Integrating measures of Indigenous land management effectiveness. Land management is the fastest growing Indigenous employment sector in Australia yet methods for assessing its effectiveness are poorly developed. This project will work with Indigenous land managers and their major environmental service delivery partners to develop and agree on measures of land management effectiveness to meet multiple objectives.
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE110100119
Funder
Australian Research Council
Funding Amount
$370,000.00
Summary
Advanced gas chromatography mass spectrometry instrumentation for the analysis of highly complex systems. Advanced instrumentation is required for analysis of the composition of highly complex samples derived from plants, soil, petroleum, water, food and wine. Sample analyses like these form the basis of many applied science research programs. This equipment will offer improved analytical capability and sensitivity, which will enhance the scale and scope of research that can be undertaken.
Exploring social innovations in urban water systems with a novel modelling approach. The project will investigate how wide reaching social renewal takes place in the urban water sector. With improved understanding of how social innovation works, the project will develop a computer model to assist decision-making under conditions of high uncertainty with systematic scenario analysis.
Thermo-hydro-mechanics of geosynthetic liners: from processes to prediction. This project aims to resolve the complex interactions affecting the long-term performance of geosynthetic liner systems under harsh environmental conditions for preventing groundwater contamination. Failures of waste containment lining systems result in millions of dollars remedial costs and high societal costs. The project expects to underpin the development of an experimentally-validated theory to predict the performa ....Thermo-hydro-mechanics of geosynthetic liners: from processes to prediction. This project aims to resolve the complex interactions affecting the long-term performance of geosynthetic liner systems under harsh environmental conditions for preventing groundwater contamination. Failures of waste containment lining systems result in millions of dollars remedial costs and high societal costs. The project expects to underpin the development of an experimentally-validated theory to predict the performance of geosynthetic liner systems at high temperatures. Expected outcomes of the project are the establishment of a new conceptual framework and providing new guidelines for the design of geosynthetic liner systems for environmental protection. These outcomes are expected to benefit the waste and mining industries by informing planning, decision makers, consultants and construction engineers with science-based information on new lining systems for landfills and mining and industry waste containment.Read moreRead less
Innovative solutions to enhance space situational awareness. This project seeks to significantly advance Australia's space situational awareness by researching advanced orbit prediction techniques. The development of novel space object orbit prediction techniques will greatly improve collision warnings for satellite operators that provide essential space-based services to Australian Government and industries.
Quantifying the flux of fugitive greenhouse gasses associated with coal seam gas and calibrating it to natural baseline and anthropogenic sources. Recent studies show that fugitive methane emissions associated with coal seam gas extraction pose a source of greenhouse gasses. In addition to the possible environmental impacts of methane emissions, quantifying the magnitude of emissions has potentially significant implications for future tax liabilities that could change the economics of the unconv ....Quantifying the flux of fugitive greenhouse gasses associated with coal seam gas and calibrating it to natural baseline and anthropogenic sources. Recent studies show that fugitive methane emissions associated with coal seam gas extraction pose a source of greenhouse gasses. In addition to the possible environmental impacts of methane emissions, quantifying the magnitude of emissions has potentially significant implications for future tax liabilities that could change the economics of the unconventional energy boom in Australia. The proposed research by an interdisciplinary team representing regulators, industry, and university researchers would establish a methodology for quantifying the flux of methane from gas fields. It would establish the range of natural baselines and determine the major sources of methane emissions using newly available highly sensitive instruments.Read moreRead less
From environmental monitoring to management: extracting knowledge about environmental events from sensor data. New, high-detail sources of environmental sensor data are useless without new methods for identifying patterns and extracting knowledge from that data. This project will develop improved techniques for interacting with environmental sensor data to assist environmental scientists and manager in understand the important events that are occurring.
RISER: resilient information systems for emergency response. This project will help to provide emergency managers, responders, and the general public in Australia with access to more timely and relevant information during an emergency. The project will improve the resilience of emergency information systems to the unplanned component failures and uncertain data sources that arise during a disaster.
Integrating satellite observations into environmental accounts. Accounting for biomass, water and ecosystem helps to manage and protect Australia's natural capital. Existing data provide only limited information, but this project will build on recent advances in satellite observation and model-data fusion technology to produce national accounts with unprecedented detail, for each year since 1990.
Discovery Early Career Researcher Award - Grant ID: DE200100124
Funder
Australian Research Council
Funding Amount
$422,750.00
Summary
Indigenous water futures: sustainable & autonomous environmental governance. The project aims to explore how different Indigenous water management strategies deal with evolving environmental challenges. Building on innovative and collaborative methodologies, the project expects to generate new insights into how Indigenous peoples approach environmental governance. Project outcomes include enhanced understanding of the role that Indigenous peoples can play in promoting the efficacy, equity, and s ....Indigenous water futures: sustainable & autonomous environmental governance. The project aims to explore how different Indigenous water management strategies deal with evolving environmental challenges. Building on innovative and collaborative methodologies, the project expects to generate new insights into how Indigenous peoples approach environmental governance. Project outcomes include enhanced understanding of the role that Indigenous peoples can play in promoting the efficacy, equity, and sustainability of water management. The expected project benefits include specific policy recommendations for Indigenous sovereignty, water management, and environmental governance in the context of environmental change in Australia.Read moreRead less