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Developing a predictive toxicity model for metallic anions in plants. This project aims to develop competitive anionic toxicity models for antimony, arsenic, molybdenum and selenium supported by detailed speciation information. Available ecotoxicological models for inorganic toxicants have exclusively focused on cations such as zinc, and ignored anionic toxicants such as arsenic and antimony. For available models on cations to be applicable to contaminated environments, it is essential for equiv ....Developing a predictive toxicity model for metallic anions in plants. This project aims to develop competitive anionic toxicity models for antimony, arsenic, molybdenum and selenium supported by detailed speciation information. Available ecotoxicological models for inorganic toxicants have exclusively focused on cations such as zinc, and ignored anionic toxicants such as arsenic and antimony. For available models on cations to be applicable to contaminated environments, it is essential for equivalent anionic toxicity models be developed. This project will develop the first such model, which will provide new insights on ecotoxicological modelling for inorganic anionic toxicants. The project will transform ecotoxicological modelling approaches for metals and metalloids in terrestrial systems and directly improve our ability to assess risks associated with environmental contamination.Read moreRead less
Healing Country: integrating knowledge systems to meet climate challenges. Aboriginal and Torres Strait Islander communities are currently experiencing severe environmental challenges related to a changing climate. Led by Aboriginal communities, this project aims to integrate traditional knowledges and environmental and health data to create community story-data maps. These interactive, online maps will be a unique and powerful blend of information, providing a rich evidence base, decision-suppo ....Healing Country: integrating knowledge systems to meet climate challenges. Aboriginal and Torres Strait Islander communities are currently experiencing severe environmental challenges related to a changing climate. Led by Aboriginal communities, this project aims to integrate traditional knowledges and environmental and health data to create community story-data maps. These interactive, online maps will be a unique and powerful blend of information, providing a rich evidence base, decision-support and communication tool to inform the co-design of local climate change mitigation, adaptation and resilience plans. The project aims to give agency to Aboriginal communities in leading a systems change process to reduce environmental risks and strengthen health and wellbeing.Read moreRead less
Understanding the role of deep flaming in violent pyroconvective events. This project aims to improve the prediction of firestorms by combining state-of-the-art knowledge of dynamic bushfire behaviour with atmospheric models to provide a comprehensive understanding of how the heat and moisture released by a bushfire interacts with ambient atmospheric instability to produce extreme fire events. Firestorms represent the most extreme and catastrophic phase of development of a bushfire. They often c ....Understanding the role of deep flaming in violent pyroconvective events. This project aims to improve the prediction of firestorms by combining state-of-the-art knowledge of dynamic bushfire behaviour with atmospheric models to provide a comprehensive understanding of how the heat and moisture released by a bushfire interacts with ambient atmospheric instability to produce extreme fire events. Firestorms represent the most extreme and catastrophic phase of development of a bushfire. They often cause broad-scale loss of property, environmental damage and human fatalities. Firestorms cannot be suppressed, and so accurate and timely warnings of their occurrence, combined with appropriate community responses, are the only way of mitigating their effects. Better understanding of extreme fire processes may improve mitigation planning, community safety, environmental outcomes and emergency response measures.Read moreRead less
Investigation of atypical bushfire spread driven by the interaction of wind, terrain and fire. Large bushfires continue to pose a significant risk to communities in south-eastern Australia. Despite this, there is still very little known about the processes driving the development of large bushfires. This project aims to improve understanding of extreme fire processes and thus improve mitigation planning, community safety and environmental outcomes.
Understanding the role of terrain geometry in eruptive bushfire behaviour. This project aims to improve understanding of the physical processes that cause eruptive bushfire behaviour, otherwise known as fire blow-up. Eruptive fire behaviour, characterised by rapid and unexpected escalation in fire intensity and rate of spread, is a global phenomenon that poses a major threat to fire-fighter safety and can seriously compromise bushfire suppression efforts. This project will address the role that ....Understanding the role of terrain geometry in eruptive bushfire behaviour. This project aims to improve understanding of the physical processes that cause eruptive bushfire behaviour, otherwise known as fire blow-up. Eruptive fire behaviour, characterised by rapid and unexpected escalation in fire intensity and rate of spread, is a global phenomenon that poses a major threat to fire-fighter safety and can seriously compromise bushfire suppression efforts. This project will address the role that terrain geometry plays in the incidence of fire eruption, through consideration of its effect on the attachment of flames to a surface. Expected outcomes include a dynamic fire spread modelling framework and the provision of better advice to bushfire authorities concerning fire blow-up.Read moreRead less
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
Knowledge integration for Torres Strait sustainability. This project aims to investigate how Torres Strait Islanders use context-specific local knowledge and research evidence to address environmental sustainability challenges. The Torres Strait is experiencing significant threats to its environment and there is a need to use research to identify strategies that can meet these challenges. However, at present significiant barriers exist in the translation of current research knowledge to the Torr ....Knowledge integration for Torres Strait sustainability. This project aims to investigate how Torres Strait Islanders use context-specific local knowledge and research evidence to address environmental sustainability challenges. The Torres Strait is experiencing significant threats to its environment and there is a need to use research to identify strategies that can meet these challenges. However, at present significiant barriers exist in the translation of current research knowledge to the Torres Strait context. The project will examine how knowledge is constructed (culturally) and develop new methods to allow research findings to be integrated into Torres Strait knowledge. This project will support the empowerment of Torres Strait Islander people to seek the research information that is most useful for their decision-making.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
Caring for Cosmologies: Making Living Maps for West Miyarrka. This project aims to develop a new kind of digital mapping to document endangered forms of knowledge along a coastline under threat from climate change. The project expects to draw on unique Yolngu knowledge practices and representational systems - with traditional owners and managers guiding digital media experts, rangers and artists. Expected outcomes include: 1) expanded Indigenous research capacities and digital expertise; and, 2) ....Caring for Cosmologies: Making Living Maps for West Miyarrka. This project aims to develop a new kind of digital mapping to document endangered forms of knowledge along a coastline under threat from climate change. The project expects to draw on unique Yolngu knowledge practices and representational systems - with traditional owners and managers guiding digital media experts, rangers and artists. Expected outcomes include: 1) expanded Indigenous research capacities and digital expertise; and, 2) access to novel resources for a new generation of Indigenous leaders. Benefits include: enhanced intergenerational and intercultural knowledge transmission and negotiation; methods adaptable to other Indigenous contexts; and greater national recognition of Indigenous seeing and caring for country.Read moreRead less
Oyster adaptation to climate change via transgenerational plasticity. We are in an age of rapid climate change, where the need to understand the adaptive potential of marine organisms in warmer, more acidified oceans is increasingly urgent. This is especially true in Australia where changes are significant. This project uses a cutting-edge, integrated interdisciplinary approach to measure the capacity of oysters to adapt and persist to climate change via transgenerational plasticity, describe th ....Oyster adaptation to climate change via transgenerational plasticity. We are in an age of rapid climate change, where the need to understand the adaptive potential of marine organisms in warmer, more acidified oceans is increasingly urgent. This is especially true in Australia where changes are significant. This project uses a cutting-edge, integrated interdisciplinary approach to measure the capacity of oysters to adapt and persist to climate change via transgenerational plasticity, describe the epigenetic mechanisms which underlie it and develop an immediate breeding method to protect vulnerable oysters and other marine organisms against climate change. The research outcomes will transform Indigenous-led oyster reef restoration projects and future-proof an iconic food source and national industry.Read moreRead less