Geobiological gold cycling: Golden opportunities for the minerals industry. This project aims to develop new geobiological tools for gold exploration and processing that are rooted in a fundamental understanding of geobiological gold cycling. Given the high production costs, the sustainability of the Australian gold industry relies strongly on innovation. Yet, there are many gaps in our fundamental understanding of bio (geo)chemical gold dispersion and precipitation. This project aims to fill th ....Geobiological gold cycling: Golden opportunities for the minerals industry. This project aims to develop new geobiological tools for gold exploration and processing that are rooted in a fundamental understanding of geobiological gold cycling. Given the high production costs, the sustainability of the Australian gold industry relies strongly on innovation. Yet, there are many gaps in our fundamental understanding of bio (geo)chemical gold dispersion and precipitation. This project aims to fill these gaps by linking biochemical pathways of gold mobilisation and resistance in bacteria to its transport and biomineralisation. This would enable the development of protein-based biosensors, bioindicators and nanovectors. These would support the development of exploration and bioaccumulation technologies that allow more economically sustainable and environmentally viable mining practices, such as enhancing production from subeconomic ore.Read moreRead less
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
Stories from the past: the impact of industrialisation on the human microbiome. This project aims to explore the history and origin of ‘Industrial’ diseases such as obesity, diabetes, heart disease and autism. Non-communicable, ‘Industrial’ diseases are rising at an alarming rate in Australia, and changes to the beneficial microorganisms within the human body (microbiota) may be to blame. This project will explore how human microbiota have changed over the past 100 years in response to cultural, ....Stories from the past: the impact of industrialisation on the human microbiome. This project aims to explore the history and origin of ‘Industrial’ diseases such as obesity, diabetes, heart disease and autism. Non-communicable, ‘Industrial’ diseases are rising at an alarming rate in Australia, and changes to the beneficial microorganisms within the human body (microbiota) may be to blame. This project will explore how human microbiota have changed over the past 100 years in response to cultural, environmental, and lifestyle factors linked with Industrialisation. This approach will allow stories from the past to inform modern medical treatment strategies and public health decisions in the future. The project will identify changes in environment, diet, hygiene, and medicine that have altered human microbiota in the past and sparked the Industrial disease epidemic in Australia today.Read moreRead less