Environmental Conditions Influence eDNA Persistence in Aquatic Systems

Barnes, Matthew A.; Turner, Cameron R.; Jerde, Christopher L.; Renshaw, Mark A.; Chadderton, W. Lindsay; Lodge, David M.

doi:10.1021/es404734p

reviewEnvironmental Science & TechnologyJan 14, 2014Closed access

Environmental Conditions Influence eDNA Persistence in Aquatic Systems

MAMatthew A. Barnes CRCameron R. Turner CLChristopher L. Jerde MAMark A. Renshaw WLW. Lindsay Chadderton

University of Notre Dame · The Nature Conservancy

PubMed

Indexed incrossrefpubmed

Abstract

Environmental DNA (eDNA) surveillance holds great promise for improving species conservation and management. However, few studies have investigated eDNA dynamics under natural conditions, and interpretations of eDNA surveillance results are clouded by uncertainties about eDNA degradation. We conducted a literature review to assess current understanding of eDNA degradation in aquatic systems and an experiment exploring how environmental conditions can influence eDNA degradation. Previous studies have reported macrobial eDNA persistence ranging from less than 1 day to over 2 weeks, with no attempts to quantify factors affecting degradation. Using a SYBR Green quantitative PCR assay to observe Common Carp (…

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Topics & keywords

Topics

Keywords

Environmental DNA
Mesocosm
Biology
Common carp
Degradation (telecommunications)
Persistence (discontinuity)
Aquatic environment
Ecology

UN Sustainable Development Goals

Life in Land

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