Reducing export of acid sulfate soil products (particularly iron, aluminium, phosphorus, and organic carbon) as contaminants to coastal waters. Current Australian management of acid sulfate soils (ASS) emphasises the reduction of acidity in floodplain drainage. However this acidity is mainly from the dissolved metals, which can be increased by some management techniques. Dissolved metals can be biotoxic or encourage harmful coastal phytoplankton. Organic metal complexes can increase metal tran ....Reducing export of acid sulfate soil products (particularly iron, aluminium, phosphorus, and organic carbon) as contaminants to coastal waters. Current Australian management of acid sulfate soils (ASS) emphasises the reduction of acidity in floodplain drainage. However this acidity is mainly from the dissolved metals, which can be increased by some management techniques. Dissolved metals can be biotoxic or encourage harmful coastal phytoplankton. Organic metal complexes can increase metal transport but shading of soil and drain surfaces, and constructed wetlands offers a new management tool. Our research aims to reduce transport to coastal waters of these ASS products. A sustainable Australian coast requires that improvement of ASS floodplains must not be at the environmental expense of coastal waters. Read moreRead less
Spatial and temporal monitoring of soil erosion risk with satellite imagery. This project is directed towards Sustainable farm practices, one of the national priorities in the Caring for Our Country program. The satellite image-based monitoring system will provide new information about the changing distribution of erosion risk in seasonal cropping systems, and identify areas where agricultural practices significantly influence this risk. The research will allow landholders, regional, state and n ....Spatial and temporal monitoring of soil erosion risk with satellite imagery. This project is directed towards Sustainable farm practices, one of the national priorities in the Caring for Our Country program. The satellite image-based monitoring system will provide new information about the changing distribution of erosion risk in seasonal cropping systems, and identify areas where agricultural practices significantly influence this risk. The research will allow landholders, regional, state and national authorities to better target effort towards sustainable land management, and improve monitoring and reporting of land condition across broad agricultural regions. Dynamic monitoring of erosion risk will also track landscape conditions and farmer responses to changing climate.Read moreRead less
Environmental risk assessment of acid sulfate soil formation and pollutant generation in Swan Coastal Plain. The urgency and importance of securing water sources for human use in a sustainable manner is dictated by drying climate and rapid population expansion in Australia. Dropping groundwater levels (less recharge, increased abstraction, enhanced drainage) result in formation of acid sulfate soils in oxidised layers that contain acid-bearing minerals. This project will produce an environmental ....Environmental risk assessment of acid sulfate soil formation and pollutant generation in Swan Coastal Plain. The urgency and importance of securing water sources for human use in a sustainable manner is dictated by drying climate and rapid population expansion in Australia. Dropping groundwater levels (less recharge, increased abstraction, enhanced drainage) result in formation of acid sulfate soils in oxidised layers that contain acid-bearing minerals. This project will produce an environmental risk assessment framework as a basis for (i) educated decisions regarding land development and soil disturbance vs conservation as well as (ii) identifying areas suitable for water abstraction from groundwater resources. This will ensure sustainable use of precious groundwater resources in this drying continent of ours.Read moreRead less
Coal-ash as a resource for sustainable soil-management in plant production systems. Acidification and salinisation are major causes of land degradation in Australia, costing $1-2 billion to combat. Farmers used 1.9M t of lime and 1.0M t of gypsum to manage their soils in 2000. Power stations annually produce 12M t of coal-ash that have functional characteristics of lime and gypsum and can potentially ameliorate degraded land. Presently only 43% of the ash is used and almost entirely for constr ....Coal-ash as a resource for sustainable soil-management in plant production systems. Acidification and salinisation are major causes of land degradation in Australia, costing $1-2 billion to combat. Farmers used 1.9M t of lime and 1.0M t of gypsum to manage their soils in 2000. Power stations annually produce 12M t of coal-ash that have functional characteristics of lime and gypsum and can potentially ameliorate degraded land. Presently only 43% of the ash is used and almost entirely for construction with the rest going into landfills. This project will determine the sustainable use of coal-ash to improve structure and nutritive properties of the soil and to raise crop yield across several sites in Australia.Read moreRead less
