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Early Career Industry Fellowships - Grant ID: IE230100578
Funder
Australian Research Council
Funding Amount
$355,208.00
Summary
Next generation soil carbon satellite-based measurement for carbon markets. Soil carbon sequestration is a federal government priority to offset greenhouse gas emissions. Efforts to advance this opportunity are hindered by the high technical costs of soil carbon quantification. This project will develop an innovative and potentially commercialisable technology that integrates ground data, unmanned aerial vehicles (UAVs), satellites, Eddy covariance CO2 flux towers, soil carbon (C) models, and ar ....Next generation soil carbon satellite-based measurement for carbon markets. Soil carbon sequestration is a federal government priority to offset greenhouse gas emissions. Efforts to advance this opportunity are hindered by the high technical costs of soil carbon quantification. This project will develop an innovative and potentially commercialisable technology that integrates ground data, unmanned aerial vehicles (UAVs), satellites, Eddy covariance CO2 flux towers, soil carbon (C) models, and artificial intelligence (AI) to improve the accuracy of satellite-based soil C modelling. The project will provide an accurate and cost-effective solution to quantification of soil C changes to unlock a large potential of carbon offsets in rangelands in Australia and worldwide.Read moreRead less
Early Career Industry Fellowships - Grant ID: IE230100300
Funder
Australian Research Council
Funding Amount
$430,912.00
Summary
Novel gestural technologies for musicians with physical disability. This project aims to address the under-representation of people with disability in the Australian music industry by developing innovative, accessible gestural instruments. Teaming up with key industry partner, YourDNA Creative Arts, an accessibler arts organisation, this interdisciplinary project expects to generate new knowledge in instrument design, inclusive technology and creative artificial intelligence. Using mixed-methodo ....Novel gestural technologies for musicians with physical disability. This project aims to address the under-representation of people with disability in the Australian music industry by developing innovative, accessible gestural instruments. Teaming up with key industry partner, YourDNA Creative Arts, an accessibler arts organisation, this interdisciplinary project expects to generate new knowledge in instrument design, inclusive technology and creative artificial intelligence. Using mixed-methodologies, expected outcomes include music and performance which is socially inclusive, economic participation, and the health and well-being of musicians with disability. This should provide significant benefits to Australian society by breaking down barriers that hinder their effective participation in society.Read moreRead less
Early Career Industry Fellowships - Grant ID: IE230100042
Funder
Australian Research Council
Funding Amount
$462,846.00
Summary
Developing a multimodal imaging pipeline for antisense technology. Antisense molecules represent a revolutionary drug discovery platform for life science, but to understand their distributions in cells and tissues is challenging. By integrating nanobiotechnology approaches, this project expects to develop and apply innovative imaging workflow to track antisense molecules in cells and tissues with nanoscale precision. Expected outcomes include new knowledge of the trafficking of these molecules a ....Developing a multimodal imaging pipeline for antisense technology. Antisense molecules represent a revolutionary drug discovery platform for life science, but to understand their distributions in cells and tissues is challenging. By integrating nanobiotechnology approaches, this project expects to develop and apply innovative imaging workflow to track antisense molecules in cells and tissues with nanoscale precision. Expected outcomes include new knowledge of the trafficking of these molecules across cells and tissues and refined imaging methods. This project should provide more strategic delivery of antisense molecules to specific cells and tissue, which will have significant downstream economic and social benefits to the Australian community. Read moreRead less
Early Career Industry Fellowships - Grant ID: IE230100040
Funder
Australian Research Council
Funding Amount
$447,127.00
Summary
Unravelling the genetics of Kangaroo paws for climate-resilient gardens. The project will produce the first DNA-anchored plant lineage map of Kangaroo paws and gain novel insights into their resilient growth characteristics. Using novel genome and data-driven strategies, this project addresses the knowledge gap around the genetic heirloom of more than 200 iconic Kangaroo paw varieties to speed up the breeding of new varieties with enticing leaf patterns and flower colour combinations. While unra ....Unravelling the genetics of Kangaroo paws for climate-resilient gardens. The project will produce the first DNA-anchored plant lineage map of Kangaroo paws and gain novel insights into their resilient growth characteristics. Using novel genome and data-driven strategies, this project addresses the knowledge gap around the genetic heirloom of more than 200 iconic Kangaroo paw varieties to speed up the breeding of new varieties with enticing leaf patterns and flower colour combinations. While unravelling the inheritability and breeding barriers, immediate industry adoption will boost horticultural breeding programs long-term. This project uses cutting-edge science to enhance industry capacity for providing new Kangaroo paws for climate-resilient urban green spaces on the national and international market.Read moreRead less
Early Career Industry Fellowships - Grant ID: IE230100098
Funder
Australian Research Council
Funding Amount
$417,000.00
Summary
Hunting high and low: mapping ancient topography to find copper. Transitioning to a decarbonised society requires significant amounts of copper; however, preventing a systems-based exploration approach for copper is the lack of a first-order dataset of the Earth’s surface evolution, known as palaeogeography. This project aims to unearth potential areas of porphyry copper through deep time by developing innovative global palaeogeography reconstructions. Expected outcomes of this project include n ....Hunting high and low: mapping ancient topography to find copper. Transitioning to a decarbonised society requires significant amounts of copper; however, preventing a systems-based exploration approach for copper is the lack of a first-order dataset of the Earth’s surface evolution, known as palaeogeography. This project aims to unearth potential areas of porphyry copper through deep time by developing innovative global palaeogeography reconstructions. Expected outcomes of this project include new quantitative palaeogeography reconstructions, as well as the first well-constrained reconstructions of copper preservation potential. This should provide benefits such as an improved understanding of the porphyry copper lifecycle, with significant impacts for resource exploration and decarbonisation efforts.Read moreRead less
