Your search keyword '"McDonald, Justin I."' showing total 8 results

1. Genetic diversity of a hitchhiker and prized food source in the Anthropocene: the Asian green mussel Perna viridis (Mollusca, Mytilidae)

Author

Dias, P. Joana, Gilg, Matthew R., Lukehurst, Sherralee S., Kennington, W. Jason, Huhn, Mareike, Madduppa, Hawis H., McKirdy, Simon J., de Lestang, Paul, Teo, Serena L. M., Lee, Serina Siew Chen, McDonald, Justin I., Dias, P. Joana, Gilg, Matthew R., Lukehurst, Sherralee S., Kennington, W. Jason, Huhn, Mareike, Madduppa, Hawis H., McKirdy, Simon J., de Lestang, Paul, Teo, Serena L. M., Lee, Serina Siew Chen, and McDonald, Justin I.

Abstract

Insight into a species’ native and introduced range is essential in understanding the invasion process. Genetic diversity, propagule pressure and environmental conditions all have been recognised as playing a determinant role in invasion success. Here, we aimed to investigate the genetic diversity and population genetic structure (using the COI mtDNA gene region and 22 nDNA microsatellite markers) of the Asian green mussel Perna viridis within its potential native range in Asia and at introduced locations in the USA and the Caribbean. We also analyse genetic data from vessel intercepts and an incursion. By doing so, we aimed to identify genetic signatures that could allow to track vessel samples to their source and provide further insight into potential high-risk invasive populations or areas. Three top hierarchical clusters were identified using the individual-based Bayesian clustering method in STRUCTURE, corresponding to populations in three world regions: (1) USA and Caribbean, (2) India and (3) Southeast Asia. Within Southeast Asia, additional analysis indicate a shallow genetic differentiation of three subgroups consisting of (3a) Thailand, (3b) Taiwan and Hong-Kong, and (3c) a cluster of Singapore–Indonesia samples. Overall, the population structure found in this study suggests that the markers used could be useful in identifying source populations, particularly between the three mains world regions. Most surprisingly however, this study shows that the genetic diversity of samples collected from vessel intercepts and incursions did not differ significantly from established populations in Southeast Asia. In this region, in addition to the high vessel connectivity and number of P. viridis transported, all sampled populations are likely to pose a comparable risk in terms of genetic diversity. The present work represents the most comprehensive population genetic study of P. viridis, and the first to address the potential genetic introduction risk posed by populat

Published

2018

2. Genetic diversity of a hitchhiker and prized food source in the Anthropocene: the Asian green mussel Perna viridis (Mollusca, Mytilidae)

Author

Dias, P. Joana, Gilg, Matthew R., Lukehurst, Sherralee S., Kennington, W. Jason, Huhn, Mareike, Madduppa, Hawis H., McKirdy, Simon J., de Lestang, Paul, Teo, Serena L. M., Lee, Serina Siew Chen, McDonald, Justin I., Dias, P. Joana, Gilg, Matthew R., Lukehurst, Sherralee S., Kennington, W. Jason, Huhn, Mareike, Madduppa, Hawis H., McKirdy, Simon J., de Lestang, Paul, Teo, Serena L. M., Lee, Serina Siew Chen, and McDonald, Justin I.

Abstract

Insight into a species’ native and introduced range is essential in understanding the invasion process. Genetic diversity, propagule pressure and environmental conditions all have been recognised as playing a determinant role in invasion success. Here, we aimed to investigate the genetic diversity and population genetic structure (using the COI mtDNA gene region and 22 nDNA microsatellite markers) of the Asian green mussel Perna viridis within its potential native range in Asia and at introduced locations in the USA and the Caribbean. We also analyse genetic data from vessel intercepts and an incursion. By doing so, we aimed to identify genetic signatures that could allow to track vessel samples to their source and provide further insight into potential high-risk invasive populations or areas. Three top hierarchical clusters were identified using the individual-based Bayesian clustering method in STRUCTURE, corresponding to populations in three world regions: (1) USA and Caribbean, (2) India and (3) Southeast Asia. Within Southeast Asia, additional analysis indicate a shallow genetic differentiation of three subgroups consisting of (3a) Thailand, (3b) Taiwan and Hong-Kong, and (3c) a cluster of Singapore–Indonesia samples. Overall, the population structure found in this study suggests that the markers used could be useful in identifying source populations, particularly between the three mains world regions. Most surprisingly however, this study shows that the genetic diversity of samples collected from vessel intercepts and incursions did not differ significantly from established populations in Southeast Asia. In this region, in addition to the high vessel connectivity and number of P. viridis transported, all sampled populations are likely to pose a comparable risk in terms of genetic diversity. The present work represents the most comprehensive population genetic study of P. viridis, and the first to address the potential genetic introduction risk posed by populat

