Nanostructured liquid crystal particles as Next Generation agricultural bioactive delivery systems. Improving the efficiency of use of agricultural chemicals, through utilization of novel liquid crystalline carriers particles, will deliver significant environmental and economic benefits. Reduced overall usage and input of chemicals into the environment, together with lower water consumption in the treatment of crops will contribute to an Environmentally Sustainable Australia, with benefits in re ....Nanostructured liquid crystal particles as Next Generation agricultural bioactive delivery systems. Improving the efficiency of use of agricultural chemicals, through utilization of novel liquid crystalline carriers particles, will deliver significant environmental and economic benefits. Reduced overall usage and input of chemicals into the environment, together with lower water consumption in the treatment of crops will contribute to an Environmentally Sustainable Australia, with benefits in reduced salinity. More economical farming will also lead to flow on benefits to other businesses in rural communities. The project will also enhance Australia's reputation in the uptake of nanotechnologies, and in training of young scientists in the nanotechnology field.Read moreRead less
A Novel Phosphate Fertiliser Enhanced by Biofertiliser Technology. This project will deliver efficient use of the limited supplies of high quality phosphorus minerals as fertiliser-P, simultaneously acting to reverse and prevent soil acidification. These cost-effective benefits from utilising Australia's microbial biodiversity will have major economic and environmental impacts in rural Australia,increasing the profitability of farming and reducing the potential for contamination of aquatic syste ....A Novel Phosphate Fertiliser Enhanced by Biofertiliser Technology. This project will deliver efficient use of the limited supplies of high quality phosphorus minerals as fertiliser-P, simultaneously acting to reverse and prevent soil acidification. These cost-effective benefits from utilising Australia's microbial biodiversity will have major economic and environmental impacts in rural Australia,increasing the profitability of farming and reducing the potential for contamination of aquatic systems and groundwater with nutrients causing algal blooms. By solving needs for fertiliser-P while preventing acidification of soil, farmers are expected to welcome this novel fertiliser technology.Read moreRead less
Enhanced efficiency fertilisers for agricultural sustainability and environmental quality. Expected benefits will come from reduced environmental impact and improved profitability of farming. These include: demonstrably reduced emissions of nitrogen gases (nitrous oxide (a greenhouse gas), nitric oxide (ozone active), and ammonia (a pollutant and secondary greenhouse gas); less nitrate leaching, soil acidification and nitrogen contamination of water resources; increased flexibility in timing and ....Enhanced efficiency fertilisers for agricultural sustainability and environmental quality. Expected benefits will come from reduced environmental impact and improved profitability of farming. These include: demonstrably reduced emissions of nitrogen gases (nitrous oxide (a greenhouse gas), nitric oxide (ozone active), and ammonia (a pollutant and secondary greenhouse gas); less nitrate leaching, soil acidification and nitrogen contamination of water resources; increased flexibility in timing and method of fertiliser application; reduced requirement for nitrogen fertiliser, and; helping farmers adapt to future climatic and elevated CO2 conditions. These outcomes will significantly improve and help protect the future financial and environmental conditions of rural Australia, and improve our national greenhouse account. Read moreRead less