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Redox conditions in the earth's upper mantle and the implications for kimberlite petrogenesis, diamond formation and mantle metasomatism. Diamonds are an important and high value commodity. Australia is the world's leading producer in terms of carats, due mainly to the massive Argyle deposit in northern Western Australia. Although diamonds form at great depths in the earth, they are accessible at the surface because they are transported by rare volcanic rocks, kimberlites and lamproites. Despite ....Redox conditions in the earth's upper mantle and the implications for kimberlite petrogenesis, diamond formation and mantle metasomatism. Diamonds are an important and high value commodity. Australia is the world's leading producer in terms of carats, due mainly to the massive Argyle deposit in northern Western Australia. Although diamonds form at great depths in the earth, they are accessible at the surface because they are transported by rare volcanic rocks, kimberlites and lamproites. Despite their importance the genesis of these rocks is poorly understood. This research will address this, providing scientific constraints on models for formation of diamonds and their host volcanics, which will directly inform the minerals industry's exploration models. There will be an economic benefit to the nation in terms of more successful outcomes from exploration expenditure.Read moreRead less
Tracking water on planetary surfaces using data from the Curiosity rover, the laboratory, meteorites and Australian field sites. A fundamental question in science is why does Earth have so much liquid water, but other planets do not? This project will answer this question using the Curiosity rover on Mars, studying alteration minerals that record the action of water. The project will develop new methods to improve our understanding of alteration minerals in martian meteorites, under controlled ....Tracking water on planetary surfaces using data from the Curiosity rover, the laboratory, meteorites and Australian field sites. A fundamental question in science is why does Earth have so much liquid water, but other planets do not? This project will answer this question using the Curiosity rover on Mars, studying alteration minerals that record the action of water. The project will develop new methods to improve our understanding of alteration minerals in martian meteorites, under controlled environmental conditions and in field samples that are relevant for Mars. It aims to build expertise in the environmental aspects of planetary surfaces and in novel instrumentation. This research will improve methods to examine returned extraterrestrial samples, to evaluate land degradation and to search for energy and ore deposits.Read moreRead less
Earth's origin and evolution: a sulphurous approach. This project aims to shed new light on global element cycles in the deep Earth and how they connect to the evolution of the exospheres – one of the hottest topics in geosciences. It also aims to produce key knowledge of the extraction and transport of elements from the deep Earth to the surface, which may provide valuable information for resource exploration. Using novel integrated elemental and isotopic approaches, this program aims to track ....Earth's origin and evolution: a sulphurous approach. This project aims to shed new light on global element cycles in the deep Earth and how they connect to the evolution of the exospheres – one of the hottest topics in geosciences. It also aims to produce key knowledge of the extraction and transport of elements from the deep Earth to the surface, which may provide valuable information for resource exploration. Using novel integrated elemental and isotopic approaches, this program aims to track the origin and fate of sulfur, selenium and tellurium during accretion and subsequent redistribution in fluids to Earth’s surface. This new knowledge is critical to understanding how these and other elements of strategic and economic importance, such as the Platinum Group Elements, are extracted from the deep Earth and transported to the surface.Read moreRead less
Understanding mineral reactivity using computer simulations at realistic pH. The results of fundamental environmental and technological processes such as the production of alumina and the management of mine wastes largely depend on careful controlling the conditions at which the chemical reactions occur. Throughout this project, atomistic simulations will be used to unravel the effects of pH on the stability of minerals and to improve our knowledge of the dissolution and re-precipitation mechani ....Understanding mineral reactivity using computer simulations at realistic pH. The results of fundamental environmental and technological processes such as the production of alumina and the management of mine wastes largely depend on careful controlling the conditions at which the chemical reactions occur. Throughout this project, atomistic simulations will be used to unravel the effects of pH on the stability of minerals and to improve our knowledge of the dissolution and re-precipitation mechanisms of these materials. A better understanding of the basic science underpinning minerals’ reactivity will eventually translate into the development of new technologies and contribute to helping Australia’s advancement in developing a sustainable future as well as environment preservation and remediation.Read moreRead less
Producing clean energy through geomimetic chemistry. This project aims to provide new chemical pathways able to produce clean energy by following a computational geomimetic approach. It will generate new knowledge in the field of materials science, by characterising the rich mineral chemistry observed on ocean floors and in extra-terrestrial environments that is naturally able to produce fuel through harvesting carbon dioxide. Expected outcomes include a full understanding of chemical reactions ....Producing clean energy through geomimetic chemistry. This project aims to provide new chemical pathways able to produce clean energy by following a computational geomimetic approach. It will generate new knowledge in the field of materials science, by characterising the rich mineral chemistry observed on ocean floors and in extra-terrestrial environments that is naturally able to produce fuel through harvesting carbon dioxide. Expected outcomes include a full understanding of chemical reactions that are at present unexplored at a fundamental level. This will open new perspectives in their potential employment to address the contemporary challenge of producing clean energy and will generate environmental and economic benefit to the Australian and international communities.Read moreRead less
Making social cohesion ecocentric through Indigenous language and song . This project expects to develop Indigenous language and song in ways that reframe and Indigenise social cohesion, expanding it from a human-centric policy goal to include connections with everything in Country. Designing and implementing an unprecedented and sustained program of Noongar language and song revitalisation in the south of Western Australia across community, schools, and the performing arts, it should advance th ....Making social cohesion ecocentric through Indigenous language and song . This project expects to develop Indigenous language and song in ways that reframe and Indigenise social cohesion, expanding it from a human-centric policy goal to include connections with everything in Country. Designing and implementing an unprecedented and sustained program of Noongar language and song revitalisation in the south of Western Australia across community, schools, and the performing arts, it should advance the potential for Indigenous expressive culture to nourish reciprocal social and ecological relationships that are adaptable to environmental change. Emerging from a hotspot for biodiversity and global warming, it intends to explore how Indigenous creative responses can focus and spur action on pressing global challenges.