Published

2018

3. Establishment of a taxonomic and molecular reference collection to support the identification of species regulated by the Western Australian Prevention List for Introduced Marine Pests

Author

Dias, P. Joana, Fotedar, Seema, Munoz, Julieta, Hewitt, Matthew J., Lukehurst, Sherralee, Hourston, Matthew, Wellington, Claire, Duggan, Roger, Bridgwood, Samantha, Massam, Marion, Aitken, Victoria, de Lestang, Paul, McKirdy, Simon, Willan, Richard, Kirkendale, Lisa, Giannetta, Jennifer, Corsini-Foka, M., Pothoven, Steve, Gower, Fiona, Viard, Frédérique, Buschbaum, Christian, Scarcella, Giuseppe, Strafella, Pierluigi, Bishop, Melanie J., Sullivan, Timothy, Buttino, I., Madduppa, Hawis, Huhn, Mareike, Zabin, Chela J., Bacela-Spychalska, Karolina, Wojcik-Fudalewska, Dagmara, Markert, A., Maximov, Alexey, Kautsky, Lena, Jaspers, Cornelia, Kotta, Jonne, Pärnoja, Merli, Robledo, Daniel, Tsiamis, Konstantinos, Küpper, F. C., Zuljecic, Ante, McDonald, Justin I., Snow, Michael, Dias, P. Joana, Fotedar, Seema, Munoz, Julieta, Hewitt, Matthew J., Lukehurst, Sherralee, Hourston, Matthew, Wellington, Claire, Duggan, Roger, Bridgwood, Samantha, Massam, Marion, Aitken, Victoria, de Lestang, Paul, McKirdy, Simon, Willan, Richard, Kirkendale, Lisa, Giannetta, Jennifer, Corsini-Foka, M., Pothoven, Steve, Gower, Fiona, Viard, Frédérique, Buschbaum, Christian, Scarcella, Giuseppe, Strafella, Pierluigi, Bishop, Melanie J., Sullivan, Timothy, Buttino, I., Madduppa, Hawis, Huhn, Mareike, Zabin, Chela J., Bacela-Spychalska, Karolina, Wojcik-Fudalewska, Dagmara, Markert, A., Maximov, Alexey, Kautsky, Lena, Jaspers, Cornelia, Kotta, Jonne, Pärnoja, Merli, Robledo, Daniel, Tsiamis, Konstantinos, Küpper, F. C., Zuljecic, Ante, McDonald, Justin I., and Snow, Michael

Published

2017

4. Establishment of a taxonomic and molecular reference collection to support the identification of species regulated by the Western Australian Prevention List for Introduced Marine Pests

Author

Dias, P. Joana, Fotedar, Seema, Munoz, Julieta, Hewitt, Matthew J., Lukehurst, Sherralee, Hourston, Mathew, Wellington, Claire, Duggan, Roger, Bridgwood, Samantha, Massam, Marion, Aitken, Victoria, de Lestang, Paul, McKirdy, Simon, Willan, Richard, Kirkendale, Lisa, Giannetta, Jennifer, Corsini-Foka, Maria, Pothoven, Steve, Gower, Fiona, Viard, Frederique, Buschbaum, Christian, Scarcella, Giuseppe, Strafella, Pierluigi, Bishop, Melanie J., Sullivan, Timothy, Buttino, Isabella, Madduppa, Hawis, Huhn, Mareike, Zabin, Chela J., Bacela-Spychalska, Karolina, Wojcik-Fudalewska, Dagmara, Markert, Alexandra, Maximov, Alexey, Kautsky, Lena, Jaspers, Cornelia, Kotta, Jonne, Parnoja, Merli, Robledo, Daniel, Tsiamis, Konstantinos, Kupper, Frithjof C., Zuljevic, Ante, McDonald, Justin I., Snow, Michael, Dias, P. Joana, Fotedar, Seema, Munoz, Julieta, Hewitt, Matthew J., Lukehurst, Sherralee, Hourston, Mathew, Wellington, Claire, Duggan, Roger, Bridgwood, Samantha, Massam, Marion, Aitken, Victoria, de Lestang, Paul, McKirdy, Simon, Willan, Richard, Kirkendale, Lisa, Giannetta, Jennifer, Corsini-Foka, Maria, Pothoven, Steve, Gower, Fiona, Viard, Frederique, Buschbaum, Christian, Scarcella, Giuseppe, Strafella, Pierluigi, Bishop, Melanie J., Sullivan, Timothy, Buttino, Isabella, Madduppa, Hawis, Huhn, Mareike, Zabin, Chela J., Bacela-Spychalska, Karolina, Wojcik-Fudalewska, Dagmara, Markert, Alexandra, Maximov, Alexey, Kautsky, Lena, Jaspers, Cornelia, Kotta, Jonne, Parnoja, Merli, Robledo, Daniel, Tsiamis, Konstantinos, Kupper, Frithjof C., Zuljevic, Ante, McDonald, Justin I., and Snow, Michael

