Frontiers in Microbiology (Apr 2022)

Synchronous Seasonality in the Gut Microbiota of Wild Mouse Populations

  • Kirsty J. Marsh,
  • Kirsty J. Marsh,
  • Aura M. Raulo,
  • Marc Brouard,
  • Tanya Troitsky,
  • Holly M. English,
  • Holly M. English,
  • Bryony Allen,
  • Rohan Raval,
  • Saudamini Venkatesan,
  • Amy B. Pedersen,
  • Joanne P. Webster,
  • Sarah C. L. Knowles,
  • Sarah C. L. Knowles

DOI
https://doi.org/10.3389/fmicb.2022.809735
Journal volume & issue
Vol. 13

Abstract

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The gut microbiome performs many important functions in mammalian hosts, with community composition shaping its functional role. However, the factors that drive individual microbiota variation in wild animals and to what extent these are predictable or idiosyncratic across populations remains poorly understood. Here, we use a multi-population dataset from a common rodent species (the wood mouse, Apodemus sylvaticus), to test whether a consistent “core” gut microbiota is identifiable in this species, and to what extent the predictors of microbiota variation are consistent across populations. Between 2014 and 2018 we used capture-mark-recapture and 16S rRNA profiling to intensively monitor two wild wood mouse populations and their gut microbiota, as well as characterising the microbiota from a laboratory-housed colony of the same species. Although the microbiota was broadly similar at high taxonomic levels, the two wild populations did not share a single bacterial amplicon sequence variant (ASV), despite being only 50km apart. Meanwhile, the laboratory-housed colony shared many ASVs with one of the wild populations from which it is thought to have been founded decades ago. Despite not sharing any ASVs, the two wild populations shared a phylogenetically more similar microbiota than either did with the colony, and the factors predicting compositional variation in each wild population were remarkably similar. We identified a strong and consistent pattern of seasonal microbiota restructuring that occurred at both sites, in all years, and within individual mice. While the microbiota was highly individualised, some seasonal convergence occurred in late winter/early spring. These findings reveal highly repeatable seasonal gut microbiota dynamics in multiple populations of this species, despite different taxa being involved. This provides a platform for future work to understand the drivers and functional implications of such predictable seasonal microbiome restructuring, including whether it might provide the host with adaptive seasonal phenotypic plasticity.

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