The behaviour-genetics of NAPLAN data: Increasing power for complex analyses. This longitudinal behaviour-genetic study of the National Assessment Program – Literacy and Numeracy (NAPLAN) results at Grades 3, 5, 7 and 9 will continue to document the influence of genes and environmental factors on individual differences in school achievement. It aims to strengthen the longitudinal aspects of the data, allowing the project to identify sources of stability and change across the seven school years o ....The behaviour-genetics of NAPLAN data: Increasing power for complex analyses. This longitudinal behaviour-genetic study of the National Assessment Program – Literacy and Numeracy (NAPLAN) results at Grades 3, 5, 7 and 9 will continue to document the influence of genes and environmental factors on individual differences in school achievement. It aims to strengthen the longitudinal aspects of the data, allowing the project to identify sources of stability and change across the seven school years of the NAPLAN. It also aims to increase numbers in the low and high tails of the score distributions, creating a clearer picture of deficits like dyslexia and dyscalculia, and allow for firmer identification of gene-by-environment interactions. The project aims to further illuminate any differential effectiveness of schools and teachers on student outcomes, a topic of high public interest.Read moreRead less
Simulation studies of gene flow and genetic diversity in heterogeneous landscapes. Conserving genetic diversity is essential for sustaining healthy animal and plant populations. The project findings will aid in development of efficient strategies to minimise genetic diversity loss and facilitate its recovery, thereby assisting in restoration of endangered species, conserving natural ecosystems, and sustainable resource use. Genetic engineering offers the potential for enormous social and economi ....Simulation studies of gene flow and genetic diversity in heterogeneous landscapes. Conserving genetic diversity is essential for sustaining healthy animal and plant populations. The project findings will aid in development of efficient strategies to minimise genetic diversity loss and facilitate its recovery, thereby assisting in restoration of endangered species, conserving natural ecosystems, and sustainable resource use. Genetic engineering offers the potential for enormous social and economic benefits, but raises strong public concerns about genetic pollution. The project will improve our understanding of this risk, helping Australians to benefit from the opportunities offered by the genetic revolution without fearing their impact on natural systems. Read moreRead less
Choosing when to be sexual: clonal and sexual reproduction in a population of honey bees. Sex is costly. There is the cost of finding a mate and the genome of offspring must be shared with the mating partner. Despite these costs, sex is common in animals, so the benefits of sex must be substantial. Benefits may include the prevention of inbreeding and generating variable offspring. Exploring the trade off between sex and cloning requires a model system where individuals can choose to reproduce ....Choosing when to be sexual: clonal and sexual reproduction in a population of honey bees. Sex is costly. There is the cost of finding a mate and the genome of offspring must be shared with the mating partner. Despite these costs, sex is common in animals, so the benefits of sex must be substantial. Benefits may include the prevention of inbreeding and generating variable offspring. Exploring the trade off between sex and cloning requires a model system where individuals can choose to reproduce sexually or asexually. This project will explore a population of honey bees where a genetic mutation allows queens to clone themselves or reproduce sexually. We will reveal the unusual genetic mechanisms behind this ability and show how they are used by queens and workers to increase their reproductive success.Read moreRead less
Patterns of connectivity and hot-spots of recruitment: a basis for prioritising high value coastal rivers. Provision of water for agricultural, industrial and residential use is becoming increasingly difficult in Australia. By determining the need for important migratory fish species to have access to marine conditions, this project aims to assist managers to identify river systems where changing flow patterns will be particularly detrimental. The project will provide information about the ne ....Patterns of connectivity and hot-spots of recruitment: a basis for prioritising high value coastal rivers. Provision of water for agricultural, industrial and residential use is becoming increasingly difficult in Australia. By determining the need for important migratory fish species to have access to marine conditions, this project aims to assist managers to identify river systems where changing flow patterns will be particularly detrimental. The project will provide information about the need for artificial opening of estuary mouths, fish ladders and other practical means to ensure the continued survival of these species. Read moreRead less
Developing DNA tracking methods to identify illegally logged timber products from Africa. Illegal logging causes societal and environmental forest degradation, and is a high priority for international control. This project will produce a range of DNA methods that allow the tracing of the geographic source of origin for timber products from African tropical forests that will allow producers and consumers to better market and choose their products.