Optimised field delineation of contaminated soils. This project seeks to cost-efficiently identify the contaminated areas of a soil site which will require remediation. There are many thousands of sites contaminated with metals and/or organics across urban and rural Australia and some tens of millions across the world. These sites pose a serious potential threat to human health. Detection (and remediation) of such sites is expensive. The project aims to deliver a cheaper method of detection thro ....Optimised field delineation of contaminated soils. This project seeks to cost-efficiently identify the contaminated areas of a soil site which will require remediation. There are many thousands of sites contaminated with metals and/or organics across urban and rural Australia and some tens of millions across the world. These sites pose a serious potential threat to human health. Detection (and remediation) of such sites is expensive. The project aims to deliver a cheaper method of detection through a novel combination of infra-red and X-ray spectroscopies combined with data-fused soil inference and optimised directed sampling and mapping. This is intended to reduce the economic barrier to detection and remediation, considerably hastening the removal of this health risk. Resulting novel technology could be transferred and commercialised internationally.Read moreRead less
Stabilisation of erodible and dispersive soils with natural wood processing by-products. Lignosulfonate is a by-product of paper and wood processing industry, which is an environmentally friendly organic compound with an immense potential for stabilising erodible and dispersive soils when mixed in small quantities. This project will deliver practical design guidelines and specifications for sustainable performance of road and rail embankments that are treated with lignosulfonates. Utilisation of ....Stabilisation of erodible and dispersive soils with natural wood processing by-products. Lignosulfonate is a by-product of paper and wood processing industry, which is an environmentally friendly organic compound with an immense potential for stabilising erodible and dispersive soils when mixed in small quantities. This project will deliver practical design guidelines and specifications for sustainable performance of road and rail embankments that are treated with lignosulfonates. Utilisation of lignosulfonates in soil stabilisation is not only cost-effective, but also has the benefit of eliminating a waste disposal problem. The proposed project will improve industrial competitiveness and Australia's export earnings through increased commercialisation and technology transfer in the region.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.
Saltland pastures in Southern Australia - opportunities for carbon sequestration and salinity management. Expanding areas of dryland salinity now seem inevitable in southern Australia. There is good evidence that productive saltland pastures can be developed on these areas, and there are opportunities to use these pastures for gaining carbon credits. The present study will account for the effects of saltland pasture establishment and management on carbon sequestration and for greenhouse gas emis ....Saltland pastures in Southern Australia - opportunities for carbon sequestration and salinity management. Expanding areas of dryland salinity now seem inevitable in southern Australia. There is good evidence that productive saltland pastures can be developed on these areas, and there are opportunities to use these pastures for gaining carbon credits. The present study will account for the effects of saltland pasture establishment and management on carbon sequestration and for greenhouse gas emissions from their saline, waterlogged soils. Budgets of carbon sequestration on saltland pastures will be critical evidence for Article 3.4 negotiations under the Kyoto Agreement. Scaled-up estimates of the carbon sequestered will account for site factors, composition of pastures and grazing.Read moreRead less
Improving water use efficiency of grapevine production in the Great Western region using effluent water and soil amelioration practices. Irrigation of vineyards with municipal wastewater is a desirable option for the viticulturists of the Great Western region of Victoria, but only if vineyard soil structure is not adversely affected. This project will (1) study the impact of dissolved chemicals in the waste water on the structure of the local sandy soils; (2) model the data to enhance understand ....Improving water use efficiency of grapevine production in the Great Western region using effluent water and soil amelioration practices. Irrigation of vineyards with municipal wastewater is a desirable option for the viticulturists of the Great Western region of Victoria, but only if vineyard soil structure is not adversely affected. This project will (1) study the impact of dissolved chemicals in the waste water on the structure of the local sandy soils; (2) model the data to enhance understanding of the key chemical and physical mechanisms controlling grey water impact in heterogeneous environments. The resulting predictive tools will have direct application in the Great Western region's vineyards, and for irrigation of grey water in vineyards across Ausralia.Read moreRead less
Stabilization of hydrology at waste disposal sites through revegetation. Persistent drought in the past 20 years has increased the extraction of groundwater reserves by more than 2-fold to meet domestic water requirements throughout Australia. This water resource could be threatened from poorly managed waste disposal sites, where removal of pre-existing vegetation often exacerbates adverse hydrological processes of deep drainage. This study will provide information for the waste management indus ....Stabilization of hydrology at waste disposal sites through revegetation. Persistent drought in the past 20 years has increased the extraction of groundwater reserves by more than 2-fold to meet domestic water requirements throughout Australia. This water resource could be threatened from poorly managed waste disposal sites, where removal of pre-existing vegetation often exacerbates adverse hydrological processes of deep drainage. This study will provide information for the waste management industry that has achieved an annual turnover of more than $200 million in recent years. It will present recommendations on how vegetation can be employed to meet regulatory requirements by the industry.Read moreRead less