Solving smoke taint: Overcoming the impacts of vineyard exposure to smoke. Vineyard exposure to bushfire smoke can taint grapes, causing significant revenue losses where smoky, ashy characters render wine unsaleable. Smoke taint therefore remains an ongoing threat to the viability of the wine industry. This project aims to safeguard grape and wine quality by building the wine industry’s capacity to predict, mitigate and respond to risk associated with vineyard smoke exposure. Expected outcomes i ....Solving smoke taint: Overcoming the impacts of vineyard exposure to smoke. Vineyard exposure to bushfire smoke can taint grapes, causing significant revenue losses where smoky, ashy characters render wine unsaleable. Smoke taint therefore remains an ongoing threat to the viability of the wine industry. This project aims to safeguard grape and wine quality by building the wine industry’s capacity to predict, mitigate and respond to risk associated with vineyard smoke exposure. Expected outcomes include establishing the mechanism by which smoke compounds are taken up by grapes and the factors that influence their sensory impact on wine. The development of innovative and interdisciplinary strategies for detecting and alleviating smoke taint will deliver important economic benefit to the Australian wine sector.Read moreRead less
How to make antibiotics in pig feed redundant, naturally. Antimicrobial resistance has become a major issue in human and veterinary medicine being partially caused by the use of in-feed antimicrobials in farm animals. This project aims to completely eliminate antimicrobials from piglet feeds. The key differential approach is based on helping the physiology of the animal rather than testing interventions against bacteria. The project will consist of developing a novel nutritional strategy of natu ....How to make antibiotics in pig feed redundant, naturally. Antimicrobial resistance has become a major issue in human and veterinary medicine being partially caused by the use of in-feed antimicrobials in farm animals. This project aims to completely eliminate antimicrobials from piglet feeds. The key differential approach is based on helping the physiology of the animal rather than testing interventions against bacteria. The project will consist of developing a novel nutritional strategy of naturally (through maternal conditioning) boosting the natural appetite and the capacity to digest in piglets early in life. The anticipated outcome is that the new peri-natal program will result in minimal bacterial proliferation and diarrhoea thus, negating the need for in-feed antimicrobials in piglets. Read moreRead less
Discovery Early Career Researcher Award - Grant ID: DE240100660
Funder
Australian Research Council
Funding Amount
$421,117.00
Summary
A Solar Photoelectrochemical Cell for Unbiased Hydrogen Production. This project aims to develop a photoelectrochemical cell for photoelectric conversion and green hydrogen production by using solar power as the only energy input. This project expects to generate new knowledge in photoelectrode material design by combining low-cost semiconductors with natural or synthetic molecular catalysts. Expected outcomes are to generate a sustainable solar hydrogen technique with no electricity consumption ....A Solar Photoelectrochemical Cell for Unbiased Hydrogen Production. This project aims to develop a photoelectrochemical cell for photoelectric conversion and green hydrogen production by using solar power as the only energy input. This project expects to generate new knowledge in photoelectrode material design by combining low-cost semiconductors with natural or synthetic molecular catalysts. Expected outcomes are to generate a sustainable solar hydrogen technique with no electricity consumption, high solar-to-hydrogen conversion efficiency and long-term stability, promoting the development of green hydrogen industries in Australia with zero carbon emissions. This should provide significant benefits to reduce greenhouse gas emissions, achieve environmental sustainability and meet renewable energy demand.Read moreRead less
Artificial intelligence algorithms to predict risk of injury in racehorses. This project will address the urgent need for predicting and preventing catastrophic and career limiting limb injuries and cardiac arrhythmias in racehorses due to over (or under) training. Using data from GPS and movement sensors integrated into saddlecloths, artificial intelligence algorithms will convert cumulative data on speed, gait, and stride characteristics during training, along with injury data, into a risk mat ....Artificial intelligence algorithms to predict risk of injury in racehorses. This project will address the urgent need for predicting and preventing catastrophic and career limiting limb injuries and cardiac arrhythmias in racehorses due to over (or under) training. Using data from GPS and movement sensors integrated into saddlecloths, artificial intelligence algorithms will convert cumulative data on speed, gait, and stride characteristics during training, along with injury data, into a risk matrix. Recorded heart rate and ECG data will also be analysed using artificial intelligence to detect early evidence of the development of cardiac arrhythmias. The system will improve racehorse welfare, providing a simple interface to warn trainers when risk of injury becomes high, in order to prevent catastrophic breakdown.Read moreRead less
