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
Engineering screw piles to secure offshore wind energy turbines. This project aims to tackle the scientific challenges of using screw piles as foundations for deep water offshore wind turbines. Current foundations for offshore infrastructure developments have reached their limits, and conventional screw piles are designed for land use. This project will use innovative geotechnical methods to develop verified designs, guidelines and numerical tools for predicting the forces required to install sc ....Engineering screw piles to secure offshore wind energy turbines. This project aims to tackle the scientific challenges of using screw piles as foundations for deep water offshore wind turbines. Current foundations for offshore infrastructure developments have reached their limits, and conventional screw piles are designed for land use. This project will use innovative geotechnical methods to develop verified designs, guidelines and numerical tools for predicting the forces required to install screw piles into the seabed and their capacity to resist extreme wind and wave forces relevant to these structures. As foundations cost up to 35% of construction, screw piles will provide significant economic and environmental benefits in reducing costs and unlocking substantial renewable energy from our oceans.Read moreRead less
Improving the success of hybrid living shorelines for coastal protection. This project aims to improve the success of hybrid living shorelines that combine the restoration of mangroves and oysters with engineered structures to enhance restoration outcomes and coastal hazard resilience. It expects to generate new knowledge on the effectiveness of innovative coastal-manager-led solutions that have not yet been robustly evaluated. Expected outcomes of this project include delivery of the technical ....Improving the success of hybrid living shorelines for coastal protection. This project aims to improve the success of hybrid living shorelines that combine the restoration of mangroves and oysters with engineered structures to enhance restoration outcomes and coastal hazard resilience. It expects to generate new knowledge on the effectiveness of innovative coastal-manager-led solutions that have not yet been robustly evaluated. Expected outcomes of this project include delivery of the technical guidelines needed to practically design and implement nature-based coastal protection at scale. This should provide significant socio-economic and environmental benefits through improving Australia’s capacity to adapt to increased erosion and flood risk caused by climate change and coastal urbanisation.Read moreRead less
Understanding marine migratory connectivity for more sustainable oceans. Ocean basin-scale migrations of iconic sea turtles, marine mammals, seabirds, and fish expose them to multiple stressors and governance regimes, leading to gaps in management and population declines. The project aims to deliver the methods and evidence base of cross-taxa migratory connectivity that is essential to support the
conservation of these species. Expected outcomes include comprehensive and integrated models of mig ....Understanding marine migratory connectivity for more sustainable oceans. Ocean basin-scale migrations of iconic sea turtles, marine mammals, seabirds, and fish expose them to multiple stressors and governance regimes, leading to gaps in management and population declines. The project aims to deliver the methods and evidence base of cross-taxa migratory connectivity that is essential to support the
conservation of these species. Expected outcomes include comprehensive and integrated models of migratory connectivity, conservation theory development, and new methods that allow incorporation of migratory connectivity in conservation planning. Benefits include: a cross-taxa baseline that will enable Australia to measure environmental change in marine migratory connectivity for the first time.Read moreRead less
Tackling marine conservation issues at national and global scales. This project aims to collect and apply standardised underwater data on fishes, invertebrates and plants in an unprecedented global analysis of decadal change in rocky and coral reef ecosystems. Outcomes will include validation of global models of ocean warming and understanding of poorly known ecological impacts of recreational fisheries. A suite of data-informed recommendations developed through engagement across management, sci ....Tackling marine conservation issues at national and global scales. This project aims to collect and apply standardised underwater data on fishes, invertebrates and plants in an unprecedented global analysis of decadal change in rocky and coral reef ecosystems. Outcomes will include validation of global models of ocean warming and understanding of poorly known ecological impacts of recreational fisheries. A suite of data-informed recommendations developed through engagement across management, science and public sectors will benefit Australians by enabling improved sustainability of resource use. International benefits will propagate through increased data access, improvements in predictive models and the evidence base required for large-scale biodiversity-related policy reform.Read moreRead less
Improving the effectiveness of marine habitat restoration. Habitat restoration is a global priority to halt and reverse declines in biodiversity, but many of these efforts fail to achieve these goals. This project aims to improve the outcomes of marine habitat restoration through greater consideration of animal behaviour. Insights into how animals evaluate restored habitats and which components of habitats are most important to animals are essential but missing ingredients in modern restoration ....Improving the effectiveness of marine habitat restoration. Habitat restoration is a global priority to halt and reverse declines in biodiversity, but many of these efforts fail to achieve these goals. This project aims to improve the outcomes of marine habitat restoration through greater consideration of animal behaviour. Insights into how animals evaluate restored habitats and which components of habitats are most important to animals are essential but missing ingredients in modern restoration methodology. By applying novel experimental and modelling approaches to current marine habitat restoration programs, this project will generate new knowledge to underpin a fundamental change in how natural resource managers restore marine habitats, with significantly improved outcomes for biodiversity.Read moreRead less
Discovery Early Career Researcher Award - Grant ID: DE220100308
Funder
Australian Research Council
Funding Amount
$435,748.00
Summary
Effects of artificial light at night on coastal ecosystems. This project aims to determine the ecological effects of artificial light at night on coastal marine ecosystems. Artificial light at night is a pervasive stressor that disrupts a fundamental driver of ecological and evolutionary processes: natural light cycles. Using a holistic approach that combines field experiments and microbial ecology, this project will assess impacts of artificial light at multiple levels of biological and ecologi ....Effects of artificial light at night on coastal ecosystems. This project aims to determine the ecological effects of artificial light at night on coastal marine ecosystems. Artificial light at night is a pervasive stressor that disrupts a fundamental driver of ecological and evolutionary processes: natural light cycles. Using a holistic approach that combines field experiments and microbial ecology, this project will assess impacts of artificial light at multiple levels of biological and ecological organisation. Expected outcomes include new knowledge on how species interactions mediate functional changes in response to an emergent, global stressor. This should provide significant benefits, including enhanced management of coastal systems and the critical services and social benefits they provide.
