Understanding molecular negative ion production for use in pathology. The project aims to increase the yield of molecular negative ion sources by improving our understanding of the formation of ion beams from plasma sources and expand our knowledge of molecular negative ion generation in plasma environments leading to brighter ion beams. For example, understanding cancer requires cellular level tools to map how cells are changing. These maps are made using ion beams which are scanned across cell ....Understanding molecular negative ion production for use in pathology. The project aims to increase the yield of molecular negative ion sources by improving our understanding of the formation of ion beams from plasma sources and expand our knowledge of molecular negative ion generation in plasma environments leading to brighter ion beams. For example, understanding cancer requires cellular level tools to map how cells are changing. These maps are made using ion beams which are scanned across cells to remove material that is analysed at the atomic and molecular level. Ion beams are produced from plasma sources, but much of their operation is not understood. Such improved ion beams are expected to enable inexpensive and fast cellular level pathology at even small hospitals to tackle cancer for society’s benefit.Read moreRead less
Flavour enhancing functional feeds for farmed Barramundi. This project aims to improve the flavour quality of Australian farmed barramundi through developing novel functional feeds. The project expects to expand our fundamental knowledge of flavour enhancement, whilst providing practical benefits with respect to final product quality. The project will enable industry to achieve higher product quality benchmarks, towards the ultimate goal of improving the marketability of barramundi both locally ....Flavour enhancing functional feeds for farmed Barramundi. This project aims to improve the flavour quality of Australian farmed barramundi through developing novel functional feeds. The project expects to expand our fundamental knowledge of flavour enhancement, whilst providing practical benefits with respect to final product quality. The project will enable industry to achieve higher product quality benchmarks, towards the ultimate goal of improving the marketability of barramundi both locally and overseas. This project will provide significant benefits to the Australian barramundi industry by increasing product values, thereby facilitating an economically sustainable growth of this important regional industry.Read moreRead less
Can coastal floodplains of north Australia survive ferals and rising seas? Tropical Coastal Floodplains are an iconic feature of northern Australia; however, they are experiencing widespread degradation due to complex interactions between feral ungulates and relative sea level rise. Using cross-cultural multidisciplinary methods, this project will discover if feral ungulate control by the Aboriginal Yirralka Rangers will reduce vegetation decline and erosion and enhance floodplain resilience to ....Can coastal floodplains of north Australia survive ferals and rising seas? Tropical Coastal Floodplains are an iconic feature of northern Australia; however, they are experiencing widespread degradation due to complex interactions between feral ungulates and relative sea level rise. Using cross-cultural multidisciplinary methods, this project will discover if feral ungulate control by the Aboriginal Yirralka Rangers will reduce vegetation decline and erosion and enhance floodplain resilience to sea level rise. This project will provide significant new data to inform feral ungulate management strategies as well as coastal carbon models as these processes are likely to create a carbon source rather than sink. Our collaborative science will have local to national benefits for natural and cultural resource management.Read moreRead less
Rethinking and revitalising herbicides to counter resistance. Weeds and increasingly herbicide resistant weeds are the major yield penalty for agriculture. This project aims to develop innovative ways to overcome resistance. This project expects to (i) make herbicides work more efficiently, (ii) reveal a new mode of action for an under-used herbicide and (iii) assign breakdown pathways to herbicides. Expected outcomes of this project are to (i) to find rare, but truly synergistic herbicide combi ....Rethinking and revitalising herbicides to counter resistance. Weeds and increasingly herbicide resistant weeds are the major yield penalty for agriculture. This project aims to develop innovative ways to overcome resistance. This project expects to (i) make herbicides work more efficiently, (ii) reveal a new mode of action for an under-used herbicide and (iii) assign breakdown pathways to herbicides. Expected outcomes of this project are to (i) to find rare, but truly synergistic herbicide combinations; (ii) reveal a herbicide against which weeds outside of Japan have not evolved resistance to; and (iii) establish how best to make breakdown blockers. A benefit of using existing herbicides is the approaches are close to market, so with partner Nexgen Plants, its outcomes can be commercialised.Read moreRead less
Australia’s first Green Biopharm . Protein-based medicines and vaccines represent the fastest growing sector of the pharmaceutical market, but their production by Australian small and medium enterprises is prohibited by the high infrastructure and operating costs of traditional manufacturing systems. This project aims to develop advanced methods to produce protein-based medicines using a native plant. The power of this technology will be demonstrated by making a biologic anti-parasite treatment, ....Australia’s first Green Biopharm . Protein-based medicines and vaccines represent the fastest growing sector of the pharmaceutical market, but their production by Australian small and medium enterprises is prohibited by the high infrastructure and operating costs of traditional manufacturing systems. This project aims to develop advanced methods to produce protein-based medicines using a native plant. The power of this technology will be demonstrated by making a biologic anti-parasite treatment, as an alternative to outdated chemical treatments. Expected outcomes include a unique scalable technology which will support Australia's sovereign capacity to produce high-value proteins, rapidly, affordably, and at scale, and with less complexity than current plant-based systems. Read moreRead less