Abstract

Introduced Marine Pests (IMP, = non-indigenous marine species) prevention, early detection and risk-based management strategies have become the priority for biosecurity operations worldwide, in recognition of the fact that, once established, the effective management of marine pests can rapidly become cost prohibitive or impractical. In Western Australia (WA), biosecurity management is guided by the Western Australian Prevention List for Introduced Marine Pests which is a policy tool that details species or genera as being of high risk to the region. This list forms the basis of management efforts to prevent introduction of these species, monitoring efforts to detect them at an early stage, and rapid response should they be detected. It is therefore essential that the species listed can be rapid and confidently identified and discriminated from native species by a range of government and industry stakeholders. Recognising that identification of these species requires very specialist expertise which may be in short supply and not readily accessible in a regulatory environment, and the fact that much publicly available data is not verifiable or suitable for regulatory enforcement, the WA government commissioned the current project to collate a reference collection of these marine pest specimens. In this work, we thus established collaboration with researchers worldwide in order to source representative specimens of the species listed. Our main objective was to build a reference collection of taxonomically vouchered specimens and subsequently to generate species-specific DNA barcodes suited to supporting their future identification. To date, we were able to obtain specimens of 75 species (representative of all but four of the pests listed) which have been identified by experts and placed with the WA Government Department of Fisheries and, where possible, in accessible museums and institutions in Australasia. The reference collection supports the fast and reliable taxono

Published

2017

5. Establishment of a taxonomic and molecular reference collection to support the identification of species regulated by the Western Australian Prevention List for Introduced Marine Pests

Author

Dias, P. Joana, Fotedar, Seema, Munoz, Julieta, Hewitt, Matthew J., Lukehurst, Sherralee, Hourston, Matthew, Wellington, Claire, Duggan, Roger, Bridgwood, Samantha, Massam, Marion, Aitken, Victoria, de Lestang, Paul, McKirdy, Simon, Willan, Richard, Kirkendale, Lisa, Giannetta, Jennifer, Corsini-Foka, M., Pothoven, Steve, Gower, Fiona, Viard, Frédérique, Buschbaum, Christian, Scarcella, Giuseppe, Strafella, Pierluigi, Bishop, Melanie J., Sullivan, Timothy, Buttino, I., Madduppa, Hawis, Huhn, Mareike, Zabin, Chela J., Bacela-Spychalska, Karolina, Wojcik-Fudalewska, Dagmara, Markert, A., Maximov, Alexey, Kautsky, Lena, Jaspers, Cornelia, Kotta, Jonne, Pärnoja, Merli, Robledo, Daniel, Tsiamis, Konstantinos, Küpper, F. C., Zuljecic, Ante, McDonald, Justin I., Snow, Michael, Dias, P. Joana, Fotedar, Seema, Munoz, Julieta, Hewitt, Matthew J., Lukehurst, Sherralee, Hourston, Matthew, Wellington, Claire, Duggan, Roger, Bridgwood, Samantha, Massam, Marion, Aitken, Victoria, de Lestang, Paul, McKirdy, Simon, Willan, Richard, Kirkendale, Lisa, Giannetta, Jennifer, Corsini-Foka, M., Pothoven, Steve, Gower, Fiona, Viard, Frédérique, Buschbaum, Christian, Scarcella, Giuseppe, Strafella, Pierluigi, Bishop, Melanie J., Sullivan, Timothy, Buttino, I., Madduppa, Hawis, Huhn, Mareike, Zabin, Chela J., Bacela-Spychalska, Karolina, Wojcik-Fudalewska, Dagmara, Markert, A., Maximov, Alexey, Kautsky, Lena, Jaspers, Cornelia, Kotta, Jonne, Pärnoja, Merli, Robledo, Daniel, Tsiamis, Konstantinos, Küpper, F. C., Zuljecic, Ante, McDonald, Justin I., and Snow, Michael

Published

2017

6. Establishment of a taxonomic and molecular reference collection to support the identification of species regulated by the Western Australian Prevention List for Introduced Marine Pests

