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Australian Laureate Fellowships - Grant ID: FL220100099
Funder
Australian Research Council
Funding Amount
$3,360,986.00
Summary
Practical and sustainable pathways to community coexistence with bushfires. The project addresses an urgent national and global challenge to policy and practice: the escalating risk of bushfire disasters. It aims to develop adaptation pathways so Australian communities can co-exist safely and sustainably with intrinsically flammable landscapes, through an innovative integration of historical, social, economic, and biophysical lines of research. In collaboration with local councils, fire-manageme ....Practical and sustainable pathways to community coexistence with bushfires. The project addresses an urgent national and global challenge to policy and practice: the escalating risk of bushfire disasters. It aims to develop adaptation pathways so Australian communities can co-exist safely and sustainably with intrinsically flammable landscapes, through an innovative integration of historical, social, economic, and biophysical lines of research. In collaboration with local councils, fire-management agencies, Aboriginal communities contributing traditional knowledge, and world-leading fire scientists, it is expected to deliver benefit through insights into the drivers of fire disaster, concrete outcomes such as optimal preventive and mitigation strategies, and greatly improved community understanding and involvement.Read moreRead less
Bushfire analytics: optimisation of fuel reduction. Bushfires are an integral part of the Australian ecosystem. However, their severity has been worsening rapidly over the past decade. This project aims to develop a principled and scalable methodology for optimising fuel treatment planning to reduce the potential for severe bushfires. This project expects to generate new knowledge in bushfire fuel management using a groundbreaking combination of mathematical modelling techniques and state-of-the ....Bushfire analytics: optimisation of fuel reduction. Bushfires are an integral part of the Australian ecosystem. However, their severity has been worsening rapidly over the past decade. This project aims to develop a principled and scalable methodology for optimising fuel treatment planning to reduce the potential for severe bushfires. This project expects to generate new knowledge in bushfire fuel management using a groundbreaking combination of mathematical modelling techniques and state-of-the-art optimisation methods. The expected outcomes should provide significant benefits to our nation's ability to respond and adapt to the impacts of environmental change on biological systems and urban and rural communities.Read moreRead less
A Holocene history of rainfall extremes for the South Pacific . The project aims to generate the longest ever record of rainfall extremes in the Southern Hemisphere (11,700 years) that will be used to update probabilistic recurrence intervals and inform future risks in a warming world. We will apply a palaeoclimate approach to the science of extreme events by using proxy data from stalagmites to investigate natural rainfall variability during the Holocene. Combined with state of the art Global C ....A Holocene history of rainfall extremes for the South Pacific . The project aims to generate the longest ever record of rainfall extremes in the Southern Hemisphere (11,700 years) that will be used to update probabilistic recurrence intervals and inform future risks in a warming world. We will apply a palaeoclimate approach to the science of extreme events by using proxy data from stalagmites to investigate natural rainfall variability during the Holocene. Combined with state of the art Global Climate Model simulations for three major climate events of the Holocene, we will identify mechanisms of long term shifts in heavy rainfall events. The project will provide significant benefits for Australia and the Pacific islands in terms of prediction and preparedness for deluges like we experienced in 2022.Read moreRead less
Labour Market and Health Dynamics of Australia's Front Line Workers. Australia’s front line workers are there in times of greatest need, but face significant health risks. These risks are expected to increase with the predicted growth in natural disasters, and these concerns have been heightened by the COVID-19 pandemic. This project will apply econometric methods to population-based administrative data to study (1) the determinants and patterns of recruitment and retention into these occupation ....Labour Market and Health Dynamics of Australia's Front Line Workers. Australia’s front line workers are there in times of greatest need, but face significant health risks. These risks are expected to increase with the predicted growth in natural disasters, and these concerns have been heightened by the COVID-19 pandemic. This project will apply econometric methods to population-based administrative data to study (1) the determinants and patterns of recruitment and retention into these occupations, (2) how labour market and health outcomes are impacted by exposure to major disasters; and (3) the impact of the pandemic on labour market and health outcomes. The project will provide insights that can inform policies designed to protect the health of front line workers and meet future workforce demands.Read moreRead less
Investigating Bushfire Evacuation Travel Behaviour in High-risk Communities. This project aims to investigate how and why people in popular bushfire-prone communities make travel-related decisions during bushfire evacuation. Rapid bushfire spread and limited transport capacity in densely populated areas at the rural interface create the ‘perfect storm’ for deaths and injuries. Missing from our knowledge is the role of human behaviour in such outcomes. Applying insights from social and computer s ....Investigating Bushfire Evacuation Travel Behaviour in High-risk Communities. This project aims to investigate how and why people in popular bushfire-prone communities make travel-related decisions during bushfire evacuation. Rapid bushfire spread and limited transport capacity in densely populated areas at the rural interface create the ‘perfect storm’ for deaths and injuries. Missing from our knowledge is the role of human behaviour in such outcomes. Applying insights from social and computer sciences to engineering models, this project expects to generate new theory on resident and visitor evacuation travel behaviour in vulnerable areas during bushfires. Expected outcomes of this project include improvements to the tools used for community preparedness and response to increase Australia’s resilience to bushfires. Read moreRead less
Discovery Early Career Researcher Award - Grant ID: DE230100901
Funder
Australian Research Council
Funding Amount
$420,000.00
Summary
