Quantification of Traffic Generated Nano and Ultrafine Particle Dynamics and Toxicity in Transit Hubs and Transport Corridors. The socio-economic benefits to Australia will include (i) new knowledge for the multiparameter assessment of nano and ultrafine particles, pollutants in the centre of current scientific, medical and policy debates (ii) a breakthrough in the scientific understanding of traffic generated particles in the urban atmosphere (iii) determining the toxicological impact of these ....Quantification of Traffic Generated Nano and Ultrafine Particle Dynamics and Toxicity in Transit Hubs and Transport Corridors. The socio-economic benefits to Australia will include (i) new knowledge for the multiparameter assessment of nano and ultrafine particles, pollutants in the centre of current scientific, medical and policy debates (ii) a breakthrough in the scientific understanding of traffic generated particles in the urban atmosphere (iii) determining the toxicological impact of these particles on biological systems. The ultimate economic benefit will be improved urban design to lower human exposure to ultrafine particles, thus reducing health care cost and productivity losses. The research will also place Australia at the forefront of international progress towards better methods for achieving environmental sustainability.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
Adaptation of Water Sensitive Urban Design (WSUD) to Climate Change, Changing Transport Patterns and Urban Form. This research will (a) provide guidance on future adaptations of stormwater quality infrastructure, (b) provide better scientific understanding of pollutant movements in urban systems and (c) provide methodology to 'future proof' infrastructure design against the pressures of climate change and urban population growth. Project outputs will (a) enable water-sensitive urban designs to b ....Adaptation of Water Sensitive Urban Design (WSUD) to Climate Change, Changing Transport Patterns and Urban Form. This research will (a) provide guidance on future adaptations of stormwater quality infrastructure, (b) provide better scientific understanding of pollutant movements in urban systems and (c) provide methodology to 'future proof' infrastructure design against the pressures of climate change and urban population growth. Project outputs will (a) enable water-sensitive urban designs to be applied reliably and (b) minimise the cost of re-building assets before the end of their design life due to climate change. The ultimate benefit is the reduction in water pollution from roadways leading to improved human and ecosystem well-being of urban communities.Read moreRead less
Development of a novel air pollution monitoring strategy - combining passive sampling with toxicity testing. Present approaches for monitoring risk of air pollutants are limited to grab sample analysis for specific pollutants using concentrations based on independent toxicological and/or epidemiological assessment of compounds. This approach does not allow for evaluation of mixtures or that a given compound may exert different toxic endpoints and is based on short sampling periods. This researc ....Development of a novel air pollution monitoring strategy - combining passive sampling with toxicity testing. Present approaches for monitoring risk of air pollutants are limited to grab sample analysis for specific pollutants using concentrations based on independent toxicological and/or epidemiological assessment of compounds. This approach does not allow for evaluation of mixtures or that a given compound may exert different toxic endpoints and is based on short sampling periods. This research aims to develop and evaluate a novel approach combining extraction of pollutants using time-integrated passive samplers and toxicological evaluation using rapid in-vitro and in-vivo assays. The outcomes provide inexpensive tools for sensitive assessment of pollutant effects and baseline data to derive intervention guidelines based on mixture toxicity.Read moreRead less
Development of strategies for early detection of respiratory microbial infections possibly imported to Australia by humans and animals. The impact of global terrorism, SARS and Avian influenza underlines the importance to Australia of having advanced early-warning systems for airborne disease threats. Our new technique will provide continuous monitoring, rapid detection, and viability reporting on pathogenic microorganisms transmitted by air. The technique is non-invasive and is feasible to anal ....Development of strategies for early detection of respiratory microbial infections possibly imported to Australia by humans and animals. The impact of global terrorism, SARS and Avian influenza underlines the importance to Australia of having advanced early-warning systems for airborne disease threats. Our new technique will provide continuous monitoring, rapid detection, and viability reporting on pathogenic microorganisms transmitted by air. The technique is non-invasive and is feasible to analyse much larger populations of humans and animals with their minimal disturbance. This will benefit Australia and protect the country in the areas of public and animal health, and defence against bioterrorism or biowarfare. The technology has worldwide export potential, creating new high-tech enterprises and jobs.Read moreRead less
Development of strategy for comprehensive protection of Australia against respiratory diseases by real time detection of airborne pathogenic microbes. The project will develop a real time portable bioaerosol detector capable of identifying a presence of targeted microorganisms in the ambient air immediately upon their appearance. The device will become a powerful tool capable of protecting Australia by minimising the possible spread of infectious respiratory diseases causing global pandemics.
Optimising permeable pavements with underlying reservoirs to enhance urban tree performance. This project will determine the optimal configuration of permeable pavements with underlying storage reservoirs and water delivery system to resolve the water security challenges that trees face in urban environments. This project will promote the healthy growth of urban trees and will lead to more liveable and healthier cities.