Disaster risk reduction practices that leave nobody behind. This project aims to answer critical questions about how to assist people with disabilities (PWD) in disasters, what their support needs are and how they might help themselves to better prepare for disasters. Significance includes coupling a person-centred emergency preparedness tool with cross-sectoral processes to collect and use data about the support needs of PWD in emergencies, increase cross-sector communication and collaboration ....Disaster risk reduction practices that leave nobody behind. This project aims to answer critical questions about how to assist people with disabilities (PWD) in disasters, what their support needs are and how they might help themselves to better prepare for disasters. Significance includes coupling a person-centred emergency preparedness tool with cross-sectoral processes to collect and use data about the support needs of PWD in emergencies, increase cross-sector communication and collaboration between emergency managers and community services, and improve equitable access for PWD to community-level disaster risk reduction (DRR). The expected outcome will be the co-design of effective mechanisms that state & federal decision makers can use to scale-up disability-inclusive DRR across Australia.Read moreRead less
Discovery of new genes for plant cellulose biosynthesis and improved fibre production. Cellulose, the world's most abundant biopolymer, is important to the cotton and forest industries and for human and animal nutrition. Before biotechnology can manipulate cellulose, we must identify the enzymes of the synthesis pathway and understand how their properties determine the properties of the cellulose they produce. Not all enzymes are known and any relationships to cellulose properties remain unexplo ....Discovery of new genes for plant cellulose biosynthesis and improved fibre production. Cellulose, the world's most abundant biopolymer, is important to the cotton and forest industries and for human and animal nutrition. Before biotechnology can manipulate cellulose, we must identify the enzymes of the synthesis pathway and understand how their properties determine the properties of the cellulose they produce. Not all enzymes are known and any relationships to cellulose properties remain unexplored. This study extends our successful mutational analysis of cellulose synthesis in Arabidopsis and initiates the molecular analysis of organisms making cellulose with distinctive properties. It will significantly advance knowledge of cellulose biosynthesis and identify novel genes for fibre improvement.Read moreRead less
Smart management of disinfectant in chloraminated water-supply systems. Smart management of disinfectant in chloraminated water-supply systems. This project aims to develop an adaptive, real-time control system for managing disinfectant residuals in chloraminated water supply systems. While chloramine delivers microbiologically safe drinking water in warmer climates and in long distribution systems, it is largely unpredictable, costs water utilities millions of dollars annually, and has uncertai ....Smart management of disinfectant in chloraminated water-supply systems. Smart management of disinfectant in chloraminated water-supply systems. This project aims to develop an adaptive, real-time control system for managing disinfectant residuals in chloraminated water supply systems. While chloramine delivers microbiologically safe drinking water in warmer climates and in long distribution systems, it is largely unpredictable, costs water utilities millions of dollars annually, and has uncertain benefits. This project’s control system will be guided by quantitative models formulated from multi-pronged, fundamental experiments. The project will quantify microbial chloramine decay and determine mechanisms to increase predictability. The project will develop and demonstrate a real-time control technology which delivered microbiologically safe, cost-efficient drinking water to people in warmer climates, despite warming climate and increasing population.Read moreRead less
Garuwanga: Forming a Competent Authority to protect Indigenous knowledge. Garuwanga: Forming a Competent Authority to protect Indigenous knowledge. This project will work with the Aboriginal Community to identify, evaluate and recommend an appropriate Competent Authority legal structure so Australia can meet the requirements of the Nagoya Protocol. This Protocol calls for a Competent Authority to govern and administer a legal framework that ensures Indigenous communities’ informed consent is obt ....Garuwanga: Forming a Competent Authority to protect Indigenous knowledge. Garuwanga: Forming a Competent Authority to protect Indigenous knowledge. This project will work with the Aboriginal Community to identify, evaluate and recommend an appropriate Competent Authority legal structure so Australia can meet the requirements of the Nagoya Protocol. This Protocol calls for a Competent Authority to govern and administer a legal framework that ensures Indigenous communities’ informed consent is obtained for access to their traditional knowledge, and that establishes fair and equitable benefit-sharing mechanisms for use of that knowledge. This project will work with the Indigenous community to address concerns over the form, independence and funding of the Authority so Indigenous knowledge and culture can be protected and shared.Read moreRead less
Water, carbon, and economics: resolving complex linkages for river health. By linking landscapes into our emerging low-carbon economy, this project will investigate how land management practices can be improved through payments for ecosystem services. With a focus on water and carbon, the main goal is to develop mechanisms to support integrated land and water management at the catchment scale.
The molecular basis for oocyst and cyst wall formation in apicomplexan parasites. Apicomplexan parasites such as Eimeria, Neospora, Toxoplasma and Plasmodium are single celled organisms - protozoa - that cause some of the most serious infectious diseases of livestock and humans ever known. Transmission of these parasites is dependent on their ability to encase themselves in protective structures known as oocyst or cyst walls. These walls are resistant to harsh environmental conditions, chemicals ....The molecular basis for oocyst and cyst wall formation in apicomplexan parasites. Apicomplexan parasites such as Eimeria, Neospora, Toxoplasma and Plasmodium are single celled organisms - protozoa - that cause some of the most serious infectious diseases of livestock and humans ever known. Transmission of these parasites is dependent on their ability to encase themselves in protective structures known as oocyst or cyst walls. These walls are resistant to harsh environmental conditions, chemicals and attack by the immune system. We will discover and characterise the molecular basis for cyst wall formation. This fundamental knowledge will be the building block for new, highly specific drugs and vaccines to control these extremely important pathogens.Read moreRead less