Environmental DNA Metabarcoding: Transforming How We Survey Animal and Plant Communities

Overview

Journal Mol Ecol

Specialties Environmental Health
Molecular Biology

Date 2017 Sep 19

PMID 28921802

Citations 304

Authors

Kristy Deiner

Holly M Bik

Elvira Machler

Mathew Seymour

Anais Lacoursiere-Roussel

Florian Altermatt

Simon Creer

Iliana Bista

David M Lodge

Natasha de Vere

Michael E Pfrender

Louis Bernatchez

Affiliations

Soon will be listed here.

Abstract

The genomic revolution has fundamentally changed how we survey biodiversity on earth. High-throughput sequencing ("HTS") platforms now enable the rapid sequencing of DNA from diverse kinds of environmental samples (termed "environmental DNA" or "eDNA"). Coupling HTS with our ability to associate sequences from eDNA with a taxonomic name is called "eDNA metabarcoding" and offers a powerful molecular tool capable of noninvasively surveying species richness from many ecosystems. Here, we review the use of eDNA metabarcoding for surveying animal and plant richness, and the challenges in using eDNA approaches to estimate relative abundance. We highlight eDNA applications in freshwater, marine and terrestrial environments, and in this broad context, we distill what is known about the ability of different eDNA sample types to approximate richness in space and across time. We provide guiding questions for study design and discuss the eDNA metabarcoding workflow with a focus on primers and library preparation methods. We additionally discuss important criteria for consideration of bioinformatic filtering of data sets, with recommendations for increasing transparency. Finally, looking to the future, we discuss emerging applications of eDNA metabarcoding in ecology, conservation, invasion biology, biomonitoring, and how eDNA metabarcoding can empower citizen science and biodiversity education.

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