Your search keyword '"McDonald, Justin I."' showing total 3 results

1. Marine eDNA sampling from submerged surfaces with paint rollers.

Author

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., and Harvey, Euan S.

Abstract

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. [ABSTRACT FROM AUTHOR]

Published

2024

2. Marine biosecurity: The importance of awareness, support and cooperation in managing a successful incursion response.

Author

Piola, Richard F. and McDonald, Justin I.

Subjects

BIOSECURITY, MARINE resources conservation, MARINE species diversity, MARITIME shipping, ENVIRONMENTAL management, SHIP hull fouling

Abstract

Abstract: Shipping is almost certainly the most prevalent human-mediated transport vector for non-indigenous species (NIS) within the marine environment. The Royal Australian Navy (RAN) has long acknowledged the importance of sound environmental management and in recent years has taken a proactive approach to addressing risks associated with marine biosecurity. primarily as a result of biofouling on Navy vessel returning from overseas operations. This paper describes two case studies that highlight the effectiveness of the RAN marine biosecurity management framework in identifying an unwanted marine species on Navy vessels, and the successful biosecurity management program that ensued. In particular, the early detection and identification of a suspect NIS, the quick response to the discovery and the collaborative approach adopted between the RAN and the Government regulatory agency (Western Australian Department of Fisheries) charged with coordinating the incursion response serves as a model for how future incursion responses should be reported and managed. [Copyright &y& Elsevier]

Published

2012

3. Environmentally influenced variability in the morphology of Cinachyrella australiensis (Carter 1886) (Porifera : Spirophorida : Tetillidae)

Author

McDonald, Justin I., Hooper, John N. A., and McGuinness, Keith A.

Abstract

The influence of environmental variability on body form and tissue structure of Cinachyrella australiensis is reported for populations from three sites within Darwin Harbour, Northern Territory, Australia, that varied considerably in hydrological conditions. External morphology of these sponges differed among sites ranging from typical spherical shapes to flattened forms. A large proportion of dry weight consisted of inorganic matter, i.e. silica spicules, varying between 62.9% and 78.2%. Sites with highest water velocity and sediment size were significantly correlated with sponge populations having the greatest inorganic content and lowest organic cellular content and the thickest oxea. Thicker oxea may in part account for the higher structural content of sponges at these sites. There was no significant difference in oxea length among sites. It is concluded that sponges subjected to highly perturbed environs with large water flow and sedimentation regimes may devote more energy to spicule reinforcement relative to organic content. These robust sponges have the potential to make an important structural contribution to their habitats. Additional keywords: intertidal, plasticity, water flow, sediment, structure, spicule

Published

2002