Drought and Salinity Tolerance in Metal Hyperaccumulating Plants: A Functional Role for the Metals? A few plant species can ?hyperaccumulate? metal ions to 100-1000 times the concentrations seen in ?normal? plants. Just why these plants have evolved such an extreme response to metalliferous soils remains an enigma. Many of the hyperaccumulators so far described are endemic to xeric environments, or saline soils prone to rapid drying. We hypothesize that the metals might act as osmotica, enha ....Drought and Salinity Tolerance in Metal Hyperaccumulating Plants: A Functional Role for the Metals? A few plant species can ?hyperaccumulate? metal ions to 100-1000 times the concentrations seen in ?normal? plants. Just why these plants have evolved such an extreme response to metalliferous soils remains an enigma. Many of the hyperaccumulators so far described are endemic to xeric environments, or saline soils prone to rapid drying. We hypothesize that the metals might act as osmotica, enhancing plant survival during water stress. This will be tested for Australian native and non-native hyperaccumulator plants. The study will clarify our understanding of the evolutionary significance of hyperaccumulation, and has important applications for extracting metals from contaminated soils.Read moreRead less
Combining recycled water use, biofuel production and phytoremediation of contaminated land and biosolids. The storage of biosolids, by-products of sewage treatment, is an environmentally unsustainable practice exacerbated by the presence of inorganic and organic contaminants. Phytoremediation is a plant-based technology which is potentially a cost-effective option for progressive long-term and sustainable clean-up of contaminated soils and sediments. Combining metal extraction by plants with r ....Combining recycled water use, biofuel production and phytoremediation of contaminated land and biosolids. The storage of biosolids, by-products of sewage treatment, is an environmentally unsustainable practice exacerbated by the presence of inorganic and organic contaminants. Phytoremediation is a plant-based technology which is potentially a cost-effective option for progressive long-term and sustainable clean-up of contaminated soils and sediments. Combining metal extraction by plants with reuse of wastewater and the production of a biofuel will provide multiple benefits of a cleaner environment, water conservation, waste reduction, carbon capture and a reduction in fossil fuel use. Development of such a low-cost combined bioenergy/remediation system will be of considerable local/regional benefit and national significance.Read moreRead less
Generation of Ultra-Clean Fuel from Victorian Brown Coal and Its Oxygen-Enriched Combustion Characteristics. Completion of this project can significantly contribute to the national priority of developing alternative energy technologies and ecologically sustainable power generation systems, as well as provide solutions to reduce and capture greenhouse gas emissions during Victorian brown coal firing. Improvements in the quality of Victorian brown coal and its value in national/international trad ....Generation of Ultra-Clean Fuel from Victorian Brown Coal and Its Oxygen-Enriched Combustion Characteristics. Completion of this project can significantly contribute to the national priority of developing alternative energy technologies and ecologically sustainable power generation systems, as well as provide solutions to reduce and capture greenhouse gas emissions during Victorian brown coal firing. Improvements in the quality of Victorian brown coal and its value in national/international trade markets can be achieved through the generation of ultra-clean fuel from coal. Substitution of ultra-clean fuel for Victorian brown coal in energy industries would greatly improve the competitiveness of the Victorian economy in a carbon-constrained future, and ensure power generation near-zero emissions.Read moreRead less
PHYTOREMEDIATION OF BIOSOLIDS AND SOILS CONTAMINATED WITH HEAVY METALS AT THE WESTERN TREAMENT PLANT, WERRIBEE. This project will provide a scientifically-sound basis for the practical implementation of phytoremediation technology to remove or stabilize metal and metalloid contaminants in soils and biosolid stockpiles at Melbourne Water's Western Treatment Plant at Werribee. Through glasshouse and field trials it will identify plants suitable for the use in large-scale phytoremediation of bioso ....PHYTOREMEDIATION OF BIOSOLIDS AND SOILS CONTAMINATED WITH HEAVY METALS AT THE WESTERN TREAMENT PLANT, WERRIBEE. This project will provide a scientifically-sound basis for the practical implementation of phytoremediation technology to remove or stabilize metal and metalloid contaminants in soils and biosolid stockpiles at Melbourne Water's Western Treatment Plant at Werribee. Through glasshouse and field trials it will identify plants suitable for the use in large-scale phytoremediation of biosolids and soils to which these have been applied, underpinned by a greater understanding of the controls of contaminant bioavailability.Read moreRead less
Amelioration strategies to reduce environmental deterioration and agricultural production losses in water repellent regions. Millions of hectares of potentially productive agricultural land in Australia are affected by water-repellency. Water repellency causes non-uniform infiltration of water in soils and promotes surface erosion. Consequently, water repellent soils cannot be satisfactorily used for agricultural production, resulting in production losses of millions of dollars annually. This in ....Amelioration strategies to reduce environmental deterioration and agricultural production losses in water repellent regions. Millions of hectares of potentially productive agricultural land in Australia are affected by water-repellency. Water repellency causes non-uniform infiltration of water in soils and promotes surface erosion. Consequently, water repellent soils cannot be satisfactorily used for agricultural production, resulting in production losses of millions of dollars annually. This investigation is part of a genuine international effort that will develop new procedures to ameliorate water-repellent soils. New and improved mathematical models and decision support tools will also be developed to improve water-repellent land management, reduce environmental risk and minimise agriculture production loss.Read moreRead less