2022
DOI: 10.1002/ece3.8995
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A review of applications of environmental DNA for reptile conservation and management

Abstract: Reptile populations are in decline globally, with total reptile abundance halving in the past half century, and approximately a fifth of species currently threatened with extinction. Research on reptile distributions, population trends, and trophic interactions can greatly improve the accuracy of conservation listings and planning for species recovery, but data deficiency is an impediment for many species. Environmental DNA (eDNA) can detect species and measure community diversity at diverse spatio‐temporal sc… Show more

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Cited by 23 publications
(16 citation statements)
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“…As metabarcoding of arthropod eDNA from flowers can also be applicable both in and outside of agricultural systems to study (agro) ecological networks including plant–animal interactions or the impacts of climate change in wild arthropod populations (Deiner et al, 2017; Liu et al, 2020; Lucas et al, 2018; Nordstrom et al, 2022), future studies should seek to optimize arthropod eDNA detection from flowers. To do so, the metabarcoding workflow can be tweaked such as using two or more primers, which will allow for adequate amplification of low‐quality template DNA (Ficetola et al, 2015; Marquina et al, 2019; Thomsen & Sigsgaard, 2019; Zhan et al, 2014).…”
Section: Discussionmentioning
confidence: 99%
“…As metabarcoding of arthropod eDNA from flowers can also be applicable both in and outside of agricultural systems to study (agro) ecological networks including plant–animal interactions or the impacts of climate change in wild arthropod populations (Deiner et al, 2017; Liu et al, 2020; Lucas et al, 2018; Nordstrom et al, 2022), future studies should seek to optimize arthropod eDNA detection from flowers. To do so, the metabarcoding workflow can be tweaked such as using two or more primers, which will allow for adequate amplification of low‐quality template DNA (Ficetola et al, 2015; Marquina et al, 2019; Thomsen & Sigsgaard, 2019; Zhan et al, 2014).…”
Section: Discussionmentioning
confidence: 99%
“…Relatively few eDNA studies have focused on reptiles compared to other vertebrates like fish or amphibians ( Davy, Kidd & Wilson, 2015 ; but see Piaggio et al, 2014 ), although this is changing as eDNA applications become more widespread ( Nordstrom et al, 2022 ). We designed and validated a probe-based qPCR assay to detect eDNA from S. odoratus .…”
Section: Discussionmentioning
confidence: 99%
“…Surveyed sites included shallow aquatic environments like littoral zones of lakes and rivers, slow-moving creeks and streams, and large wetlands, all potential musk turtle habitats ( Dreslik & Phillips, 2005 ; COSEWIC, 2012 ). Because eDNA shedding rates can vary markedly among organisms ( Andruszkiewicz Allan et al, 2021 ), and animals with hard keratinized integuments probably shed less DNA ( Nordstrom et al, 2022 ), we wished to test the ability of our eDNA assay to detect musk turtles. Thus, we undertook intensive sampling in the mid-sized Lake Opinicon (44.5°N, 76.3°W), approximately 50 km north of the city of Kingston, ON, where S. odoratus are known to occur ( Larocque et al, 2012 ) and vary in density in different parts of the lake.…”
Section: Methodsmentioning
confidence: 99%
“…Dry conditions experienced from 2018 to 2020 may also have contributed to detection difficulties since reptile capture rates may decline following rainfall deficits (Schlesinger et al 2011). More novel detection methods, such as environmental DNA (eDNA), are increasing in use (Nordstrom et al 2022) and may be a more useful method for detecting highly cryptic species.…”
Section: Discussionmentioning
confidence: 99%
“…2011). More novel detection methods, such as environmental DNA (eDNA), are increasing in use (Nordstrom et al . 2022) and may be a more useful method for detecting highly cryptic species.…”
Section: Discussionmentioning
confidence: 99%