Mechanisms of antifungal resistance in blackleg disease of canola. This project aims to determine how fungicide resistance evolves in the fungus Leptosphaeria maculans, the major pathogen of the oilseed crop canola. Global food production has become more reliant on the use of antifungal agents to protect crops, however these advances are now threatened by the emergence of drug-resistant microbes. The knowledge generated by this project will be used to reduce the risk of resistance evolving in po ....Mechanisms of antifungal resistance in blackleg disease of canola. This project aims to determine how fungicide resistance evolves in the fungus Leptosphaeria maculans, the major pathogen of the oilseed crop canola. Global food production has become more reliant on the use of antifungal agents to protect crops, however these advances are now threatened by the emergence of drug-resistant microbes. The knowledge generated by this project will be used to reduce the risk of resistance evolving in populations of the blackleg fungus. This will have economic benefits through ensuring increased canola yields, while providing health and environmental benefits through minimisation of use of fungicides.Read moreRead less
Nanoassembling agrochemicals - a new paradigm in delivery for enviro-friendly crop treatment. This project will determine innovative new forms of preparing agrochemicals that will deliver significant environmental and economical benefits to Australia and the Australian-based agrochemical industry. Reduced chemical and water usage will contribute to an environmentally sustainable Australia, while more economical farming will benefit rural Australia.
The effects of damage and repair of fungal DNA on animal and plant diseases. DNA damage and its repair are implicated in enhancing the ability of fungi to cause disease. These processes enable genomic changes that generate fungal strains better adapted to host colonisation. This project will identify factors that influence mutation, virulence and host adaptation in two model fungi that cause devastating diseases - a human pathogen, Cryptococcus neoformans, and a plant pathogen, Leptosphaeria mac ....The effects of damage and repair of fungal DNA on animal and plant diseases. DNA damage and its repair are implicated in enhancing the ability of fungi to cause disease. These processes enable genomic changes that generate fungal strains better adapted to host colonisation. This project will identify factors that influence mutation, virulence and host adaptation in two model fungi that cause devastating diseases - a human pathogen, Cryptococcus neoformans, and a plant pathogen, Leptosphaeria maculans. Since increases in global temperatures are expected to lead to emerging fungal diseases, understanding effects of damage and repair of fungal DNA on animal and plant diseases is key to designing disease control approaches.Read moreRead less