Assessing the adaptive capacity of hospital facilities to cope with climate-related extreme weather events: A risk management approach. Given Australia's and New Zealand's relatively high exposure to climate extremes, the social, economic and health benefits of better managed hospital facilities are significant. Floods, bushfires, heatwaves and cyclones cost Australia over $1.4bn/year and New Zealand over NZ$43m/yr in disruption to communities, business productivity and damage to infrastructure. ....Assessing the adaptive capacity of hospital facilities to cope with climate-related extreme weather events: A risk management approach. Given Australia's and New Zealand's relatively high exposure to climate extremes, the social, economic and health benefits of better managed hospital facilities are significant. Floods, bushfires, heatwaves and cyclones cost Australia over $1.4bn/year and New Zealand over NZ$43m/yr in disruption to communities, business productivity and damage to infrastructure. This research will help to mitigate these costs by protecting populations from the health risks associated with such events. The potential benefits will be most significant for those vulnerable communities at high risk such as the aged, the obese, the ill and those geographically exposed to more extreme weather events.Read moreRead less
POLYMER-BASED COATINGS TO INCREASE THE SURVIVAL OF MICROBIAL INOCULANTS APPLIED TO AGRICULTURAL SEEDS. World-wide, there is much active research to maximise the use of Rhizobium for legumes and to develop a new range of growth-promoting micro-organisms for application to agricultural crops including cereals. However, very poor survival of inoculant bacteria after application to seed severely limits their effectiveness. New polymer coatings on seed may enhance survival of inoculants. By collabora ....POLYMER-BASED COATINGS TO INCREASE THE SURVIVAL OF MICROBIAL INOCULANTS APPLIED TO AGRICULTURAL SEEDS. World-wide, there is much active research to maximise the use of Rhizobium for legumes and to develop a new range of growth-promoting micro-organisms for application to agricultural crops including cereals. However, very poor survival of inoculant bacteria after application to seed severely limits their effectiveness. New polymer coatings on seed may enhance survival of inoculants. By collaboration between chemists, rhizobiologists and the inoculant and seed-coating industries, innovative technology can now be generated, improving inoculum potential, giving higher crop yields using less fertilisers. The technology will generate a rural service industry providing coated seed products that reduce farmers' input costs and help maximise their income.Read moreRead less
Natural Hazard Vulnerability: A study of risk, vulnerability, behaviour, attitudes and perceptions of warnings. This project builds on original research into community vulnerability, awareness and preparedness for natural hazards. During the second half of the United Nations International Decade for Natural Disaster Reduction, the trend in emergency management and disaster mitigation research has been towards the social and community impacts of natural disasters. The aim of the project is to exa ....Natural Hazard Vulnerability: A study of risk, vulnerability, behaviour, attitudes and perceptions of warnings. This project builds on original research into community vulnerability, awareness and preparedness for natural hazards. During the second half of the United Nations International Decade for Natural Disaster Reduction, the trend in emergency management and disaster mitigation research has been towards the social and community impacts of natural disasters. The aim of the project is to examine risk perception amongst hazard vulnerable communities. The expected outcomes include an improved awareness campaign and a better understanding of the ways in which warnings and forecasts are filtered and distorted by the public.Read moreRead less
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE0560751
Funder
Australian Research Council
Funding Amount
$432,474.00
Summary
Facility for the Analysis of Biomacromolecular Interactions. A facility for the analysis of biological macromolecules and their interactions with ligand molecules is required to support a large number of research projects in high priority areas including mechanisms of aging, drug development and bio/nanotechnology at three different universities. The instrumentation will (i) afford quantitative measurements of binding affinities between biological and chemical macromolecules, which are available ....Facility for the Analysis of Biomacromolecular Interactions. A facility for the analysis of biological macromolecules and their interactions with ligand molecules is required to support a large number of research projects in high priority areas including mechanisms of aging, drug development and bio/nanotechnology at three different universities. The instrumentation will (i) afford quantitative measurements of binding affinities between biological and chemical macromolecules, which are available only in small quantities, and small, drug related molecules (by microcalorimetry and dual polarization interferometry), and (ii) provide equipment necessary for sample characterization and purification prior to quantitative measurements (CD spectroscopy, and FPLC equipment).Read moreRead less
Green roofs - improving urban environments in a changing climate. Green roofs are an emerging climate change adaptation technology that is widespread in Europe and North America, but rare and untested in Australia. Our research will significantly progress the Australian green roof industry by overcoming barriers to their implementation. This will lead to multiple environmental, economic and health benefits at a variety of scales. Benefits for individual buildings include greater energy efficienc ....Green roofs - improving urban environments in a changing climate. Green roofs are an emerging climate change adaptation technology that is widespread in Europe and North America, but rare and untested in Australia. Our research will significantly progress the Australian green roof industry by overcoming barriers to their implementation. This will lead to multiple environmental, economic and health benefits at a variety of scales. Benefits for individual buildings include greater energy efficiency, increased roof life and the attenuation of noise. Environmental benefits include biodiversity habitat, reduced volume and improved quality of stormwater flows and cooling of the urban environment. This will further reduce energy use and greenhouse emissions, while reducing human health risks during heat waves.Read moreRead less