The resilience of the oral microbiome and lability of the hair microbiome across host environments in wild and captive lemurs

Microbiome diversity and composition in mammals is affected by the host’s environment and has been linked to important immune and physiological host functions, yet most of these data come from the gut microbiome. Research on the oral and hair microbiome in nonhuman primates has been far less common, and information from wild primates is even rarer. These overlooked patterns of environmental effects on microbial communities across the body may have important implications for a range of host functions. Therefore, in this study we characterized the gut, oral, and hair microbiomes across nine different captive and wild lemur species: Eulemur collaris, Eulemur coronatus, Eulemur mongoz, Lemur catta, Microcebus griseorufus, Microcebus murinus, Propithecus coquereli, and Varecia rubra. We explored how host environment affects the microbiome diversity of these three body regions using 16S rRNA sequencing and found significant differences in microbiome composition, diversity, and environmental influence across body regions. The oral microbiome was least diverse and most resilient to different environmental effects; conversely, the hair microbiome was both most diverse and most labile. Differentially abundant bacterial taxa across oral, gut, and hair microbiota may also reflect selective regimes unique to each body region. These results emphasize the importance of accounting for body region when conducting microbiome studies.