Environmental DNA

For Biodiversity Research and Monitoring

Pierre Taberlet, Aurelie Bonin, Lucie Zinger, and Eric Coissac

The first book to demonstrate the power and enormous potential of environmental DNA as a research and conservation tool
Describes the latest techniques and protocols available
Guides researchers in the efficient production of high-quality eDNA data and facilitates their proper analysis and interpretation

Environmental DNA

For Biodiversity Research and Monitoring

Pierre Taberlet, Aurelie Bonin, Lucie Zinger, and Eric Coissac

Description

Environmental DNA (eDNA) refers to DNA that can be extracted from environmental samples (such as soil, water, feces, or air) without the prior isolation of any target organism. The analysis of environmental DNA has the potential of providing high-throughput information on taxa and functional genes in a given environment, and is easily amenable to the study of both aquatic and terrestrial ecosystems. It can provide an understanding of past or present biological communities as well as their trophic relationships, and can thus offer useful insights into ecosystem functioning. There is now a rapidly-growing interest amongst biologists in applying analysis of environmental DNA to their own research. However, good practices and protocols dealing with environmental DNA are currently widely dispersed across numerous papers, with many of them presenting only preliminary results and using a diversity of methods. In this context, the principal objective of this practical handbook is to provide biologists (both students and researchers) with the scientific background necessary to assist with the understanding and implementation of best practices and analyses based on environmental DNA.

Environmental DNA

For Biodiversity Research and Monitoring

Pierre Taberlet, Aurelie Bonin, Lucie Zinger, and Eric Coissac

1. Introduction to environmental DNA (eDNA)
2. DNA metabarcode choice and design
3. Reference databases
4. Sampling
5. DNA extraction
6. DNA amplification and multiplexing
7. DNA sequencing
8. DNA metabarcoding data analysis
9. Single-species detection
10. Environmental DNA for functional diversity
11. Some early landmark studies
12. Freshwater ecosystems
13. Marine environments
14. Terrestrial ecosystems
15. Palaeoenvironments
16. Host-associated microbiota
17. Diet analysis
18. Analysis of bulk samples
19. The future of eDNA metabarcoding

Environmental DNA

For Biodiversity Research and Monitoring

Pierre Taberlet, Aurelie Bonin, Lucie Zinger, and Eric Coissac

Author Information

Pierre Taberlet, Senior CNRS scientist, Universite Grenoble Alpes, France,Aurelie Bonin, Research scientist, Universite Grenoble Alpes, France,Lucie Zinger, Assistant professor, Ecole Normale Superieure de Paris, France,Eric Coissac, Associate professor, Universite Grenoble Alpes, France

After teaching biology in high school for 10 years, Pierre Taberlet obtained his PhD in ecology in 1992 at the Universite Grenoble Alpes. He is currently senior CNRS scientist in Laboratoire d'Ecologie Alpine at the Universite Grenoble Alpes. He has been heavily involved in developing innovative molecular tools for tackling ecological questions. He was the recipient of the Molecular Ecology Prize in 2007 and is a member of the Norwegian Academy of Sciences and Letters (2005) and of Academia Europaea (2014).

Aurelie Bonin obtained her PhD in genomics of local adaption in 2006. After various postdoctoral positions in population genomics and ecology, she is now a DNA metabarcoding project leader for the French AnaEE (Analysis and Experimentation on Ecosystems) .

Lucie Zinger obtained her PhD in microbial ecology in 2009. She is currently assistant professor at the Institut de Biologie de l'Ecole Normale Superieure in Paris. She is interested in the fields of biogeography, macroecology, community ecology, and microbial ecology, as well as eDNA-based techniques to uncover the diversity of elusive organisms. Her current work focuses on the distribution and assembly mechanisms of microorganisms in soils, oceans, plant leaves, and insects.

Geneticist and bioinformatician, Eric Coissac obtained his PhD in genetics and genomics in 1996 at the Universite Pierre et Marie Curie in Paris. He is currently associate professor at Universite Grenoble Alpes in Laboratoire d'Ecologie Alpine.

Environmental DNA

For Biodiversity Research and Monitoring

Pierre Taberlet, Aurelie Bonin, Lucie Zinger, and Eric Coissac

Reviews and Awards

"This volume fills a much-needed gap, offering a gentle introduction into the field of environmental DNA, which will be especially useful for readers of minor to intermediate experience with environmental DNA." -- Vasco Elbrecht, Centre for Biodiversity Genomics, University of Guelph, The Quarterly Review of Biology

"An excellent instructional book or supplementary reading for any eDNA based classes...It is a timely and important addition to the field of molecular ecology, and will undoubtedly remain the go-to book on metabarcoding for several years." -- Dr Anthony A. Charlton, Macquarie University, Sydney, Australia, Molecular Ecology

"This book is a timely overview of eDNA as a complimentary and non-invasive approach for investigating and monitoring biodiversity. The book is an ideal introduction to all ecologists looking to eDNA, but also speaks to the more experienced researchers in molecular ecology. Lastly, it provides textbook material for university courses around the world." -- Philip Francis Thomsen, Trends in Ecology & Evolution Journal

"If you are contemplating moving into this topic, or just want to understand it better, do try and get your hands on a copy - something that might not be that easy just now as I understand the book has proved to be so popular that it is already having to be reprinted." -- IMA FUNGUS

"In a world faced with accelerating environmental change and loss of biodiversity, this book is a timely overview of eDNA as a complementary and noninvasive approach for investigating and monitoring biodiversity ... an ideal introduction to all ecologists looking to eDNA as a method of choice, but also speaks to the more experienced researchers in molecular ecology. Lastly, it provides textbook material for university courses around the world, where eDNA is continuously increasing in popularity." -- Philip Francis Thomsen, Department of Bioscience, University of Aarhus, Trends in Ecology and Evolution