Author

Dias, Joana P., Fotedar, Seema, Muenoz, Julieta, Hewitt, Matthew J., Lukehurst, Sherralee, Hourston, Mathew, Wellington, Claire, Duggan, Roger, Bridgwood, Samantha, Massam, Marion, Aitken, Victoria, Lestang, Paul de, McKirdy, Simon, Willan, Richard, Kirkendale, Lisa, Giannetta, Jennifer, Corsini-Foka, Maria, Pothoven, Steve, Gower, Fiona, Viard, Frédérique, Buschbaum, Christian, Scarcella, Giuseppe, Strafella, Pierluigi, Bishop, Melanie J., Sullivan, Timothy, Buttino, Isabella, Madduppa, Hawis, Huhn, Mareike, Zabin , Chela J., Bacela-Spychalska, Karolina, Wójcik-Fudalewska, Dagmara, Markert, Alexandra, Maximov, Alexey, Kautsky, Lena, Jaspers, Cornelia, Kotta, Jonne, Pärnoja, Merli, Robledo, Daniel, Tsiamis, Konstantinos, Küpper, Frithjof C., Žuljević, Ante, McDonald, Justin I., Snow, Michael, Dias, Joana P., Fotedar, Seema, Muenoz, Julieta, Hewitt, Matthew J., Lukehurst, Sherralee, Hourston, Mathew, Wellington, Claire, Duggan, Roger, Bridgwood, Samantha, Massam, Marion, Aitken, Victoria, Lestang, Paul de, McKirdy, Simon, Willan, Richard, Kirkendale, Lisa, Giannetta, Jennifer, Corsini-Foka, Maria, Pothoven, Steve, Gower, Fiona, Viard, Frédérique, Buschbaum, Christian, Scarcella, Giuseppe, Strafella, Pierluigi, Bishop, Melanie J., Sullivan, Timothy, Buttino, Isabella, Madduppa, Hawis, Huhn, Mareike, Zabin , Chela J., Bacela-Spychalska, Karolina, Wójcik-Fudalewska, Dagmara, Markert, Alexandra, Maximov, Alexey, Kautsky, Lena, Jaspers, Cornelia, Kotta, Jonne, Pärnoja, Merli, Robledo, Daniel, Tsiamis, Konstantinos, Küpper, Frithjof C., Žuljević, Ante, McDonald, Justin I., and Snow, Michael

Abstract

Introduced Marine Pests (IMP, = non-indigenous marine species) prevention, early detection and risk-based management strategies have become the priority for biosecurity operations worldwide, in recognition of the fact that, once established, the effective management of marine pests can rapidly become cost prohibitive or impractical. In Western Australia (WA), biosecurity management is guided by the “Western Australian Prevention List for Introduced Marine Pests” which is a policy tool that details species or genera as being of high risk to the region. This list forms the basis of management efforts to prevent introduction of these species, monitoring efforts to detect them at an early stage, and rapid response should they be detected. It is therefore essential that the species listed can be rapid and confidently identified and discriminated from native species by a range of government and industry stakeholders. Recognising that identification of these species requires very specialist expertise which may be in short supply and not readily accessible in a regulatory environment, and the fact that much publicly available data is not verifiable or suitable for regulatory enforcement, the WA government commissioned the current project to collate a reference collection of these marine pest specimens. In this work, we thus established collaboration with researchers worldwide in order to source representative specimens of the species listed. Our main objective was to build a reference collection of taxonomically vouchered specimens and subsequently to generate species-specific DNA barcodes suited to supporting their future identification. To date, we were able to obtain specimens of 75 species (representative of all but four of the pests listed) which have been identified by experts and placed with the WA Government Department of Fisheries and, where possible, in accessible museums and institutions in Australasia. The reference collection supports the fast and reliable taxo

Published

2017

7. Influence of re-orientation on alignment to flow and tissue production in a Spongia sp.(Porifera:Demospongiae:Dictyoceratida)

Author

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

Abstract

Spongia individuals on intertidal reefs in Darwin Harbour displayed a distinct tendency to orientate towards a strong uni-directional water flow, their longest axis facing across the water current. Individuals rotated by 90° re-orientated tissue to face across the prevailing currents. There were significant differences in growth between re-orientated sponges, and both moved control and undisturbed control treatments. Compared to mean growth rates of -1.27 cm year-1 (from undisturbed controls) and - 1.68 cm year-1 (from moved controls), re-orientated individuals had significantly higher growth rates (46.15 cm year-1). Increased volumetric growth of re-orientated individuals was not a result of re-arrangement of existing tissue but a consequence of the production of more sponge tissue, evident by an increase in sponge volume. Increased tissue production identified in this study may be beneficial to researchers growing sponges for aquaculture purposes.

Published

2003

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

Author

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

Published

2002