New digital deep-time exploration tools for a low-emissions economy. Demand for critical minerals will soar as renewable energy generation increases, but exploration companies currently cannot take full advantage of available exploration data in an Earth evolution context. This project will generate new knowledge in big and complex geodata analysis using an innovative data mining approach. It will enable Lithodat, a small enterprise, to perform cloud-based plate tectonic reconstruction, visualis ....New digital deep-time exploration tools for a low-emissions economy. Demand for critical minerals will soar as renewable energy generation increases, but exploration companies currently cannot take full advantage of available exploration data in an Earth evolution context. This project will generate new knowledge in big and complex geodata analysis using an innovative data mining approach. It will enable Lithodat, a small enterprise, to perform cloud-based plate tectonic reconstruction, visualisation and spatio-temporal analysis of geodata for resource exploration. The outcomes include an enhanced capacity to generate ore prospectivity maps and an improved understanding of their tectonic, geochemical, and geophysical signatures, benefiting Lithodat and their clients in the search for new mineral deposits.Read moreRead less
The global consequences of subduction zone congestion. This project will use a combination of 3D geodynamic modelling, plate kinematic reconstruction and geological and geophysical synthesis to determine how congested subduction zones influence plate kinematics, subduction dynamics and tectonic evolution at orogen and global scales. The project aims to deliver a transformation change in understanding the links between congested subduction, mantle flow, trench migration, crustal growth, transitio ....The global consequences of subduction zone congestion. This project will use a combination of 3D geodynamic modelling, plate kinematic reconstruction and geological and geophysical synthesis to determine how congested subduction zones influence plate kinematics, subduction dynamics and tectonic evolution at orogen and global scales. The project aims to deliver a transformation change in understanding the links between congested subduction, mantle flow, trench migration, crustal growth, transitions between stable convergent margin configurations and deformation in the overriding plates of subduction zones. Determining these relationships is significant because it will provide dynamic context to interpret the geological record of ancient convergent margins, which host a large percentage of Earth's metal resources.Read moreRead less
Understanding planetary-scale reorganisations in plate tectonics. This project aims to investigate the dynamics of Earth’s tectonics and its plate motions, with the aim of understanding the mechanisms that force single plates or whole-Earth motions’ changes. The Earth’s tectonics follow regular cycles, in every ~500 million years, of continental aggregation and dispersal, which are intervened by periodic destabilisation and rapid reorganisations. What causes the reorganisations and reversal of t ....Understanding planetary-scale reorganisations in plate tectonics. This project aims to investigate the dynamics of Earth’s tectonics and its plate motions, with the aim of understanding the mechanisms that force single plates or whole-Earth motions’ changes. The Earth’s tectonics follow regular cycles, in every ~500 million years, of continental aggregation and dispersal, which are intervened by periodic destabilisation and rapid reorganisations. What causes the reorganisations and reversal of the tectonics remain standing questions in planetary dynamics. The expected outcomes of the project will provide an understanding of the recent supercontinent formation and its fragmentation into the present-day continents.Read moreRead less