Combating the spread of antibiotic resistance in urban water systems. This projects aims to investigate the occurrence, diversity, and transformation of antibiotic resistant genes in the entire urban water cycle. Using the latest metagenomic and analytical tools, this project will enhance our knowledge on fate and transfer mechanisms of antibiotic resistance genes in the urban water cycle. Based on this understanding, an expected outcome of the project is the development of innovative technologi ....Combating the spread of antibiotic resistance in urban water systems. This projects aims to investigate the occurrence, diversity, and transformation of antibiotic resistant genes in the entire urban water cycle. Using the latest metagenomic and analytical tools, this project will enhance our knowledge on fate and transfer mechanisms of antibiotic resistance genes in the urban water cycle. Based on this understanding, an expected outcome of the project is the development of innovative technologies for efficient reduction of antibiotic resistance genes to have future applications for environmental, human health and economic benefits for Australia.Read moreRead less
A screening tool to identify safer biodiesels. This project aims to identify what makes an optimal biodiesel in terms of minimising toxic exhaust outputs (environmental effects) and effects on health. Biodiesel, which can be made from virtually any natural oil, is seen as a healthier, environmentally friendly alternative to mineral diesel, but some biodiesels are worse than others. By studying exposure and analysing biodiesel exhaust, this project will develop a screening algorithm to assess bio ....A screening tool to identify safer biodiesels. This project aims to identify what makes an optimal biodiesel in terms of minimising toxic exhaust outputs (environmental effects) and effects on health. Biodiesel, which can be made from virtually any natural oil, is seen as a healthier, environmentally friendly alternative to mineral diesel, but some biodiesels are worse than others. By studying exposure and analysing biodiesel exhaust, this project will develop a screening algorithm to assess biodiesels for their environmental effects and their risk to health. Outcomes are expected to guide industry in producing an alternative fuel.Read moreRead less
Deeper and broader life cycle risk assessment - extending the frontier for hybrid methodologies. This project is about combining detailed and global perspectives of environmental health risk from different fields of planning practice. It aims to improve the depth and breadth of the types of information used by government regulators and the community in decisions about the development of capital works.
Estimating per capita use and release of chemicals by wastewater analysis. This project aims to systematically collect and analyse wastewater to assess human exposure to chemicals including drugs, pharmaceuticals, lifestyle chemicals and environmental pollutants. By combining temporal sampling from key sewage treatment plants with comprehensive nationwide sampling over the week of the 2016 census day, the project expects to estimate the per-capita human exposure to chemicals in the Australian po ....Estimating per capita use and release of chemicals by wastewater analysis. This project aims to systematically collect and analyse wastewater to assess human exposure to chemicals including drugs, pharmaceuticals, lifestyle chemicals and environmental pollutants. By combining temporal sampling from key sewage treatment plants with comprehensive nationwide sampling over the week of the 2016 census day, the project expects to estimate the per-capita human exposure to chemicals in the Australian population. Accurate and objective per-capita based consumption and release estimates for a wide range of chemicals is intended to provide a baseline against which to measure changes in our chemosphere.Read moreRead less
Understanding changes in chemical exposure through integrative sampling and systematic archiving. Poor data on exposure limits our understanding of the effects of chemical exposure on health. This project will aim to develop population-based exposure monitoring strategies to measure exposure, exposure trends, the success of intervention strategies and associations between exposure and health outcomes.
