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Multi-variable based vegetation monitoring and prediction during droughts. This project aims to reduce the uncertainties in characterizing and predicting drought impacts on Australian ecosystems. This project is expected to better understand how vegetation responded to hydro-meteorological conditions from the onset to termination stages during Australian droughts in the past 40 years, by investigating the newly developed first global long-term vegetation water content record from satellites. Exp ....Multi-variable based vegetation monitoring and prediction during droughts. This project aims to reduce the uncertainties in characterizing and predicting drought impacts on Australian ecosystems. This project is expected to better understand how vegetation responded to hydro-meteorological conditions from the onset to termination stages during Australian droughts in the past 40 years, by investigating the newly developed first global long-term vegetation water content record from satellites. Expected outcomes of this project will be the enhanced capacity to better identify early warning signals and more accurately predict vegetation responses to future droughts. This should provide significant benefits in developing drought mitigation strategies for national agricultural production and water resource allocation.Read moreRead less
Marine heatwaves: subsurface structure and interactions with other extremes. Marine heatwaves routinely cause major ecosystem degradation affecting valuable industries. The aim of this project is to extend our understanding to the workings of temperature extremes hidden below the ocean surface and how other concurrent ocean and terrestrial extremes interact with these marine heatwaves. The project will generate significant new knowledge around the mechanisms driving subsurface heatwaves and how ....Marine heatwaves: subsurface structure and interactions with other extremes. Marine heatwaves routinely cause major ecosystem degradation affecting valuable industries. The aim of this project is to extend our understanding to the workings of temperature extremes hidden below the ocean surface and how other concurrent ocean and terrestrial extremes interact with these marine heatwaves. The project will generate significant new knowledge around the mechanisms driving subsurface heatwaves and how they interact with ocean acidification, oxygen and terrestrial extremes. The outcomes would include improved forecasting of ocean extremes and a quantification of the multivariate risks posed to marine species. This will help guide mitigation or adaptation strategies, benefitting exposed industries like fisheries and tourism.Read moreRead less
Multi-scale ensemble modelling of coastal systems in a changing climate. This project aims to incorporate sandy shoreline adaptation by developing a time-varying framework for model ensemble averaging. This will significantly advance our ability to predict shoreline change over a range of management timescales from days to decades along high-value coastlines. This project expects to generate new knowledge in Coastal Engineering using new methods to train models and deliver unprecedented new shor ....Multi-scale ensemble modelling of coastal systems in a changing climate. This project aims to incorporate sandy shoreline adaptation by developing a time-varying framework for model ensemble averaging. This will significantly advance our ability to predict shoreline change over a range of management timescales from days to decades along high-value coastlines. This project expects to generate new knowledge in Coastal Engineering using new methods to train models and deliver unprecedented new shoreline data. The expected outcomes are enhanced capacity to predict shoreline change over a range of timescales and a better understanding of how sandy coastlines adapt to future climate variability. This should provide significant benefits by enabling a better assessment of coastal hazards along our high-value coastline.Read moreRead less
Australian Laureate Fellowships - Grant ID: FL230100011
Funder
Australian Research Council
Funding Amount
$3,146,592.00
Summary
Evacuations in International Law: Disasters, Conflict & Humanitarian Crises. As contemporary crises intersect and compound, increasing numbers of people are seeking to escape the impacts of disasters, climate change, conflict and other emergencies. In such contexts, evacuations can be a life-saving tool to move people away from imminent harm. But they can also displace people, often for prolonged periods, and at great social, economic and personal cost. This timely and innovative program will tr ....Evacuations in International Law: Disasters, Conflict & Humanitarian Crises. As contemporary crises intersect and compound, increasing numbers of people are seeking to escape the impacts of disasters, climate change, conflict and other emergencies. In such contexts, evacuations can be a life-saving tool to move people away from imminent harm. But they can also displace people, often for prolonged periods, and at great social, economic and personal cost. This timely and innovative program will transform how we conceive of, implement and evaluate evacuations as a form of rescue in international law and practice. This new field of scholarly inquiry will generate transformative legal and policy reform to safeguard the rights of evacuees, thereby enhancing the protection of millions of people worldwide.Read moreRead less
Discovery Early Career Researcher Award - Grant ID: DE230101327
Funder
Australian Research Council
Funding Amount
$428,000.00
Summary
Assessing the impacts of droughts and water extraction on groundwater. This project aims to develop a novel framework that uses big data from satellites to assess the impacts of droughts and water extraction on groundwater resources in Australia, currently poorly understood and difficult to monitor. This project expects to generate new insights into the mechanisms driving changes in groundwater availability and identify risks from sustained groundwater extraction. Expected outcomes include a new ....Assessing the impacts of droughts and water extraction on groundwater. This project aims to develop a novel framework that uses big data from satellites to assess the impacts of droughts and water extraction on groundwater resources in Australia, currently poorly understood and difficult to monitor. This project expects to generate new insights into the mechanisms driving changes in groundwater availability and identify risks from sustained groundwater extraction. Expected outcomes include a new national capability to assess and monitor groundwater resources from space and providing data for government, farmers, communities and traditional owners to better prepare for future droughts, increase disaster preparedness, and sustainably manage groundwater resources in a changing climate.Read moreRead less
