veterinarians, yet its role in wild animals remains understudied
There is a strong influence of some amplicon sequence variants (ASVs) on the composition of the murre gut microbiome (Fig. 2)
The most important features determining the weighted and unweighted UniFrac distance matrix showed the influence of ASVs from the genera Catellicoccus, Breznakia, Cetobacterium, Escherichia/Shigella, and Campylobacter on the overall community composition of the murre fecal microbiome (Fig. 2 and Supplementary Fig. 3)
Summary
The role of the gut microbiome is increasingly being recognized by health scientists and veterinarians, yet its role in wild animals remains understudied. We observed differences in the abundance of bacterial genera such as Catellicoccus and Cetobacterium between sexes and reproductive stages These results are in accordance with behavioural observations of changes in diet between sexes and across the reproductive season. Variation in diet composition was linked to changes in the gut microbiome in wild sticklebacks and perches, two fish species with individual prey specialization (IPS)[7,8]. Individuality in prey selection is not explained by obvious differences, such as by sex or a ge[9,10] These studies show that other inter-individual variables can change the feeding behaviour (e.g. differential diets between sexes) leading to variation in the microbiome[6,8]. Females feed at a higher trophic level when rearing chicks compared to when they are incubating their egg, but males do not[29]
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