Fluorinated surfactants and hydrocarbons at coastal airports. Fluorinated surfactants and hydrocarbons at coastal airports. This project aims to develop a model and parameters that describe transport and co-transport of fluoro-surfactants and hydrocarbons, priority pollutants with a wide range of physico-chemical properties, at coastal airports. Sixty percent of Australian airports are in the coastal plain, and all are affected by contamination from internationally banned fluoro-surfactants and ....Fluorinated surfactants and hydrocarbons at coastal airports. Fluorinated surfactants and hydrocarbons at coastal airports. This project aims to develop a model and parameters that describe transport and co-transport of fluoro-surfactants and hydrocarbons, priority pollutants with a wide range of physico-chemical properties, at coastal airports. Sixty percent of Australian airports are in the coastal plain, and all are affected by contamination from internationally banned fluoro-surfactants and hydrocarbons. Their extensive past use at firefighting training grounds resulted in costly remediation worldwide. Understanding the fate of persistent fluoro-surfactants from point sources, and their role in transporting non-polar chemicals such as hydrocarbons, will improve risk-based decision making. This research is expected to form the basis for effective risk management and intervention strategies.Read moreRead less
Establishing advanced networks for air quality sensing and analyses. Establishing advanced networks for air quality sensing and analyses. This project aims to develop innovative, cost-effective, high resolution air quality networks. Recent developments in sensor technologies improve the ability to harvest atmospheric data. This project will develop, validate and implement methods for high sensitivity atmospheric sensing and apply cutting-edge statistical and analytic techniques to the data sets, ....Establishing advanced networks for air quality sensing and analyses. Establishing advanced networks for air quality sensing and analyses. This project aims to develop innovative, cost-effective, high resolution air quality networks. Recent developments in sensor technologies improve the ability to harvest atmospheric data. This project will develop, validate and implement methods for high sensitivity atmospheric sensing and apply cutting-edge statistical and analytic techniques to the data sets, unprecedented in scope and resolution. Outcomes include an open access database to quantify and visualise intra-urban air pollution and human exposure and develop air quality maps and smoke pollution management tools. It is expected to advance the evidence-based management of air as a resource, increasing economic prosperity and enhancing human health and quality of life.Read moreRead less
Discovery Early Career Researcher Award - Grant ID: DE120100161
Funder
Australian Research Council
Funding Amount
$375,000.00
Summary
Accumulation and half-lives of brominated flame retardants. This project seeks to determine, in vivo, previously unknown half-lives for brominated flame retardants, chemicals used in numerous, everyday products. This is vital for predicting the duration of human contamination with these persistent, toxic, bioaccumulative chemicals and assessing effectiveness of legislation to reduce human exposure.
Special Research Initiatives - Grant ID: SR180200051
Funder
Australian Research Council
Funding Amount
$497,638.00
Summary
Integrated platform technologies for remediation of PFAS contaminated water. This project aims to develop low cost platform technologies using our patented high capacity adsorbent material for the removal of perfluoralkyl substances (PFAS) from contaminated water sources in Australia. Our advanced adsorbent material is made from a novel sulfur co-polymer and activated carbon, both of which have high affinity for PFAS, but when combined as a composite provide significant advantages for PFAS remed ....Integrated platform technologies for remediation of PFAS contaminated water. This project aims to develop low cost platform technologies using our patented high capacity adsorbent material for the removal of perfluoralkyl substances (PFAS) from contaminated water sources in Australia. Our advanced adsorbent material is made from a novel sulfur co-polymer and activated carbon, both of which have high affinity for PFAS, but when combined as a composite provide significant advantages for PFAS remediation. This adsorbent will be applied in mobile water treatment plants for remediation of PFAS contaminated aquifers. We will also develop point-of-use water filters for individual, domestic use from the adsorbent, thus empowering individuals and local communities by delivering tangible solutions to Australia’s PFAS crisis.Read moreRead less
Exposure mapping - combining wastewater analysis with human biomonitoring. This project aims to develop a spatial and temporal understanding of chemical exposure in the Australian population. The project will use wastewater samples collected from over 100 catchments (65% of Australian population) during the 2016 Census to spatially resolve human exposure to chemicals. These data will then form the basis for focused human biomonitoring using pooled surplus pathology samples. The integration of ....Exposure mapping - combining wastewater analysis with human biomonitoring. This project aims to develop a spatial and temporal understanding of chemical exposure in the Australian population. The project will use wastewater samples collected from over 100 catchments (65% of Australian population) during the 2016 Census to spatially resolve human exposure to chemicals. These data will then form the basis for focused human biomonitoring using pooled surplus pathology samples. The integration of wastewater and biomonitoring data will allow the creation of a national hazard specific exposure map that can be compared with geospatial data on disease risk and socioeconomic indicators (via ABS information). The benefits include the capability to identify and manage exposure risks to public health.Read moreRead less