Better water management through more focus on ecological and social sciences. Current water resources management, focusing on gains of economic efficiency in the short term under the assumption of steady-state conditions, has generally failed to respond to both catchment environmental degradation and to the increasing complexity of human–environment interactions. This project will develop a new approach to water resources management by relating management practices based on ecological understand ....Better water management through more focus on ecological and social sciences. Current water resources management, focusing on gains of economic efficiency in the short term under the assumption of steady-state conditions, has generally failed to respond to both catchment environmental degradation and to the increasing complexity of human–environment interactions. This project will develop a new approach to water resources management by relating management practices based on ecological understanding to the social mechanisms behind these practices at water catchments. It will improve the predictability and precision of water resources management and increase our ability to maintain our options for a sustainable future. This will have a profound effect on catchment sustainability, a globally significant problem.Read moreRead less
Discovery Early Career Researcher Award - Grant ID: DE140101608
Funder
Australian Research Council
Funding Amount
$394,655.00
Summary
Water resources in a changing climate: impact of climate variability, climate and land-use change on surface water dynamics and ecosystem connectivity. Climate and land use change act synergistically to affect scarce water resources, already under enormous pressure in Australia. This cross-disciplinary project aims to quantify the climate-driven variability and impact of climate and land use change on surface water dynamics and connectivity. This research will take a holistic approach integratin ....Water resources in a changing climate: impact of climate variability, climate and land-use change on surface water dynamics and ecosystem connectivity. Climate and land use change act synergistically to affect scarce water resources, already under enormous pressure in Australia. This cross-disciplinary project aims to quantify the climate-driven variability and impact of climate and land use change on surface water dynamics and connectivity. This research will take a holistic approach integrating remote sensing and climate data, land use science, graph theory and spatial statistics. Findings will, for the first time, assess the impact of multiple drivers of change (climate, land use) on scarce water resources by integrating empirical observations on surface water variability with global climate model projections and land use scenarios.Read moreRead less
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE150100047
Funder
Australian Research Council
Funding Amount
$540,000.00
Summary
A multi-frequency microwave radiometer system for environmental research. A multi-frequency microwave radiometer system for environmental research: A new capability for airborne remote sensing of key environmental variables will be established. The unique P-, Ku- and Ka-band passive microwave radiometer system will provide information on soil moisture, surface temperature and vegetation, and allow for a new satellite concept to be demonstrated. By combining with an existing L-band radiometer, da ....A multi-frequency microwave radiometer system for environmental research. A multi-frequency microwave radiometer system for environmental research: A new capability for airborne remote sensing of key environmental variables will be established. The unique P-, Ku- and Ka-band passive microwave radiometer system will provide information on soil moisture, surface temperature and vegetation, and allow for a new satellite concept to be demonstrated. By combining with an existing L-band radiometer, data can be collected simultaneously at P-, L-, Ku- and Ka-bands, with increased spatial resolutions accordingly. The shorter wavelength, but higher spatial resolution data can be used to enhance the spatial resolution of the longer wavelength data, resulting in a capability to derive long wavelength observations from space at unprecedented spatial resolution.Read moreRead less
A novel approach for assessing environmental flows using satellite data. This project will determine how ecosystems respond to environmental flow by linking flooding history with vegetation responses, using remote sensing, climate data layers, spatial statistics, models of environmental flows and ecological theory. Beneficiaries will include water and land managers in Australia.