Oral Microbiome Metabarcoding in Two Invasive Small Mammals from New Zealand

Oral Microbiome Metabarcoding in Two Invasive Small Mammals from New Zealand

All multicellular organisms host a wide diversity of microorganisms in and on their bodies, which are collectively known as their microbiome. Characterising microbial communities that inhabit different body niches in wild animals is critical to better understand the dynamics of microbiome diversitya...

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Bibliographic Details
Published in:Diversity (Basel) Vol. 12; no. 7; p. 278
Main Authors: Emami-Khoyi, Arsalan, Benmazouz, Isma, Paterson, Adrian M., Ross, James G., Murphy, Elaine C., Bothwell, Jennifer, Alizadeh, Hossein, van Vuuren, Bettine Jansen, Teske, Peter R.
Format: Journal Article
Language:English
Published: Basel MDPI AG 01-07-2020
Subjects:
Animals
Biodiversity
common brushtail possum
Deoxyribonucleic acid
DNA
Environmental factors
Evolution
Genetic aspects
Genetic diversity
Genomes
Introduced animals
invasive species
Mammals
Microbial activity
microbiome
Microbiomes
Microbiota
Microbiota (Symbiotic organisms)
Microorganisms
Mouth
Niches
Nonnative species
oral cavity
Physiological aspects
Physiological effects
Physiology
Population genetics
rRNA 16S
Species
Species diversity
stoat
Strains (organisms)
Taxa
Wild animals
New Zealand
United States > US
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Summary:All multicellular organisms host a wide diversity of microorganisms in and on their bodies, which are collectively known as their microbiome. Characterising microbial communities that inhabit different body niches in wild animals is critical to better understand the dynamics of microbiome diversityand its functional significance. The current study is the first to apply massively parallel sequencing of 16S rRNA to characterise the microbial diversity and functional content of oral microbiota in two of New Zealand’s most important invasive mammals, the omnivorous common brushtail possum (Trichosurus vulpecula) and the carnivorous stoat (Mustela erminea). In total, strains of bacteria belonging to 19 different phyla, 27 classes, 52 orders, 103 families, 163 genera and 51 known species were identified from the oral cavities of the study species. Strains of the phyla Proteobacteria, Firmicutes, Bacteroidetes, Fusobacteria, and Actinobacteria dominated the core oral microbial diversity in both species, while other taxa were comparatively less abundant. Despite invasive populations typically demonstrating limited genetic variation, intraspecific variation of the core bacterial taxa in the oral microbiota was considerable. This suggests that a complex interaction between genetic, physiological, and environmental factors determines the diversity of the study species’oral microbiome.
ISSN:1424-2818
1424-2818
DOI:10.3390/d12070278