The invasive red-eared slider turtle is more successful than the native Chinese three-keeled pond turtle: evidence from the gut microbiota

The invasive red-eared slider turtle is more successful than the native Chinese three-keeled pond turtle: evidence from the gut microbiota

The mutualistic symbiosis between the gut microbial communities (microbiota) and their host animals has attracted much attention. Many factors potentially affect the gut microbiota, which also varies among host animals. The native Chinese three-keeled pond turtle ( ) and the invasive red-eared slide...

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Bibliographic Details
Published in:PeerJ (San Francisco, CA) Vol. 8; p. e10271
Main Authors: Qu, Yan-Fu, Wu, Yan-Qing, Zhao, Yu-Tian, Lin, Long-Hui, Du, Yu, Li, Peng, Li, Hong, Ji, Xiang
Format: Journal Article
Language:English
Published: United States PeerJ. Ltd 29-10-2020
PeerJ, Inc
PeerJ Inc
Subjects:
Abundance
Analysis
Bacteroidaceae
Bacteroidetes
Biodiversity
Caretta caretta
Chelonia mydas
Chinemys reevesii
Deoxyribonucleic acid
DNA
Ecology
EDTA
Firmicutes
Food
Genomes
Genomics
Gut microbial diversity
Gut microbiota
Information processing
Intestinal microflora
Invasive species
Lachnospiraceae
Microbiology
Microbiota
Microbiota (Symbiotic organisms)
Molecular Biology
Native species
Nonnative species
Pelodiscus sinensis
Physiological aspects
Ponds
Porphyromonadaceae
Reptiles & amphibians
RNA
rRNA 16S
Species
Symbiosis
Taxonomy
Trachemys scripta elegans
Turtles
Zoology
China
Gut microbiota
Turtle
Invasive species
Trachemys scripta elegans
Chinemys reevesii
Gut microbial diversity
Native species
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Summary:The mutualistic symbiosis between the gut microbial communities (microbiota) and their host animals has attracted much attention. Many factors potentially affect the gut microbiota, which also varies among host animals. The native Chinese three-keeled pond turtle ( ) and the invasive red-eared slider turtle ( ) are two common farm-raised species in China, with the latter generally considered a more successful species. However, supporting evidence from the gut microbiota has yet to be collected. We collected feces samples from these two turtle species raised in a farm under identical conditions, and analyzed the composition and relative abundance of the gut microbes using bacterial 16S rRNA sequencing on the Roach/454 platform. The gut microbiota was mainly composed of Bacteroidetes and Firmicutes at the phylum level, and Porphyromonadaceae, Bacteroidaceae and Lachnospiraceae at the family level in both species. The relative abundance of the microbes and gene functions in the gut microbiota differed between the two species, whereas alpha or beta diversity did not. Microbes of the families Bacteroidaceae, Clostridiaceae and Lachnospiraceae were comparatively more abundant in , whereas those of the families Porphyromonadaceae and Fusobacteriaceae were comparatively more abundant in . In both species the gut microbiota had functional roles in enhancing metabolism, genetic information processing and environmental information processing according to the Kyoto Encyclopedia of Genes and Genomes database. The potential to gain mass is greater in than in , as revealed by the fact that the Firmicutes/Bacteroidetes ratio was lower in the former species. The percentage of human disease-related functional genes was lower in than in , presumably suggesting an enhanced potential to colonize new habitats in the former species.
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ISSN:2167-8359
2167-8359
DOI:10.7717/peerj.10271