eGenomics - Next generation biomonitoring of threatened species. DNA is the molecule of life and exists everywhere in the environment as a largely untapped source of information on evolution, biodiversity, and ecosystem health. Our overriding aim is to start mining that information to benefit threatened species. Based on optimized ancient DNA methods, powerful sequencing technology, whole genome analyses, and RNA profiling, we present a novel and holistic framework for genetic biomonitoring. In ....eGenomics - Next generation biomonitoring of threatened species. DNA is the molecule of life and exists everywhere in the environment as a largely untapped source of information on evolution, biodiversity, and ecosystem health. Our overriding aim is to start mining that information to benefit threatened species. Based on optimized ancient DNA methods, powerful sequencing technology, whole genome analyses, and RNA profiling, we present a novel and holistic framework for genetic biomonitoring. In two parallel model systems we will study corals and reptiles to improve environmental detection while simultaneously obtaining information on their population health. This will foster more efficient conservation of endangered species that are of tremendous importance to our marine and terrestrial ecosystems.Read moreRead less
Seascape genetics for shark management: an innovation in sustainable fisheries modelling. This project will use novel genetic, chemical and spatial modelling techniques to assess the long-term viability of bronze whaler and dusky shark fisheries in southern Australia. Results will be used to implement sustainable management of the fisheries to ensure persistence of these threatened sharks.
Evolution, disease and extinction - using ancient and modern Deoxyribonucleic acid (DNA) to investigate molecular evolution in the Tasmanian devil. The Tasmanian devil is Australia's largest living marsupial carnivore and one of Tasmania's key tourism icons. Extinction in the wild will have long-term impacts on Tasmanian native ecosystems and economy. This study will provide critical genetic data and tools to monitor and prioritise conservation strategies, including insurance populations and dis ....Evolution, disease and extinction - using ancient and modern Deoxyribonucleic acid (DNA) to investigate molecular evolution in the Tasmanian devil. The Tasmanian devil is Australia's largest living marsupial carnivore and one of Tasmania's key tourism icons. Extinction in the wild will have long-term impacts on Tasmanian native ecosystems and economy. This study will provide critical genetic data and tools to monitor and prioritise conservation strategies, including insurance populations and disease suppression, aimed at preventing extinction. It will strengthen ongoing conservation programs carried out by the Save the Tasmanian Devil Program and will help publicise the plight of the devil both nationally and internationally.Read moreRead less
Genetic variation without sex: frequency-dependent selection and the maintenance of variation in asexual organisms. The proposed research will gain insight into one of the most fundamental yet puzzling questions in evolutionary biology and determine the generality of frequency-dependent selection as a mechanism for maintaining variation in asexual organisms. The results will have broad appeal, both internationally and nationally, and will also provide insight into why most species reproduce sexu ....Genetic variation without sex: frequency-dependent selection and the maintenance of variation in asexual organisms. The proposed research will gain insight into one of the most fundamental yet puzzling questions in evolutionary biology and determine the generality of frequency-dependent selection as a mechanism for maintaining variation in asexual organisms. The results will have broad appeal, both internationally and nationally, and will also provide insight into why most species reproduce sexually. The results will also help in the development of two asexual species as environmental indicators by linking clones with specific environmental changes. These indicator clones could then be adopted by natural resource managers to monitor environmental pollution and contamination.Read moreRead less
Can lateral gene transfer lead to ecological innovation in eukaryotes? The role of saxitoxin in the diversification of Alexandrium. This project will determine the processes that led to the acquisition and diversification of the genetic basis for a potent neurotoxin, saxitoxin. This project will determine its impact on the evolution of the marine producing organisms and investigate novel genetic methods of toxin detection.