Parallel, targeted analysis of environmental samples via high‐throughput quantitative PCR

Taylor M. Wilcox; Kevin S. McKelvey; Michael K. Young; Cory Engkjer; Richard F. Lance; Andrew Lahr; Lisa A. Eby; Michael K. Schwartz

doi:10.1002/edn3.80

Environmental DNA (Oct 2020)

Parallel, targeted analysis of environmental samples via high‐throughput quantitative PCR

Taylor M. Wilcox,
Kevin S. McKelvey,
Michael K. Young,
Cory Engkjer,
Richard F. Lance,
Andrew Lahr,
Lisa A. Eby,
Michael K. Schwartz

Affiliations

Taylor M. Wilcox: National Genomics Center for Wildlife and Fish Conservation Rocky Mountain Research Station Missoula MT USA
Kevin S. McKelvey: National Genomics Center for Wildlife and Fish Conservation Rocky Mountain Research Station Missoula MT USA
Michael K. Young: National Genomics Center for Wildlife and Fish Conservation Rocky Mountain Research Station Missoula MT USA
Cory Engkjer: National Genomics Center for Wildlife and Fish Conservation Rocky Mountain Research Station Missoula MT USA
Richard F. Lance: Environmental Laboratory United States, Army Engineer Research and Development Center Vicksburg MS USA
Andrew Lahr: Wildlife Biology Program Department of Ecosystem and Conservation Sciences University of Montana Missoula MT USA
Lisa A. Eby: Wildlife Biology Program Department of Ecosystem and Conservation Sciences University of Montana Missoula MT USA
Michael K. Schwartz: National Genomics Center for Wildlife and Fish Conservation Rocky Mountain Research Station Missoula MT USA

DOI: https://doi.org/10.1002/edn3.80
Journal volume & issue: Vol. 2, no. 4
pp. 544 – 553

Abstract

Read online

Abstract When analyzing environmental samples for DNA from multiple taxa, researchers must usually decide between iterative analyses with single‐taxon assays—which are reliable and sensitive, but also laborious to apply—and approaches such as metabarcoding that can simultaneously target multiple species, but which are less sensitive for detection across taxa. Here, we test an intermediate approach that allows efficient, parallel assessment of taxon‐specific qPCR assays via high‐throughput quantitative PCR (HT‐qPCR). Based on an assessment of over 500 environmental samples, we found that sensitivity and specificity of our HT‐qPCR approach were similar (concordance 0.900–1.000) to values achieved through single‐species qPCR in six out of seven assays tested. Thus, HT‐qPCR may provide analyses of similar quality as single‐species qPCR analyses for environmental DNA, but at a lower cost per taxon. We see this approach as being a valuable addition to the eDNA sampling toolbox, particularly for situations where reliable inferences are needed for a defined suite of rare invasive or imperiled taxa.

Published in Environmental DNA

ISSN: 2637-4943 (Online)
Publisher: Wiley
Country of publisher: United Kingdom
LCC subjects: Geography. Anthropology. Recreation: Environmental sciences; Science: Microbiology: Microbial ecology
Website: https://onlinelibrary.wiley.com/journal/26374943

About the journal

Abstract

Keywords