Emily F. McColl-Gausden scite author profile

Environmental DNA (eDNA) sampling-the detection of environmental cellular or extracellular DNA-has the potential to improve the sensitivity and efficiency of biodiversity surveys, enabling the coverage needed for accurate monitoring at broad spatial scales (Deiner et al., 2015;Turner et al., 2014). In aquatic environments, eDNA sampling is safer for operators (Crookes et al., 2020) and less invasive to target animals compared to traditional sampling methods, such as trapping or electrofishing (Valentini et al., 2016).

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Using hierarchical models to compare the sensitivity of metabarcoding and qPCR for eDNA detection

McColl-Gausden

Weeks

Coleman

et al. 2023

Ecological Informatics

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A field ecologist's guide to environmental DNA sampling in freshwater environments

McColl-Gausden

Weeks

Tingley

2020

Australian Zoologist

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Environmental DNA, or eDNA—DNA shed from organisms and extracted from environmental samples—is an emerging survey technique that has the potential to transform biodiversity monitoring in freshwater ecosystems. We provide a brief overview of the primary methodological aspects of eDNA sampling that ecologists should consider before taking environmental samples in the field. We outline five key methodological considerations: (i) targeting single species vs multiple species; (ii) where and when to sample; (iii) how much water to collect; (iv) how many samples to take; and (v) recognising potential sources of false positives. The need to account for false negatives and false positives in eDNA surveys, and the power of species occupancy detection models in accounting for imperfect detection, is also discussed.

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