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
Novel disinfection to combat antibiotic resistance . Control of antimicrobial resistance in water is critical. Disinfection in water and wastewater treatment plants is a vital barrier against antibiotic resistant bacteria (ARB); however, it is less effective in controlling- and may even facilitate the spread of antibiotic resistance genes (ARGs). This project aims to comprehensively investigate the effectiveness of widely-used disinfection processes in controlling ARB/ARGs, determine the underly ....Novel disinfection to combat antibiotic resistance . Control of antimicrobial resistance in water is critical. Disinfection in water and wastewater treatment plants is a vital barrier against antibiotic resistant bacteria (ARB); however, it is less effective in controlling- and may even facilitate the spread of antibiotic resistance genes (ARGs). This project aims to comprehensively investigate the effectiveness of widely-used disinfection processes in controlling ARB/ARGs, determine the underlying mechanisms, and identify optimal treatment conditions. This project also aims to develop a novel, cost-effective and environmentally friendly disinfection process for efficient ARGs destruction, thus significantly strengthening Australia’s capacity to prevent the spread of antibiotic resistance.Read moreRead less
Discovery Early Career Researcher Award - Grant ID: DE220101043
Funder
Australian Research Council
Funding Amount
$413,482.00
Summary
Peculiar membrane structures for removing microplastics from water. Microplastic pollution can inflict irreparable damage to human health and the environment. This project aims to develop functional membrane structures specifically designed to remove microplastics from aquatic and wastewater treatment systems. The approach will utilise advanced techniques in material science, separation science and fluid mechanics. The expected outcomes include advanced membranes with high separation efficiency ....Peculiar membrane structures for removing microplastics from water. Microplastic pollution can inflict irreparable damage to human health and the environment. This project aims to develop functional membrane structures specifically designed to remove microplastics from aquatic and wastewater treatment systems. The approach will utilise advanced techniques in material science, separation science and fluid mechanics. The expected outcomes include advanced membranes with high separation efficiency for microplastics filtration. This will have significant benefits, including the efficient removal of microplastics from water sources securing cleaner potable, irrigation and recycled water, and contributing to a safer, healthier environment for all Australians.Read moreRead less