Co-evolution of the host pathogen interaction between Leptosphaeria maculans and Brassica species. Brassica canola is Australia's third largest export crop, producing 13% of the world's canola oil. However, blackleg disease, caused by the fungus Leptospheria maculans leads to annual yield losses of 15%, with 100% loss associated with breakdown of resistance. International investment has provided novel genome resources for Brassica and L. maculans. Applying these resources to understand the co-ev ....Co-evolution of the host pathogen interaction between Leptosphaeria maculans and Brassica species. Brassica canola is Australia's third largest export crop, producing 13% of the world's canola oil. However, blackleg disease, caused by the fungus Leptospheria maculans leads to annual yield losses of 15%, with 100% loss associated with breakdown of resistance. International investment has provided novel genome resources for Brassica and L. maculans. Applying these resources to understand the co-evolution of this plant-fungal interaction could prevent the current boom-bust cycle of canola production in Australia. This study will also provide a model and knowledge base for applications in other species, leading to enhanced crops with increased plant protection and robust, reliable productivity.Read moreRead less
Investigating a new paradigm for plant-pathogen interactions; Identification of host-selective toxin proteins in the wheat pathogen Stagonospora nodorum. Stagonospora nodorum is a fungus that causes leaf and glume blotch disease on wheat. This disease alone causes $55 million dollars in yield losses per annum. Traditional breeding methods have yielded crops that are only mildly resistant leaving control of the disease to be worryingly reliant on fungicides. This project aims to identify and char ....Investigating a new paradigm for plant-pathogen interactions; Identification of host-selective toxin proteins in the wheat pathogen Stagonospora nodorum. Stagonospora nodorum is a fungus that causes leaf and glume blotch disease on wheat. This disease alone causes $55 million dollars in yield losses per annum. Traditional breeding methods have yielded crops that are only mildly resistant leaving control of the disease to be worryingly reliant on fungicides. This project aims to identify and characterise proteins that the fungus secretes to cause disease on wheat. By identifying these proteins, it is anticipated that strategies, both traditional and modern, could be employed to enable better control of the disease. This in turn would help provide a long term and secure supply of wheat and wheat based products to the community.Read moreRead less
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