Abstract
The amphibian skin microbiome has been the focus of recent studies aiming to better understand the role of these microbial symbionts in host defense against disease. However, host-associated microbial communities are complex and dynamic, and changes in their composition and structure can influence their function. Understanding temporal variation of bacterial communities on amphibian skin is critical for establishing baselines from which to improve the development of mitigation techniques based on probiotic therapy and provides long-term host protection in a changing environment. Here, we investigated whether microbial communities on amphibian skin change over time at a single site. To examine this, we collected skin swabs from two pond-breeding species of treefrogs, Agalychnis callidryas and Dendropsophus ebraccatus, over 4 years at a single lowland tropical pond in Panamá. Relative abundance of operational taxonomic units (OTUs) based on 16S rRNA gene amplicon sequencing was used to determine bacterial community diversity on the skin of both treefrog species. We found significant variation in bacterial community structure across long and short-term time scales. Skin bacterial communities differed across years on both species and between seasons and sampling days only in D. ebraccatus. Importantly, bacterial community structures across days were as variable as year level comparisons. The differences in bacterial community were driven primarily by differences in relative abundance of key OTUs and explained by rainfall at the time of sampling. These findings suggest that skin-associated microbiomes are highly variable across time, and that for tropical lowland sites, rainfall is a good predictor of variability. However, more research is necessary to elucidate the significance of temporal variation in bacterial skin communities and their maintenance for amphibian conservation efforts.
Highlights
Host-associated microbial communities promote health and fitness for animal and plant hosts alike
Bacterial diversity and community structure varied at different time scales Bacterial community diversity on the skin of A. callidryas and D. ebraccatus varied through time at different scales
We found significant differences in operational taxonomic units (OTUs) richness (ANOVA, A. callidryas: X2 = 13.31; D. ebraccatus: X2 = 30.37, both df = 3, P < 0.01; Fig. 1A) and Faith’s phylogenetic diversity in both treefrog species across years (ANOVA, A. callidryas: X2 = 13.94; D. ebraccatus: X2 = 58.87, both df = 3, P < 0.01; Fig. S1A)
Summary
Host-associated microbial communities promote health and fitness for animal and plant hosts alike. A healthy microbiome is yet to be defined, assessing the stability of microbial communities, their impact on host fitness and their response to disturbances at different spatio-temporal scales have become fundamental issues in microbial ecology (Antwis et al, 2017). The environmental scales over which community change occurs still need to be determined (Shade et al, 2013). The latter represents one of the greatest challenges in the study of symbionts associated with free-living wildlife hosts. Depending on the host species and habitat type, survey efforts and physical monitoring may lack the temporal resolution to capture rapid community changes (Shade et al, 2013) and to disentangle the effect of environmental variables on the microbiome
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