Early Career Industry Fellowships - Grant ID: IE230100464
Funder
Australian Research Council
Funding Amount
$467,577.00
Summary
A genomic toolkit to future-proof the seaweed industry. This project will combine genomics, artificial intelligence and experimental ecology to develop guidelines and technologies that maximise the growth and resilience of key seaweed species for aquaculture. Industrial seaweed production is growing rapidly and is expected to supply 1000s of jobs to regional Australia and 10% to the nation’s emissions reduction target by 2040. Expected outcomes of this project include a genomics-based regulatory ....A genomic toolkit to future-proof the seaweed industry. This project will combine genomics, artificial intelligence and experimental ecology to develop guidelines and technologies that maximise the growth and resilience of key seaweed species for aquaculture. Industrial seaweed production is growing rapidly and is expected to supply 1000s of jobs to regional Australia and 10% to the nation’s emissions reduction target by 2040. Expected outcomes of this project include a genomics-based regulatory framework and hatchery tools that support rapid industry growth and minimise biosecurity and climate change risks. This will benefit government, aquaculture, and ecosystem management by improving design, assessment and implementation options for sustainable and productive use of Australian seaweeds.Read moreRead less
Utilising novel Pongamia trees to decarbonise Australia’s beef value-chain. Progress towards a carbon neutral beef industry typically focusses on nutritional strategies, overlooking potential innovations in farming system configuration. This project aims to develop a framework for the integration of Pongamia into beef production systems, so that not only emissions reductions are maximised, but also to support carbon capture and farm system resilience. This project seeks to determine the impact o ....Utilising novel Pongamia trees to decarbonise Australia’s beef value-chain. Progress towards a carbon neutral beef industry typically focusses on nutritional strategies, overlooking potential innovations in farming system configuration. This project aims to develop a framework for the integration of Pongamia into beef production systems, so that not only emissions reductions are maximised, but also to support carbon capture and farm system resilience. This project seeks to determine the impact of Pongamia meal on cattle production efficiency, meat quality and methane emissions. Through quantification of carbon sequestration potential in tree plantations, whole-farm modelling will elucidate production scenarios capable of achieving the reductions needed for a carbon neutral Australian beef industry.Read moreRead less
Mapping climate change vulnerability of older Australians to extreme heat. Exposure to extreme heat is associated with negative health outcomes and has been recognized as a global health challenge in the context of climate change, especially among older people. While the direct heat-related mortality for older people reached a record high of 345,000 deaths worldwide in 2019, which was 80.6% higher than the 2000–05 average, there has been no detailed study in Australia. This project is to have a ....Mapping climate change vulnerability of older Australians to extreme heat. Exposure to extreme heat is associated with negative health outcomes and has been recognized as a global health challenge in the context of climate change, especially among older people. While the direct heat-related mortality for older people reached a record high of 345,000 deaths worldwide in 2019, which was 80.6% higher than the 2000–05 average, there has been no detailed study in Australia. This project is to have a national picture of the impact of extreme heat on the health outcomes of older people and associated healthcare costs at Statistical Area level 3 (SA3), to inform the design and implementation of tailored interventions to minimize the health risk and costs from extreme heat to protect the health of this vulnerable group. Read moreRead less
Early Career Industry Fellowships - Grant ID: IE230100422
Funder
Australian Research Council
Funding Amount
$386,637.00
Summary
Feasible quantification of greenhouse gas emitted from wastewater treatment. This project aims to develop an accurate and practical approach to quantify greenhouse gas (GHG) emissions from wastewater treatment. Australian water utilities have pledged to net-zero emissions. However, most utilities do not know its actual emissions due to lack of feasible quantification method. This project will apply an interdisciplinary approach via mechanism investigations, mathematical modelling, and field work ....Feasible quantification of greenhouse gas emitted from wastewater treatment. This project aims to develop an accurate and practical approach to quantify greenhouse gas (GHG) emissions from wastewater treatment. Australian water utilities have pledged to net-zero emissions. However, most utilities do not know its actual emissions due to lack of feasible quantification method. This project will apply an interdisciplinary approach via mechanism investigations, mathematical modelling, and field works to develop and validate a new feasible quantification method. This project will also advance knowledge on GHG emissions to guide quantification design. The outcomes will be translated into industry protocols and disseminated into industry. The outcomes provide timely support to water sector on its pathway to net-zero.Read moreRead less
Genomics and mixed source populations in wildlife translocations. Translocation is a conservation strategy to help the plight of endangered species, and is becoming increasing important to mitigate against climate change. However translocations often fail. Theory suggests mixing individuals from different source populations would benefit species' genomic diversity and potentially success rates, however this is untested in animals. Also unclear is what parts of the genome are important for mitiga ....Genomics and mixed source populations in wildlife translocations. Translocation is a conservation strategy to help the plight of endangered species, and is becoming increasing important to mitigate against climate change. However translocations often fail. Theory suggests mixing individuals from different source populations would benefit species' genomic diversity and potentially success rates, however this is untested in animals. Also unclear is what parts of the genome are important for mitigating against climate change. Using an endangered lizard model, this project aims to understand how to best start new populations by 1) providing the first empirical test in terrestrial vertebrates of using mixed source populations; and 2) uncovering regions of the genome important for considering in translocations.Read moreRead less
