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Cellular and molecular interactions of rhabdoviruses with their plant hosts and insect vectors. Viruses cause significant economic losses in agriculture, but little information is available on how plant-adapted rhabdoviruses multiply in both their plant hosts and insect vectors. This project on the localisation, transport and host defence properties of essential viral proteins will identify novel targets for improved disease control.
Generation of bananas with resistance to Fusarium wilt. Bananas are an important fruit crop in Australia, but the industry is continually threatened by numerous diseases such as Fusarium wilt. This project aims to generate transgenic banana plants with resistance to Fusarium wilt, a disease for which no effective control strategies currently exist.
Development of environmentally-friendly bioinsecticides for control of Australian crop pests. Insect pests cause over $3 billion of damage each year to Australian crops. Current insecticides are becoming less effective, and they often have adverse environmental impacts. This project aims to develop a new generation of environmentally-friendly insecticides that can be used to control insect pests on farms and around the home and garden.
Factors responsible for host resistance to the pathogen Sclerotinia sclerotiorum for developing effective disease management in vegetable brassicas. Through successful identification of host resistance in vegetable Brassicas to Sclerotinia sclerotiorum and determining the factors associated with this resistance, breeders, for the first time, will be able to develop varieties with resistance against this difficult-to-manage pathogen. Benefits include prevention of severe losses in vegetable Bras ....Factors responsible for host resistance to the pathogen Sclerotinia sclerotiorum for developing effective disease management in vegetable brassicas. Through successful identification of host resistance in vegetable Brassicas to Sclerotinia sclerotiorum and determining the factors associated with this resistance, breeders, for the first time, will be able to develop varieties with resistance against this difficult-to-manage pathogen. Benefits include prevention of severe losses in vegetable Brassicas from Sclerotinia, and more viable and sustainable production with less reliance upon fungicides and toxic or ineffective fumigants. This research addresses the National Research Priority, an environmentally sustainable Australia, and the priority goal transforming existing industries, and will particularly benefit Australian horticultural communities.Read moreRead less
Meeting the challenges of Sclerotinia crown rot in a perennial production system - pyrethrum. The Australian pyrethrum industry has undergone rapid growth in the last decade, which has seen it become the second largest producer of natural insecticidal pyrethrins in the world. Current production supplies 60% of the global market, with further expansion planned. Sclerotinia crown rot is a major disease that results in plant death; reducing yields and the life of the perennial crop. This project ....Meeting the challenges of Sclerotinia crown rot in a perennial production system - pyrethrum. The Australian pyrethrum industry has undergone rapid growth in the last decade, which has seen it become the second largest producer of natural insecticidal pyrethrins in the world. Current production supplies 60% of the global market, with further expansion planned. Sclerotinia crown rot is a major disease that results in plant death; reducing yields and the life of the perennial crop. This project aims to develop more cost effective and environmentally sustainable methods of managing this disease. This will help to ensure consistent supply of pyrethrin to the world market, reduce the costs of production and increase the net return to growers.Read moreRead less
Development of a risk management system for systemic downy mildew of poppies. Development of a risk management system for systemic downy mildew of poppies. This project aims to identify the critical inoculum sources of systemic downy mildew—a new disease threat to the Australian poppy industry, which produces over half the world’s medicinal opiates. It will assess these sources’ relative importance and interaction with agronomic site factors in epidemics; and also intends to understand the syste ....Development of a risk management system for systemic downy mildew of poppies. Development of a risk management system for systemic downy mildew of poppies. This project aims to identify the critical inoculum sources of systemic downy mildew—a new disease threat to the Australian poppy industry, which produces over half the world’s medicinal opiates. It will assess these sources’ relative importance and interaction with agronomic site factors in epidemics; and also intends to understand the systemic progression in planta, an area poorly understood in all downy mildew pathosystems. The project expects the data will form the basis of a disease risk index tool to educate growers and guide disease management strategies essential to this industry’s long term viability.Read moreRead less
Early Career Industry Fellowships - Grant ID: IE230100443
