Special Research Initiatives - Grant ID: SR0354804
Funder
Australian Research Council
Funding Amount
$10,000.00
Summary
ARC Research Network on Degraded Environment Assessment and Remediation. There are over 80,000 contaminated sites in Australia and >750,000,000 hectares of land impacted by soil acidity, sodicity, heavy-metals, nutrients and agricultural chemicals. The research network advances assessment, management and remediation of degraded environments (land, water, and air) through collaboration of the research programs developing sustainable solutions. The collective focus is minimising disposal and impac ....ARC Research Network on Degraded Environment Assessment and Remediation. There are over 80,000 contaminated sites in Australia and >750,000,000 hectares of land impacted by soil acidity, sodicity, heavy-metals, nutrients and agricultural chemicals. The research network advances assessment, management and remediation of degraded environments (land, water, and air) through collaboration of the research programs developing sustainable solutions. The collective focus is minimising disposal and impacts of contaminated soil and wastes, and land remediation. By facilitating communication, the network enhances national and international research coordination, interaction with regulators, end-users, industry, and other stakeholders, achievement of critical mass for new initiatives, enhances research training and contributes to a critical National Priority.Read moreRead less
The Australian historic shipwreck protection project: the in situ preservation and reburial of a colonial trader - Clarence (1850). The project will use cutting-edge technology to study and preserve an early colonial shipwreck at risk and develop a world-class strategy for the reburial and preservation of endangered historic shipwrecks. The project will help develop new national policy and technical guidelines for site managers of historic shipwrecks and offer new insights into colonial shipbuil ....The Australian historic shipwreck protection project: the in situ preservation and reburial of a colonial trader - Clarence (1850). The project will use cutting-edge technology to study and preserve an early colonial shipwreck at risk and develop a world-class strategy for the reburial and preservation of endangered historic shipwrecks. The project will help develop new national policy and technical guidelines for site managers of historic shipwrecks and offer new insights into colonial shipbuilding.Read moreRead less
Risk assessment for environmental health in Adelaide based on weather, air pollution and population health outcomes. This is the first systematic assessment of the effect of climate variation and air pollution on population health in an Australian temperate region. It is one of the ARC's research priorities (PG 7: Responding to climate change and variability). The results will provide a more complete picture of association among air pollution, climate variability and population health in Austral ....Risk assessment for environmental health in Adelaide based on weather, air pollution and population health outcomes. This is the first systematic assessment of the effect of climate variation and air pollution on population health in an Australian temperate region. It is one of the ARC's research priorities (PG 7: Responding to climate change and variability). The results will provide a more complete picture of association among air pollution, climate variability and population health in Australia. They will also provide important information to policy-makers and communities for their relevant actions, including changes in resource management systems and the operation of these systems, a range of socioeconomic actions, infrastructure establishment, disaster prevention and emergency events response regulation, and health education and promotion campaigns.Read moreRead less
Heavy metal phytotoxicity in long-term contaminated soils: Implications for the development of Australian regulatory guidelines and realistic environmental risk assessment. Heavy metal contamination is a serious global environmental problem. There are >80,000 potentially contaminated sites in Australia alone with many of these sites in the urban environment and former mining areas. The current guidelines for phytotoxicity testing (National Environmental Protection Measure 1999) are based on tota ....Heavy metal phytotoxicity in long-term contaminated soils: Implications for the development of Australian regulatory guidelines and realistic environmental risk assessment. Heavy metal contamination is a serious global environmental problem. There are >80,000 potentially contaminated sites in Australia alone with many of these sites in the urban environment and former mining areas. The current guidelines for phytotoxicity testing (National Environmental Protection Measure 1999) are based on total metal concentrations that do not take into consideration of bioavailability and wide ranging Australian soil types. Serious concerns have been raised on the applicability of these guidelines and their protective limits in ecological risk assessment. This project aims at developing phytotoxicity guidelines applicable to a wide range of soil types common to Australia.Read moreRead less
The role of engineered nanoparticles in the transport of environmental contaminants and the implications for remediation. Engineered nanoparticles are common in the environment due to their widespread industrial use. However, their influence on contaminant mobility is not known. This project will advance our understanding of the interactions of nanoparticles with environmental contaminants and thereby deliver safer and more sustainable remediation technologies.
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.
Environmental Genomics: Mining, climate change, water, crime and health. The new Environmental Genomics approach will employ high-powered genome sequencing systems to perform some of the first detailed genetic studies of Australian environments. The resulting high-resolution data will comprise a genetic audit, providing essential information for the accurate measurement of climate and environmental change. This method will dramatically improve the speed, and power of environmental impact assessm ....Environmental Genomics: Mining, climate change, water, crime and health. The new Environmental Genomics approach will employ high-powered genome sequencing systems to perform some of the first detailed genetic studies of Australian environments. The resulting high-resolution data will comprise a genetic audit, providing essential information for the accurate measurement of climate and environmental change. This method will dramatically improve the speed, and power of environmental impact assessments, permitting responsible resource development with major benefits to industry and the economy. It will also create new tools to improve water management and quality, biosecurity, forensics/policing and human health, as reflected by the diverse range of industry partners supporting this project.Read moreRead less
From Biodiversity to Health: Performing the first genetic audits of Australia. This project will establish a new technology for the rapid measurement of environmental biodiversity, whether that be in natural resources such as forests, or pathogens in water supplies or hospitals. The method is fast, low-cost and will provide much higher resolution than current methods. It will provide some of the first ever comprehensive environmental impact assessments, permitting responsible resource developmen ....From Biodiversity to Health: Performing the first genetic audits of Australia. This project will establish a new technology for the rapid measurement of environmental biodiversity, whether that be in natural resources such as forests, or pathogens in water supplies or hospitals. The method is fast, low-cost and will provide much higher resolution than current methods. It will provide some of the first ever comprehensive environmental impact assessments, permitting responsible resource development with major benefits to industry and the economy. It also provides a common platform for government agencies, from Department of Environment and Heritage to the Federal Police, and will create new tools to improve water management, biosecurity, forensics/policing and human health, as reflected by the wide range of industry partners supporting the project.Read moreRead less
Addressing the uncertainties: Pathways, fate and associated risks of manufactured nanoparticles in the environment. Manufactured nanomaterials are increasingly present in commercial products, such as sunscreens, textiles and building materials. Their subsequent release to the environment is unavoidable. This project will deliver novel methods for assessing the associated risks, thereby supporting the safe and sustainable use of nanomaterials in Australia.
Impact of industrially based endocrine disrupting chemicals on aquatic biota. Endocrine disrupting chemicals (EDCs) are a serious threat to aquatic organisms, livestock and humans. EDCs are present in water discharged from sewage treatment plants and in leachate from contaminated land. This project will determine the impact of EDCs from contaminated landfill on aquatic animals. It will also identify the chemicals responsible for biological impact by developing new bio-assays suitable for industr ....Impact of industrially based endocrine disrupting chemicals on aquatic biota. Endocrine disrupting chemicals (EDCs) are a serious threat to aquatic organisms, livestock and humans. EDCs are present in water discharged from sewage treatment plants and in leachate from contaminated land. This project will determine the impact of EDCs from contaminated landfill on aquatic animals. It will also identify the chemicals responsible for biological impact by developing new bio-assays suitable for industrial, scientific and regulatory authority applications. This research has wide-ranging relevance and value to Australian State and Federal regulators and industries because of the ubiquity of sewage treatment plants and contaminated leachate from landfills.Read moreRead less