Time reversed optics. The development of technology to precisely control how light travels through space and time yields the ability to deliver light through objects in ways which would not traditionally be possible and hence opens new applications. This project aims to develop new programmable optical systems for transforming the spatial and temporal properties of light, leveraging recent advances in optical beam shaping. Expected outcomes of this project include the construction and testing of ....Time reversed optics. The development of technology to precisely control how light travels through space and time yields the ability to deliver light through objects in ways which would not traditionally be possible and hence opens new applications. This project aims to develop new programmable optical systems for transforming the spatial and temporal properties of light, leveraging recent advances in optical beam shaping. Expected outcomes of this project include the construction and testing of two new types of optical systems. This should provide significant benefits in the areas of biomedical imaging, telecommunications, advanced manufacturing and both classical and quantum optical information processing.Read moreRead less
Enhanced natural insecticidal activity against a pest of national priority . This project aims to deliver environmentally friendly, non-genetically modified crop protection tools against a catastrophic pest, the fall armyworm. This project expects to generate new knowledge of natural plant protection strategies and their application in targeted crop protection using a combination of unconventional, but cleverly integrated, cutting-edge technologies and approaches. Expected outcomes include compr ....Enhanced natural insecticidal activity against a pest of national priority . This project aims to deliver environmentally friendly, non-genetically modified crop protection tools against a catastrophic pest, the fall armyworm. This project expects to generate new knowledge of natural plant protection strategies and their application in targeted crop protection using a combination of unconventional, but cleverly integrated, cutting-edge technologies and approaches. Expected outcomes include comprehensive new technologies to fight against the most damaging global crop pest, improved Australian agritech capacity and strengthened international collaborations. This should provide significant benefits, such as added security for Australia’s most important agricultural crops and regions, and global food production.Read moreRead less
Superior Australian psyllium for functional foods. This project aims to establish a breeding program for Plantago ovata in Australia to provide a reliable supply of high quality, superior psyllium as a key ingredient in the gluten-free food industry, providing benefits to the industrial partner, growers in Australia and consumers. Target traits include better harvest index, reduced seed shattering and identification of lines carrying psyllium with novel properties or whole seeds that can be grou ....Superior Australian psyllium for functional foods. This project aims to establish a breeding program for Plantago ovata in Australia to provide a reliable supply of high quality, superior psyllium as a key ingredient in the gluten-free food industry, providing benefits to the industrial partner, growers in Australia and consumers. Target traits include better harvest index, reduced seed shattering and identification of lines carrying psyllium with novel properties or whole seeds that can be ground and used as flour that imparts less intense colour changes or effects on loaf structure, and which may be highly suitable for other baked gluten-free products. The fundamental knowledge gained from the genetic and biochemical anlayses of these lines will also broadly benefit seed biology research.Read moreRead less
Advanced plant breeding and food manufacturing for healthier bread. This project aims to generate bread containing high amounts of biologically available iron through targeted manipulation of plant-derived phytonutrients at several points along the wheat-to-bread supply chain. The project expects to generate new knowledge for developing healthier bread and address consumer demands for value-added food products. Anticipated outcomes are novel plant breeding and food manufacturing techniques that ....Advanced plant breeding and food manufacturing for healthier bread. This project aims to generate bread containing high amounts of biologically available iron through targeted manipulation of plant-derived phytonutrients at several points along the wheat-to-bread supply chain. The project expects to generate new knowledge for developing healthier bread and address consumer demands for value-added food products. Anticipated outcomes are novel plant breeding and food manufacturing techniques that enhance the nutritional composition of wheat grain and bread making products, resulting in higher-value agricultural commodities and breads. The project should benefit bread retailers and crop growers involved in Australia’s $4.7 billion bread market and reduce the environmental impacts of bread production.Read moreRead less
Australia’s first direct-detection dark matter search, at Stawell Gold Mine. This project aims to develop an underground integrated laboratory at Stawell Gold Mine in Victoria to host the Southern Hemisphere's first-ever direct-detection dark matter experiment. Following the Higgs boson discovery, the direct detection of dark matter is seen as the next major challenge for particle physics. This project sees Australian physicists team up with local and international partners in research and indus ....Australia’s first direct-detection dark matter search, at Stawell Gold Mine. This project aims to develop an underground integrated laboratory at Stawell Gold Mine in Victoria to host the Southern Hemisphere's first-ever direct-detection dark matter experiment. Following the Higgs boson discovery, the direct detection of dark matter is seen as the next major challenge for particle physics. This project sees Australian physicists team up with local and international partners in research and industry to join the search for dark matter. This Australian experiment aims to help to confirm or deny current results from Northern Hemisphere experiments. As the mine nears the end of its working life as a gold mine, this project is expected to benefit the local economy and provide opportunities for education and outreach.Read moreRead less