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On the physiology of plant transpiration. This project aims to better understand plant transpiration. It is significant from both a basic and a practical perspective. It intends to solve a conundrum of the biophysics of the evaporative sites within leaves. That is, in dry air, the relative humidity of intercellular air spaces suggests much lower liquid water potentials than those typically measured. At a practical level, the failure to sustain transpiration in dry conditions leads to desiccation ....On the physiology of plant transpiration. This project aims to better understand plant transpiration. It is significant from both a basic and a practical perspective. It intends to solve a conundrum of the biophysics of the evaporative sites within leaves. That is, in dry air, the relative humidity of intercellular air spaces suggests much lower liquid water potentials than those typically measured. At a practical level, the failure to sustain transpiration in dry conditions leads to desiccation and tissue death, and plants differ in this vulnerability. The aim is to apply a novel nanoparticle technique to measure the water potential distribution within the leaf, identify hydraulic resilience attributes, and develop a modern theory of optimal transpiration under varying conditions.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
How a ubiquitous endosymbiont of insects protects against pathogens. The project intends to determine the mechanism that underpins pathogen protection in insects. Insects harbour microbial communities in their cells and guts and confer a range of benefits on their hosts. One bacterium, Wolbachia, protects insects against co-infecting pathogens. The release of Wolbachia into mosquito populations is currently being tested as a means to reduce dengue virus transmission to humans. Using innovative e ....How a ubiquitous endosymbiont of insects protects against pathogens. The project intends to determine the mechanism that underpins pathogen protection in insects. Insects harbour microbial communities in their cells and guts and confer a range of benefits on their hosts. One bacterium, Wolbachia, protects insects against co-infecting pathogens. The release of Wolbachia into mosquito populations is currently being tested as a means to reduce dengue virus transmission to humans. Using innovative evolutionary and genetic approaches, the project proposes to elucidate the mechanism of pathogen blocking and ascertain its broader consequences for the host. This knowledge may be critical for maintaining the effectiveness of the biocontrol approach in the field by informing the development of resistance management strategies.Read moreRead less
Co-designing a resilient water-energy toolbox with Indigenous communities. The aim is to collaboratively create a toolbox of innovative, community-based approaches for water and energy management in remote Australia. This project will combine digital and cultural approaches to create a novel set of tested and evaluated tools for engaging both community and service providers in transforming water and energy use practises in remote Indigenous communities. The key output will be an empirically-test ....Co-designing a resilient water-energy toolbox with Indigenous communities. The aim is to collaboratively create a toolbox of innovative, community-based approaches for water and energy management in remote Australia. This project will combine digital and cultural approaches to create a novel set of tested and evaluated tools for engaging both community and service providers in transforming water and energy use practises in remote Indigenous communities. The key output will be an empirically-tested and user friendly water-energy toolbox tailored to reduce the currently extreme cost of supplying essential services to remote communities. Application of these outputs will significantly reduce demand on local water sources and diesel-generated energy use while creating a skill base for local employment opportunities.Read moreRead less
Molecular basis of nucleotide signalling by TIR domain containing proteins. Nicotinamide adenine dinucleotide (NAD+) dependent signalling pathways play important roles in neurodegenerative diseases and bacterial defence systems, and are therefore potential targets for the development of new therapeutics and biotechnology tools. This project aims to increase our understanding of the biology of a novel class of enzymes involved in NAD+ signalling across the domains of life. The project is expected ....Molecular basis of nucleotide signalling by TIR domain containing proteins. Nicotinamide adenine dinucleotide (NAD+) dependent signalling pathways play important roles in neurodegenerative diseases and bacterial defence systems, and are therefore potential targets for the development of new therapeutics and biotechnology tools. This project aims to increase our understanding of the biology of a novel class of enzymes involved in NAD+ signalling across the domains of life. The project is expected to unravel general principles of nucleotide-based signalling, and the expected outcomes will include new molecular mechanisms relevant to cell-death and pathogen defence in mammalian and bacterial systems, which should provide significant benefit for a range of applications in human biology and biotechnology.Read moreRead less