Early Career Industry Fellowships - Grant ID: IE230100594
Funder
Australian Research Council
Funding Amount
$447,914.00
Summary
Advancing chicken helminthology for sustainable worm control . Worm infections are a serious disease problem in free-range chicken production systems which now dominate egg production in Australia. This project aims to improve the control of worm infections of chickens by developing new tools for poultry researchers, advisors and farmers to use for this purpose. The project expects to develop novel methods for laboratory-based anthelmintic drug resistance testing, maintenance of defined worm str ....Advancing chicken helminthology for sustainable worm control . Worm infections are a serious disease problem in free-range chicken production systems which now dominate egg production in Australia. This project aims to improve the control of worm infections of chickens by developing new tools for poultry researchers, advisors and farmers to use for this purpose. The project expects to develop novel methods for laboratory-based anthelmintic drug resistance testing, maintenance of defined worm strains and diagnosis of infection. It will also determine the effectiveness of mass treatment in the field and the prevalence of anthelmintic resistance. Use of these tools and information will improve worm control and thus the productivity and welfare of free-range chickens in Australia and worldwide.Read moreRead less
Early Career Industry Fellowships - Grant ID: IE230100593
Funder
Australian Research Council
Funding Amount
$465,237.00
Summary
Membrane-based real-time ammonia monitoring system for sewage treatment. This project aims to develop a real-time, calibration-free, low-maintenance ammoniacal nitrogen monitoring system to assist in optimised wastewater treatment control. This project expects to generate new knowledge in the area of sensing technology using a self-developed membrane-based analytical principle, which overcomes the challenge of directly and accurately determining ammonia in a harsh wastewater environment. Expecte ....Membrane-based real-time ammonia monitoring system for sewage treatment. This project aims to develop a real-time, calibration-free, low-maintenance ammoniacal nitrogen monitoring system to assist in optimised wastewater treatment control. This project expects to generate new knowledge in the area of sensing technology using a self-developed membrane-based analytical principle, which overcomes the challenge of directly and accurately determining ammonia in a harsh wastewater environment. Expected outcomes include new theories in membrane-based sensing techniques and a market-ready field-based ammonia analytical system. This should provide significant benefits, such as a new technology for optimising wastewater treatment and reducing emissions and a valuable analytical tool to safeguard effluent quality.Read moreRead less
Early Career Industry Fellowships - Grant ID: IE230100200
Funder
Australian Research Council
Funding Amount
$387,057.00
Summary
Advanced separation membrane for sustainable lithium mining and recycling . The project aims to develop and commercialise a novel membrane-based technology based on a newly invented lithium-selective ceramic-polymer membrane for low-cost and environmentally friendly lithium recovery and recycling from various sources. The project expects to generate deep knowledge in the design and scaling up of lithium ion separation membranes, and create a lithium extraction prototype for on-site lithium extr ....Advanced separation membrane for sustainable lithium mining and recycling . The project aims to develop and commercialise a novel membrane-based technology based on a newly invented lithium-selective ceramic-polymer membrane for low-cost and environmentally friendly lithium recovery and recycling from various sources. The project expects to generate deep knowledge in the design and scaling up of lithium ion separation membranes, and create a lithium extraction prototype for on-site lithium extraction testing. Expected outcomes of the project include full commercialisation of the lithium separation membrane and new intellectual property for establishing a new membrane manufacturing industry that is critically needed for transforming lithium mining and recycling industries.Read moreRead less
Early Career Industry Fellowships - Grant ID: IE230100282
Funder
Australian Research Council
Funding Amount
$475,181.00
Summary
Delivering breeding-oriented genetic tools for cereal disease resistance. This project will focus specifically on delivering the genetic tools to the industry partner to assist its wheat and barley breeders to increase the accuracy and efficiency of incorporating the durable wheat stripe rust disease and barley leaf rust disease resistance into their core germplasm collections, respectively. The expected outcomes will also contribute to filling our knowledge gap in understanding the cereal rust ....Delivering breeding-oriented genetic tools for cereal disease resistance. This project will focus specifically on delivering the genetic tools to the industry partner to assist its wheat and barley breeders to increase the accuracy and efficiency of incorporating the durable wheat stripe rust disease and barley leaf rust disease resistance into their core germplasm collections, respectively. The expected outcomes will also contribute to filling our knowledge gap in understanding the cereal rust innate immune system and benefit other cereal fungal pathosystems. The wide application of the expected outcomes from the proposed project will reduce the utilisation of fungicides and subsequently will subsequently contribute to the resilience of cereal crops and sustainable global food security.Read moreRead less
Early Career Industry Fellowships - Grant ID: IE230100103
Funder
Australian Research Council
Funding Amount
$476,833.00
Summary
Improving efficacy of biopesticides through understanding mode of action. Insecticides are used extensively to control agricultural pests, but options are increasingly limited owing to environmental and human health concerns. A biopesticide, Bt, provides a valuable ‘soft’ option for control of caterpillars that are amongst the world's most damaging insect pests. However, little is known about how ingested Bt kills insects and this knowledge gap constrains options to improve efficacy and to count ....Improving efficacy of biopesticides through understanding mode of action. Insecticides are used extensively to control agricultural pests, but options are increasingly limited owing to environmental and human health concerns. A biopesticide, Bt, provides a valuable ‘soft’ option for control of caterpillars that are amongst the world's most damaging insect pests. However, little is known about how ingested Bt kills insects and this knowledge gap constrains options to improve efficacy and to counter resistance. This project connects industry end users (Cotton RDC; Bayer CropScience) with research training (Macquarie University) and applied research (CSIRO) to model how Bt interacts with the insect gut. This model will make valuable contributions to ensuring sustained and improved efficacy of Bt biopesticides.Read moreRead less