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE240100064
Funder
Australian Research Council
Funding Amount
$193,125.00
Summary
Sediment Drilling Facility for environmental and genetic archives. This Sediment Drilling Facility for Environmental and Genetic Archives combines versatile augers with new field spectrometers that will enable sediment extraction and rapid, in situ measurements from coastal, lake and riverine environments. The facility includes a compact geotechnical drill rig, a portable power auger with hydraulic extraction unit, a vibracorer with motorised pontoon, laser induced breakdown spectrometer and ma ....Sediment Drilling Facility for environmental and genetic archives. This Sediment Drilling Facility for Environmental and Genetic Archives combines versatile augers with new field spectrometers that will enable sediment extraction and rapid, in situ measurements from coastal, lake and riverine environments. The facility includes a compact geotechnical drill rig, a portable power auger with hydraulic extraction unit, a vibracorer with motorised pontoon, laser induced breakdown spectrometer and magnetic susceptibility. With access co-ordinated through the Queensland Geochronology Alliance, the new facility will enable university researchers unprecedented access to field equipment required to address questions about changing ecology, landscape and climate on recent and geological timescales. Read moreRead less
Are coastal wetlands vulnerable to bushfires? The ‘Black Summer’ fires burned extensive areas of coastal wetland not typically associated with fire impact. These wetlands rely upon plant growth and sediment delivery to respond to sea-level rise, processes which may be impacted by fire. This project aims to quantify the distribution and severity of fire impact, and establish post-fire vegetation and surface elevation trajectories. By integrating fire ecology and wetland science approaches, this p ....Are coastal wetlands vulnerable to bushfires? The ‘Black Summer’ fires burned extensive areas of coastal wetland not typically associated with fire impact. These wetlands rely upon plant growth and sediment delivery to respond to sea-level rise, processes which may be impacted by fire. This project aims to quantify the distribution and severity of fire impact, and establish post-fire vegetation and surface elevation trajectories. By integrating fire ecology and wetland science approaches, this project will ascertain the resilience of coastal wetlands to the cumulative impacts of fire and sea-level rise. Expected outcomes of this project include new, spatially-explicit fire management tools which will aid the sustainable, long-term management of coastal wetlands in a changing climate.Read moreRead less
Novel tools for dating explosive volcanic eruptions in the critical window. This project will develop novel dating methods necessary for precise reconstruction of the eruption histories of super-volcanoes in the Asia-Pacific region over the last million years. The project outcomes will provide better models for predicting super-eruptions, thereby informing global climate change research, urban planning, and transport and telecommunications infrastructure engineering. Results will also improve ex ....Novel tools for dating explosive volcanic eruptions in the critical window. This project will develop novel dating methods necessary for precise reconstruction of the eruption histories of super-volcanoes in the Asia-Pacific region over the last million years. The project outcomes will provide better models for predicting super-eruptions, thereby informing global climate change research, urban planning, and transport and telecommunications infrastructure engineering. Results will also improve existing volcanic risk models used by insurers to quantify volcanic risks and calculate expected losses from volcanic eruptions, and greatly improve our ability to use eruption deposits as time markers for important events in human evolution.Read moreRead less
Developing and testing a new dating tool for Quaternary science. This project plans to use cutting-edge instrumentation to develop a novel method for dating geological materials formed in a critical time window for which no dating technique currently exists. The last million years of Earth’s history has seen dramatic changes in global climate and environment, with catastrophic volcanic eruptions and numerous other natural processes shaping landforms and ecosystems. A major challenge for studying ....Developing and testing a new dating tool for Quaternary science. This project plans to use cutting-edge instrumentation to develop a novel method for dating geological materials formed in a critical time window for which no dating technique currently exists. The last million years of Earth’s history has seen dramatic changes in global climate and environment, with catastrophic volcanic eruptions and numerous other natural processes shaping landforms and ecosystems. A major challenge for studying these phenomena and their impacts is the dating of geological archives in the time window between 50 000 and 1 000 000 years. This project aims to develop a method for dating young volcanic rocks that can close this critical gap. The result would be a new dating tool with broad implications for the Quaternary sciences globally, including paleoclimate and paleoenvironmental reconstructions, natural hazards assessment, hominin evolution and archaeology.Read moreRead less
Climate and natural hazards in Australasia: a comprehensive impact analysis of prehistoric droughts, great earthquakes, and the Toba super-eruption. Climate change, great earthquakes, and volcanic disasters pose untold risks for environmental, economic, and social harm in rapidly developing Australasia. This project's ground-breaking natural hazard risk analysis will showcase Australasia's research strengths and provide fundamental knowledge for visionary leadership in sustainable development.