Authors
Lucie Zinger, Aurélie Bonin, Inger G Alsos, Miklós Bálint, Holly Bik, Frédéric Boyer, Anthony A Chariton, Simon Creer, Eric Coissac, Bruce E Deagle, Marta De Barba, Ian A Dickie, Alex J Dumbrell, Gentile Francesco Ficetola, Noah Fierer, Luca Fumagalli, M Thomas P Gilbert, Simon Jarman, Ari Jumpponen, Håvard Kauserud, Ludovic Orlando, Johan Pansu, Jan Pawlowski, Leho Tedersoo, Philip Francis Thomsen, Eske Willerslev, Pierre Taberlet
Publication date
2019/4
Source
Molecular ecology
Volume
28
Issue
8
Pages
1857-1862
Description
DNA metabarcoding, especially when coupled with high‐through‐put DNA sequencing, is currently revolutionizing our capacity to assess biodiversity across a full range of taxa and habitats, from soil microbes (eg, Thompson et al., 2017) to large marine fish (eg, Thomsen et al., 2016), and from contemporary to tens of thousands year‐old biological communities (eg, Willerslev et al., 2003). The breadth of potential applications is immense and spans surveys on the diversity or diet of species native to specific ecosystems to bioindication (Pawlowski et al., 2018). The approach is also es‐pecially cost‐effective and easy to implement, which makes DNA metabarcoding one of the tools of choice of the 21st century for fun‐damental research and the future of large‐scale biodiversity moni‐toring programs (reviewed in Bohan et al., 2017; Creer et al., 2016; Taberlet, Bonin, Zinger, & Coissac, 2018; Thomsen & Willerslev …
Scholar articles
L Zinger, A Bonin, IG Alsos, M Bálint, H Bik, F Boyer… - Molecular ecology, 2019