Mid-Career Industry Fellowships - Grant ID: IM230100025
Funder
Australian Research Council
Funding Amount
$747,126.00
Summary
Using the blackleg fungus as a model for maximising fungicide efficacy. Resistance to chemicals impacts the ability to control many diseases across many crops. This project aims to identify key epidemiological factors contributing to fungicide resistance in an emerging model system, blackleg disease of canola, using innovative approaches. The outcomes of this research will be management strategies for minimising the risk of evolution of fungicide resistance, a key industry need. This will also e ....Using the blackleg fungus as a model for maximising fungicide efficacy. Resistance to chemicals impacts the ability to control many diseases across many crops. This project aims to identify key epidemiological factors contributing to fungicide resistance in an emerging model system, blackleg disease of canola, using innovative approaches. The outcomes of this research will be management strategies for minimising the risk of evolution of fungicide resistance, a key industry need. This will also enhance interdisciplinary collaborations through combining field and molecular research. These management strategies will provide significant economic benefits by ensuring increased canola yields, whilst providing health and environmental benefits through minimisation of unnecessary use of fungicides.Read moreRead less
Novel biological and genetic disease control tools for the barley industry. This project places Australian barley breeders at the forefront of disease resistance by providing them with novel tools to develop varieties with enhanced protection against fungal diseases. The aims are to produce fungal strains with multiple virulence genes for fast and cost-effective testing of barley lines, untangle the fungal/host gene interaction for resistance breeding and identify new sources of resistance. The ....Novel biological and genetic disease control tools for the barley industry. This project places Australian barley breeders at the forefront of disease resistance by providing them with novel tools to develop varieties with enhanced protection against fungal diseases. The aims are to produce fungal strains with multiple virulence genes for fast and cost-effective testing of barley lines, untangle the fungal/host gene interaction for resistance breeding and identify new sources of resistance. The outcomes will lead to the commercialisation by Australian breeding companies of barley varieties with durable fungal resistance. This will benefit the Australian economy by providing sustainability and protection for barley breeding thereby significantly reducing crop losses for this important global agricultural commodity.Read moreRead less
Characterisation of a novel disease immunity pathway in plants. This project aims to understand the mechanisms by which the novel signalling molecule, CAPE1, contributes to
plant immunity. Studies to date have confirmed that CAPE1 inhibits plant diseases but it is unknown how. This
project aims to provide a seminal advance to the field by elucidating how the peptide is generated, how it is
perceived by the plant and the processes by which peptide contributes to plant defence. The expected outcom ....Characterisation of a novel disease immunity pathway in plants. This project aims to understand the mechanisms by which the novel signalling molecule, CAPE1, contributes to
plant immunity. Studies to date have confirmed that CAPE1 inhibits plant diseases but it is unknown how. This
project aims to provide a seminal advance to the field by elucidating how the peptide is generated, how it is
perceived by the plant and the processes by which peptide contributes to plant defence. The expected outcomes
of this project will include a detailed characterisation of a novel plant defence pathway as well the education and
training of next generation of plant scientists. Achieving these outcomes would provide the basis for new
innovative disease management strategies through the manipulation of this novel pathway.Read moreRead less
Genomics to rust proof the humble oat. This project aims to reduce the impact of the damaging and currently intractable fungal pathogen crown rust (OCR) in Australian oat production. The expected project outcomes are: new sources of enduring high value resistance to OCR, tools to accelerate the use of these resistances, and locally adapted OCR resistant oat germplasm for use in developing profitable oat varieties. The project will use new approaches to tap very recently released genomic resource ....Genomics to rust proof the humble oat. This project aims to reduce the impact of the damaging and currently intractable fungal pathogen crown rust (OCR) in Australian oat production. The expected project outcomes are: new sources of enduring high value resistance to OCR, tools to accelerate the use of these resistances, and locally adapted OCR resistant oat germplasm for use in developing profitable oat varieties. The project will use new approaches to tap very recently released genomic resources and unique oat/ OCR resources assembled over many years. It will lead to responsible stewardship of broadly effective OCR resistance in grazing/milling/hay oats, increasing grower profitability, reducing reliance on fungicides, and underpinning planned growth in our export oat market. Read moreRead less