The dynamics of turbulent entrainment in sheared convective boundary layers. This project aims to develop general laws to enable the accurate prediction of boundary layer entrainment processes. This will be significant in a wide range of environmental and engineering applications. In particular, the current lack of understanding of this area is a major source of uncertainty in the latest generation of global climate models.
GBR as a significant source of climatically relevant aerosol particles. Every cloud drop is formed from a microscopic aerosol particle, known as a cloud condensation nuclei (CCN). In unpolluted environments the CCN particles originate from biogenic sources. Determining the magnitude and driving factors of biogenic aerosol production in different ecosystems is crucial to the development and improvement of climate models. This project aims to determine the mechanisms of new particle production fro ....GBR as a significant source of climatically relevant aerosol particles. Every cloud drop is formed from a microscopic aerosol particle, known as a cloud condensation nuclei (CCN). In unpolluted environments the CCN particles originate from biogenic sources. Determining the magnitude and driving factors of biogenic aerosol production in different ecosystems is crucial to the development and improvement of climate models. This project aims to determine the mechanisms of new particle production from one of the biggest ecosystems in Australia, the Great Barrier Reef. It is expected that the project will establish whether marine aerosol along the Queensland coast is coral-derived and show that this aerosol can affect the CCN concentration and therefore cloud formation and the hydrological cycle.Read moreRead less
New Methods in the Theory and Computational Modelling of Unimolecular and Complex-Forming Bimolecular Reactions. This project will develop new theory and computational methods for the prediction of chemical reaction rates with massively increased efficiency. Complex reactions occurring in combustion which are surprisingly common, but have previously been only poorly understood. The project will make possible the application of detailed statistical and quantum dynamical theories to such complex r ....New Methods in the Theory and Computational Modelling of Unimolecular and Complex-Forming Bimolecular Reactions. This project will develop new theory and computational methods for the prediction of chemical reaction rates with massively increased efficiency. Complex reactions occurring in combustion which are surprisingly common, but have previously been only poorly understood. The project will make possible the application of detailed statistical and quantum dynamical theories to such complex reactions in order to improve the quality of chemical data which is used for modelling atmospheric change and pollution.
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Formation, photochemistry and fate of gas-phase peroxyl radicals. This project aims to understand how peroxyl radical reactions modulate the composition of air. The gas-phase chemical reactions of organic peroxyl radicals contribute to air quality in clean and polluted environments. However, experimental observations of these reaction intermediates and the complex mechanisms governing their formation and fate are limited. This project will use mass spectrometry and laser-based methods to interro ....Formation, photochemistry and fate of gas-phase peroxyl radicals. This project aims to understand how peroxyl radical reactions modulate the composition of air. The gas-phase chemical reactions of organic peroxyl radicals contribute to air quality in clean and polluted environments. However, experimental observations of these reaction intermediates and the complex mechanisms governing their formation and fate are limited. This project will use mass spectrometry and laser-based methods to interrogate the chemical and photochemical reactions of peroxyl radicals in the gas phase. This project expects to understand the composition and dynamics of the troposphere and inform strategies to improve air quality.Read moreRead less
Function, Mechanism and Dynamics in Fluorescent Proteins: a Computational Investigation. The rich reservoir of chromoproteins and fluorescent proteins in the ecosystem of the Great Barrier Reef offers Australia a unique natural advantage for the development of a niche biotechnology industry based on fluorescent markers for cellular biology and biomedical imaging. This project provides a crucial component of the science that is necessary for developing such an industry: a molecular-level knowledg ....Function, Mechanism and Dynamics in Fluorescent Proteins: a Computational Investigation. The rich reservoir of chromoproteins and fluorescent proteins in the ecosystem of the Great Barrier Reef offers Australia a unique natural advantage for the development of a niche biotechnology industry based on fluorescent markers for cellular biology and biomedical imaging. This project provides a crucial component of the science that is necessary for developing such an industry: a molecular-level knowledge of how these proteins function and how we can manipulate and enhance their properties as imaging agents. It will achieve fundamental advances in biomolecular modelling techniques, train graduates with exceedingly valuable skill sets as well as deriving knowledge that aids the development of Australia's biotech industries.Read moreRead less