Discovery Early Career Researcher Award - Grant ID: DE200101300
Funder
Australian Research Council
Funding Amount
$423,711.00
Summary
Lipopolysaccharide-induced macrophage extracellular traps in host defence. The innate immune system is the first line of defence against invading microbes. Macrophages are key innate immune cells that deploy antimicrobial responses to clear infection and restore health. There are many critical unanswered questions on the molecular mechanisms that drive macrophage inflammatory and antimicrobial pathways. This project aims to elucidate a novel inflammatory mechanism that immobilises and kills inva ....Lipopolysaccharide-induced macrophage extracellular traps in host defence. The innate immune system is the first line of defence against invading microbes. Macrophages are key innate immune cells that deploy antimicrobial responses to clear infection and restore health. There are many critical unanswered questions on the molecular mechanisms that drive macrophage inflammatory and antimicrobial pathways. This project aims to elucidate a novel inflammatory mechanism that immobilises and kills invading bacteria via newly discovered structures made by dying macrophages called extracellular traps. Insight we gain by interrogating this immune cell signalling pathway, called the non-canonical inflammasome, will add valuable knowledge to our fundamental understanding of mammalian inflammation and anti-microbial responses
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The recirculation of myeloid dendritic cells. This project aims to understand dendritic cell recirculation. It will use virological tools to track dendritic cell migration, and identify key decision points. Expected outcomes include enhanced capacity in basic research and greater interdisciplinary collaboration between virology and immunology research groups. Significant benefits will include a new understanding of how G protein coupled receptor signalling and other tissue cues guide dendritic c ....The recirculation of myeloid dendritic cells. This project aims to understand dendritic cell recirculation. It will use virological tools to track dendritic cell migration, and identify key decision points. Expected outcomes include enhanced capacity in basic research and greater interdisciplinary collaboration between virology and immunology research groups. Significant benefits will include a new understanding of how G protein coupled receptor signalling and other tissue cues guide dendritic cell recirculation, and what consequences the recirculation has for immune cell function. This understanding will significantly advance our basic understanding of the immune system.Read moreRead less
Regulation of lung immune-epithelial networks sensing environmental change. This study aims to uncover how lung epithelial cells engage with immune cells and determine their cellular and molecular wiring to ensure homeostatic maintenance and essential repair processes of lung tissues. Maintenance of lung epithelial-immune networks is essential to maintain normal lung tissue structure and function, and to induce immune responses to protect against microbial challenges or inhaled potentially toxic ....Regulation of lung immune-epithelial networks sensing environmental change. This study aims to uncover how lung epithelial cells engage with immune cells and determine their cellular and molecular wiring to ensure homeostatic maintenance and essential repair processes of lung tissues. Maintenance of lung epithelial-immune networks is essential to maintain normal lung tissue structure and function, and to induce immune responses to protect against microbial challenges or inhaled potentially toxic substances. Understanding this molecular program of epithelial-immune cell-mediated sensing/repair will be essential to understand how tissue-repair processes can be driven in the lung, an organ critical for respiration and thus life.Read moreRead less
Mitochondria as sensors of environmental threats. This project aims to understand how energy-generating mitochondria control immune responses, both in immune cells called macrophages and in the nematode Caenorhabditis elegans (a free-living roundworm used as a model organism to study gene function and evolutionary biology). The project expects to advance knowledge of how a process called mitochondrial fission enables cells to respond to environmental threats. Expected outcomes include important ....Mitochondria as sensors of environmental threats. This project aims to understand how energy-generating mitochondria control immune responses, both in immune cells called macrophages and in the nematode Caenorhabditis elegans (a free-living roundworm used as a model organism to study gene function and evolutionary biology). The project expects to advance knowledge of how a process called mitochondrial fission enables cells to respond to environmental threats. Expected outcomes include important conceptual advances in cell biology and genetics, new international and national collaborations, and improved methods for cell biology research. Anticipated benefits include a knowledge base that can be indirectly applied in the long term in the development of new strategies to combat infections.Read moreRead less