Narrating the Roles of Animals in Cultural Burning. This research aims to produce knowledge of the ways in which humans and animals co-construct landscapes via the medium of cultural burning. It will be the first multispecies ethnography of people and animals on Native Title land engaged in landscape modification based on the use of cultural fire. Taking its lead from Indigenous partners this research will develop narratives of how humans, and animals co-construct landscapes via the medium of fi ....Narrating the Roles of Animals in Cultural Burning. This research aims to produce knowledge of the ways in which humans and animals co-construct landscapes via the medium of cultural burning. It will be the first multispecies ethnography of people and animals on Native Title land engaged in landscape modification based on the use of cultural fire. Taking its lead from Indigenous partners this research will develop narratives of how humans, and animals co-construct landscapes via the medium of fire within wider socio-ecological frameworks. These narratives will inform policy and practice with regard to forest management, protection of species, conservation management, bushfire mitigation, promotion of biodiversity, and Indigenous health.Read moreRead less
Discovery Early Career Researcher Award - Grant ID: DE240100340
Funder
Australian Research Council
Funding Amount
$441,281.00
Summary
Identifying key fire drivers in Australia; biomass, climate or people. This project aims to provide a greater understanding of Australia’s bushfire risk in the face of climate change. By comparing fire occurrence in three Australian bioclimates across two millennial-scale time periods, one prior to human settlement and one during active Indigenous management, this research expects to define which factors — climate, vegetation profile, or landscape management —most impact fire frequency and sever ....Identifying key fire drivers in Australia; biomass, climate or people. This project aims to provide a greater understanding of Australia’s bushfire risk in the face of climate change. By comparing fire occurrence in three Australian bioclimates across two millennial-scale time periods, one prior to human settlement and one during active Indigenous management, this research expects to define which factors — climate, vegetation profile, or landscape management —most impact fire frequency and severity. Outcomes will likely create new knowledge on how past climates affected the Australian environment; enhance predictive ability for future fire risks under emerging climate scenarios; and provide new insights into how cultural burning can be incorporated into fire management plans to reduce catastrophic bushfires.Read moreRead less
Discovery Early Career Researcher Award - Grant ID: DE230100284
Funder
Australian Research Council
Funding Amount
$438,547.00
Summary
Adaptation potential of Australia’s coral reefs to a changing climate. Oceans are changing. Coral reefs are wonders of high socio-economic value threatened by climate extremes. This project aims to identify reefs that support the most fundamental biological processes for ecosystem-scale resilience: dispersal, symbioses, and adaptation. To urgently prepare against extinction, this project expects to deliver ground-breaking estimates of coral evolution by integrating genomics and innovative diseas ....Adaptation potential of Australia’s coral reefs to a changing climate. Oceans are changing. Coral reefs are wonders of high socio-economic value threatened by climate extremes. This project aims to identify reefs that support the most fundamental biological processes for ecosystem-scale resilience: dispersal, symbioses, and adaptation. To urgently prepare against extinction, this project expects to deliver ground-breaking estimates of coral evolution by integrating genomics and innovative disease models. Expected outcomes include the discovery of reefs that can survive extremes and repopulate other reefs, providing benefits in optimized capabilities to protect resilient and vulnerable reefs to sustain future ecosystem services and boosting Australia as a global leader in the conservation genomics revolution.Read moreRead less
Eruption dynamics and tsunami potential from submarine volcanoes. This project is based on recently acquired seafloor samples and geophysical data from extraordinary deposits at a modern submarine volcano. This project aims to determine the conditions that lead to explosive eruption underwater, the dynamics of associated sediment flows, and if these events can trigger tsunami. Expected outcomes include an unprecedented reconstruction of the architecture of submarine caldera volcanoes, new innova ....Eruption dynamics and tsunami potential from submarine volcanoes. This project is based on recently acquired seafloor samples and geophysical data from extraordinary deposits at a modern submarine volcano. This project aims to determine the conditions that lead to explosive eruption underwater, the dynamics of associated sediment flows, and if these events can trigger tsunami. Expected outcomes include an unprecedented reconstruction of the architecture of submarine caldera volcanoes, new innovative models applicable globally for a richer understanding of volcanic tsunami and eruptions that shape the seafloor. This project will provide significant benefits through mitigation of global marine natural hazards, and by improving knowledge on the volcanic hosts of ore deposits.Read moreRead less
Early Career Industry Fellowships - Grant ID: IE230100410
Funder
Australian Research Council
Funding Amount
$452,085.00
Summary
Bridging the gap between rockfall theory and engineering practice. Fragmentation is often observed post rockfall events and it is recognised as a critical aspect of adequate rockfall risk management. Yet, rockfall fragmentation is a complex phenomenon still poorly understood and not properly considered in engineering practice. This project aims at developing a theoretical and stochastic fragmentation framework, based on high-quality and comprehensive experimental data, in collaboration with lead ....Bridging the gap between rockfall theory and engineering practice. Fragmentation is often observed post rockfall events and it is recognised as a critical aspect of adequate rockfall risk management. Yet, rockfall fragmentation is a complex phenomenon still poorly understood and not properly considered in engineering practice. This project aims at developing a theoretical and stochastic fragmentation framework, based on high-quality and comprehensive experimental data, in collaboration with leading international industry partners that provide advanced geotechnical design tools to practitioners around the world. The outcomes of the project will bridge the gap between rockfall theory and engineering practice. It will allow for more cost-effective and safer design of rockfall protection structures.Read moreRead less