Linkage Infrastructure, Equipment And Facilities - Grant ID: LE200100043
Funder
Australian Research Council
Funding Amount
$389,000.00
Summary
Rapid Molecular (Bio)material Imaging by Infrared and Raman Microscopies. This project aims to undertake fast probe-free biochemical/chemical imaging of heterogeneity within cells and materials surfaces with new infrared and Raman imaging. It will generate new fundamental knowledge on: cell heterogeneity and dynamic processes; technologies for optimising cell printing; understanding toxicity of microplastics; and protocols for measuring materials of technological relevance. Expected outcomes inc ....Rapid Molecular (Bio)material Imaging by Infrared and Raman Microscopies. This project aims to undertake fast probe-free biochemical/chemical imaging of heterogeneity within cells and materials surfaces with new infrared and Raman imaging. It will generate new fundamental knowledge on: cell heterogeneity and dynamic processes; technologies for optimising cell printing; understanding toxicity of microplastics; and protocols for measuring materials of technological relevance. Expected outcomes include: interdisciplinary collaborations in new protocols for in-vitro drug development; cell printing technologies; environmental impacts of microplastics; and materials design. Expected benefits include innovative approaches to early stage drug design; improved environmental controls and advances in innovative materials.Read moreRead less
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE0989539
Funder
Australian Research Council
Funding Amount
$250,000.00
Summary
Purchase of a state-of-the-art high resolution inductively coupled plasma mass spectrometer. This new state-of-the-art mass spectrometer with enhanced capability will allow Tasmanian researchers to accurately determine the elemental composition of their samples of interest. The instrument will be extremely sensitive and will be able to detect elements to very low concentrations. It will be used to support a diverse range of local research projects of international significance, for example the ....Purchase of a state-of-the-art high resolution inductively coupled plasma mass spectrometer. This new state-of-the-art mass spectrometer with enhanced capability will allow Tasmanian researchers to accurately determine the elemental composition of their samples of interest. The instrument will be extremely sensitive and will be able to detect elements to very low concentrations. It will be used to support a diverse range of local research projects of international significance, for example the environmental assessment of clean and contaminated sites, chemical synthesis on a miniature scale using micro-chips, and the monitoring of selected elements of key importance for human health.Read moreRead less
Chip liquid chromatography-inductively coupled plasma-mass spectrometry: a new hyphenated microfluidic instrument for metallomics. An alliance of two Australian universities and a world-leading scientific instrument company will develop innovative technology that will enable new reliable, sensitive and patient-specific medical tests, as well as being used to probe causes of significant diseases that appear to involve trace levels of metals in the body.
On-fibre separation science with ambient ionisation mass spectrometry. This project aims to combine fibre-based electrofluidics and ambient ionisation mass spectrometry. Fibre-based electrophoresis is a separation technology which is cheaper, simpler and faster than pre-MS analyses. This project will use the fibre simultaneously as the ionisation platform for ambient mass spectrometry, combining the processes of separation and ionisation in a portable and flexible platform. The developed technol ....On-fibre separation science with ambient ionisation mass spectrometry. This project aims to combine fibre-based electrofluidics and ambient ionisation mass spectrometry. Fibre-based electrophoresis is a separation technology which is cheaper, simpler and faster than pre-MS analyses. This project will use the fibre simultaneously as the ionisation platform for ambient mass spectrometry, combining the processes of separation and ionisation in a portable and flexible platform. The developed technology is expected to provide new capability in bioanalysis, proteomics and rapid clinical diagnostics. Future benefits may include new commercial fibre based technologies which could be applied within industrial and clinical laboratories within the next ten years.Read moreRead less
Discovery Early Career Researcher Award - Grant ID: DE120100030
Funder
Australian Research Council
Funding Amount
$375,000.00
Summary
The role of Antarctic sea ice as a natural ocean fertiliser. This project will assess the importance of sea ice as a natural fertiliser in the climatically important polar region. The knowledge gained will aid climate modellers and Governmental policy-makers concerned with the commercial use of ocean iron fertilisation as an attempt to reduce human-induced atmospheric carbon dioxide and gain carbon credits.
