Abstract
Early detection is paramount for attempts to remove invasive non-native species (INNS). Traditional methods rely on physical sampling and morphological identification, which can be problematic when species are in low densities and/or are cryptic. The use of environmental DNA (eDNA) as a monitoring tool in freshwater systems is becoming increasingly acceptable and widely used for the detection of single species. Here we demonstrate the development and application of standard PCR primers for the detection of two freshwater invasive species which are high priority for monitoring in the UK and elsewhere: the Dreissenid mussels; Dreissena rostriformis bugensis (Andrusov, 1987) and D. polymorpha (Pallas, 1771). We carried out a rigorous validation process for testing the new primers, including DNA detection and degradation experiments in mesocosms, and a field comparison with traditional monitoring protocols. eDNA from single individuals of both mussel species could be detected within four hours of the start of the mesocosm experiment. In field trials, the two mussel species were detected at all sites where the species are known to be present, and eDNA consistently outperformed traditional kick-net sampling for species detection. These results demonstrate the applicability of standard PCR for eDNA detection of freshwater invasive species.
Highlights
The rate of biological invasions has increased rapidly over the last 25 years due, at least in part, to increasing globalisation (Sutherland et al 2013; Hulme 2009; Gallardo and Aldridge 2013a)
DRB1 amplified 29 published D. rostriformis, D. bugensis and D. rostriformis bugensis sequences in silico with no mismatches
Sequences generated from PCR products from all tissue, mesocosm and field samples were verified as being from the correct target species for D. rostriformis bugensis
Summary
The rate of biological invasions has increased rapidly over the last 25 years due, at least in part, to increasing globalisation (Sutherland et al 2013; Hulme 2009; Gallardo and Aldridge 2013a). Concern over the increasing number of invasive non-native species (INNS) has led to a number of horizon scanning studies aimed at identifying and prioritizing the threat of potential INNS (Gallardo and Aldridge 2013a, b; Roy et al 2014). Concerns have been raised about the risk of “invasional meltdown” by Ponto-Caspian species, whereby INNS that have co-evolved in the same region facilitate one another’s spread (sensu Simberloff and Von Holle 1999; Gallardo and Aldridge 2014)
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