The potential of biosolids and flyash mixtures for soil remediation for revegetation of degraded land. Revegetation of land that has been subjected to land clearing or mining is often limited by the poor quality or lack of topsoil. It may prove possible to remediate these areas of land by incorporating a mixture of two waste products, biosolids and flyash. The aim in this project is to determine the usefulness of this method of land remediation by investigating the nutrient levels and fate of co ....The potential of biosolids and flyash mixtures for soil remediation for revegetation of degraded land. Revegetation of land that has been subjected to land clearing or mining is often limited by the poor quality or lack of topsoil. It may prove possible to remediate these areas of land by incorporating a mixture of two waste products, biosolids and flyash. The aim in this project is to determine the usefulness of this method of land remediation by investigating the nutrient levels and fate of contaminants in various mixtures of biosolids and flyash materials, in the absence and presence of soil minerals, and soil ameliorants such as fertilizers and gypsum.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
Modelling soil formation in the landscape. Soil is a complex system composed of a set of interconnected physical, chemical and biological factors that function as a whole. Soil system is a key part of natural ecosystems that is significantly affected by land management. This project aims to create a new quantitative model for soil formation in the landscape. This project will investigate whether the soil variability is a result of the soil being a complex system. The outcome of the model will en ....Modelling soil formation in the landscape. Soil is a complex system composed of a set of interconnected physical, chemical and biological factors that function as a whole. Soil system is a key part of natural ecosystems that is significantly affected by land management. This project aims to create a new quantitative model for soil formation in the landscape. This project will investigate whether the soil variability is a result of the soil being a complex system. The outcome of the model will enable us to reconstruct the history of soil profile development in the landscape and help us understand how soil forms and landscape evolves with time.Read moreRead less
An evaluation of novel aluminosilicate materials based on modified kaolins for environmental applications. We have shown that simple and inexpensive modification of kaolin produces materials that adsorb large amounts of ammonium (N) and phosphate (P). We intend to evaluate and develop these materials for water treatment, so as to reduce N, P inputs into rivers and wetlands. The materials can then be used as fertilisers. Similarly addition of the materials to sandy soils to reduce leaching losses ....An evaluation of novel aluminosilicate materials based on modified kaolins for environmental applications. We have shown that simple and inexpensive modification of kaolin produces materials that adsorb large amounts of ammonium (N) and phosphate (P). We intend to evaluate and develop these materials for water treatment, so as to reduce N, P inputs into rivers and wetlands. The materials can then be used as fertilisers. Similarly addition of the materials to sandy soils to reduce leaching losses of N, P from fertilisers will be investigated. The major outcome of this research will be effective and inexpensive procedures for reducing eutrophication due to N, P from waste water and fertilisers.Read moreRead less
POLYMER-BASED COATINGS TO INCREASE THE SURVIVAL OF MICROBIAL INOCULANTS APPLIED TO AGRICULTURAL SEEDS. World-wide, there is much active research to maximise the use of Rhizobium for legumes and to develop a new range of growth-promoting micro-organisms for application to agricultural crops including cereals. However, very poor survival of inoculant bacteria after application to seed severely limits their effectiveness. New polymer coatings on seed may enhance survival of inoculants. By collabora ....POLYMER-BASED COATINGS TO INCREASE THE SURVIVAL OF MICROBIAL INOCULANTS APPLIED TO AGRICULTURAL SEEDS. World-wide, there is much active research to maximise the use of Rhizobium for legumes and to develop a new range of growth-promoting micro-organisms for application to agricultural crops including cereals. However, very poor survival of inoculant bacteria after application to seed severely limits their effectiveness. New polymer coatings on seed may enhance survival of inoculants. By collaboration between chemists, rhizobiologists and the inoculant and seed-coating industries, innovative technology can now be generated, improving inoculum potential, giving higher crop yields using less fertilisers. The technology will generate a rural service industry providing coated seed products that reduce farmers' input costs and help maximise their income.Read moreRead less
Use of Distichlis spicata for sustainable forage production on saline land to manage dryland salinity. Sustainable and productive use of salt-affected lands is a priority for many farmers. This project aims to develop management strategies that optimise yield, water use and nutritive value of Distichlis spicata (a salt-tolerant grass) forage on salinised lands, and to understand how this forage species affects the salt cycle, water use and fertility improvement of saline soils.
Special Research Initiatives - Grant ID: SR0567460
Funder
Australian Research Council
Funding Amount
$85,000.00
Summary
Development of a collaborative environment for high throughput biology discovery pipelines. Modern biological science involves the parallel high-throughput investigation of many hundreds of different experimental targets. Traditional approaches for recording, analysing, mining and cross comparing experimental data are inadequate for conducting high throughput experiments. This proposal aims to develop new algorithms in the high throughput arena that will revolutionize biological discovery.
Quantum Information and Entanglement: a new framework for Science and Technology with quantum many-body systems. The expected outcome of the research program is a significant boost in the understanding of quantum many-body systems, which will reinforce Australia's competitiveness and international profile in aspects of breakthrough science and frontier technologies. By developing both the underpinning theory and innovative computational tools, and by applying them to problems of recognised impor ....Quantum Information and Entanglement: a new framework for Science and Technology with quantum many-body systems. The expected outcome of the research program is a significant boost in the understanding of quantum many-body systems, which will reinforce Australia's competitiveness and international profile in aspects of breakthrough science and frontier technologies. By developing both the underpinning theory and innovative computational tools, and by applying them to problems of recognised importance, this program will have direct implications in areas of condensed matter physics, quantum statistical mechanics, particle physics, complex systems, quantum information science and technology, quantum computation, engineered quantum systems and nanotechnology. Read moreRead less
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE0775679
Funder
Australian Research Council
Funding Amount
$700,000.00
Summary
Advanced Microscopy Infrastructure for use in Frontier Technologies. This proposal seeks to establish key microscopy facilities to support the research projects from leading researchers from four major Universities. The new facilities build on the close collaborative links between the partner organisations and the request is for specialised equipment that is complementary to that available at, for example, the Australian Synchrotron. The new facilities will enhance progress in the the important ....Advanced Microscopy Infrastructure for use in Frontier Technologies. This proposal seeks to establish key microscopy facilities to support the research projects from leading researchers from four major Universities. The new facilities build on the close collaborative links between the partner organisations and the request is for specialised equipment that is complementary to that available at, for example, the Australian Synchrotron. The new facilities will enhance progress in the the important areas of nanotechnology, biotechnology and advanced materials to the benefit of the community and will play a crucial role in training the next generation of researchers to drive these critical areas of science and technology.Read moreRead less
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE0239647
Funder
Australian Research Council
Funding Amount
$290,000.00
Summary
Infrared chemical imaging and high temperature emission spectroscopy facility. Infrared spectroscopic imaging uses infrared radiation to analyse the chemical properties of microscopic samples in a fast and powerful manner. The images produced provide information about the different molecular chemistry at each pixel in the image. This is one of the latest and perhaps most important developments in vibrational spectroscopy, with wide applications in materials science, forensic science and the biol ....Infrared chemical imaging and high temperature emission spectroscopy facility. Infrared spectroscopic imaging uses infrared radiation to analyse the chemical properties of microscopic samples in a fast and powerful manner. The images produced provide information about the different molecular chemistry at each pixel in the image. This is one of the latest and perhaps most important developments in vibrational spectroscopy, with wide applications in materials science, forensic science and the biological sciences. It is an exceptional tool for the analysis of heterogeneous solids, whether these be seized drug samples, cancer cells, fibres left at a crime scene, layers of paint from a car or a Monet painting, or polymer blends.Read moreRead less