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Industrial Transformation Research Hubs - Grant ID: IH210100014
Funder
Australian Research Council
Funding Amount
$4,996,503.00
Summary
ARC Research Hub for Supercharging Tropical Aquaculture Through Genetic Solutions. This project will deliver the genetic knowledge to instigate world-leading and highly productive breeding programs for five tropical aquaculture species (barramundi, pearl oyster, prawn, grouper and marine algae) in northern Australia. It will integrate cutting edge genetic and genomic approaches into innovative aquaculture enterprises and will establish a novel understanding of the genetic basis of disease resist ....ARC Research Hub for Supercharging Tropical Aquaculture Through Genetic Solutions. This project will deliver the genetic knowledge to instigate world-leading and highly productive breeding programs for five tropical aquaculture species (barramundi, pearl oyster, prawn, grouper and marine algae) in northern Australia. It will integrate cutting edge genetic and genomic approaches into innovative aquaculture enterprises and will establish a novel understanding of the genetic basis of disease resistance and how the production environment interfaces with the bacterial microbiome, pathogens and water quality to cause disease. Outcomes will lead to increased productivity, international competitiveness, and lowered disease risk and significantly expand Australia's capacity in the aquaculture sector.Read moreRead less
Advanced animal breeding in aquaculture: using genome-wide molecular breeding values for rapid animal improvement in the silver-lipped pearl oyster. The primary impediment to achieving rapid genetic progress in aquaculture is an inability to accurately and rapidly identify high-performance animals for selection as parents in animal breeding programs. This project aims to develop an innovative genomic selection breeding system for the silver-lipped pearl oyster to overcome current limitations ass ....Advanced animal breeding in aquaculture: using genome-wide molecular breeding values for rapid animal improvement in the silver-lipped pearl oyster. The primary impediment to achieving rapid genetic progress in aquaculture is an inability to accurately and rapidly identify high-performance animals for selection as parents in animal breeding programs. This project aims to develop an innovative genomic selection breeding system for the silver-lipped pearl oyster to overcome current limitations associated with traditional animal improvement methods. The use of genomic selection will not only transform the Australian pearl oyster industry, but it will also showcase the potential of genomic selection in aquaculture globally. Furthermore, knowledge gained from this project can also be applied to a variety of other Australian aquaculture species to accelerate the uptake of this technology.Read moreRead less
Time consistency, risk-mitigation and partially observable systems. This project aims to find optimal decision rules that mitigate risk in a time consistent manner for partially observable systems. Many problems in conservation management and engineering systems are dependent on random environments and entail risk of failure. The challenge of consistently minimising such a risk while achieving satisfactory and sustainable resource consumption is considerable. This project aims to develop analyti ....Time consistency, risk-mitigation and partially observable systems. This project aims to find optimal decision rules that mitigate risk in a time consistent manner for partially observable systems. Many problems in conservation management and engineering systems are dependent on random environments and entail risk of failure. The challenge of consistently minimising such a risk while achieving satisfactory and sustainable resource consumption is considerable. This project aims to develop analytical and numerical methods for optimal control in such scenarios. These methods will have application to fishery management, communication networks, power systems and social resource allocation scenarios.Read moreRead less
Industrial Transformation Research Hubs - Grant ID: IH190100014
Funder
Australian Research Council
Funding Amount
$5,000,000.00
Summary
ARC Research Hub for Sustainable Onshore Lobster Aquaculture. The project aims to build knowledge to establish the world’s first sustainable onshore lobster aquaculture industry focused on commercial, sustainable and socially responsible lobster production from hatchery to market. The project will investigate novel systems engineering, specialised feed manufacture, determination and modification of seedstock quality, new frontiers in seedstock transport, all within an informed environmental and ....ARC Research Hub for Sustainable Onshore Lobster Aquaculture. The project aims to build knowledge to establish the world’s first sustainable onshore lobster aquaculture industry focused on commercial, sustainable and socially responsible lobster production from hatchery to market. The project will investigate novel systems engineering, specialised feed manufacture, determination and modification of seedstock quality, new frontiers in seedstock transport, all within an informed environmental and marketing framework. The project will provide alternate solutions for lobster culture in bio-secure and cost effective onshore systems. The outcomes are targeted at positioning Australia at the forefront of onshore lobster aquaculture, with opportunity for technology transfer to other aquaculture sectors.Read moreRead less
Using genomic information to understand and improve the quality of the Australian South Sea Pearl. Recently, mass-produced freshwater pearls from Asia have markedly increased in quality and begun to compromise our prestigious South Sea Pearl market. This presents Australian pearlers with a challenge to maintain market identity by improving their pearl quality and consistency. By adding genomics to the existing Australian pearl industry armoury we will help not only to maintain the premier positi ....Using genomic information to understand and improve the quality of the Australian South Sea Pearl. Recently, mass-produced freshwater pearls from Asia have markedly increased in quality and begun to compromise our prestigious South Sea Pearl market. This presents Australian pearlers with a challenge to maintain market identity by improving their pearl quality and consistency. By adding genomics to the existing Australian pearl industry armoury we will help not only to maintain the premier position of the Australian South Sea Pearl in the market, but also to move it further ahead. Knowledge of the genetics of pearl formation will advance a range of hatchery and farm practices, such as selective breeding and pearl grafting, which in turn can enhance farm-based operations and the remote communities that support them.Read moreRead less
