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Delivering Benefits from Nature in a Highly Connected World . This project aims to improve knowledge of the implications of global flows of ecosystem services (the benefits people receive from nature) for achieving sustainable land use by developing novel predictive models and decision tools. The project is significant because it will resolve the complex challenge of assessing land use strategies when land use change has impacts on ecosystem service provision locally and globally. Expected outco ....Delivering Benefits from Nature in a Highly Connected World . This project aims to improve knowledge of the implications of global flows of ecosystem services (the benefits people receive from nature) for achieving sustainable land use by developing novel predictive models and decision tools. The project is significant because it will resolve the complex challenge of assessing land use strategies when land use change has impacts on ecosystem service provision locally and globally. Expected outcomes will be new evidence for the effect of land use change on the global distribution of ecosystem service benefits and how ecosystem services trade-off against each other. This should provide significant benefits by enabling better assessment of land use policy in an increasingly highly connected world.Read moreRead less
Preventing mining disasters: reducing the risk of tailings dam failure. This project aims to improve safety of tailings storage facilities (TSFs). Mineral processing produces waste called tailings, being mixtures of water and soil-sized particles. Tailings are stored on sites contained by embankments made from soil or a coarse component of tailings. Sections of the TSFs are partially saturated, have high concentrations of fine particles and physically change with age. Their resistance to earthqu ....Preventing mining disasters: reducing the risk of tailings dam failure. This project aims to improve safety of tailings storage facilities (TSFs). Mineral processing produces waste called tailings, being mixtures of water and soil-sized particles. Tailings are stored on sites contained by embankments made from soil or a coarse component of tailings. Sections of the TSFs are partially saturated, have high concentrations of fine particles and physically change with age. Their resistance to earthquake loading and liquefaction, and strength post-earthquake, arising from these properties are poorly understood and can not be quantified reliably so will be addressed here. Anticipated outcomes will be updated industry guidelines for the design and management of TSFs. Mines will benefit and failures will be prevented.Read moreRead less
Quantifying the economic and social impacts of drought in rural Australia. Climate-change research predicts drought is likely to increase its frequency, duration and severity, drastically challenging Australian agriculture and rural societies. The aim of this project is to use innovative techniques to analyse (i) national datasets to determine the economic and social impacts of droughts in rural and regional Australia; and (ii) the results of a national survey to estimate and understand farmers’ ....Quantifying the economic and social impacts of drought in rural Australia. Climate-change research predicts drought is likely to increase its frequency, duration and severity, drastically challenging Australian agriculture and rural societies. The aim of this project is to use innovative techniques to analyse (i) national datasets to determine the economic and social impacts of droughts in rural and regional Australia; and (ii) the results of a national survey to estimate and understand farmers’ drought adaptation responses to carbon-credit market signals. The outcomes are expected to be a major step in developing and implementing cost-effective drought policies and services to minimise its complex impacts, strengthen rural and regional community resilience, and enhance sustainable agriculture in Australia. Read moreRead less
Financial Innovation and Sustainable Solutions for Electricity Markets. This project aims to investigate financial innovation for electricity markets that are transforming from fossil-fuel fired power generation to a higher share of renewable energy. The project will create new knowledge on impacts of the decarbonisation of power markets, utilising cutting-edge econometric models, innovative financial products and new measures for market performance and financial risk. Expected outcomes of the p ....Financial Innovation and Sustainable Solutions for Electricity Markets. This project aims to investigate financial innovation for electricity markets that are transforming from fossil-fuel fired power generation to a higher share of renewable energy. The project will create new knowledge on impacts of the decarbonisation of power markets, utilising cutting-edge econometric models, innovative financial products and new measures for market performance and financial risk. Expected outcomes of the project include recommendations for facilitating investment into renewable energy, pricing intermittent generation, guidelines for stress tests and sustainable energy policy. This will help regulators and market participants to better ensure the long-term economic sustainability and financial resilience of the sector.Read moreRead less
Antimony geochemistry and Earth's dynamic near-surface iron cycle. This project aims to advance our fundamental understanding on the geochemistry of antimony – a critical mineral resource and environmental pollutant of growing concern. This will be achieved by pioneering an innovative combination of advanced synchrotron-based tools and sophisticated isotopic approaches to unravel important interactions between antimony geochemistry and the iron cycle in soils, sediments and aquatic systems. The ....Antimony geochemistry and Earth's dynamic near-surface iron cycle. This project aims to advance our fundamental understanding on the geochemistry of antimony – a critical mineral resource and environmental pollutant of growing concern. This will be achieved by pioneering an innovative combination of advanced synchrotron-based tools and sophisticated isotopic approaches to unravel important interactions between antimony geochemistry and the iron cycle in soils, sediments and aquatic systems. The expected outcomes will provide novel insights into refined strategies to manipulate coupling between antimony mobility and iron cycling for improved rehabilitation of degraded landscapes, safe disposal of hazardous wastes and sustainable exploitation of Australia’s valuable antimony reserves.Read moreRead less
