Conducting coatings for control and eradication of unwanted marine biofilms. Biofilms grow on all surfaces and environments posing environmental threats and economic issues globally, costing billions each year to those attempting to eradicate them. To date, biofilm's detailed response to variations in electrochemically generated redox stress and shear is unknown in marine environments. The project aims at (i) developing novel electrically conducting carbon based paints that are stable in marine ....Conducting coatings for control and eradication of unwanted marine biofilms. Biofilms grow on all surfaces and environments posing environmental threats and economic issues globally, costing billions each year to those attempting to eradicate them. To date, biofilm's detailed response to variations in electrochemically generated redox stress and shear is unknown in marine environments. The project aims at (i) developing novel electrically conducting carbon based paints that are stable in marine environments and (ii) investigating how marine biofilms respond to these coatings. The expected outcome of this project is the development of a green alternative antifouling technology that can be used on demand in marine applications. This provides a new solution for controlling the biofouling of surfaces immersed in oceans.Read moreRead less
Developing a wildlife health intelligence and vaccine distribution system. This project aims to establish an industry-linked pipeline for vaccines to be delivered to animals in edible baits and a near real-time monitoring system for assessing the impact of management actions. This project will develop ultrasensitive diagnostic tests and incorporate biomarkers into baits from Australia's leading pest animal control company. Bait uptake and disease status in the field will be monitored using artif ....Developing a wildlife health intelligence and vaccine distribution system. This project aims to establish an industry-linked pipeline for vaccines to be delivered to animals in edible baits and a near real-time monitoring system for assessing the impact of management actions. This project will develop ultrasensitive diagnostic tests and incorporate biomarkers into baits from Australia's leading pest animal control company. Bait uptake and disease status in the field will be monitored using artificial intelligence technology developed in Tasmania. This integrated wildlife health intelligence and scalable vaccine platform can help protect the iconic Tasmanian devil from disease and increase Australia's preparedness for looming threats to the livestock industry such as African swine fever.Read moreRead less
Be(e) friendly venomous spiders! Novel biopesticides from arachnid venoms. The overall aim of this project is to improve global honeybee health by developing novel bee-friendly bioinsecticides as well as treatments against honeybee parasites such as varroa mites and small hive beetles. This project seeks to significantly improve existing insecticidal lead peptides from spider venoms to increase their oral toxicity and make them more pest-specific. Expected outcomes of this project include a pane ....Be(e) friendly venomous spiders! Novel biopesticides from arachnid venoms. The overall aim of this project is to improve global honeybee health by developing novel bee-friendly bioinsecticides as well as treatments against honeybee parasites such as varroa mites and small hive beetles. This project seeks to significantly improve existing insecticidal lead peptides from spider venoms to increase their oral toxicity and make them more pest-specific. Expected outcomes of this project include a panel of biologically degradable venom peptides that are active against selected pest and parasite species and that can be economically produced in large scale. This would not only provide significant environmental, social and economical benefits on a global scale, but also boost the Australian agrochemical research sector.Read moreRead less