Combining ddPCR and environmental DNA to improve detection capabilities of a critically endangered freshwater invertebrate

Autor:	Mark T. Bulling, Sabrina Neyrinck, Quentin Mauvisseau, Rein Brys, John Davy-Bowker, Christopher R. Troth, Michael Sweet
Jazyk:	angličtina
Rok vydání:	2019
Předmět:	0106 biological sciences Insecta Endangered species Zoology lcsh:Medicine Fresh Water Biology 010603 evolutionary biology 01 natural sciences Polymerase Chain Reaction Article Aquatic organisms Critically endangered Rivers Water Quality Animals Environmental DNA lcsh:Science Invertebrate Multidisciplinary Wales Conservation biology 010604 marine biology & hydrobiology Endangered Species lcsh:R Aquatic animal DNA Sentinel Species Freshwater ecology lcsh:Q Molecular ecology
Zdroj:	Scientific Reports, Vol 9, Iss 1, Pp 1-9 (2019) Scientific Reports
ISSN:	2045-2322
DOI:	10.1038/s41598-019-50571-9
Popis:	Isogenus nubecula is a critically endangered Plecoptera species. Considered extinct in the UK, I. nubecula was recently rediscovered (in one location of the River Dee, Wales), after 22 years of absence. In a similar way to many other species of Perlodidae, I. nubecula could be utilised as a bio-indicator, for assessing water quality and health status of a given freshwater system. However, conventional monitoring of invertebrates via kick-sampling, is invasive and expensive (time consuming). Further, such methods require a high level of taxonomic expertise. Here, we compared the traditional kick-sampling method with the use of eDNA detection using qPCR and ddPCR-analyses. In spring 2018, we sampled eDNA from twelve locations on the River Dee. I. nubecula was detected using kick-sampling in five of these locations, three locations using both eDNA detection and kick-sampling and one location using eDNA detection alone – resulting in a total of six known and distinct populations of this critically endangered species. Interestingly, despite the eDNA assay being validated in vitro and in silico, and results indicating high sensitivity, qPCR analysis of the eDNA samples proved to be ineffective. In contrast, ddPCR analyses resulted in a clear detection of I. nubecula at four locations suggesting that inhibition most likely explains the large discrepancy between the obtained qPCR and ddPCR results. It is therefore important to explore inhibition effects on any new eDNA assay. We also highlight that ddPCR may well be the best option for the detection of aquatic organisms which are either rare or likely to shed low levels of eDNA into their environment.
Databáze:	OpenAIRE
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