Detection of brook trout in spatiotemporally separate locations using validated eDNA technology

Kathleen P. Nolan (), Tzitziki Loeza-Quintana, Hannah A. Little, Joschka McLeod, Benjamin Ranger, Danielle A. Borque and Robert H. Hanner
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Kathleen P. Nolan: University of Guelph
Tzitziki Loeza-Quintana: University of Guelph
Hannah A. Little: University of Guelph
Joschka McLeod: University of Guelph
Benjamin Ranger: University of Guelph
Danielle A. Borque: University of Guelph
Robert H. Hanner: University of Guelph

Journal of Environmental Studies and Sciences, 2023, vol. 13, issue 1, No 7, 66-82

Abstract: Abstract Brook trout are a species of conservation concern in Southwestern Ontario, Canada, and effective monitoring of their populations is crucial for making informed management decisions. Electrofishing is a traditional, yet invasive, method that allows for fish abundance estimation. Environmental DNA (eDNA) is an emerging molecular tool that presents a non-invasive alternative to electrofishing. This study was a collaborative effort between researchers in academia, industry, and an NGO, with the following objectives: 1) compare eDNA detections with electrofishing when monitoring brook trout populations in a site of known occupancy, 2) compare existing eDNA collection methods, and 3) extend eDNA surveys to regions of unknown occupancy that could be of conservation concern (Hanlon Creek and Twelve Mile Creek, Ontario). First, eDNA sampling methods were validated with standard electrofishing. Water samples were filtered in tandem at each site using two commercially available eDNA samplers. The results suggest a significant difference in total eDNA capture and incidence of PCR inhibitors between the two autosamplers. Brook trout eDNA was detected at all locations in Hanlon Creek in September and November, as well as 5/6 sampling locations in Twelve Mile Creek. Brook trout signal in Hanlon Creek was stronger in November compared to September 2019, suggesting possible spawning activity. Brook trout eDNA was also detected in Twelve Mile Creek where brook trout were previously unreported. This study provides a technical validation for the use of eDNA in brook trout monitoring and illustrates the opportunity to use eDNA surveys in regulated settings to complement and improve conventional biomonitoring methods for the management of elusive species.

Keywords: Salvelinus fontinalis; Freshwater conservation; Environmental DNA; Target qPCR detection; Indicator species; Aquatic biodiversity (search for similar items in EconPapers)
Date: 2023
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DOI: 10.1007/s13412-022-00800-x

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