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The actor and institutional dynamics in emerging socio-technical transitions. The project addresses the translation of environmental resource policies to widespread practice in the face of institutional inertia. The outcome informs the design of policy mechanisms for enabling the emergence and mainstreaming of alternative resource technologies and consolidates Australia's leadership in urban water resource management.
Can real-time control deliver environmental flows to protect urban streams? Increased frequency and severity of both droughts and floods in a changing climate accentuate the already-severe global impacts on urban streams. This project aims to test a world-first approach to tackling this problem, using advances in real-time control technology. The approach facilitates a public-private co-management of water resources, offering simultaneous benefits in water supply, flood mitigation and provision ....Can real-time control deliver environmental flows to protect urban streams? Increased frequency and severity of both droughts and floods in a changing climate accentuate the already-severe global impacts on urban streams. This project aims to test a world-first approach to tackling this problem, using advances in real-time control technology. The approach facilitates a public-private co-management of water resources, offering simultaneous benefits in water supply, flood mitigation and provision of environmental flows to maintain healthy urban streams. It has the potential to revolutionise the way we manage water in cities, providing a model for the water industry around the world in adapting to a changing climate, turning excess and damaging urban runoff into a dual resource of water supply and environmental flows.Read moreRead less
Exploring social innovations in urban water systems with a novel modelling approach. The project will investigate how wide reaching social renewal takes place in the urban water sector. With improved understanding of how social innovation works, the project will develop a computer model to assist decision-making under conditions of high uncertainty with systematic scenario analysis.
Discovery Early Career Researcher Award - Grant ID: DE160101178
Funder
Australian Research Council
Funding Amount
$344,324.00
Summary
Water Harvesting and the Cultural Politics of Resource Equity. This project aims to provide a new framework for understanding water equity challenges in urban South Asia. Equitable water access is an everyday struggle in this region. For example, in New Delhi, millions suffer from inadequate supplies, while the wealthy enjoy more than their share. The project plans to investigate how people respond to water stress by adopting techniques such as water harvesting. It also plans to examine the degr ....Water Harvesting and the Cultural Politics of Resource Equity. This project aims to provide a new framework for understanding water equity challenges in urban South Asia. Equitable water access is an everyday struggle in this region. For example, in New Delhi, millions suffer from inadequate supplies, while the wealthy enjoy more than their share. The project plans to investigate how people respond to water stress by adopting techniques such as water harvesting. It also plans to examine the degree to which water harvesting leads to social inclusion or exclusion. Through ethnographic examinations of the water values, resource subjectivities and power dynamics that influence the success of urban water harvesting, the projects intends to gain insights to improve regional water policy and aid effectiveness.Read moreRead less
Megadrought likelihood and its water resource impacts in Australia. This interdisciplinary project plans to assemble a world-class team of hydrologists, climate scientists and water managers to investigate the history and future risk of decadal to multidecadal droughts (megadroughts). Despite Australia’s vulnerability to water scarcity, the likelihood of persistent megadroughts has not been assessed in Australia. This has resulted in inadequate capacity to prepare for and adapt to megadrought un ....Megadrought likelihood and its water resource impacts in Australia. This interdisciplinary project plans to assemble a world-class team of hydrologists, climate scientists and water managers to investigate the history and future risk of decadal to multidecadal droughts (megadroughts). Despite Australia’s vulnerability to water scarcity, the likelihood of persistent megadroughts has not been assessed in Australia. This has resulted in inadequate capacity to prepare for and adapt to megadrought under future climate change. For the first time, palaeoclimate reconstructions and climate change projections will be used to constrain future hydroclimatic variability, advancing the decision-making capacity of Australian water resource managers.Read moreRead less
Change agents and sustainability transformations in the water sector. The pursuit of sustainable development is a major challenge for Australian communities. System transformations are urgently needed, not just incremental change. While we know much about how to incubate local innovation, how innovation can be scaled to transform systems is not well understood. This project aims to understand how change agents can influence system transformations and how their actions can be enabled and constrai ....Change agents and sustainability transformations in the water sector. The pursuit of sustainable development is a major challenge for Australian communities. System transformations are urgently needed, not just incremental change. While we know much about how to incubate local innovation, how innovation can be scaled to transform systems is not well understood. This project aims to understand how change agents can influence system transformations and how their actions can be enabled and constrained by local conditions and governance arrangements. Its focus is on change agents working to promote urban water innovations and system change. We hope to develop new knowledge on the capabilities and resources that local governments and other actors must deploy to achieve sustainability transformations in Australia.Read moreRead less
Fate of engineered nanoparticles: Challenges in informing human and ecological health risk assessments. Engineered nanoparticles (ENPs) have generated significant public and scientific excitement due to their unique properties. This has led to their application in a wide variety of industries (for example, in composite materials and drug delivery). However, there is concern that some ENPs can have detrimental environmental impacts. This project aims to quantify, for the first time, the fate of E ....Fate of engineered nanoparticles: Challenges in informing human and ecological health risk assessments. Engineered nanoparticles (ENPs) have generated significant public and scientific excitement due to their unique properties. This has led to their application in a wide variety of industries (for example, in composite materials and drug delivery). However, there is concern that some ENPs can have detrimental environmental impacts. This project aims to quantify, for the first time, the fate of ENPs that have leached out of commercial products in groundwater systems. This information is expected to assist regulators in developing appropriate legislation to balance the tremendous benefits and potential risks of nanotechnology.Read moreRead less
Catchment-scale and riparian zone stormwater retention: can it restore stream hydrology? This project will test whether or not stormwater retention systems dispersed throughout a catchment can restore pre-development streamflows in peri-urban streams. It will provide a new model for the design of stormwater drainage systems which both protect aquatic ecosystems and reduce the demand for imported water in cities.
Species traits, substrates and stormwater grates: improving the health of urban trees by using polluted stormwater as a resource. This project uses plant traits to select existing and novel tree species for glasshouse studies to quantify the uptake of stormwater and polluting nutrients as well as drought tolerance in stormwater street tree systems. In collaboration with water industry and tree nursery industry partners and a syndicate of local councils, the project aims to install passive stormw ....Species traits, substrates and stormwater grates: improving the health of urban trees by using polluted stormwater as a resource. This project uses plant traits to select existing and novel tree species for glasshouse studies to quantify the uptake of stormwater and polluting nutrients as well as drought tolerance in stormwater street tree systems. In collaboration with water industry and tree nursery industry partners and a syndicate of local councils, the project aims to install passive stormwater street tree systems into existing suburbs and new greenfield developments in Melbourne. Models will be used to design and predict the performance of these stormwater street tree systems, and the glasshouse/field research outputs are expected to refine the leading industry and government relevant urban catchment model.Read moreRead less