Derivation of long-term hydroclimatic sequences for water resources engineering, management and planning. This project aims to develop in-situ reconstructions of flood and drought occurrence in the Sydney Warragamba catchment. The unique approach will utilise two complementary methods to provide robust insights into historic variability at the location of interest. The derived sequences will be used to augment the instrumental record, the sole basis for current drought risk assessment. A key out ....Derivation of long-term hydroclimatic sequences for water resources engineering, management and planning. This project aims to develop in-situ reconstructions of flood and drought occurrence in the Sydney Warragamba catchment. The unique approach will utilise two complementary methods to provide robust insights into historic variability at the location of interest. The derived sequences will be used to augment the instrumental record, the sole basis for current drought risk assessment. A key outcome will be an accurate appreciation of long-term drought occurrence. This will also provide a stronger basis for utilising climate information in guiding day-to-day reservoir and water supply management. The proxy histories are of key importance in estimating future flood and drought risk assessments for water resources management and planning.Read moreRead less
Scaling and assimilation of soil moisture and streamflow. Information on how soil moisture varies in space and time has been largely restricted to point-scale groundbased measurements. We will develop methods for predicting how soil moisture status evolves in time over a range of spatial scales, by assimilating groundbased measurements and satellite observations of soil moisture with streamflow observations into simple rainfall-runoff models. Extensive soil moisture monitoring will allow develop ....Scaling and assimilation of soil moisture and streamflow. Information on how soil moisture varies in space and time has been largely restricted to point-scale groundbased measurements. We will develop methods for predicting how soil moisture status evolves in time over a range of spatial scales, by assimilating groundbased measurements and satellite observations of soil moisture with streamflow observations into simple rainfall-runoff models. Extensive soil moisture monitoring will allow development of scaling relationships and validation for new satellite-based microwave radiometers. The project's outcomes will have significant benefits in relation to flood mitigation, salinity control and irrigation management.Read moreRead less
A Stochastic Downscaling Framework for Catchment Scale Climate Change Impact Assessment. We propose a framework for climate change impact assessment at the catchment scale, that can both assess the change in catchment yield, as well as refine management policies to mitigate likely impacts. A key aim is to represent the full uncertainty in the simulated streamflow, thus enabling a risk-based comparison of current policies with those for climate change conditions. Given the importance of this rese ....A Stochastic Downscaling Framework for Catchment Scale Climate Change Impact Assessment. We propose a framework for climate change impact assessment at the catchment scale, that can both assess the change in catchment yield, as well as refine management policies to mitigate likely impacts. A key aim is to represent the full uncertainty in the simulated streamflow, thus enabling a risk-based comparison of current policies with those for climate change conditions. Given the importance of this research to the availability of water under a climate change scenario, this proposal has been listed under the ARC's Research Priority 1: 'An Environmentally Sustainable Australia', with the specific priority goals being 'Water - A Critical Resource', and 'Responding to climate change and variability'.Read moreRead less
Turbulence and energy dissipation in stepped spillways and urban drainage systems. The economical sustainability of Australia's water resources relies upon an efficient use of its structures. Present water resources are diminishing because of poor engineering design. This issue is critical in both rural and urban Australia. The economical expansions of existing water supplies can be achieved by refurbishing reservoirs, water supply networks and urban water systems. The expertise derived from the ....Turbulence and energy dissipation in stepped spillways and urban drainage systems. The economical sustainability of Australia's water resources relies upon an efficient use of its structures. Present water resources are diminishing because of poor engineering design. This issue is critical in both rural and urban Australia. The economical expansions of existing water supplies can be achieved by refurbishing reservoirs, water supply networks and urban water systems. The expertise derived from the project will spearhead applications in a range of industries dealing with civil and environmental systems.Read moreRead less