Quantifying kelp carbon and nutrient flows for nature-based solutions . This fellowship aims to resolve carbon removal and nutrient mitigation potential of Australia’s kelp forests now and in future. It will create new understanding of the ecosystem services provided by the Great Southern Reef, and the capacity of kelp forests to provide nature-based solutions to reduce emissions and improve coastal water quality. Using a combination of global models and ecological experiments on kelp forests an ....Quantifying kelp carbon and nutrient flows for nature-based solutions . This fellowship aims to resolve carbon removal and nutrient mitigation potential of Australia’s kelp forests now and in future. It will create new understanding of the ecosystem services provided by the Great Southern Reef, and the capacity of kelp forests to provide nature-based solutions to reduce emissions and improve coastal water quality. Using a combination of global models and ecological experiments on kelp forests and their replacement ecosystem states, the fellowship will predict changes in function with warming. This information is critical to determine net ecosystem mitigation potential and will significantly advance our understanding of the potential of kelp forests to generate co-benefits while conserving biodiversity. Read moreRead less
Advancing resilience theory and practice for water resource management. Water resources in Australia and worldwide are under severe stress, for example from drought and water demand. This project aims to investigate how water and other natural resources can be managed to build resilience to such stresses. The project expects to develop advances in resilience theory that generate new model-based tools for resilient decision-making. These advances will be tested in a model of water resource manage ....Advancing resilience theory and practice for water resource management. Water resources in Australia and worldwide are under severe stress, for example from drought and water demand. This project aims to investigate how water and other natural resources can be managed to build resilience to such stresses. The project expects to develop advances in resilience theory that generate new model-based tools for resilient decision-making. These advances will be tested in a model of water resource management in north-central Victoria. Expected outcomes of the project include increased decision-maker capability to respond to threats to water and other natural resources. Such outcomes will help ensure the sustainability of increasingly highly stressed natural resources in Australia and worldwide.Read moreRead less
Dead Heart Beating? Landscape, Climate and People in Desert Australia. This project aims to undertake the first detailed investigation of the archaeology, landscape history and paleoenvironment of dryland lakes in the Simpson, Strzelecki and Stuart Stony Deserts in Central Australia. Using cutting edge methods, the project expects to discover new archaeological sites, provide a new climate record for inland Australia and develop innovative new analytical and field techniques. Expected benefits a ....Dead Heart Beating? Landscape, Climate and People in Desert Australia. This project aims to undertake the first detailed investigation of the archaeology, landscape history and paleoenvironment of dryland lakes in the Simpson, Strzelecki and Stuart Stony Deserts in Central Australia. Using cutting edge methods, the project expects to discover new archaeological sites, provide a new climate record for inland Australia and develop innovative new analytical and field techniques. Expected benefits also include the development of new cutting-edge methodologies for the investigation of Australian desert landscapes, comprehensive baseline data of how this region has evolved prior to European colonization and resolving why no Pleistocene aged archaeological sites have been found in the region.Read moreRead less
Linking risks to ecosystems with risks to human well-being. This project aims to provide theory and practical guidelines to integrate ecosystem science into policy and action to address human well-being. Ecosystem risk assessment provides critical information for conservation, and has compelling but unexplored relationships with human health and nature’s benefits to people. The research will identify ecosystem measures that highlight areas of risk to human well-being as well as biodiversity. Exp ....Linking risks to ecosystems with risks to human well-being. This project aims to provide theory and practical guidelines to integrate ecosystem science into policy and action to address human well-being. Ecosystem risk assessment provides critical information for conservation, and has compelling but unexplored relationships with human health and nature’s benefits to people. The research will identify ecosystem measures that highlight areas of risk to human well-being as well as biodiversity. Expected outcomes include new standards for including ecosystem change in policy frameworks globally and in Australia, such as natural capital accounting and United Nations Sustainable Development Goals. Benefits include improved ways of meeting and tracking progress on Australia’s international commitments.Read moreRead less
Atomically thin membranes to transform chemical separations. Energy-efficient chemical separation is at the heart of modern resource and manufacturing industries, central to a prosperous and sustainable Australia. This project aims to develop next generation membrane technologies to transform chemical separations by employing recent breakthrough in materials discovery and nanofluidics. Expected outcomes include new fundamental understandings on sub-continuum transport physics and new atomically ....Atomically thin membranes to transform chemical separations. Energy-efficient chemical separation is at the heart of modern resource and manufacturing industries, central to a prosperous and sustainable Australia. This project aims to develop next generation membrane technologies to transform chemical separations by employing recent breakthrough in materials discovery and nanofluidics. Expected outcomes include new fundamental understandings on sub-continuum transport physics and new atomically thin membranes that enable energy-efficient separations for processing challenging streams beyond water purification. This project aims to position Australia at the forefront of sustainable separation technology and make the local resource and manufacturing industries more sustainable and globally competitive.Read moreRead less