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Linkage Infrastructure, Equipment And Facilities - Grant ID: LE100100149
Funder
Australian Research Council
Funding Amount
$500,000.00
Summary
Spectroscopic imaging for materials, minerals and life sciences. The spectroscopic imaging equipment highlighted in this proposal will produce a number of outcomes of national benefit. First, it will elevate the impact of research in materials, minerals, and life sciences in Australia, all of which are key areas for the national economy and community. Second, the equipment will be integral to the teaching and research nexus and experiential learning facility for a new wave of materials science ....Spectroscopic imaging for materials, minerals and life sciences. The spectroscopic imaging equipment highlighted in this proposal will produce a number of outcomes of national benefit. First, it will elevate the impact of research in materials, minerals, and life sciences in Australia, all of which are key areas for the national economy and community. Second, the equipment will be integral to the teaching and research nexus and experiential learning facility for a new wave of materials science and engineering students to be educated at UniSA in the EIF-funded M2 building at Mawson Lakes. Finally, the anticipated outcomes of the research to be supported are significant and relate clearly to a number of National Research Priorities.Read moreRead less
How do soils grow? Modelling soil development in the landscape. This project addresses the fundamental environmental issue of land degradation in Australia. The environment is both sensitive and diverse with uses from intensive agriculture, grazing, to large scale industrial. This project will build a model that will enable us to understand how soil forms and landscape evolves with time, to reconstruct the history of soil. The model will allow us to make the Australian populous aware of the frag ....How do soils grow? Modelling soil development in the landscape. This project addresses the fundamental environmental issue of land degradation in Australia. The environment is both sensitive and diverse with uses from intensive agriculture, grazing, to large scale industrial. This project will build a model that will enable us to understand how soil forms and landscape evolves with time, to reconstruct the history of soil. The model will allow us to make the Australian populous aware of the fragility of soil formation. This will lead to greater social awareness of our precarious position on the Australian landscape.Read moreRead less
Mechanisms of heavy metals sequestration and immobilization by goethite in multi-element environments. The research project will achieve critical goals of protecting river and ground water, and soil environments from toxic waste emissions from abandoned mine sites and acid sulphate soils. It will help in fomulating strategies to overcome the problems of environmentally significant heavy metals in contaminated soil environments.
Maintenance of Australia's soil resource - water, microbial diversity and function. Water availability is the major limitation to biological activity in semi-arid regions of Australia. We aim to quantify the dynamic relationships between organic matter cycling, microbial diversity and function in relation to seasonality, drought and land management. This will lead to a comprehensive understanding of how water mediates the diversity of soil organisms and their associated functions. This is of sp ....Maintenance of Australia's soil resource - water, microbial diversity and function. Water availability is the major limitation to biological activity in semi-arid regions of Australia. We aim to quantify the dynamic relationships between organic matter cycling, microbial diversity and function in relation to seasonality, drought and land management. This will lead to a comprehensive understanding of how water mediates the diversity of soil organisms and their associated functions. This is of specific relevance to maintaining biodiversity within the unique soil ecosystems that have developed under Australian climatic conditions.Read moreRead less
The molecular biology and biochemistry of bacterial manganese oxidation. This project will further the understanding of bacterial manganese (Mn2+) oxidation. A multi-disciplinary approach will be used to further investigate the genetics and biochemistry of the Mn2+-oxidising systems of Pseudomonas putida, Leptothrix sp. and Pedomicrobium sp. This work will focus in particular on comparing the Mn2+-oxidising systems from unrelated bacteria. A combination of molecular biology, protein biochemis ....The molecular biology and biochemistry of bacterial manganese oxidation. This project will further the understanding of bacterial manganese (Mn2+) oxidation. A multi-disciplinary approach will be used to further investigate the genetics and biochemistry of the Mn2+-oxidising systems of Pseudomonas putida, Leptothrix sp. and Pedomicrobium sp. This work will focus in particular on comparing the Mn2+-oxidising systems from unrelated bacteria. A combination of molecular biology, protein biochemistry and spectroscopy will be used. This will be the first time that the enzymes of bacterial Mn2+-oxidation will have been characterised in such detail and will lead to a greater understanding of the process of bacterial manganese oxidation.Read moreRead less
