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.
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE0454050
Funder
Australian Research Council
Funding Amount
$312,205.00
Summary
Quarantine bioassay insectory. A climate-controlled, multi unit quarantine greenhouse to be located at the UWS Hawkesbury campus will support investigations into novel strategies for control of agricultural pests, particularly via bioassay. This world-class facility will enable researchers from Universities of Southern Cross, Sydney and Western Sydney to work with contained virulent/resistant strains of agricultural pests, and genetically modified organisms. It will enhance already existing coll ....Quarantine bioassay insectory. A climate-controlled, multi unit quarantine greenhouse to be located at the UWS Hawkesbury campus will support investigations into novel strategies for control of agricultural pests, particularly via bioassay. This world-class facility will enable researchers from Universities of Southern Cross, Sydney and Western Sydney to work with contained virulent/resistant strains of agricultural pests, and genetically modified organisms. It will enhance already existing collaboration between the institutions in the areas of: bioactives of biological origin, novel pesticide action, pesticide resistance management and new crop varieties, and will ensure better utilisation of existing excellent facilities within the consortium.
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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
Industrial Transformation Research Hubs - Grant ID: IH190100022
Funder
Australian Research Council
Funding Amount
$4,787,259.00
Summary
ARC Research Hub for Sustainable Crop Protection. The Hub aims to develop and commercialise an innovative biological alternative to chemical fungicides targeting economically significant diseases of broadacre and horticultural crops. It addresses industry challenges of fungicide resistance, chemical residues in food, off-target effects and environmental harm. It builds on ground-breaking ‘BioClay’ platform to deliver pathogen targeting RNA using clay particles as non-genetically modified crop pr ....ARC Research Hub for Sustainable Crop Protection. The Hub aims to develop and commercialise an innovative biological alternative to chemical fungicides targeting economically significant diseases of broadacre and horticultural crops. It addresses industry challenges of fungicide resistance, chemical residues in food, off-target effects and environmental harm. It builds on ground-breaking ‘BioClay’ platform to deliver pathogen targeting RNA using clay particles as non-genetically modified crop protection. An expert multidisciplinary team uniting science, commercial and social licence pathways ensures industry and consumer uptake advancing $60B Australian Agriculture. The Hub translates to increased productivity, market access and enhanced environmental credentials of Australian food.
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Development of a novel, non-chemical technique based on the EppoMNPV baculovirus for the control of the lightbrown apple moth. Lightbrown apple moth (LBAM) is a serious pest of many horticultural crops in Australia, costing the economy about $21 M pa. Methods for controlling LBAM have relied on the use of insecticides. However, the pest has developed resistance to a wide range of chemicals used against it. This proposal aims to assess the potential of the EppoMNPV polyhedrosis virus as an alt ....Development of a novel, non-chemical technique based on the EppoMNPV baculovirus for the control of the lightbrown apple moth. Lightbrown apple moth (LBAM) is a serious pest of many horticultural crops in Australia, costing the economy about $21 M pa. Methods for controlling LBAM have relied on the use of insecticides. However, the pest has developed resistance to a wide range of chemicals used against it. This proposal aims to assess the potential of the EppoMNPV polyhedrosis virus as an alternative to insecticides for its control. Successful development of the virus will provide an environmentally benign alternative to insecticides that can be used to control LBAM in a range of different circumstances including broadacre and organic production.Read moreRead less
Novel compounds as natural herbicides for weed management. The development by weeds of herbicide resistance has undermined these systems and limited prospect for development of new chemicals with different modes of actions through traditional methods. Such methods of searching for new herbicides are yielding diminishing returns and the associated costs are becoming prohibitive.
This project aims to develop herbicides by evaluating, isolating and identifying novel natural compounds present in a ....Novel compounds as natural herbicides for weed management. The development by weeds of herbicide resistance has undermined these systems and limited prospect for development of new chemicals with different modes of actions through traditional methods. Such methods of searching for new herbicides are yielding diminishing returns and the associated costs are becoming prohibitive.
This project aims to develop herbicides by evaluating, isolating and identifying novel natural compounds present in a range of weeds and crop plants.
The outcomes will be reduced herbicide inputs, and the development of a new group of natural herbicides to counteract the threat imposed by the development of herbicide resistance.
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Novel compounds as natural herbicides for weed management. The development by weeds of herbicide resistance has undermined minimum-tillage systems and heightened the limited prospects for development of new chemicals with different modes of actions through traditional methods. Such methods of searching for new herbicides are yielding diminishing returns and the associated costs are becoming prohibitive.
This project aims to develop herbicides by evaluating, isolating and identifying novel nat ....Novel compounds as natural herbicides for weed management. The development by weeds of herbicide resistance has undermined minimum-tillage systems and heightened the limited prospects for development of new chemicals with different modes of actions through traditional methods. Such methods of searching for new herbicides are yielding diminishing returns and the associated costs are becoming prohibitive.
This project aims to develop herbicides by evaluating, isolating and identifying novel natural compounds present in a range of weeds and crop plants.
The outcomes will be reduced herbicide inputs, and the development of a new group of natural herbicides to counteract the threat imposed by the development of herbicide resistance.Read moreRead less
Forecasting locust outbreaks: evaluation of an Insect Monitoring Radar network. A recently developed technology that allows high-altitude migrations of insects to be detected automatically and at modest cost will be adapted to the specific task of forecasting Australian plague locusts. A network of two 'Insect Monitoring Radars' (IMRs) will be operated in a locust outbreak area, and observation summaries, customised to identify major locust migration events and to estimate their source and desti ....Forecasting locust outbreaks: evaluation of an Insect Monitoring Radar network. A recently developed technology that allows high-altitude migrations of insects to be detected automatically and at modest cost will be adapted to the specific task of forecasting Australian plague locusts. A network of two 'Insect Monitoring Radars' (IMRs) will be operated in a locust outbreak area, and observation summaries, customised to identify major locust migration events and to estimate their source and destination regions, will be presented daily to forecasters at the Australian Plague Locust Commission (APLC). The potential contribution of IMRs to APLC's strategic goal of reducing chemical insecticide usage while maintaining protection of valuable crops will be evaluated.Read moreRead less
Starting closer to home: disease control and the nonhost resistance paradigm in plants. The wellbeing of all humans depends upon plant production. This project will investigate the feasibility of transferring disease resistance genes among wheat, barley and oats, which account for 78 per cent of Australian grain production, to achieve sustained disease control, by dissecting the genetic bases of resistance to stem rust across these three crop species.
Integrative behaviour: a new synthesis. The research will use a uniquely integrative behavioural approach to a) analyse swarming in locusts, and b) apply powerful new models in nutrition to address key problems in biology, agriculture and human health. Outcomes will include i) an understanding of the molecular and environmental mechanisms controlling swarming in locusts, providing new management and control strategies; ii) insights into human obesity, with health policy recommendations; iii) new ....Integrative behaviour: a new synthesis. The research will use a uniquely integrative behavioural approach to a) analyse swarming in locusts, and b) apply powerful new models in nutrition to address key problems in biology, agriculture and human health. Outcomes will include i) an understanding of the molecular and environmental mechanisms controlling swarming in locusts, providing new management and control strategies; ii) insights into human obesity, with health policy recommendations; iii) new technologies for designing nutritional regimes for animal production; iv) an understanding of the responses of insect pests to changing environments; and v) insights into the flow of nutrients across trophic levels within terrestrial ecosystems.Read moreRead less