Discovery Early Career Researcher Award - Grant ID: DE200101319
Funder
Australian Research Council
Funding Amount
$373,857.00
Summary
Building a carbon neutral future for Australian agriculture . The aim of this research is to design an economically sound policy strategy for making the Australian agriculture sector carbon neutral by 2040. This strategy will provide policy makers with a menu of policy packages to improve the sector’s international competitiveness, in the context of growing demands from consumers and international markets for low emission products while meeting the challenges of a changing climate. To assist in ....Building a carbon neutral future for Australian agriculture . The aim of this research is to design an economically sound policy strategy for making the Australian agriculture sector carbon neutral by 2040. This strategy will provide policy makers with a menu of policy packages to improve the sector’s international competitiveness, in the context of growing demands from consumers and international markets for low emission products while meeting the challenges of a changing climate. To assist in developing this strategic knowledge a national-scale quantitative economic model will be developed. Given the absence of a clear national strategy for agricultural GHG emissions and the growing global urgency addressing climate change, this research fills an important gap and comes at an opportune time. Read moreRead less
In situ desalination with membranes for climate resilient irrigation. This project aims to design a climate-resilient irrigation system that minimises evaporative losses and can operate on brackish groundwater without reducing crop yield or damaging soil structure. To do so, it will improve a sub-surface irrigation system that uses desalination membranes. The irrigation system is built on understanding water transport under tension caused by plant transpiration and identifying membranes that can ....In situ desalination with membranes for climate resilient irrigation. This project aims to design a climate-resilient irrigation system that minimises evaporative losses and can operate on brackish groundwater without reducing crop yield or damaging soil structure. To do so, it will improve a sub-surface irrigation system that uses desalination membranes. The irrigation system is built on understanding water transport under tension caused by plant transpiration and identifying membranes that can supply water and remove salt without cativation.Read moreRead less
The next generation rural landscape governance: the Australian dimension. The project team in collaboration with Industry and regional stakeholders will undertake innovative research to develop the next generation of natural resource governance in Australia. This project will focus on the reforms required to improve the sustainability performance of primary industries through reduced transaction costs, co-regulatory structures and stewardship.
Mechanistic and probabilistic approaches to assessing the impact of pesticide mixtures in Australian waterways. This project will provide vital information on the impacts of pesticide mixtures in Australian waterways and will also provide information with respect to safe levels of pesticides for water quality management. This information will be used to develop scientifically sound management policies and provide advice to regulatory authorities such as the NSW Department of Environment and Cons ....Mechanistic and probabilistic approaches to assessing the impact of pesticide mixtures in Australian waterways. This project will provide vital information on the impacts of pesticide mixtures in Australian waterways and will also provide information with respect to safe levels of pesticides for water quality management. This information will be used to develop scientifically sound management policies and provide advice to regulatory authorities such as the NSW Department of Environment and Conservation and the Federal Department of Environment and Heritage. Specifically the results will contribute to ensuring the use of pesticides in market gardens close to Sydney does not threaten the health of local rivers. Read moreRead less
Predicting the delivery of ecosystem services in agricultural landscapes. The ecological sustainability of Australian agriculture relies on services (for example, pollination) provided by ecosystems. Service provision is threatened by environmental change, but there is no established approach for predicting the impact of change on services. This project will undertake the most comprehensive experimental examination of ecosystem-service delivery ever conducted in Australia, testing the predictive ....Predicting the delivery of ecosystem services in agricultural landscapes. The ecological sustainability of Australian agriculture relies on services (for example, pollination) provided by ecosystems. Service provision is threatened by environmental change, but there is no established approach for predicting the impact of change on services. This project will undertake the most comprehensive experimental examination of ecosystem-service delivery ever conducted in Australia, testing the predictive capacity of an approach that links environmental change with variation in service provision through species’ traits. The major outcomes include greater capacity for agriculturalists to maximise ecosystem benefits and increase economic returns, and improved biodiversity conservation through recognition of its contribution to agriculture. Read moreRead less
Methane and nitrous oxide in agro-ecological systems: novel technologies and understandings to improve ecosystem management. Methane and nitrous oxide are critical greenhouse gases but globally we lack ecosystem scale analyses of the balance of emissions, including animal emissions, and soil oxidation. This project will quantify this balance for a range of agro-ecosystems, and explore and develop opportunities for improving soil-based Greenhouse Gas (GHG) mitigation measures.
Urban biochar: towards prescriptive biochar use for maximum economic productivity and sustainability benefits in urban environments. This project will develop a life cycle assessment of waste management options for green waste and biosolids based on a clear understanding of productivity benefits of urban biochar application to high value production systems.
Development of the next generation of organo-mineral fertilisers utilising domestic and commercial waste products. Australian agriculture relies heavily on fertilisers and better products are needed that are derived from sustainable sources, have minimal adverse environmental impact and support high plant yields. This project will apply advanced approaches of nanostructural analysis and microbial ecology to developed next-generation organo-mineral fertilisers.
Molecular technology for biological control of the most destructive horticultural pest in Australia. As part of a world-wide effort to apply transgenic technologies for the improvement of the Sterile Insect Technique (SIT), this project will place Australian research at the forefront of the latest developments in the field. With a requirement for fruit fly free status of horticultural production and an increasing demand for pesticide free produce, improved SIT strains of Queensland fruit fly wi ....Molecular technology for biological control of the most destructive horticultural pest in Australia. As part of a world-wide effort to apply transgenic technologies for the improvement of the Sterile Insect Technique (SIT), this project will place Australian research at the forefront of the latest developments in the field. With a requirement for fruit fly free status of horticultural production and an increasing demand for pesticide free produce, improved SIT strains of Queensland fruit fly will be vital to maintain our competitiveness in international horticultural markets. Rural and regional areas will be the main beneficiaries from the outcomes, with health benefits, a clean and green image for horticulture, simplified marketing and reduced costs. Read moreRead less
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE100100030
Funder
Australian Research Council
Funding Amount
$1,200,000.00
Summary
Advanced focused ion beam (FIB) / scanning electron microscopes (SEM) for nanometre scale characterisation and fabrication. These instruments are designed to provide fundamental insights into physical and biological systems though characterisation and fabrication of structures at nanometre length scales. These versatile platforms will support a wide range of projects covering three national research priority areas. These range from the characterisation of light alloys for improving and building ....Advanced focused ion beam (FIB) / scanning electron microscopes (SEM) for nanometre scale characterisation and fabrication. These instruments are designed to provide fundamental insights into physical and biological systems though characterisation and fabrication of structures at nanometre length scales. These versatile platforms will support a wide range of projects covering three national research priority areas. These range from the characterisation of light alloys for improving and building Australia's Aluminium, Magnesium and Titanium alloy industries, to the study of aerosol particles for improved pulmonary drug delivery for asthma patients, the development of advanced solar cells and the study of the integrated behaviour of the soil-microbe system for sustainable agriculture.Read moreRead less