Protocols for Indigenous-led creative practice. This project will investigate how Indigenous Design Charters improve the representation of Indigenous content in professional creative practice through in-depth Australian and Canadian case studies. It aims to generate new knowledge by utilising an Indigenous research paradigm to understand the significance of building ethical relationships between practitioners, stakeholders and Indigenous Knowledge. Expected outcomes include an enhanced Indigenou ....Protocols for Indigenous-led creative practice. This project will investigate how Indigenous Design Charters improve the representation of Indigenous content in professional creative practice through in-depth Australian and Canadian case studies. It aims to generate new knowledge by utilising an Indigenous research paradigm to understand the significance of building ethical relationships between practitioners, stakeholders and Indigenous Knowledge. Expected outcomes include an enhanced Indigenous presence in creative practice and greater international collaboration between practice-based researchers. It should provide significant benefits such as increased Indigenous representation in industry and research training, and new resources to engage appropriately with Indigenous Knowledge.Read moreRead less
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