Enhancing the Pearl: understanding the molecular genetics of pearl lustre, colour and size. Australia produces some of the most valuable pearls in the world. However recently the world has been flooded with high quality mass-produced freshwater pearls. This has begun to eat into our prestigious South Sea Pearl market and now presents Australian pearlers with a challenge to maintain market identity. We propose to respond this challenge by improving the quality and consistency of the cultured Sou ....Enhancing the Pearl: understanding the molecular genetics of pearl lustre, colour and size. Australia produces some of the most valuable pearls in the world. However recently the world has been flooded with high quality mass-produced freshwater pearls. This has begun to eat into our prestigious South Sea Pearl market and now presents Australian pearlers with a challenge to maintain market identity. We propose to respond this challenge by improving the quality and consistency of the cultured South Sea Pearl through gaining a detailed understanding of how the oyster genetically controls pearl biofabrication - focusing on pearl colour, size and lustre. This information will identify pearl oysters that are a source of high-quality donor mantle tissue and that can be used in selective breeding programs.Read moreRead less
Next generation offshore blue water aquaculture. The project aims to develop innovative technologies for the next generation of blue water aquaculture, focusing on developing novel floating concrete platforms, cages and anti-biofouling systems. Increasing global demand for high quality protein means offshore marine aquaculture is the only realistic environmentally sustainable alternative to conventional livestock farming and depleted wild fisheries. This project will provide significant benefits ....Next generation offshore blue water aquaculture. The project aims to develop innovative technologies for the next generation of blue water aquaculture, focusing on developing novel floating concrete platforms, cages and anti-biofouling systems. Increasing global demand for high quality protein means offshore marine aquaculture is the only realistic environmentally sustainable alternative to conventional livestock farming and depleted wild fisheries. This project will provide significant benefits by addressing significant community objections to nearshore fish farms, including severe environmental pollution, disease and pathogens, over use of antibiotics and economic impacts on tourism.Read moreRead less
Partially Observable MDPs, Monte Carlo Methods, and Sustainable Fisheries. Partially Observable Markov Decision Processes (POMDPs) provide a general mathematical framework for sequential decision making under uncertainty. However, solving POMDPs effectively under realistic assumptions remains a challenging problem. This project aims to develop new efficient Monte Carlo algorithms to significantly advance the application of POMDPs to real-world decision problems involving complex action spaces an ....Partially Observable MDPs, Monte Carlo Methods, and Sustainable Fisheries. Partially Observable Markov Decision Processes (POMDPs) provide a general mathematical framework for sequential decision making under uncertainty. However, solving POMDPs effectively under realistic assumptions remains a challenging problem. This project aims to develop new efficient Monte Carlo algorithms to significantly advance the application of POMDPs to real-world decision problems involving complex action spaces and system dynamics. Both theoretical and algorithmic approaches will be applied to sustainable fishery management --- an important problem for Australia and an ideal context for POMDPs. The project will advance research in artificial intelligence, dynamical systems, and fishery operations, and benefit the national economy.Read moreRead less
Towards closing the life cycle of marine sponges: benefits for public aquarium display and coral reef conservation. Biodiversity loss on the Great Barrier Reef is a focus of public concern, with social cultural and economic ramifications. Adaptive and innovative management can reduce impacts on biodiversity. Reef HQ, the largest coral reef aquarium in the world, is a leader in coral reef education and conservation, but relies on wild-stock collections for exhibits. The key national benefit is th ....Towards closing the life cycle of marine sponges: benefits for public aquarium display and coral reef conservation. Biodiversity loss on the Great Barrier Reef is a focus of public concern, with social cultural and economic ramifications. Adaptive and innovative management can reduce impacts on biodiversity. Reef HQ, the largest coral reef aquarium in the world, is a leader in coral reef education and conservation, but relies on wild-stock collections for exhibits. The key national benefit is the provision of critical information to facilitate the sustainable culture of marine invertebrates for use in public aquariums and the ornamental aquraium market thereby removing the reliance on wild collections. This is pivotal to reducing the overall pressure on coral reefs.Read moreRead less
Evolution of the biofabrication of mineralized structures in animals. Shells and skeletons are produced by a wide range of animals. These highly-order crystalline structures are genetically-encoded and produce high-performance composite materials that exceed present capabilities in human engineering. This international collaboration will elucidate the molecular mechanisms controlling the fabrication of these architectures. This knowledge will contribute significantly to the development of materi ....Evolution of the biofabrication of mineralized structures in animals. Shells and skeletons are produced by a wide range of animals. These highly-order crystalline structures are genetically-encoded and produce high-performance composite materials that exceed present capabilities in human engineering. This international collaboration will elucidate the molecular mechanisms controlling the fabrication of these architectures. This knowledge will contribute significantly to the development of materials for advanced electronics and energy transducers, human bone therapeutics and marine-based products such as pearls and cements, through the identification of genes underlying biofabrication networks and the development of in vitro bioproduction systems.Read moreRead less