Plant-mediated arsenic-iron mineral transformations. The project goals are to advance our understanding of molecular-level iron-arsenic transformations induced at plant-mineral-atmosphere interfaces as influenced by remediation actions and future environmental change. The project aims for this to be achieved through an innovative experimental infrastructure combined with isotopic, spectroscopic and advanced synchrotron-based tools. Intended outcomes and benefits are the generation of new knowled ....Plant-mediated arsenic-iron mineral transformations. The project goals are to advance our understanding of molecular-level iron-arsenic transformations induced at plant-mineral-atmosphere interfaces as influenced by remediation actions and future environmental change. The project aims for this to be achieved through an innovative experimental infrastructure combined with isotopic, spectroscopic and advanced synchrotron-based tools. Intended outcomes and benefits are the generation of new knowledge, which will improve current understanding of arsenic and iron fate impacted by remediation actions, plant growth and planetary changes induced via the atmosphere-plant-soil interface.Read moreRead less
PFAS transport through landfill clay liners enhanced with proteins. Per- and polyfluoroalkyl substances (PFAS) are a group of environmentally persistent, man-made chemicals found likely to be carcinogenic in humans. Due to their non-stick, water and stain repellences, PFAS have long been used in everyday products (food wrappers, carpets, furniture etc.) which end up in landfills. As it is currently unknown how PFAS move through the various components of landfill barriers, their fate and transpor ....PFAS transport through landfill clay liners enhanced with proteins. Per- and polyfluoroalkyl substances (PFAS) are a group of environmentally persistent, man-made chemicals found likely to be carcinogenic in humans. Due to their non-stick, water and stain repellences, PFAS have long been used in everyday products (food wrappers, carpets, furniture etc.) which end up in landfills. As it is currently unknown how PFAS move through the various components of landfill barriers, their fate and transport has become a priority for the regulators of Australia’s landfill sites according to the Australian 2018 PFAS National Environmental Management Plan. This research will determine PFAS transport through common clay barriers enhanced with proteins which have been shown to be an excellent sorbent for PFAS.Read moreRead less