Do root microbiomes control seagrass response to environmental stress? The project aims to determine the role root microbes play in controlling seagrass responses to environmental stress. By integrating marine and microbial ecology, environmental genomics and ecosystem function (e.g., biogeochemical cycling), this project is significant as it will create new knowledge of the processes that confer seagrass resilience to global environmental issues. An expected outcome is an increased understandin ....Do root microbiomes control seagrass response to environmental stress? The project aims to determine the role root microbes play in controlling seagrass responses to environmental stress. By integrating marine and microbial ecology, environmental genomics and ecosystem function (e.g., biogeochemical cycling), this project is significant as it will create new knowledge of the processes that confer seagrass resilience to global environmental issues. An expected outcome is an increased understanding of how microbes control seagrass health and an enhanced capacity to develop effective restoration strategies for Australia's valuable seagrass ecosystems. Benefits include improving the extensive environmental, economic, social/cultural services Australian communities derive from seagrass ecosystems.Read moreRead less
Discovery Early Career Researcher Award - Grant ID: DE170101069
Funder
Australian Research Council
Funding Amount
$360,000.00
Summary
Two-dimensional inorganic nanostructures for hydrogen evolution reaction. This project aims to synthesise highly active electrochemical catalysts of two-dimensional (2D) inorganic nanostructure for hydrogen evolution reaction (HER). The electrocatalysis of water to produce hydrogen gas could generate clean energy, but the platinum catalyst’s cost and low activity make it impractical. This project will develop 2D inorganic nanosheets with tuneable pores and electronic band structures, hybridised ....Two-dimensional inorganic nanostructures for hydrogen evolution reaction. This project aims to synthesise highly active electrochemical catalysts of two-dimensional (2D) inorganic nanostructure for hydrogen evolution reaction (HER). The electrocatalysis of water to produce hydrogen gas could generate clean energy, but the platinum catalyst’s cost and low activity make it impractical. This project will develop 2D inorganic nanosheets with tuneable pores and electronic band structures, hybridised with organic and/or inorganic semiconductor nanomaterials for HER, and use density functional theory calculation to investigate these hybridised nanosheets’ mechanisms for HER. These highly efficient and low-cost catalysts are expected to generate clean energy and create opportunities for Australian industries.Read moreRead less
Biofilm-based solution for cost-effective high-quality drinking water. Approximately 90% of the drinking water in Australia is sourced from surface water bodies, which are naturally rich in nutrients and organic matter. This leads to the growth of cyanobacteria, which are known to be a major cause of taste and odour compounds and cyanotoxins. Climate change is causing increased cyanobacterial growth due to higher temperatures, exacerbating this existing challenge to water utilities. This project ....Biofilm-based solution for cost-effective high-quality drinking water. Approximately 90% of the drinking water in Australia is sourced from surface water bodies, which are naturally rich in nutrients and organic matter. This leads to the growth of cyanobacteria, which are known to be a major cause of taste and odour compounds and cyanotoxins. Climate change is causing increased cyanobacterial growth due to higher temperatures, exacerbating this existing challenge to water utilities. This project proposes a novel biofilm-based approach for cost-effective drinking water treatment production. Our approach represents a simple retrofit to existing processes and drastically reduces the chemical dosing costs and improve climate resilience while ensuring the production of high-quality, safe drinking water.Read moreRead less
Discovery Early Career Researcher Award - Grant ID: DE180101518
Funder
Australian Research Council
Funding Amount
$364,200.00
Summary
Aquifers as climate logs: untangling replenishment mechanisms. This project aims to develop methods that use environmental tracers to provide detailed information about groundwater ages and relate the age structure of groundwater systems to past climatic conditions. The impacts of climate change on groundwater resources is an important question in hydrogeological studies. The age of groundwater within an aquifer represents a detailed log of past recharge events. The project will generate methods ....Aquifers as climate logs: untangling replenishment mechanisms. This project aims to develop methods that use environmental tracers to provide detailed information about groundwater ages and relate the age structure of groundwater systems to past climatic conditions. The impacts of climate change on groundwater resources is an important question in hydrogeological studies. The age of groundwater within an aquifer represents a detailed log of past recharge events. The project will generate methods for assessing the past history of groundwater resources, and provide insight into the viability of groundwater in the future. This will improve understanding of how groundwater resources will behave under a changing climate.Read moreRead less
Pathways for Indigenous and Western knowledge into Environmental Policy. The aim of this project is to identify the ways in which all knowledge, particularly Western and Indigenous knowledges can work together to inform environmental policy, with a focus on climate change adaptation. Using participatory methodologies and supported by an Indigenous led advisory group, the project will partner with Indigenous Ranger groups to interrogate three key knowledge management concepts: integration, co-pro ....Pathways for Indigenous and Western knowledge into Environmental Policy. The aim of this project is to identify the ways in which all knowledge, particularly Western and Indigenous knowledges can work together to inform environmental policy, with a focus on climate change adaptation. Using participatory methodologies and supported by an Indigenous led advisory group, the project will partner with Indigenous Ranger groups to interrogate three key knowledge management concepts: integration, co-production and co-existence. Based on communities of practice, in the Kati Thanda-Lake Eyre Basin, Australia, the Fellowship seeks to produce mechanisms of knowledge co-existence and maintenance that will contribute to stronger environmental policies and create spaces for Indigenous voices to be represented within them.Read moreRead less