Abstract
Variation in the microbiome among individual organisms may play a critical role in the relative susceptibility of those organisms to infection, disease, and death. However, predicting microbiome function is difficult because of spatial and temporal variation in microbial diversity, and taxonomic diversity is not predictive of microbiome functional diversity. Addressing this issue may be particularly important when addressing pandemic diseases, such as the global amphibian die-off associated with Bd. Some of the most important factors in probiotic development for disease treatment are whether bacteria with desired function can be found on native amphibians in the local environment. To address this issue, we isolated, sequenced, and assayed the cutaneous bacterial communities of Plethodon cinereus along a gradient of land use change. Our results suggest that cutaneous community composition, but not overall diversity, change with changes in land use, but this does not correspond to significant change in Bd-inhibitory function. We found that Bd-inhibition is a functionally redundant trait, but that level of inhibition varies over phylogenetic, spatial, and temporal scales. This research provides further evidence for the importance of continued examination of amphibian microbial communities across environmental gradients, including biotic and abiotic interactions, when considering disease dynamics.
Highlights
The diversity of microbes on an individual has been implicated in the health and resilience of organisms in many taxa, from plants (Mendes et al, 2013) to animals (Yildirim et al, 2010; Sanchez et al, 2012; Bahrndorff et al, 2016), including humans (Cho and Blaser, 2012; The Human Microbiome Project Consortium et al, 2012b)
While no one bacterial OTU was found at all nine sites, Stenotrophomonas rhizophila was found across all three levels of urbanization and at seven out of nine sites
Studies on the distribution of bacteria and the variability of their function are limited (Kueneman et al, 2014; Becker et al, 2015; Bletz et al, 2017; Jiménez and Sommer, 2017; Kruger, 2019) but are increasingly relevant to the amphibian microbiome as changes in microbial community structure have been hypothesized to result in changes in anti-fungal function
Summary
The diversity of microbes on an individual has been implicated in the health and resilience of organisms in many taxa, from plants (Mendes et al, 2013) to animals (Yildirim et al, 2010; Sanchez et al, 2012; Bahrndorff et al, 2016), including humans (Cho and Blaser, 2012; The Human Microbiome Project Consortium et al, 2012b). Predicting community function is Spatial Variation in Microbiome Function further confounded because microbiomes vary extensively over space and time. Predicting the role of microbiota in regulating infection and disease requires a better understanding of spatial and temporal variation in both taxonomic and functional diversity (The Human Microbiome Project Consortium et al, 2012a; Lloyd-Price et al, 2017; Kolde et al, 2018). While some genera may appear to be cosmopolitan (Fenchel et al, 1997), morphological and functional differences can arise from geographic divergence, creating distinct ecotypes or strains (Cohan, 2002; Bissett et al, 2010; Booth et al, 2016)
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