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Small to modest impact of social group on the gut microbiome of wild Costa Rican capuchins in a seasonal forest
Author(s) -
Orkin Joseph Daniel,
Webb Shasta Ellen,
Melin Amanda Dawn
Publication year - 2019
Publication title -
american journal of primatology
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 0.988
H-Index - 81
eISSN - 1098-2345
pISSN - 0275-2565
DOI - 10.1002/ajp.22985
Subject(s) - biology , microbiome , ecology , zoology , feces , taxon , dry season , beta diversity , biodiversity , bioinformatics
Abstract The horizontal transmission of pathogenic and beneficial microbes has implications for health and development of socially living animals. Social group is repeatedly implicated as an important predictor of gut microbiome structure among primates, with individuals in neighboring social groups exhibiting distinct microbiomes. Here we examine whether group membership is a predictor of gut microbiome structure and diversity across three groups of white‐faced capuchins ( Cebus capucinus imitator ) inhabiting a seasonal Costa Rican forest. We collected 62 fecal samples from 18 adult females during four sampling bouts. Sampling bouts spanned the dry‐to‐wet‐to‐dry seasonal transitions. To investigate gut microbial composition, we sequenced the V4 region of the 16S rRNA gene. We used the DADA2 pipeline to assign amplicon sequence variants and the RDP database to classify taxa. Our findings are: 1) gut microbiomes of capuchins clustered by social group in the late dry season, but this pattern was less evident in other sampling bouts; 2) social group was a significant variable in a PERMANOVA test of beta diversity, but it accounted for less variation than season; 3) social group was not an important predictor of abundance for the ten most abundant microbial taxa in capuchins; 4) when examining log2‐fold abundances of microbes between social groups, there were significant differences in some pairwise comparisons. While this is suggestive of group‐wide differences, individual variation may have a strong impact and should be assessed in future studies. Overall, we found a minor impact of social group membership on the gut microbiota of wild white‐faced capuchins. Future research including home range overlap and resource use, as well as fine‐scale investigation of individual variation, will further elucidate patterns of socially structured microbes.