Exploring water worlds for ecohydrologic modelling of ephemeral catchments. This project aims to identify and quantify the key processes driving the generation of streamflow in ephemeral catchments with different rainfall regimes, topography, geology, and two contrasting land uses. Four ephemeral catchments in south-western Victoria will be used as a case study to identify how these catchments store and release water. Particular focus will be directed to understanding the roles of groundwater an ....Exploring water worlds for ecohydrologic modelling of ephemeral catchments. This project aims to identify and quantify the key processes driving the generation of streamflow in ephemeral catchments with different rainfall regimes, topography, geology, and two contrasting land uses. Four ephemeral catchments in south-western Victoria will be used as a case study to identify how these catchments store and release water. Particular focus will be directed to understanding the roles of groundwater and surface runoff in supplying the streams when they flow, and how rainfall is partitioned between tree water use, groundwater recharge, and streamflow. The outcomes from experimental observations will be used to improve current hydrological models to support land and water management.Read moreRead less
Forecasting drought impacts months ahead using satellite data. Skillful seasonal water and crop forecasts could do much to help cope with drought and water-related food crises. Recent advances in hydrological modelling and satellite remote sensing of surface soil moisture, landscape water storage and vegetation biomass have created a great opportunity to produce such forecasts over large areas. This project will exploit that opportunity by assimilating the satellite observations into a global wa ....Forecasting drought impacts months ahead using satellite data. Skillful seasonal water and crop forecasts could do much to help cope with drought and water-related food crises. Recent advances in hydrological modelling and satellite remote sensing of surface soil moisture, landscape water storage and vegetation biomass have created a great opportunity to produce such forecasts over large areas. This project will exploit that opportunity by assimilating the satellite observations into a global water and vegetation forecasting model. The resulting improvement in seasonal forecasts of stream flow, soil moisture and crop production will be quantified and compared to the limited forecasts that are currently available.Read moreRead less
Authoritarian populism and livelihood change in the Philippines. This research aims to explore the impacts of authoritarian populism on development, governance, and livelihood change in the Philippines. The project will generate new knowledge on the consequences of the interrelated erosion of environmental protections, acceleration of development projects, and human rights violations for poor people in Southeast Asia. Expected outcomes of the project include new empirical insights into how poor, ....Authoritarian populism and livelihood change in the Philippines. This research aims to explore the impacts of authoritarian populism on development, governance, and livelihood change in the Philippines. The project will generate new knowledge on the consequences of the interrelated erosion of environmental protections, acceleration of development projects, and human rights violations for poor people in Southeast Asia. Expected outcomes of the project include new empirical insights into how poor, resource-reliant households respond to converging environmental and political pressures across rural and urban areas in the Philippines. Project outcomes will provide significant benefits for Australian responses to declining social and environmental safeguards occurring in the region.Read moreRead less
Large-scale and long-term storage of Hydrogen in underground reservoirs. This project aims to test effective strategies to re-use Australia’s depleted gas fields for large-scale, long-term, renewable energy storage. With Australia’s energy system undergoing a radical hydrogen-based energy transformation, a critical challenge in the years ahead will be to effectively store massive volumes of hydrogen for long periods (months and years). The overall expected outcome of this research is to fully un ....Large-scale and long-term storage of Hydrogen in underground reservoirs. This project aims to test effective strategies to re-use Australia’s depleted gas fields for large-scale, long-term, renewable energy storage. With Australia’s energy system undergoing a radical hydrogen-based energy transformation, a critical challenge in the years ahead will be to effectively store massive volumes of hydrogen for long periods (months and years). The overall expected outcome of this research is to fully understand the performance and the geological and environmental implications of long-term storage of hydrogen in empty gas fields. Benefit: this foundational scientific knowledge is crucial if Australia is to effectively bring about this new, sustainable, affordable, long-term, hydrogen-storage solution. Read moreRead less
Long-term mechanical-flow performance of an enhanced geothermal reservoir. The project aims to improve methods to generate power from geothermal energy. Extraction of heat from deep earth is promising but so far inefficient. Heat is transferred when water is pumped underground, but recovery of heat is low and much water is lost. This project aims to investigate carbon dioxide (CO2) as an alternative to water. There are excellent prospects of relatively efficient recovery, and any loss of CO2 in ....Long-term mechanical-flow performance of an enhanced geothermal reservoir. The project aims to improve methods to generate power from geothermal energy. Extraction of heat from deep earth is promising but so far inefficient. Heat is transferred when water is pumped underground, but recovery of heat is low and much water is lost. This project aims to investigate carbon dioxide (CO2) as an alternative to water. There are excellent prospects of relatively efficient recovery, and any loss of CO2 in deep-earth geothermal reservoirs is beneficial because it represents permanent sequestration of carbon. The project plans to investigate the evolution of fluid-flow systems, recovery rate, long-term injectability, and mechanical-flow behaviour. Findings are expected to provide practical information on the geomechanical viability of this green power option.Read moreRead less