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Improved identification of patients 'at risk' of depression, and optimal targeting of rehabilitation post-stroke through novel brain imaging and biomarkers. Use of novel brain imaging and biomarkers for identification of stroke survivors at risk of depression and recurrent stroke will permit early access to preventative and effective treatments for depression and improve capacity to benefit from rehabilitation. Development of predictive models to guide selection of most optimal rehabilitation st ....Improved identification of patients 'at risk' of depression, and optimal targeting of rehabilitation post-stroke through novel brain imaging and biomarkers. Use of novel brain imaging and biomarkers for identification of stroke survivors at risk of depression and recurrent stroke will permit early access to preventative and effective treatments for depression and improve capacity to benefit from rehabilitation. Development of predictive models to guide selection of most optimal rehabilitation strategies based on viable brain will maximise the capacity for persons with stroke to reach their full potential for recovery and ensure rehabilitation is more targeted and cost efficient. Improved capacity to benefit from treatment will have ongoing benefits for activity participation and productive living in Australians who experience stroke.Read moreRead less
School retention and second chance schooling. This project is concerned with ensuring that students who experience systemic disadvantage are not excluded from the benefits of a formal education. It provides an account and critique of the growth of second chance schooling options catering to such students in both Australia and the UK.
Defining the pathways of developmental brain injury, for a healthy start to life. Injury to the developing brain, whether sustained during pregnancy or at birth, is the underlying cause of many cognitive and motor disabilities, including cerebral palsy. This project will identify the cellular pathways that cause developmental brain injury, arising from the three principal complications of pregnancy or birth; intrauterine growth restriction (IUGR), preterm birth with/without intrauterine infectio ....Defining the pathways of developmental brain injury, for a healthy start to life. Injury to the developing brain, whether sustained during pregnancy or at birth, is the underlying cause of many cognitive and motor disabilities, including cerebral palsy. This project will identify the cellular pathways that cause developmental brain injury, arising from the three principal complications of pregnancy or birth; intrauterine growth restriction (IUGR), preterm birth with/without intrauterine infection and birth asphyxia. This project will utilise this knowledge of the causal pathways leading to brain injury to implement targeted therapies to reduce injury or repair the brain. It will progress fundamental biomedical discoveries into clinical practice to decrease the incidence and severity of newborn brain injury and cerebral palsy.Read moreRead less
Predicting coastal ecological futures in an era of unprecedented change. This project aims to show how we can predict the future for coastal habitats, fisheries and biodiversity, and validate the reliability of those predictions. Global change means ecosystems are rapidly changing beyond the bounds of historical data, so we can no longer extrapolate past trajectories to predict the future. Reliable predictions are needed to help managers mitigate the risks of future human activities to the envir ....Predicting coastal ecological futures in an era of unprecedented change. This project aims to show how we can predict the future for coastal habitats, fisheries and biodiversity, and validate the reliability of those predictions. Global change means ecosystems are rapidly changing beyond the bounds of historical data, so we can no longer extrapolate past trajectories to predict the future. Reliable predictions are needed to help managers mitigate the risks of future human activities to the environment. Expected outcomes are improved techniques for making predictions that can inform the adaptive management of ecosystems. This is expected to benefit the management of the coastal zone, including fisheries and habitat restoration, which will contribute to enhancing Australia’s valuable ocean economy. Read moreRead less