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
Dead Heart Beating? Landscape, Climate and People in Desert Australia. This project aims to undertake the first detailed investigation of the archaeology, landscape history and paleoenvironment of dryland lakes in the Simpson, Strzelecki and Stuart Stony Deserts in Central Australia. Using cutting edge methods, the project expects to discover new archaeological sites, provide a new climate record for inland Australia and develop innovative new analytical and field techniques. Expected benefits a ....Dead Heart Beating? Landscape, Climate and People in Desert Australia. This project aims to undertake the first detailed investigation of the archaeology, landscape history and paleoenvironment of dryland lakes in the Simpson, Strzelecki and Stuart Stony Deserts in Central Australia. Using cutting edge methods, the project expects to discover new archaeological sites, provide a new climate record for inland Australia and develop innovative new analytical and field techniques. Expected benefits also include the development of new cutting-edge methodologies for the investigation of Australian desert landscapes, comprehensive baseline data of how this region has evolved prior to European colonization and resolving why no Pleistocene aged archaeological sites have been found in the region.Read moreRead less
Kelp forest ecosystems near and far: Putting a new theory explaining dynamic ecological systems to the test. Few, if any, ecological models account for the biological diversity and observed vulnerability of ecosystems, from the molecular to the oceanic scale. This project aims to investigate kelp forests in ways that integrate previously disparate approaches to the study of ecosystems in order to prove the value of a novel framework for understanding how broad-scale and local phenomena interrela ....Kelp forest ecosystems near and far: Putting a new theory explaining dynamic ecological systems to the test. Few, if any, ecological models account for the biological diversity and observed vulnerability of ecosystems, from the molecular to the oceanic scale. This project aims to investigate kelp forests in ways that integrate previously disparate approaches to the study of ecosystems in order to prove the value of a novel framework for understanding how broad-scale and local phenomena interrelate to maintain the diversity and function of ecosystems or to provoke their decline, transition or collapse. This new conceptualisation of ecosystem processes will assist in forecasting the consequences of their management and the effects of external stimuli on normally robust systems. 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.
Is mass commercialisation of silver-based nanotechnology undermining its biomedical antibacterial potential? Silver nanoparticles have demonstrated broad spectrum antibacterial potential and are increasingly used in biomedical applications to limit infection. They are also found in a growing range of everyday products such as shampoos and socks. This situation is analogous to the previous use of antibiotics for nonmedical purposes and the subsequent spread of antibiotic resistant bacteria. This ....Is mass commercialisation of silver-based nanotechnology undermining its biomedical antibacterial potential? Silver nanoparticles have demonstrated broad spectrum antibacterial potential and are increasingly used in biomedical applications to limit infection. They are also found in a growing range of everyday products such as shampoos and socks. This situation is analogous to the previous use of antibiotics for nonmedical purposes and the subsequent spread of antibiotic resistant bacteria. This project will measure silver resistance selection pressure in key microbial communities. Novel monitoring devices, a multi-technique chemistry approach, and correlative synchrotron spectroscopy and molecular biology techniques will be used to decipher the environmental silver resistome and its likely significance.Read moreRead less
Establishing a global framework to trace the provenance of seafood. The global importance and demand for seafood is higher than ever; yet, sustainable seafood production is threatened by seafood fraud. This research will develop a new technology that will trace the geographic origins of seafood from catch to table and empower authorities to combat fraud. In doing so, this research will use natural chemical variation in biominerals to build maps of ocean chemistry and create universal markers of ....Establishing a global framework to trace the provenance of seafood. The global importance and demand for seafood is higher than ever; yet, sustainable seafood production is threatened by seafood fraud. This research will develop a new technology that will trace the geographic origins of seafood from catch to table and empower authorities to combat fraud. In doing so, this research will use natural chemical variation in biominerals to build maps of ocean chemistry and create universal markers of seafood provenance. These markers will be intrinsically tamper-proof: enabling the chemical geolocation of seafood across international trade routes. The outcome of this research will address a global environmental challenge and, in doing so, deliver benefits to the Australian economy, consumer and environment. 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.
Solving the problems of estimating extinction rates in recent and geological time. Human activity is causing species to go extinct at rates not seen for at least 65 million years: this is the sixth mass extinction event in the history of the Earth. This project will use state-of-the-art modelling tools applied to Australian and global species and land-use change data to quantify humanity's influence on recent and future extinctions.
Ocean acidification and rising sea temperature effect on fish. Predictions of climate change effects on marine biodiversity often do not include species interactions. This project will study the effects of climate change stressors on the behaviour and competitive abilities of fishes and build models that predict how these affect their survival and persistence in marine ecosystems under future climate scenarios.
Using ancient fish ear bones to overcome the shifting baseline syndrome in freshwater fish populations. Chemical tracers in fish ear bones from 5,500 years ago through to modern times will provide information on changes in fish ecology over centuries and identify why freshwater fish populations have declined. Outcomes will provide knowledge of how fish populations would react to altered fishing pressure and restoration of environments.