Authors
Alice Valentini, Pierre Taberlet, Claude Miaud, Raphaël Civade, Jelger Herder, Philip Francis Thomsen, Eva Bellemain, Aurélien Besnard, Eric Coissac, Frédéric Boyer, Coline Gaboriaud, Pauline Jean, Nicolas Poulet, Nicolas Roset, Gordon H Copp, Philippe Geniez, Didier Pont, Christine Argillier, Jean‐Marc Baudoin, Tiphaine Peroux, Alain J Crivelli, Anthony Olivier, Manon Acqueberge, Matthieu Le Brun, Peter R Møller, Eske Willerslev, Tony Dejean
Publication date
2016/2
Journal
Molecular ecology
Volume
25
Issue
4
Pages
929-942
Description
Global biodiversity in freshwater and the oceans is declining at high rates. Reliable tools for assessing and monitoring aquatic biodiversity, especially for rare and secretive species, are important for efficient and timely management. Recent advances in DNA sequencing have provided a new tool for species detection from DNA present in the environment. In this study, we tested whether an environmental DNA (eDNA) metabarcoding approach, using water samples, can be used for addressing significant questions in ecology and conservation. Two key aquatic vertebrate groups were targeted: amphibians and bony fish. The reliability of this method was cautiously validated in silico, in vitro and in situ. When compared with traditional surveys or historical data, eDNA metabarcoding showed a much better detection probability overall. For amphibians, the detection probability with eDNA metabarcoding was 0.97 (CI = 0 …
Scholar articles
A Valentini, P Taberlet, C Miaud, R Civade, J Herder… - Molecular ecology, 2016