Marine eDNA sampling from submerged surfaces with paint rollers

• Published in: Marine genomics Vol. 76; p. 101127
• Main Authors: Jarman, Simon, Alexander, Jason B., Dawkins, Kathryn L., Lukehurst, Sherralee S., Nester, Georgia M., Wilkinson, Shaun, Marnane, Michael J., McDonald, Justin I., Elsdon, Travis S., Harvey, Euan S.
• Format: Journal Article
• Language: English
• Published: Elsevier B.V 01.08.2024
• Subjects: Biodiversity; Detection; Environmental DNA; Invasive marine species; Metabarcoding; Environmental DNA; Metabarcoding; Biodiversity; Detection; Invasive marine species
• ISSN: 1874-7787; 1876-7478; 1876-7478
• DOI: 10.1016/j.margen.2024.101127

Environmental DNA (eDNA) analyses of species present in marine environments is the most effective biological diversity measurement tool currently available. eDNA sampling methods are an intrinsically important part of the eDNA biodiversity analysis process. Identification and development of eDNA sampling methods that are as rapid, affordable, versatile and practical as possible will improve rates of detection of marine species. Optimal outcomes of eDNA biodiversity surveys come from studies employing high levels of sampling replication, so any methods that make sampling faster and cheaper will improve scientific outcomes. eDNA sampling methods that can be applied more widely will also enable sampling from a greater range of marine surface micro-habitats, resulting in detection of a wider range of organisms. In this study, we compared diversity detection by several methods for sampling eDNA from submerged marine surfaces: polyurethane foam, nylon swabs, microfibre paint rollers, and sediment scoops. All of the methods produced a diverse range of species identifications, with >250 multicellular species represented by eDNA at the study site. We found that widely-available small paint rollers were an effective, readily available and affordable method for sampling eDNA from underwater marine surfaces. This approach enables the sampling of marine eDNA using extended poles, or potentially by remotely operated vehicles, where surface sampling by hand is impractical.