Abstract
The presence of threatened or endangered species often strongly influences management and conservation decisions. Within the Murray–Darling Basin (MDB), Australia, the presence of threatened native fish affects the management and allocation of water resources. These decisions are currently based on traditional fisheries data and a predictive MaxEnt model. However, it is important to verify the model's predictive power given the implication it may have, but this requires methods with a high detection sensitivity for rare species. Although the use of environmental DNA (eDNA) metabarcoding achieves a higher detection sensitivity compared with traditional methods, earlier surveys in the MDB have shown that the highly abundant and invasive common carp (Cyprinus carpio) can reduce detection probabilities for rare species. Consequently, a polymerase chain reaction (PCR) blocking primer designed to block the amplification of carp eDNA could increase the detection probabilities for rare native species while simultaneously reducing the required sampling effort and survey costs. Although PCR blocking primers are often used in ancient DNA and dietary studies, no aquatic eDNA metabarcoding study to date has evaluated the potential benefits of using PCR blocking primers. A laboratory and field‐based pilot study was used to address this knowledge gap and assess the impact of a blocking primer on the detection probabilities of native species and the minimum sampling effort required. Results showed that the inclusion of the blocking primer increased the detection probabilities for native species by 10–20% and reduced the minimum required sampling effort by 25–50%. These findings provide important insights into possible methods for optimizing eDNA metabarcoding surveys for the detection of rare aquatic species.
Highlights
The Murray-Darling Basin (MDB) is Australia’s largest river system covering approximately 14% of Australia’s surface and spanning the states of New South Wales (NSW), Queensland, South Australia and Victoria, and the Australian Capital Territory (Koehn, 2015)
The use of environmental DNA based monitoring, in particular eDNA metabarcoding, achieves a higher detection sensitivity compared to traditional methods, earlier surveys in the MDB have shown that the high abundant and invasive common carp (Cyprinus carpio) can reduce detection probabilites for rare species
These findings provide important insights into possible methods for optimizing eDNA metabarcoding surveys for the detection of rare aquatic species
Summary
The Murray-Darling Basin (MDB) is Australia’s largest river system covering approximately 14% of Australia’s surface and spanning the states of New South Wales (NSW), Queensland, South Australia and Victoria, and the Australian Capital Territory (Koehn, 2015). Water allocation and policy throughout the MDB are strongly dependent on the presence of threatened native fish species (Koehn, 2015, Koehn and Lintermans, 2012). Studies utilized speciesspecific molecular approaches to detect the DNA of the taxa of interest and infer their presence (Ficetola et al, 2008, Goldberg et al, 2011). This targeted approach quickly becomes expensive and time consuming when monitoring surveys focus on multiple taxa and more universal monitoring approaches are favoured. The use of universal primers to amplify the eDNA from multiple target taxa combined with high throughput sequencing (HTS) technology (i.e. eDNA metabarcoding) is increasing in popularity (Jarman et al, 2018)
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