Diamonds – Time Capsules of Ancient Mantle Volatiles and the Key to Dynamic Earth Evolution. This project aims to reconcile the radically different views on the structure of the Earth’s mantle, based on geochemical (mostly noble gas) and geophysical data. This objective will be addressed through innovative noble gas analyses of well-characterised diamond samples, including gem-stones used for previous dating studies. In combination with carbon isotopic results, this information will be used to c ....Diamonds – Time Capsules of Ancient Mantle Volatiles and the Key to Dynamic Earth Evolution. This project aims to reconcile the radically different views on the structure of the Earth’s mantle, based on geochemical (mostly noble gas) and geophysical data. This objective will be addressed through innovative noble gas analyses of well-characterised diamond samples, including gem-stones used for previous dating studies. In combination with carbon isotopic results, this information will be used to constrain the structure and temporal/spatial evolution of the Earth’s mantle. A related outcome will be an improved understanding of the mantle source regions of diamonds and diamond formation.Read moreRead less
3D tomographic reconstruction of rainfall using satellite signals. This project aims to use the microwave communication links of low earth and/or medium earth orbit satellites to achieve three dimensional tomographic reconstruction of rainfall. The path loss of microwave signals due to rainfall, known as rain attenuation can be used to measure rain. Similar to using X-ray to carry out human-body CT scans. With the aid of advanced signal processing techniques, the proposed method will achieve 3D ....3D tomographic reconstruction of rainfall using satellite signals. This project aims to use the microwave communication links of low earth and/or medium earth orbit satellites to achieve three dimensional tomographic reconstruction of rainfall. The path loss of microwave signals due to rainfall, known as rain attenuation can be used to measure rain. Similar to using X-ray to carry out human-body CT scans. With the aid of advanced signal processing techniques, the proposed method will achieve 3D measurements with resolution and coverage unachievable before, paving the way for innovative water relevant applications such as hydrology and agriculture, and new findings in atmospheric research.Read moreRead less
A study of China’s south to north water transfer project. This project aims to investigate the motives, processes, and socio-political and hydrological consequences of the South-North Water Transfer (SNWT) in China, the world’s largest inter-basin water network. It connects four major river basins, six provinces, three megacities and over 700 million people. This project will analyse the SNWT's governance regime; its effects on local and regional flows of water, money, people, pollutants, produc ....A study of China’s south to north water transfer project. This project aims to investigate the motives, processes, and socio-political and hydrological consequences of the South-North Water Transfer (SNWT) in China, the world’s largest inter-basin water network. It connects four major river basins, six provinces, three megacities and over 700 million people. This project will analyse the SNWT's governance regime; its effects on local and regional flows of water, money, people, pollutants, production and political authority; and the interactions between these systemic and local changes. This project expects to produce knowledge about the politics of vast technologies, and the management of inter-basin water schemes in Australia and globally.Read moreRead less
Is recruitment of marine invertebrates affected by variation in larval quality? Managing marine populations and habitats requires detailed understanding of how populations are replenished, and why some places receive more new recruits than others. Attempts to reach this understanding have been hindered by the difficulty in studying tiny larvae that live in the plankton, and for most species, recruitment is a highly variable, unexplained phenomenon. We have identified a new explanation for this ....Is recruitment of marine invertebrates affected by variation in larval quality? Managing marine populations and habitats requires detailed understanding of how populations are replenished, and why some places receive more new recruits than others. Attempts to reach this understanding have been hindered by the difficulty in studying tiny larvae that live in the plankton, and for most species, recruitment is a highly variable, unexplained phenomenon. We have identified a new explanation for this variation, and will test this explanation using a marine invertebrate that is one of Australia's marine pests. A positive result offers promise of explaining recruitment variation in other species, and will provide insight into what makes this particular pest species successful.Read moreRead less
Proppant transport in non-Darcy fracture flow for reservoir integrity/yield. Hydro-fracking of a typical gas well in Australia consumes around 3000 tonnes of proppants to keep open the created fractures, costing over $1.5 million. This project investigates proppant transport behaviour in non-Darcy turbulent flow during fracking of underground reservoir rock by combining Hele-Shaw-cell experiments with Particle Image Velocimetry and conceptual/numeric modelling. The generating advanced proppant t ....Proppant transport in non-Darcy fracture flow for reservoir integrity/yield. Hydro-fracking of a typical gas well in Australia consumes around 3000 tonnes of proppants to keep open the created fractures, costing over $1.5 million. This project investigates proppant transport behaviour in non-Darcy turbulent flow during fracking of underground reservoir rock by combining Hele-Shaw-cell experiments with Particle Image Velocimetry and conceptual/numeric modelling. The generating advanced proppant transport knowledge is expected to be more accurate than laminar flow-based theories currently relied on. Expected outcomes include more efficient/safer proppant-assisted fracking strategies to reduce wasteful proppant disposition and inform industry/government management of fracking based on the reservoir geological features.Read moreRead less