Linkage Infrastructure, Equipment And Facilities - Grant ID: LE0560920
Funder
Australian Research Council
Funding Amount
$129,800.00
Summary
Field spectroradiometer and associated equipment for quantitative measurement and characterization of biophysical features and calibration of remotely sensed imagery. This set of equipment will improve and extend existing research capabilities in the field of in-situ remote sensing research and applications, for both aquatic and terrestrial environments. It will contribute to knowledge regarding terrestrial, coastal and estuarine vegetation and linkages to environmental change and will assist in ....Field spectroradiometer and associated equipment for quantitative measurement and characterization of biophysical features and calibration of remotely sensed imagery. This set of equipment will improve and extend existing research capabilities in the field of in-situ remote sensing research and applications, for both aquatic and terrestrial environments. It will contribute to knowledge regarding terrestrial, coastal and estuarine vegetation and linkages to environmental change and will assist in the development of new algorithms, indices and techniques of vegetation discrimination from remotely sensed imagery. It will help in the understanding of reflectance in plants under stress or pest damage. The spectroradiometer will enable the group to expand applications in the field of urban fire hazard mapping, precision agriculture, crop physiology, species mapping, viticulture and canopy modelling.Read moreRead less
An innovative approach to maximising catchment water yield in a changing climate. Australia is facing a crisis in water availability and management within many of the continent's major cities and the Murray-Darling and Sydney Basins. Risk to water resources will also be exacerbated by climate change. Past solutions of increasing water supply by building dams are no longer easily implemented because of the significant environmental consequences. To maximise yield, better management of current res ....An innovative approach to maximising catchment water yield in a changing climate. Australia is facing a crisis in water availability and management within many of the continent's major cities and the Murray-Darling and Sydney Basins. Risk to water resources will also be exacerbated by climate change. Past solutions of increasing water supply by building dams are no longer easily implemented because of the significant environmental consequences. To maximise yield, better management of current resources is required, dependent on understanding what factors affect water yield and how they may be better manipulated. This project innovatively integrates ecological and hydrological processes by modelling the expression of water use by vegetation and its management and water availability at fine resolutions.Read moreRead less
Designing landscapes to deliver ecosystem services to agriculture. This project addresses the Priority Goal of Sustainable Use of Biodiversity by employing a pioneering management framework that identifies situations where agriculture can gain maximum benefit from nature's services. Services like pollination are crucial; approximately 35% of global food production comes from crops pollinated by bees or birds. These services contribute billions of dollars to production. Our model will greatly enh ....Designing landscapes to deliver ecosystem services to agriculture. This project addresses the Priority Goal of Sustainable Use of Biodiversity by employing a pioneering management framework that identifies situations where agriculture can gain maximum benefit from nature's services. Services like pollination are crucial; approximately 35% of global food production comes from crops pollinated by bees or birds. These services contribute billions of dollars to production. Our model will greatly enhance the flow of services from nature to agriculture by linking land-use options with service availability. This will improve economic returns to local communities and agricultural industries, and promote protection of native species by recognising their contribution to agriculture. Read moreRead less
Development of an integrated sustainability framework for best management practice of urban water systems. The aim of the project is to develop an integrated sustainability framework for Australian urban water systems. The project will aim to overcome major methodological limitations that are caused by the separate consideration of environmental impacts, health risks, economic and social aspects, by taking a holistic, inter-disciplinary and integrated approach.
The outcome will be a sound, co ....Development of an integrated sustainability framework for best management practice of urban water systems. The aim of the project is to develop an integrated sustainability framework for Australian urban water systems. The project will aim to overcome major methodological limitations that are caused by the separate consideration of environmental impacts, health risks, economic and social aspects, by taking a holistic, inter-disciplinary and integrated approach.
