Accuracy, limitations and cost efficiency of eDNA‐based community survey in tropical frogs

Bálint, Miklós; Nowak, Carsten; Márton, Orsolya; Pauls, Steffen U.; Wittwer, Claudia; Aramayo, Jose Luis; Schulze, Arne; Chambert, Thierry; Cocchiararo, Berardino; Jansen, Martin

doi:10.1111/1755-0998.12934

Cited by 65 publications

(34 citation statements)

References 88 publications

(127 reference statements)

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“…Our results support the potential of eDNA metabarcoding for surveying species in megadiverse tropical regions (Bálint et al, 2018;Cilleros et al, 2019;Lopes et al, 2017). Brazil has the highest diversity of amphibians in the world, with more than 1,000 species described.…”

Section: Discussionsupporting

confidence: 79%

Lost and found: Frogs in a biodiversity hotspot rediscovered with environmental DNA

et al. 2020

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A hallmark of the Anthropocene is global increases in population losses and species' extinctions. Threats to biodiversity will grow with continued human impacts on land use, climate change, and the emergence of wildlife infectious diseases (Johnson et al., 2017). Amphibians are a particularly vulnerable group with many species already showing population declines, shrinking distributions, and presumed extinctions (Becker, Fonseca, Haddad, Batista, &

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Section: Discussionsupporting

confidence: 79%

Lost and found: Frogs in a biodiversity hotspot rediscovered with environmental DNA

et al. 2020

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“…However, eDNA metabarcoding could enable pondscape conservation and management by providing species-level distribution data for entire communities (Harper et al, 2018c). eDNA metabarcoding has been successfully used in ponds to survey temperate and tropical amphibian communities (Valentini et al, 2016;Bálint et al, 2018), fish assemblages (Valentini et al, 2016;Evans et al, 2017), and has strong capacity to detect semiaquatic and terrestrial species (Klymus et al, 2017b;Ushio et al, 2017Ushio et al, , 2018bHarper et al, 2018c).…”

Section: Community Composition and Monitoring At The Pondscapementioning

confidence: 99%

Prospects and challenges of environmental DNA (eDNA) monitoring in freshwater ponds

et al. 2018

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Environmental DNA (eDNA) analysis is a rapid, non-invasive, cost-efficient biodiversity monitoring tool with enormous potential to inform aquatic conservation and management. Development is ongoing, with strong commercial interest, and new uses are continually being discovered. General applications of eDNA and guidelines for best practice in freshwater systems have been established, but habitat-specific assessments are lacking. Ponds are highly diverse, yet understudied systems that could benefit from eDNA monitoring. However, eDNA applications in ponds and methodological constraints specific to these environments remain unaddressed. Following a stakeholder workshop in 2017, researchers combined knowledge and expertise to review these applications and challenges that must be addressed for the future and consistency of eDNA monitoring in ponds. The greatest challenges for pond eDNA surveys are representative sampling, eDNA capture, and potential PCR inhibition. We provide recommendations for sampling, eDNA capture, inhibition testing, and laboratory practice, which should aid new and ongoing eDNA projects in ponds. If implemented, these recommendations will contribute towards an eventual broad standardisation of eDNA research and practice, with room to tailor workflows for optimal analysis and

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“…Thus, a crayfish plague has been detected in different water samples by eDNA [79,80]. A recent use of eDNA has been eDNA metabarcoding [78,81], used for multiple detection of animals and plants at the community level, and routine applications of this system certainly open up new fields in molecular ecology.…”

Section: Ednamentioning

confidence: 99%

Detection and Control of Invasive Freshwater Crayfish: From Traditional to Innovative Methods

et al. 2019

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Invasive alien species are widespread in freshwater systems compared to terrestrial ecosystems. Among crustaceans, crayfish in particular have been widely introduced and are considered a major threat to freshwater ecosystem functioning. New emerging techniques for detecting and controlling invasive crayfish and protecting endangered native species are; thus, now highly desirable and several are under evaluation. Important innovations have been developed in recent years for detection of both invasive and native crayfish, mainly through eDNA, which allows for the detection of the target species even at low abundance levels and when not directly observable. Forecasting models have also moved towards the creation of realistic invasion scenarios, allowing effective management plans to be developed in advance of invasions. The importance of monitoring the spread and impacts of crayfish and pathogens in developing national data and research networks is emphasised; here “citizen science” can also play a role. Emerging techniques are still being considered in the field of invasive crayfish control. Although for decades the main traditional techniques to manage invasive crayfish were solely based on trapping, since 2010 biological, biocidal, autocidal controls and sexual attractants, monosex populations, RNA interference, the sterile male release technique and oral delivery have all also been investigated for crayfish control. In this review, ongoing methodologies applied to the detection and management of invasive crayfish are discussed, highlighting their benefits and limitations.

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Accuracy, limitations and cost efficiency of eDNA‐based community survey in tropical frogs

Cited by 65 publications

References 88 publications

Lost and found: Frogs in a biodiversity hotspot rediscovered with environmental DNA

Lost and found: Frogs in a biodiversity hotspot rediscovered with environmental DNA

Prospects and challenges of environmental DNA (eDNA) monitoring in freshwater ponds

Detection and Control of Invasive Freshwater Crayfish: From Traditional to Innovative Methods

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