Cutaneous Microbiota and Skin Secretions on Proceratophrys boiei (Amphibia, Anura) in Atlantic Forest Fragments

The skin of amphibians acts as first barrier of protection against invading microorganisms. Besides the mechanical components, this protection probably include biochemical and biological mechanisms derived from both the resident microbial community and the secretion of bioactive molecules from dermal glands. The aims of this study were to characterize the microbial community hosted by Proceratophrys boiei and analyse its relationship with environmental microbial communities; evaluate whether microbiota and skin secretion of this species can be understood as a protection component; evaluate the stability of these components through different populations in forest fragments. Specifically, the following hypotheses have guided this research: 1. The composition of environmental microbiota varies among microhabitats and fragments of Atlantic Forest and relates to some environmental parameters; 2. The diversity of skin microbiota of P. boiei relates to the diversity of microbes in the environment it occupies. Furthermore, in terms of composition, the skin microbiota is a subset of environmental microbes that occurs in its microhabitat; 3. The richness and abundance of bacteria from the skin microbiota of P. boiei varies between different remnants of Atlantic Forest; 4. The richness and abundance of bacteria present on the skin P. boiei with antimicrobial activity varies between populations or sampling sites; 5. There is antimicrobial activity of the skin secretions against some pathogens and its profiles differ between populations of P. boiei. The results showed variations on the microbial skin of P. boiei between individuals and populations and the quality of habitats could be important for the composition of hosted community. There is a sharing of bacteria between the skin microbiota of P. boiei and the microbial communities of microhabitats soil and water. However, mainly bacteria not detected in environmental samples composes the dermal communities. We observed some stability in the structure of the skin microbiota when analysed different populations, but variations in the distribution of bacterial morphotypes occurs in all sites. Skin microbiota and dermal secretions of P. boiei can prevent infection through the skin, according to the antimicrobial activity demonstrated in this study. There were variations in the action spectrum for both components, but population differences were mainly in abundance and percentage of bacteria producing antibiotics. This research showed the importance of the microbiota and skin secretion of P. boiei as components of protection and the importance of the environment for the composition of these associated communities. At the same time, we have shown that certain characteristics are independent of the environmental context occupied by the population, evidence that the microenvironment of the skin provides a certain stability for the colonization of specific bacterial communities. The sustainability of populations of this species may relates to interactions between host organisms and the environment. (AU)