The outcome will be a sound, comprehensive, mostly quantitative, reproducible, transparent and reliable framework for sustainability. This new method will be trialled for developing sustainable water strategies for five major Australian cities. Its value is greatly increased by the fact that the project will be developed with strong community engagement.Read moreRead less
Integrating Economic Valuation and Water Quality Modelling for Improving Management of Coastal Catchments. This project will apply and integrate water quality models and economic assessment techniques to assist policy makers and catchment managers balance competing development pressures and environmental concerns in coastal catchments. The research is fundamental to underpinning the sustainable management of coastal catchments which provide major economic, environmental and community benefits. T ....Integrating Economic Valuation and Water Quality Modelling for Improving Management of Coastal Catchments. This project will apply and integrate water quality models and economic assessment techniques to assist policy makers and catchment managers balance competing development pressures and environmental concerns in coastal catchments. The research is fundamental to underpinning the sustainable management of coastal catchments which provide major economic, environmental and community benefits. The project will provide robust tools to predict water quality impacts under a range of conditions and it will develop techniques for the economic valuation of market and non-market impacts. The project will demonstrate the integration of water quality and economic modelling and how it can influence policy and investment in conservation and remediation.Read moreRead less
Integrating the conservation and ecosystem-service value of Australia's catchments. This project addresses the Priority Goal of Sustainable Use of Biodiversity by explicitly linking the intrinsic value of biodiversity and supporting ecosystems with the services they provide to humanity (e.g. carbon storage and nutrient cycling). It will employ a comprehensive, innovative approach to integrating conservation, market and non-market values of land holdings in Australia's catchments using the concep ....Integrating the conservation and ecosystem-service value of Australia's catchments. This project addresses the Priority Goal of Sustainable Use of Biodiversity by explicitly linking the intrinsic value of biodiversity and supporting ecosystems with the services they provide to humanity (e.g. carbon storage and nutrient cycling). It will employ a comprehensive, innovative approach to integrating conservation, market and non-market values of land holdings in Australia's catchments using the concept of nature's services. Through extensive collaboration among leading scientists and land managers, the project will identify sites of high value requiring special attention, yield important theoretical advancements to how we value ecosystems, and provide practical and easily applied guidelines for land managers. Read moreRead less
A biogeochemical study of a coastal lagoon - tests of a mechanistic model. The water quality and seagrass biomass of intermittently closed-open lagoons (ICOLs), which dominate the NSW coast, are declining in response to development and their low flushing rates. A combination of field sampling, biogeochemical analysis and ecological modelling will be used to improve our quantitative understanding and prediction of ecological processes in small estuaries. A novel, mechanistic model of nutrients- ....A biogeochemical study of a coastal lagoon - tests of a mechanistic model. The water quality and seagrass biomass of intermittently closed-open lagoons (ICOLs), which dominate the NSW coast, are declining in response to development and their low flushing rates. A combination of field sampling, biogeochemical analysis and ecological modelling will be used to improve our quantitative understanding and prediction of ecological processes in small estuaries. A novel, mechanistic model of nutrients-phytoplankton-seagrass-zooplankton will be improved with detailed sampling of Smiths Lake on the central NSW coast. Simulations indicative of future development, fish re-stocking or management options will indicate the cost-benefit on estuarine ecosystems.Read moreRead less
Detecting ecological impacts of water extraction on river ecosystem structure and function: Validating a novel decision-making protocol. Reliable assessment of ecological responses to flow alteration coupled with management triggers to prevent unacceptable impact is essential in rivers where water extraction occurs. Most regulated rivers lack optimal monitoring programs to provide early indications of over-extraction. We aim to apply a novel framework (Downes et al. 2002) to optimize sampling ....Detecting ecological impacts of water extraction on river ecosystem structure and function: Validating a novel decision-making protocol. Reliable assessment of ecological responses to flow alteration coupled with management triggers to prevent unacceptable impact is essential in rivers where water extraction occurs. Most regulated rivers lack optimal monitoring programs to provide early indications of over-extraction. We aim to apply a novel framework (Downes et al. 2002) to optimize sampling efficiency of structural and functional variables to determine whether extractions from the Nymboida River, NSW, are preventing the system from achieving its desired ?target?. If validated, this innovative framework that specifies effect size, statistical power, and management triggers will be invaluable for common situations where pre-impact data are lacking.Read moreRead less
Anthropogenic influences on the source, transformation and fate of carbon and nitrogen in coastal waters: a case study of the Derwent Estuary. Ninety five percent of Australia's population live in the coastal zone on the shores of our major bays and estuaries. These water bodies are valuable resources for recreation, boating, fishing, marine transport and industry, but some activities, particularly the release of nitrogen, impose an environmental and economic cost. This project will significant ....Anthropogenic influences on the source, transformation and fate of carbon and nitrogen in coastal waters: a case study of the Derwent Estuary. Ninety five percent of Australia's population live in the coastal zone on the shores of our major bays and estuaries. These water bodies are valuable resources for recreation, boating, fishing, marine transport and industry, but some activities, particularly the release of nitrogen, impose an environmental and economic cost. This project will significantly advance our understanding of the natural processes that control the transformation and fate of nitrogen in coastal waters. As such the outcomes of this study will provide key information for managers on the environmental outcomes of nutrient management strategies.Read moreRead less