Spatiotemporal variation in the fecal microbiota of mule deer is associated with proximate and future measures of host health

Abstract Background Mule deer rely on fat and protein stored prior to the winter season as an energy source during the winter months when other food sources are sparse. Since associated microorganisms (‘microbiota’) play a significant role in nutrient metabolism of their hosts, we predicted that var...

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Published inBMC veterinary research Vol. 17; no. 1; pp. 1 - 258
Main Authors Eddington, Hyrum S, Carroll, Courtney, Larsen, Randy T, McMillan, Brock R, Chaston, John M
Format Journal Article
LanguageEnglish
Published London BioMed Central Ltd 29.07.2021
BioMed Central
BMC
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Summary:Abstract Background Mule deer rely on fat and protein stored prior to the winter season as an energy source during the winter months when other food sources are sparse. Since associated microorganisms (‘microbiota’) play a significant role in nutrient metabolism of their hosts, we predicted that variation in the microbiota might be associated with nutrient storage and overwintering in mule deer populations. To test this hypothesis we performed a 16S rRNA marker gene survey of fecal samples from two deer populations in the western United States before and after onset of winter. Results PERMANOVA analysis revealed the deer microbiota varied interactively with geography and season. Further, using metadata collected at the time of sampling, we were able to identify different fecal bacterial taxa that could potentially act as bioindicators of mule deer health outcomes. First, we identified the abundance of Collinsella (family: Coriobacteriaceae ) reads as a possible predictor of poor overwintering outcomes for deer herds in multiple locations. Second, we showed that reads assigned to the Bacteroides and Mollicutes Order RF39 were both positively correlated with deer protein levels, leading to the idea that these sequences might be useful in predicting mule deer protein storage. Conclusions These analyses confirm that variation in the microbiota is associated with season-dependent health outcomes in mule deer, which may have useful implications for herd management strategies.
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ISSN:1746-6148
1746-6148
DOI:10.1186/s12917-021-02972-0