Pioneering seed solutions for the industrial hemp industry. This project aims to develop the next generation of elite industrial hemp cultivars, grown for their seed with high protein and oil contents, that are drought resistant and make minimal THC, teamed with research into their feminisation to provide a safer and better method of producing premium female seed to supply to growers. Project outcomes will include increased fundamental knowledge of drought tolerance, cannabinoid biosynthesis and ....Pioneering seed solutions for the industrial hemp industry. This project aims to develop the next generation of elite industrial hemp cultivars, grown for their seed with high protein and oil contents, that are drought resistant and make minimal THC, teamed with research into their feminisation to provide a safer and better method of producing premium female seed to supply to growers. Project outcomes will include increased fundamental knowledge of drought tolerance, cannabinoid biosynthesis and the feminisation process, converted to practical ways to manipulate these important agronomic traits. This will derisk the industrial hemp industry, encouraging increased cultivation of a nutritionally and economically valuable crop in Australia and create valuable intellectual property applicable globally.Read moreRead less
A soil ecological approach to increasing Australian crop productivity. The objective of this project is to use emerging genomics technologies to identify and characterize soil bacteria that allow the replacement of current agricultural fertilisers, which have significant environmental and economic disadvantages, with sustainable biological fertilisers. Soil bacteria can greatly enhance phosphate solubilization and hence availability for plant growth. Beneficial microbes will be identified from o ....A soil ecological approach to increasing Australian crop productivity. The objective of this project is to use emerging genomics technologies to identify and characterize soil bacteria that allow the replacement of current agricultural fertilisers, which have significant environmental and economic disadvantages, with sustainable biological fertilisers. Soil bacteria can greatly enhance phosphate solubilization and hence availability for plant growth. Beneficial microbes will be identified from our existing soil collection and their performance and persistence optimised. Concurrently, our industry partners will develop suitable microbial formulations for application. The outcomes of the project will be the use of biological fertilisers to enhance crop productivity in an environmentally sustainable manner.Read moreRead less
Artisanal making and the future of small-scale local production. Small-scale local production is essential to Australia’s post-COVID social and economic recovery. Employing a mixed methods approach, this project aims to identify the consumer identities, decision-making and sustainable artisanal production models underpinning contemporary demand for locally made goods. Moving innovatively beyond binaries of production/consumption and individual production sectors, the project expects to generate ....Artisanal making and the future of small-scale local production. Small-scale local production is essential to Australia’s post-COVID social and economic recovery. Employing a mixed methods approach, this project aims to identify the consumer identities, decision-making and sustainable artisanal production models underpinning contemporary demand for locally made goods. Moving innovatively beyond binaries of production/consumption and individual production sectors, the project expects to generate vital new knowledge about how markets for small-scale Australian production can be expanded. Expected outcomes of this project include the generation of robust data to inform strategies that will benefit operators in remaining competitive and support the development of new and emerging artisanal businesses.Read moreRead less
Industrial Transformation Training Centres - Grant ID: IC230100016
Funder
Australian Research Council
Funding Amount
$5,000,000.00
Summary
ARC Training Centre in Predictive Breeding for Agricultural Futures. This Centre aims to develop the advanced capacity needed to secure Australia’s food and fibre production and export value into the future. Leveraging immense industry support, the Centre expects to develop and integrate cutting-edge plant and animal breeding technologies and deliver world-class training that addresses critical demand for highly skilled industry leaders. Expected outcomes include a future-ready predictive breedi ....ARC Training Centre in Predictive Breeding for Agricultural Futures. This Centre aims to develop the advanced capacity needed to secure Australia’s food and fibre production and export value into the future. Leveraging immense industry support, the Centre expects to develop and integrate cutting-edge plant and animal breeding technologies and deliver world-class training that addresses critical demand for highly skilled industry leaders. Expected outcomes include a future-ready predictive breeding industry able to transform data into optimised decisions, and the human capacity to drive it. This should provide significant benefits to enhance the sustainability and profitability of all major Australian agriculture sectors, including livestock, grains, horticulture, cotton, wine, dairy, forestry and fisheries.Read moreRead less
Harnessing genetic diversity for complex traits. Genetic diversity underpins crop improvement but has become increasingly narrow in our major crops. Strategies exist for mobilising simple traits (e.g. disease resistance) from wild accessions or landraces into cultivars, but there are no effective approaches for introducing complex traits, including stress tolerance or components of yield. Using barley as an important crop and a genetic model, the project aims to address this problem by applying ....Harnessing genetic diversity for complex traits. Genetic diversity underpins crop improvement but has become increasingly narrow in our major crops. Strategies exist for mobilising simple traits (e.g. disease resistance) from wild accessions or landraces into cultivars, but there are no effective approaches for introducing complex traits, including stress tolerance or components of yield. Using barley as an important crop and a genetic model, the project aims to address this problem by applying a novel approach; partial redomestication of wild accessions by introgressing genes required for modern farming, then evaluating the resulting partially adapted germplasm in hybrids with elite cultivars. The project expects to generate new and diverse germplasm pools for breeding.Read moreRead less