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Earth's best-preserved Archean boninites: do they finally resolve the Archean mantle plume - plate tectonics controversy? Subduction typically starts on the modern Earth with the eruption of chemically distinctive rocks known as boninites. This project will study remarkably well preserved 2.85 billion year old boninites from Western Australia that may finally establish whether modern-style plate tectonics operated in the first half of Earth's history.
Unmixing in Magmas: Melt and Fluid Inclusion Constraints on Identity, Timing, and Evolution of Immiscible Fluids, Salt and Sulphide Melts. Much of the research proposed herein genuinely breaks new ground in both the fields of igneous petrology and ore deposit geology. It will contribute to Australia maintaining a leading role (as identified in "Towards 2005 - a prospectus for research and training in the Australian Earth sciences") in the burgeoning field of melt inclusion research, and serve as ....Unmixing in Magmas: Melt and Fluid Inclusion Constraints on Identity, Timing, and Evolution of Immiscible Fluids, Salt and Sulphide Melts. Much of the research proposed herein genuinely breaks new ground in both the fields of igneous petrology and ore deposit geology. It will contribute to Australia maintaining a leading role (as identified in "Towards 2005 - a prospectus for research and training in the Australian Earth sciences") in the burgeoning field of melt inclusion research, and serve as a training base for young researchers keen to learn the techniques and methodologies involved. The possible outcomes of the project are of wide interest to geoscientists, and may benefit the Australian economy in that they help to predict whether the magmas have experienced exsolution of a metal-rich fluid.Read moreRead less
The copper-gold fertility of mountain belts. This project aims to identify the timing of, and understand the causes of, sulphide saturation in granitic suites to test the hypothesis that sulphide saturation controls the fertility of copper-gold deposits. More than half of the world’s copper and gold comes from granitic rocks, but most granitic suites are barren. As copper-gold deposits become increasingly difficult to find, and exploration budgets have been slashed, it is critical to reliably di ....The copper-gold fertility of mountain belts. This project aims to identify the timing of, and understand the causes of, sulphide saturation in granitic suites to test the hypothesis that sulphide saturation controls the fertility of copper-gold deposits. More than half of the world’s copper and gold comes from granitic rocks, but most granitic suites are barren. As copper-gold deposits become increasingly difficult to find, and exploration budgets have been slashed, it is critical to reliably distinguish ore bearing from barren systems. Platinum group element geochemistry could make this distinction by pinpointing the timing of sulphide saturation in evolving magma systems. Eliminating barren suites as exploration targets will save Australia’s exploration dollars which can be directed to where the prospects of success are greatest.Read moreRead less
The new granite-gold connection. A new granite-gold connection has been recognized by the research team. This exciting breakthrough has challenged traditional concepts concerning the formation of gold deposits. Globally such deposits constitute a major economic resource (>50M.oz.), however, to find more granite-related gold we need to fully understand key issues regarding their genesis and their relationship to other granite and non-granite related deposit types. We propose to study occurrences ....The new granite-gold connection. A new granite-gold connection has been recognized by the research team. This exciting breakthrough has challenged traditional concepts concerning the formation of gold deposits. Globally such deposits constitute a major economic resource (>50M.oz.), however, to find more granite-related gold we need to fully understand key issues regarding their genesis and their relationship to other granite and non-granite related deposit types. We propose to study occurrences in the Hodgkinson Province of North Queensland, and compare this region with other granite-gold terranes in order to assess the critical ingredients in granite-gold formation. Outcomes will enhance our ability to find new gold deposits.Read moreRead less
Chronostratigraphic and tectonothermal history of the northern Capricorn Orogen: constructing a geological framework for understanding mineral systems. The application of innovative age dating techniques with field mapping and a new deep seismic survey across the Capricorn Orogen by this project will help construct a vastly improved geological framework for understanding large mineral systems. Outcomes of this project will reduce uncertainty and risk in exploration, thereby improving the discove ....Chronostratigraphic and tectonothermal history of the northern Capricorn Orogen: constructing a geological framework for understanding mineral systems. The application of innovative age dating techniques with field mapping and a new deep seismic survey across the Capricorn Orogen by this project will help construct a vastly improved geological framework for understanding large mineral systems. Outcomes of this project will reduce uncertainty and risk in exploration, thereby improving the discovery rate of natural resources.Read moreRead less
The supergiant Olympic Dam uranium-copper-gold rare earth element ore deposit: towards a new genetic model. This project will be focused on temporal and spatial relationships between crustal and mantle rocks, melts and fluids, associated with development of the Olympic Dam uranium-copper-gold rare earth element ore deposit, the largest on the planet.
