The fate and toxicity of nanoparticles in the terrestrial environment. This research aims to provide the knowledge needed to understand the fate and effects of new nanoparticulate metal products in Australian landscapes. The movement and environmental effects of manufactured nanoparticulates are unknown, partly because of the difficulty of measuring and detecting these nano-products in the environment. This project will develop techniques to identify manufactured nanoparticulate metals in soils, ....The fate and toxicity of nanoparticles in the terrestrial environment. This research aims to provide the knowledge needed to understand the fate and effects of new nanoparticulate metal products in Australian landscapes. The movement and environmental effects of manufactured nanoparticulates are unknown, partly because of the difficulty of measuring and detecting these nano-products in the environment. This project will develop techniques to identify manufactured nanoparticulate metals in soils, and to determine the potential adverse effects of these products on plants and soil organisms. This will indicate the need, if any, for controls on the disposal or dispersal of nano-sized metal products in the terrestrial environment.Read moreRead less
A surface functionality based approach for the risk assessment of manufactured nanomaterials in the environment. Manufactured nanoparticles are increasingly present in the environment yet their risk assessment is fraught with analytical challenges. This project will use customised nanoparticles with unique isotopic signatures and surface properties to circumvent key difficulties and support novel investigations into nanoparticle stability, fate and toxicity.
Extreme weather and population health in Australia: risk assessment, prediction of health impacts and disease burden, and adaptive strategy exploration. This is the first systematic assessment of the effect of heatwaves on daily mortality/hospitalisations/emergency department visits/ambulance callouts, and the burden of disease due to climate change in major Australian cities. It will explore relevant health specific adaptation strategies. The results will help relevant government agencies with ....Extreme weather and population health in Australia: risk assessment, prediction of health impacts and disease burden, and adaptive strategy exploration. This is the first systematic assessment of the effect of heatwaves on daily mortality/hospitalisations/emergency department visits/ambulance callouts, and the burden of disease due to climate change in major Australian cities. It will explore relevant health specific adaptation strategies. The results will help relevant government agencies with policy-making, such as public service and resource allocation, infrastructure establishment, disaster prevention and response, including establishing the national heatwaves response system. They will help relevant industry for their adaptation to climate change, i.e. aged care industries. The results will also benefit local communities with their attention and behaviour changes for climate change.Read moreRead less
Establishment of the endocrine axes in the embryo and their xenobiotic distortion. Millions of tons of supposedly harmless chemicals are produced and enter the environment each year. However, some of these substances can act on wildlife and humans to distort the way that hormone systems are established in the embryo, leading to subtle effects on health and function in later life. We will use one of the commonest of these substances, found in many cosmetics, food wrappings, and medicinal plastics ....Establishment of the endocrine axes in the embryo and their xenobiotic distortion. Millions of tons of supposedly harmless chemicals are produced and enter the environment each year. However, some of these substances can act on wildlife and humans to distort the way that hormone systems are established in the embryo, leading to subtle effects on health and function in later life. We will use one of the commonest of these substances, found in many cosmetics, food wrappings, and medicinal plastics, to learn how hormone systems becomes established in a healthy embryo, and how these then get distorted after exposure to these compounds. This project directly addresses the way we assess the health of our environment, and offers ways to screen for compounds which can have subtle effects on wildlife, domestic species and humans.Read moreRead less
Functional characterisation of contaminant-nanoparticle associations. Nanoparticles present in the environment modify the movement and toxicity of contaminants. This project targets key gaps that hinder the ability to predict the fate and behaviour of environmental contaminants; this will lead to the optimisation of legislative framework and the management/remediation of contaminated sites (for example, mine sites, landfills).