Funder
Australian Research Council
Funding Amount
$463,971.00
Summary
Pyrethrum in half the time: genes and systems to annually crop a perennial. The capacity of the Australian pyrethrum industry, the global leader in the supply of the natural insecticide, is threatened by the profitability of the current 18-month crop cycle. The project aims to transform the crop to an annual production cycle by discovering genes that underpin flower timing and yield. The project will generate new knowledge on the genetic and physiological drivers of flowering and exploit these f ....Pyrethrum in half the time: genes and systems to annually crop a perennial. The capacity of the Australian pyrethrum industry, the global leader in the supply of the natural insecticide, is threatened by the profitability of the current 18-month crop cycle. The project aims to transform the crop to an annual production cycle by discovering genes that underpin flower timing and yield. The project will generate new knowledge on the genetic and physiological drivers of flowering and exploit these for the development of viable 10-month crops. Outcomes of the project include new protocols and germplasm for breeding and managing short cycle crops for optimum yield. This will provide significant benefits including an economically attractive crop option for growers and a more sustainable industry. Read moreRead less
Industrial Transformation Training Centres - Grant ID: IC150100026
Funder
Australian Research Council
Funding Amount
$3,732,019.00
Summary
ARC Training Centre for Fruit Fly Biosecurity Innovation. ARC Training Centre for Fruit Fly Biosecurity Innovation. This training centre aims to transform the way that horticulture industries combat invasive fruit flies that threaten Australian crops, which are valued at $9 billion per year. For generations, Australia has relied on insecticides to protect crops. Owing to environmental damage and concerns for consumer health, the most effective insecticides have recently been banned for use on ma ....ARC Training Centre for Fruit Fly Biosecurity Innovation. ARC Training Centre for Fruit Fly Biosecurity Innovation. This training centre aims to transform the way that horticulture industries combat invasive fruit flies that threaten Australian crops, which are valued at $9 billion per year. For generations, Australia has relied on insecticides to protect crops. Owing to environmental damage and concerns for consumer health, the most effective insecticides have recently been banned for use on many crops leaving no equivalent replacements. Horticulture industries are unprepared for this change, and are in desperate need of new sustainable practices to combat fruit flies. New researchers who are trained in both scientific approach and practical application will be well placed to deliver these new tools.Read moreRead less
Protecting tomato crops from Fusarium wilt through the efficient application of new genetic resources. The tomato industry is a major horticultural industry in Australia, and Queensland is the major producer of tomatoes for the fresh food market. In Queensland, the tomato industry has expanded in the face of the threat that Fusarium wilt could re-emerge as a major disease problem. This research will ensure that measures can be taken quickly and efficiently to protect existing genetic resources u ....Protecting tomato crops from Fusarium wilt through the efficient application of new genetic resources. The tomato industry is a major horticultural industry in Australia, and Queensland is the major producer of tomatoes for the fresh food market. In Queensland, the tomato industry has expanded in the face of the threat that Fusarium wilt could re-emerge as a major disease problem. This research will ensure that measures can be taken quickly and efficiently to protect existing genetic resources used to control Fusarium wilt. It will also improve our knowledge about the mechanisms plants use to defend themselves against Fusarium wilt diseases.Read moreRead less
Benign strategies to engineer nematode resistance in plant crops. Applications to other plant pests. Control of plant pests relies on the heavy use of chemical insecticides that cause an extraordinary impact on the environment. Some insect pests have been controlled by the production of toxins (like BT) by the plant. We will combine newly discovered RNA interference and genomics methods to develop innovative solutions to nematode resistance and insect control. Our methods can be tailored to any ....Benign strategies to engineer nematode resistance in plant crops. Applications to other plant pests. Control of plant pests relies on the heavy use of chemical insecticides that cause an extraordinary impact on the environment. Some insect pests have been controlled by the production of toxins (like BT) by the plant. We will combine newly discovered RNA interference and genomics methods to develop innovative solutions to nematode resistance and insect control. Our methods can be tailored to any pest with wide or narrow spectrum of action and does not require the production of toxins by the plant. The novelty of our approach will generate a large amount of intellectual property.Read moreRead less