A mineral systems analysis of Australia's largest gold producing deposit: Sunrise Dam Gold Mine, Western Australia. This project will augment existing mineral resources at Australia's largest current gold producing mine, and guide exploration for additional resources in the surrounding district. By understanding the genesis of this exceptional deposit, the study will spawn a new set of targeting criteria that can be used to explore for other world-class deposits in Western Australia and similar ....A mineral systems analysis of Australia's largest gold producing deposit: Sunrise Dam Gold Mine, Western Australia. This project will augment existing mineral resources at Australia's largest current gold producing mine, and guide exploration for additional resources in the surrounding district. By understanding the genesis of this exceptional deposit, the study will spawn a new set of targeting criteria that can be used to explore for other world-class deposits in Western Australia and similar geological terranes throughout the world. In the context of high and rising gold prices, the project has the potential to generate billion dollar revenues and substantial employment, and it will deliver advanced training at undergraduate and postgraduate levels. Read moreRead less
Deformational controls on the dynamics of fluid flow, hydrothermal alteration and gold mineralisation, Argo Gold deposit, WA. Detailed structural analysis, combined with major and trace element geochemistry and stable isotope geochemistry, will be used to explore the 3D evolution of fluid pathways and their relationship to growth of shear zones, vein networks and alteration patterns in the Argo shear-hosted gold deposit. The research will be used to (1) maximise the efficiency of resource defini ....Deformational controls on the dynamics of fluid flow, hydrothermal alteration and gold mineralisation, Argo Gold deposit, WA. Detailed structural analysis, combined with major and trace element geochemistry and stable isotope geochemistry, will be used to explore the 3D evolution of fluid pathways and their relationship to growth of shear zones, vein networks and alteration patterns in the Argo shear-hosted gold deposit. The research will be used to (1) maximise the efficiency of resource definition and extraction, (2) refine resource exploration models, (3) explore the dynamics of gold mineralisation processes in shear zones, and (4) advance understanding of how coupling between deformation, fluid flow, and fluid-rock reaction influence the mechanical behaviour of the Earth's crust.Read moreRead less
The Role Of Halide Melts In Platinum-Group Element Mobility. The proposed research will introduce a new, high profile application of analytical and experimental facilities at ANU, thereby maintaining Australia's standing as a world leader in the global geoscience community. The data generated in the proposed study may critically impact exploration models and assist the Australian mining industry in locating new reserves of platinum-group elements (PGE). Therefore, the study will benefit the peop ....The Role Of Halide Melts In Platinum-Group Element Mobility. The proposed research will introduce a new, high profile application of analytical and experimental facilities at ANU, thereby maintaining Australia's standing as a world leader in the global geoscience community. The data generated in the proposed study may critically impact exploration models and assist the Australian mining industry in locating new reserves of platinum-group elements (PGE). Therefore, the study will benefit the people of Australia by providing the means to find an important resource base for sustainable society. The research will be timely as Australia's future demand for the environmentally-safe PGE metals in medicine, transportation, and energy production will be very significant.Read moreRead less
Accessory minerals and trace elements as monitors of partial melting and high-grade metamorphic processes in the crust. The proposed project addresses: "How do continents work?", which has been identified as a key question in the national strategic plan for geosciences. The development of new monitors for high-grade metamorphic processes and partial melting will help to understand and explore the continental crust and will provide crucial information on deep earth resources (National Research Pr ....Accessory minerals and trace elements as monitors of partial melting and high-grade metamorphic processes in the crust. The proposed project addresses: "How do continents work?", which has been identified as a key question in the national strategic plan for geosciences. The development of new monitors for high-grade metamorphic processes and partial melting will help to understand and explore the continental crust and will provide crucial information on deep earth resources (National Research Priority 1.6). Another direct potential benefit to Australia from this work is an enhancement of the country's international research reputation. The ANU is one of the world-leading research institutions in geochemistry, geochronology and experimental petrology and the outcomes of this project will ensure that Australia remains at the forefront in these disciplines.Read moreRead less