Targeted and passive environmental DNA approaches outperform established methods for detection of quagga mussels,<i>Dreissena rostriformis bugensis</i>in flowing water

Blackman, Rosetta C.; Ling, Kar Keun Sean; Harper, Lynsey R.; Shum, Peter; Hänfling, Bernd; Handley, Lori Lawson

doi:10.1101/2020.01.07.890731

Cited by 3 publications

(6 citation statements)

References 69 publications

(80 reference statements)

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“…The observation that HTS was less sensitive than species-specific qPCR is consistent with other studies (Lacoursière-Roussel et al 2016b;Harper et al 2018;Bylemans et al 2019). Nevertheless, the relatively low performance of HTS in Blackman et al (2020a) may be due to the use of a universal primer that presumably targets most animal groups (metazoans), but was not specifically designed for molluscs and, as a result, may preferentially amplify DNA from other, more abundant species and/or other species whose DNA exhibits better matches to the primer sequence. Thus, in the following paragraphs, we detail the development and use of more-specific HTS metabarcodes (e.g.…”

Section: High-throughput Sequencingsupporting

confidence: 86%

“…Metabarcoding HTS methods have been successfully applied to QM-ZM eDNA surveillance efforts, where several surveillance objectives have been met using a variety of primers (Table 3). For example, COI metabarcoding primers, designed to generically target metazoans (Leray et al 2013) and/or marine invertebrates (Geller et al 2013), have been used to specifically detect ZM (Ardura et al 2017) or QM eDNA (Blackman et al 2020a) and to detect QM-ZM eDNA in community-wide surveys (Mychek-Londer et al 2020). Metabarcoding primers targeting 18S and designed to detect crustaceans, molluscs and tunicates (Zhan et al 2013), have also been used alongside HTS to detect AIS at freshwater ports, revealing the presence of QM (Brown et al 2016).…”

Section: High-throughput Sequencingmentioning

confidence: 99%

“…Metabarcoding primers targeting 18S and designed to detect crustaceans, molluscs and tunicates (Zhan et al 2013), have also been used alongside HTS to detect AIS at freshwater ports, revealing the presence of QM (Brown et al 2016). Blackman et al (2020a) report two important HTS findings from knowninfested waters: 1) an increase in distance between sampling (i.e. the point of eDNA collection) and the source population negatively influenced QM eDNA concentrations and 2) HTS underperformed in comparison to simultaneously employed speciesspecific cPCR and qPCR (Table 3), where QM detection was 86% and 100% successful, respectively.…”

Section: High-throughput Sequencingmentioning

confidence: 99%

“…Since then, eDNA sampling has been widely adopted as an AIS monitoring tool, often outperforming traditional survey methods for hard-to-detect aquatic species, including QM-ZM (e.g. De Ventura et al 2017;Gingera et al 2017;Sepulveda et al 2019;Blackman et al 2020a).…”

Section: Introductionmentioning

confidence: 99%

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Advanced molecular-based surveillance of quagga and zebra mussels: A review of environmental DNA/RNA (eDNA/eRNA) studies and considerations for future directions

Feist¹,

Lance²

2021

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Sensitive methods, capable of rapidly and accurately detecting aquatic invasive species, are in demand. Molecular-based approaches, such as environmental DNA (eDNA) surveys, satisfy these requirements and have grown in popularity. As such, eDNA surveys could aid the effort to combat the colonisation and spread of two notoriously invasive freshwater mussel species, the quagga mussel (Dreissena rostriformis bugensis) and zebra mussel (D. polymorpha), through improved surveillance ability. Here, we provide a review of dreissenid eDNA literature (both grey and published), summarising efforts involved in the development of various assays for use in multiple different technologies (e.g. quantitative PCR, high-throughput sequencing and loop-mediated isothermal amplification) and sampling scenarios. We discuss important discoveries made along the way, including novel revelations involving environmental RNA (eRNA), as well as the advantages and limitations of available methods and instrumentation. In closing, we highlight critical remaining gaps, where further investigation could lead to advancements in dreissenid monitoring capacity.

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Section: High-throughput Sequencingsupporting

confidence: 86%

Section: High-throughput Sequencingmentioning

confidence: 99%

Section: High-throughput Sequencingmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

See 2 more Smart Citations

Advanced molecular-based surveillance of quagga and zebra mussels: A review of environmental DNA/RNA (eDNA/eRNA) studies and considerations for future directions

Feist¹,

Lance²

2021

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“…An unexplored question is to what extent the results of the above single-species studies (qPCR-based) also apply to metabarcoding experiments. Some work has directly compared the sensitivity of qPCR and metabarcoding using non-specific primers (Blackman et al, 2020;Bylemans et al, 2019;Harper et al, 2018;Simmons et al, 2016;Wood et al, 2019). In all these studies, the qPCR assays were shown to be more sensitive for the detection of the study species.…”

mentioning

confidence: 99%

How does eDNA decay affect metabarcoding experiments?

2021

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Biodiversity studies increasingly use environmental DNA (eDNA)based methods to assess community patterns (Cordier et al., 2020;Dornelas et al., 2019), to discover rare organisms (Jerde et al., 2011), and to detect invasive species (Holman et al., 2019).Comparisons between non-molecular and eDNA biodiversity surveys have consistently shown that eDNA surveys are highly sensitive and can detect species accurately at a reduced cost (Blackman

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Utility of Occupancy Models with Environmental DNA (eDNA) from Olympic Coast National Marine Sanctuary

Paight

Waddell

Galaska

2021

Preprint

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Adjacent to the spectacular, rugged coastline bordering the Olympic Peninsula of Washington State, Olympic Coast National Marine Sanctuary (OCNMS) encompasses 8257 km 2 of coastal waters that support one of North America’s most productive marine ecosystems. These rich waters support important recreational, commercial and subsistence fisheries for Washington state and four sovereign tribal governments: the Quinault Indian Nation and the Makah, Quileute and Hoh Tribes. Given its ecological, cultural and economic significance, managers from OCNMS are tasked with monitoring and management towards conserving the area's ecological integrity. The development of metabarcoding with environmental DNA (eDNA) as an effective freshwater monitoring tool has potential applications in marine systems, but the statistical analysis and the interpretation of those eDNA results are still under development. One promising strategy to analyze eDNA is through the use of occupancy models. Occupancy models enable us to calculate probabilities of detection from each taxon sequenced and are designed to work with presence-absence data. To inform our long term monitoring design of this coastal ecosystem, we collected 44 eDNA samples at nine of OCNMS’ long term mooring sites in 2019 and tested four different molecular markers for species reported and taxonomic richness. Additionally, we assessed occupancy models for use with eDNA to estimate the number of samples required to accurately predict the presence of a species. Occupancy models show great promise for use in eDNA studies provided there is sufficient replication; additionally, the choice of molecular marker strongly influences a taxa’s probability of detection.

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Targeted and passive environmental DNA approaches outperform established methods for detection of quagga mussels,Dreissena rostriformis bugensisin flowing water

Cited by 3 publications

References 69 publications

Advanced molecular-based surveillance of quagga and zebra mussels: A review of environmental DNA/RNA (eDNA/eRNA) studies and considerations for future directions

Advanced molecular-based surveillance of quagga and zebra mussels: A review of environmental DNA/RNA (eDNA/eRNA) studies and considerations for future directions

How does eDNA decay affect metabarcoding experiments?

Utility of Occupancy Models with Environmental DNA (eDNA) from Olympic Coast National Marine Sanctuary

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