The Skin Microbiota of Eleutherodactylus Frogs: Effects of Host Ecology, Phylogeny, and Local Environment

Amphibian skin microbiota has a potential protective role against diseases. However, the effects of environmental and host factors on symbiotic bacterial communities are not well understood. Caribbean frogs in the genus represent a case of congeneric species that differ in ecological specialization...

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Bibliographic Details
Published in:Frontiers in microbiology 2019-11, Vol.10, p.2571-2571
Main Authors: Garcia-Recinos, Liza, Burrowes, Patricia A, Dominguez-Bello, Maria
Format: Article
Language:English
Subjects:
16S rRNA gene
amphibian
ecology
Microbiology
phylogeny
Puerto Rico
skin microbiota
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Summary:Amphibian skin microbiota has a potential protective role against diseases. However, the effects of environmental and host factors on symbiotic bacterial communities are not well understood. Caribbean frogs in the genus represent a case of congeneric species that differ in ecological specialization by the process of adaptive radiation. For a small clade of from Puerto Rico, we investigated the role of local environments, host species, and microhabitat in the composition of their skin microbiome. The potential congruence between microbial communities in hosts that are most closely related phylogenetically was also addressed. We hypothesized that the skin microbiota of frogs would be mostly associated to microhabitat use, but also differ according to locality, and to a lesser extent to host species. To test this hypothesis, we swabbed the skin of a total of 98 adult individuals of seven species distributed in two nearby localities in Puerto Rico, and sequenced the V4 region of the 16S rRNA gene. Results showed that locality had the greatest effect on determining skin bacterial communities of amphibian hosts, but this effect was stronger on the composition (based on presence/absence) than on its structure (based on sequence abundance). The most ecologically distinct host, , and the generalist presented, respectively, the most dissimilar and similar microbiota compared to other hosts. Host phylogeny showed a weak influence on skin microbiota. Results suggest that both local environment and ecological specialization are structuring the skin bacterial community in these species, but that characteristics intrinsic to species may also render unique hosts the ability to maintain distinct microbiotas.
ISSN:1664-302X
1664-302X
DOI:10.3389/fmicb.2019.02571