Special Research Initiatives - Grant ID: SR0354560
Funder
Australian Research Council
Funding Amount
$10,000.00
Summary
AUSTRALIAN RESEARCH NETWORK IN ANALYTICAL SCIENCE (ARNAS). The initiative will provide the foundations for the establishment of an Australian Research Network in Analytical Science (ARNAS), which will bring together fundamental researchers and practitioners working in quantitative chemical analysis and related areas. ARNAS will provide national coordination of research in analytical science, coverage of the newest developments, pooling of expertise and research facilities and resources, and rap ....AUSTRALIAN RESEARCH NETWORK IN ANALYTICAL SCIENCE (ARNAS). The initiative will provide the foundations for the establishment of an Australian Research Network in Analytical Science (ARNAS), which will bring together fundamental researchers and practitioners working in quantitative chemical analysis and related areas. ARNAS will provide national coordination of research in analytical science, coverage of the newest developments, pooling of expertise and research facilities and resources, and rapid dissemination of outcomes. ARNAS will significantly advance the national research agenda for analytical science by improving awareness of research activities and expertise, providing enhanced education and opportunities for the next generation of analytical scientists, and by stimulating new international collaborations.Read moreRead less
Phytochemistry Of Thrips Resistance In Potato And Its Influence On Acquisition And Transmission Of Tomato Spotted Wilt Virus. TSWV causes multi-million dollar losses to the Australian potato industry, which is the countries largest and most valuable vegetable commodity and an important source of income and employment for rural communities. Development of TSWV epidemics relies on the activity of vector thrips acquiring virus from infected plants and transmitting it to healthy potatoes. Deployment ....Phytochemistry Of Thrips Resistance In Potato And Its Influence On Acquisition And Transmission Of Tomato Spotted Wilt Virus. TSWV causes multi-million dollar losses to the Australian potato industry, which is the countries largest and most valuable vegetable commodity and an important source of income and employment for rural communities. Development of TSWV epidemics relies on the activity of vector thrips acquiring virus from infected plants and transmitting it to healthy potatoes. Deployment of thrips resistant potato would greatly assist disease control. This project will determine the efficacy of thrips resistance in reducing TSWV epidemics and identify the chemical basis of resistance, which could be used as a screening tool for potato breeding, and could form the basis of a synthetic chemical tool for thrips prevention in potato and other crops.Read moreRead less
Manipulating plant root exudation for soil-borne disease control. This project expects to fundamentally advance analysis and manipulation of root exudation, determine influence of rhizosphere microbiota on exudation, molecular responses to resting spore stimulation and to develop novel disease controls. Expected outcomes of this project include the demonstrated potential of novel disease mitigation and student training in innovative approaches to plant pathology and analytical chemistry. This sh ....Manipulating plant root exudation for soil-borne disease control. This project expects to fundamentally advance analysis and manipulation of root exudation, determine influence of rhizosphere microbiota on exudation, molecular responses to resting spore stimulation and to develop novel disease controls. Expected outcomes of this project include the demonstrated potential of novel disease mitigation and student training in innovative approaches to plant pathology and analytical chemistry. This should provide significant benefits, such as effective disease management tools.Read moreRead less
Natural iron fertilisation of oceans around Australia: linking terrestrial dust, marine biogeochemistry and climate. Oceans play a vital role in Earth’s climate through the control of atmospheric carbon dioxide. An important component of this system is the iron cycle, in which iron-rich dust is transported from the land via atmosphere to ocean; iron is a key micronutrient for marine phytoplankton, the scarcity of which limits essential biogeochemical processes and ocean fertility. This project w ....Natural iron fertilisation of oceans around Australia: linking terrestrial dust, marine biogeochemistry and climate. Oceans play a vital role in Earth’s climate through the control of atmospheric carbon dioxide. An important component of this system is the iron cycle, in which iron-rich dust is transported from the land via atmosphere to ocean; iron is a key micronutrient for marine phytoplankton, the scarcity of which limits essential biogeochemical processes and ocean fertility. This project will conduct an integrated oceanographic and atmospheric observational program for trace elements in the oceans around Australia. This will provide the critical information on iron supplied from atmospheric dust for ocean productivity and marine ecosystem health, providing the science for predicting a key factor in the future impact of the oceans on climate.Read moreRead less