Testing the biodiversity-function paradigm for the provision of clean water in aquifers. The ability of groundwater microbes to purify groundwater is an incredibly valuable service. All Australians benefit from this natural service either directly by having clean drinking water, or indirectly through the economic benefits of groundwater-reliant agriculture or industries. Clearly, managing aquifers to maintain this process is vital. This project will identify whether the biodiversity of the groun ....Testing the biodiversity-function paradigm for the provision of clean water in aquifers. The ability of groundwater microbes to purify groundwater is an incredibly valuable service. All Australians benefit from this natural service either directly by having clean drinking water, or indirectly through the economic benefits of groundwater-reliant agriculture or industries. Clearly, managing aquifers to maintain this process is vital. This project will identify whether the biodiversity of the groundwater ecosystem is important for this process to occur and, consequently, whether management should focus on biodiversity conservation (with its accompanying benefits) or forego biodiversity as a priority and manage the environment to maximise the beneficial ecosystem goods and services it provides.Read moreRead less
Special Research Initiatives - Grant ID: SR0354632
Funder
Australian Research Council
Funding Amount
$10,000.00
Summary
Sustainable Water Reuse Network. Declining water quality and supply is of national concern, threatening Australia's economic, social and environmental sustainability. Water reuse is a smart option to reduce primary water consumption, but if it is to be sustainable, fundamental and applied knowledge gaps must be addressed. The proposed sustainable water reuse network enables Australian researchers to engage with end users under an integrated, multi-disciplinary framework. This will allow future ....Sustainable Water Reuse Network. Declining water quality and supply is of national concern, threatening Australia's economic, social and environmental sustainability. Water reuse is a smart option to reduce primary water consumption, but if it is to be sustainable, fundamental and applied knowledge gaps must be addressed. The proposed sustainable water reuse network enables Australian researchers to engage with end users under an integrated, multi-disciplinary framework. This will allow future research activities to address knowledge gaps and priorities, thereby contributing to a paradigm shift in how Australians use all sources of water and a reframing of our understanding of sustainable water cycles.Read moreRead less
The propagation of gravity currents over complex terrain. Dust storms, volcanic eruptions, rivers rushing sediment into lakes and seas, and spillages of toxic liquids and gases, are all examples of environmental problems that can occur, and when they do, they threaten both wild life and human communities. This project involves research that will provide quantitative understanding of key processes in these problems from which reliable software will be built to predict their consequences. The soft ....The propagation of gravity currents over complex terrain. Dust storms, volcanic eruptions, rivers rushing sediment into lakes and seas, and spillages of toxic liquids and gases, are all examples of environmental problems that can occur, and when they do, they threaten both wild life and human communities. This project involves research that will provide quantitative understanding of key processes in these problems from which reliable software will be built to predict their consequences. The software will produce an animation of dust containing fluids moving over a landscape of arbitrary complexity.Read moreRead less
Evaluating the role of buffer strips in reducing soil erosion and sediment delivery to water bodies. The role of vegetative buffer strips in reducing soil erosion and sediment delivery to water bodies is well established, but the physical processes and their interactions involved are not well understood. These hydraulic, sediment/chemical transport processes will be modelled from physical principles, recognising that the multi-size characteristics of soil plays a vital role in buffer strip effec ....Evaluating the role of buffer strips in reducing soil erosion and sediment delivery to water bodies. The role of vegetative buffer strips in reducing soil erosion and sediment delivery to water bodies is well established, but the physical processes and their interactions involved are not well understood. These hydraulic, sediment/chemical transport processes will be modelled from physical principles, recognising that the multi-size characteristics of soil plays a vital role in buffer strip effectiveness. This model will be validated using new and existing data sources, including both controlled experiments and field data obtained in Australia and overseas. A user friendly version of the model will be developed for farm managers and advisory services as a design tool.Read moreRead less
High resolution digital soil mapping. Soil mapping is a key part of land-resource assessment for sustainable environmental management. This project aims to build a methodology to provide a high quality digital soil maps. The output will enable the use of soil data and information to give a clear understanding of the status of, and changes in, the nation's land, vegetation and water resources and implications for their sustainable use.