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Discovery Early Career Researcher Award - Grant ID: DE210100367
Funder
Australian Research Council
Funding Amount
$421,000.00
Summary
Predicting fisheries bycatch of protected species in dynamic seascapes. This project aims to advance global capacity to predict where and when incidental catch (bycatch) of protected non-target species (seabirds, marine turtles) occurs in longline fisheries, by harnessing the power of big data analytics. Using innovative interdisciplinary techniques, this project expects to generate new knowledge in marine ecology and fisheries oceanography. Expected outcomes include new institutional and discip ....Predicting fisheries bycatch of protected species in dynamic seascapes. This project aims to advance global capacity to predict where and when incidental catch (bycatch) of protected non-target species (seabirds, marine turtles) occurs in longline fisheries, by harnessing the power of big data analytics. Using innovative interdisciplinary techniques, this project expects to generate new knowledge in marine ecology and fisheries oceanography. Expected outcomes include new institutional and disciplinary collaborations, advances in theory, and the development of novel digital tools for management authorities and industry. This should provide significant benefits, such as reduced costs to the fishing industry, risk reduction in decision-making, and progress towards international sustainable development goals.Read moreRead less
Blue carbon potential of the Great Southern Reef. As one of Australia’s largest vegetated coastal ecosystems, kelp forests provide substantial climate mitigation opportunities. Although kelp carbon is ubiquitous in the deep ocean, the mechanism of transport and amount of kelp carbon reaching deep sinks remains largely unknown, significantly hampering their inclusion in ocean carbon budgets and mitigation action. We will use Australia-wide field data on kelp export, cross-shelf measurements of tr ....Blue carbon potential of the Great Southern Reef. As one of Australia’s largest vegetated coastal ecosystems, kelp forests provide substantial climate mitigation opportunities. Although kelp carbon is ubiquitous in the deep ocean, the mechanism of transport and amount of kelp carbon reaching deep sinks remains largely unknown, significantly hampering their inclusion in ocean carbon budgets and mitigation action. We will use Australia-wide field data on kelp export, cross-shelf measurements of transport and decay, coastal ocean circulation and future distribution models to vastly improve estimates of kelp carbon transfer to deep ocean sinks. Our comprehensive data-driven assessment of kelp carbon sequestration aims to uncover the carbon sink capacity of seaweed forests now and in the futureRead moreRead less
Minimising Plastic In The Western Rock Lobster Industry (Phase 1 – Scope And Identify)
Funder
Fisheries Research and Development Corporation
Funding Amount
$72,525.00
Summary
It was recently noted (in FISH Magazine Volume 27-1) that:
“Recent studies have estimated that approximately eight million tonnes of plastic end up in the world’s oceans every year. This contributes to the deaths of the marine animals that become entangled. Plastic can also find its way into the stomachs of seabirds, sea mammals, fish and other marine life, affecting the entire food chain. The attributes of plastic that make it so attractive as a material, including its durability, ....It was recently noted (in FISH Magazine Volume 27-1) that:
“Recent studies have estimated that approximately eight million tonnes of plastic end up in the world’s oceans every year. This contributes to the deaths of the marine animals that become entangled. Plastic can also find its way into the stomachs of seabirds, sea mammals, fish and other marine life, affecting the entire food chain. The attributes of plastic that make it so attractive as a material, including its durability, are also the attributes that make it so dangerous and long-lived. Products might break down, but the plastic itself remains in the environment. Greenpeace researchers have found plastics in water and snow samples in areas as remote as Antarctica.
CSIRO research has identified that almost three-quarters of the rubbish on Australia’s coastline is plastic, and that it comes from Australian sources. Research from the Australian Institute of Marine Science has also reported widespread microplastic contamination of waters in north-western Australia. More recently, a study of juvenile Coral Trout from the Great Barrier Reef has identified that tropical fish are ingesting both plastic and non-plastic marine microdebris (particles of less than five millimetres).”
WRL’s vision (as noted in its Strategic Plan 2018-2021) is to be “an iconic global leader in sustainable fisheries management, with one of its strategic objectives to “ensure long term access to the sustainable resource”. WRL continually strives to improve its sustainability practices for the western rock lobster industry, with practices with the ability to transfer to and assist other fisheries being particularly attractive. The research developed through this project will allow greater knowledge and understanding of:
(1) how and where plastic is used within the western rock lobster industry; and (2) viable and environmentally friendly alternatives to the plastic currently in use. This will form the basis for Phase 2 of this project, which will allow for the development, trial and implementation of plastic alternatives to combat and reduce the harm to the marine environment, and ultimately lead to a more sustainable fishery.
Objectives: 1. Identify where and why plastic is used in the western rock lobster industry. 2. Identify viable environmentally friendly plastic alternatives. Read moreRead less