Environmental DNA and metabarcoding for the study of amphibians and reptiles: species distribution, the microbiome, and much more
Articolo
Data di Pubblicazione:
2019
Citazione:
Environmental DNA and metabarcoding for the study of amphibians and reptiles: species distribution, the microbiome, and much more / G.F. Ficetola, R. Manenti, P. Taberlet. - In: AMPHIBIA-REPTILIA. - ISSN 0173-5373. - 40:2(2019), pp. 129-148.
Abstract:
In the last decade, eDNA and metabarcoding have opened new avenues to biodiversity studies; amphibians and reptiles are animals for which these new approaches have allowed great leaps forward. Here we review different approaches through which eDNA can be used to study amphibians, reptiles and many more organisms. eDNA is often used to evaluate the presence of target species in freshwaters; it has been particularly useful to detect invasive alien amphibians and secretive or rare species, but the metabarcoding approach is increasingly used as a cost-effective approach to assess entire communities. There is growing evidence that eDNA can be also useful to study terrestrial organisms, to evaluate the relative abundance of species, and to detect reptiles. Metabarcoding has also revolutionized studies on the microbiome associated to skin and gut, clarifying the complex relationships between pathogens, microbial diversity and environmental variation. We also identify additional aspects that have received limited attention so far, but can greatly benefit from innovative applications of eDNA, such as the study of past biodiversity, diet analysis and the reconstruction of trophic interactions. Despite impressive potential, eDNA and metabarcoding also bear substantial technical and analytical complexity; we identify laboratory and analytical strategies that can improve the robustness of results. Collaboration among field biologists, ecologist, molecular biologists, and bioinformaticians is allowing fast technical and conceptual advances; multidisciplinary studies involving eDNA analyses will greatly improve our understanding of the complex relationships between organisms, and our effectiveness in assessing and preventing the impact of human activities.
Tipologia IRIS:
01 - Articolo su periodico
Keywords:
cost effectiveness; detection probability; diet; DNA metabarcoding; High-throughput sequencing Microbiome; pathogens; QPCR;
Elenco autori:
G.F. Ficetola, R. Manenti, P. Taberlet
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