Quantum Unimolecular Reaction Dynamics: from Isolated Molecules to Protein-Embedded Chromophores. The outcomes of this research will (a) enhance the reputation of Australian science internationally,(b) develop highly skilled research personnel with core capabilities in computational chemistry who can contribute to Australian industry, (c) lead to more accurate modelling of atmospheric ozone depletion phenomena, and (d) improve our understanding of the most common cellular imaging tool - the Gree ....Quantum Unimolecular Reaction Dynamics: from Isolated Molecules to Protein-Embedded Chromophores. The outcomes of this research will (a) enhance the reputation of Australian science internationally,(b) develop highly skilled research personnel with core capabilities in computational chemistry who can contribute to Australian industry, (c) lead to more accurate modelling of atmospheric ozone depletion phenomena, and (d) improve our understanding of the most common cellular imaging tool - the Green Fluorescent Protein - with spinoff benefits for molecular biology research in Australia through the potential for design of new fluorescent proteins.Read moreRead less
Discovery Early Career Researcher Award - Grant ID: DE160101574
Funder
Australian Research Council
Funding Amount
$374,360.00
Summary
Understanding the Long-Term Decline in Internal Migration. The project seeks to provide insights into the changing nature of internal migration. Internal migration rates have declined continuously since the 1970s in most advanced economies. This decline in human mobility may affect the functioning of the economy and individuals’ aspirations, but remains poorly recognised and understood. This project aims to establish the onset and pace of the migration decline for a sample of countries. It also ....Understanding the Long-Term Decline in Internal Migration. The project seeks to provide insights into the changing nature of internal migration. Internal migration rates have declined continuously since the 1970s in most advanced economies. This decline in human mobility may affect the functioning of the economy and individuals’ aspirations, but remains poorly recognised and understood. This project aims to establish the onset and pace of the migration decline for a sample of countries. It also aims to identify the causes of this change by identifying linkages between the drop in migration rates and the broader socio-demographic transitions of the past 30 years in Australia, Canada and the United Kingdom. Understanding this issue may support the development of appropriate economic and social policy responses.Read moreRead less
Why do only some exotics become invasive? Combining ecological and genomic approaches to address alternative hypotheses in a recent Australian weed. This project will specifically test alternative hypotheses about how weeds become invasive. As invasive weeds affect both agricultural and native ecosystems equally, research on understanding the mechanisms of weed invasion is critical. Outcomes will benefit Australia by allowing better prioritisation of management against exotic plants already i ....Why do only some exotics become invasive? Combining ecological and genomic approaches to address alternative hypotheses in a recent Australian weed. This project will specifically test alternative hypotheses about how weeds become invasive. As invasive weeds affect both agricultural and native ecosystems equally, research on understanding the mechanisms of weed invasion is critical. Outcomes will benefit Australia by allowing better prioritisation of management against exotic plants already in the country by providing predictive tools to estimate likelihood of spread. For formal Pest Risk Analysis by regulators (eg Biosecurity Australia), our project will provide genomic tools by which the potential weediness of a regulated plant can be assessed through genetic screening, and forms part of an international effort to identify 'weedy genes'. Read moreRead less
CareTrack Aged: Appropriate Care Delivered To Australians Living In Residential Aged Care
Funder
National Health and Medical Research Council
Funding Amount
$1,157,722.00
Summary
Given Australia’s rapidly ageing population, keeping up with future demands and maintaining quality of care in residential aged care facilities (RACF) is vital. This study will assess whether care delivered is consistent with the evidence in 15 conditions that are frequently managed in RACFs. These will include delirium, dementia, depression, pain management and medication management. We will also assess the quality of life of residents in RACFs.
Identifying Novel Gene Mutations For Molecular Diagnosis Of Familial Hemiplegic Migraine
Funder
National Health and Medical Research Council
Funding Amount
$623,460.00
Summary
This proposal aims to identify novel FHM genes by undertaking an NGS screen of the whole exome of 209 FHM patient samples. We will test the pathological relevance of detected novel mutations by functional analysis in human cell models and using patient-specific stem cell techniques. Using whole genome NGS technology to identify novel mutations will assist in the design and development of a comprehensive NGS approach to diagnose and differentiate this severe neurological disorder.