Applications of environmental DNA (eDNA) in ecology and conservation: opportunities, challenges and prospects

Applications of environmental DNA (eDNA) in ecology and conservation: opportunities, challenges and prospects

Conserving biodiversity in the face of ever-increasing human pressure is hampered by our lack of basic information on species occurrence, distribution, abundance, habitat requirements, and threats. Obtaining this information requires efficient and sensitive methods capable of detecting and quantifyi...

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Bibliographic Details
Published in:Biodiversity and conservation Vol. 29; no. 7; pp. 2089 - 2121
Main Authors: Beng, Kingsly C., Corlett, Richard T.
Format: Journal Article
Language:English
Published: Dordrecht Springer Netherlands 01-06-2020
Springer
Springer Nature B.V
Subjects:
Abundance
Biodiversity
Biological diversity conservation
Biomedical and Life Sciences
Climate Change/Climate Change Impacts
Conservation
Conservation Biology/Ecology
Data analysis
Deoxyribonucleic acid
DNA
Ecology
Environmental DNA
Evaluation
Geographical distribution
Habitat selection
Labour
Life Sciences
Polls & surveys
Rare species
Review Paper
Surveys
Wildlife conservation
Biological invasions
Species detection
Conservation tools
High-throughput sequencing
Biodiversity monitoring
Traditional surveys
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Summary:Conserving biodiversity in the face of ever-increasing human pressure is hampered by our lack of basic information on species occurrence, distribution, abundance, habitat requirements, and threats. Obtaining this information requires efficient and sensitive methods capable of detecting and quantifying true occurrence and diversity, including rare, cryptic and elusive species. Environmental DNA (eDNA) is an emerging technique that can increase our ability to detect and quantify biodiversity, by overcoming some of the challenges of labor-intensive traditional surveys. The application of eDNA in ecology and conservation has grown enormously in recent years, but without a concurrent growth in appreciation of its strengths and limitations. In many situations, eDNA may either not work, or it may work but not provide the information needed. Problems with (1) imperfect detection, (2) abundance quantification, (3) taxonomic assignment, (4) eDNA spatial and temporal dynamics, (5) data analysis and interpretation, and (6) assessing ecological status have all been significant. The technique has often been used without a careful evaluation of the technical challenges and complexities involved, and a determination made that eDNA is the appropriate method for the species or environment of interest. It is therefore important to evaluate the scope and relevance of eDNA-based studies, and to identify critical considerations that need to be taken into account before using the approach. We review and synthesize eDNA studies published to date to highlight the opportunities and limitations of utilizing eDNA in ecology and conservation. We identify potential ways of reducing limitations in eDNA analysis, and demonstrate how eDNA and traditional surveys can complement each other.
ISSN:0960-3115
1572-9710
DOI:10.1007/s10531-020-01980-0