Microbial communities of wild-captured Kemp’s ridley (Lepidochelys kempii) and green sea turtles (Chelonia mydas)

Kl Mcnally,Jl Bowen,Jr Guertin,Cr Mott

doi:10.3354/esr01116

Kl Mcnally, Jl Bowen + Show 2 more

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https://doi.org/10.3354/esr01116

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Abstract

Conservation efforts for endangered sea turtle species, such as Kemp’s ridley turtles Lepidochelys kempii and green turtles Chelonia mydas, may benefit from information on the microbial communities that contribute to host health. Previous studies examining host-associated microbiomes of these species have been limited in geographic region, life stage, and/or health. Here, we characterized the microbiome of the oral cavity and cloaca from wild-captured Kemp’s ridley and green turtles off the west coast of Florida, USA, by using Illumina sequencing to analyze the 16S rRNA gene. Microbial communities were distinct between body sites as well as between turtle species, suggesting that the turtle species is more important than the local environment in determining the microbiome of sea turtles. We identified the core microbiome for each species at each body site and determined that there were very few bacteria shared among the oral samples of both species, and no taxa co-occurred in the cloaca samples among both species. The core microbiome of the green turtle cloaca was primarily from the order Clostridiales, which plays an important role in digestion for other herbivorous species. Due to high prevalence of fibropapillomatosis in the green turtles (90%), we also investigated the correlation between the microbiome and the severity of fibropapillomatosis, and we identified changes in beta diversity associated with the total number of tumors. This study provides the first glimpse of the microbiome in 2 sympatric species of sea turtle and sheds an important species-specific light on the microbiome of these endangered species.

Highlights

Microbes are considered a fundamental part of the life history of animals (McFall-Ngai et al 2013, Colston & Jackson 2016), including sea turtles
Variations in the cloacal microbiome of green turtles were evident between different habitats, which suggests that environmental and dietary factors contribute to microbial community composition in that turtle species (Price et al 2017, Campos et al 2018)
We found only 4 amplicon sequence variant (ASV) shared in 90% of oral samples across both turtle species and no ASVs shared across both species in the cloaca samples (Fig. 5)

Summary

Introduction

Microbes are considered a fundamental part of the life history of animals (McFall-Ngai et al 2013, Colston & Jackson 2016), including sea turtles. The fecal microbiota of loggerhead turtles studied during rehabilitation highlighted turtle resilience to a captive environment and showed distinct differences compared to the green turtle (Biagi et al 2019). Additional studies on wild turtles and on a variety of turtle species, including the critically endangered Kemp’s ridley turtle, are needed to assess whether turtles have a core microbial community of taxa that are found in the majority of individuals, or whether the microbiome varies at different life stages, habitats, or in different environments

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