Linkage Infrastructure, Equipment And Facilities - Grant ID: LE170100033
Funder
Australian Research Council
Funding Amount
$900,000.00
Summary
Australian Acoustic Observatory: A network to monitor biodiversity. This project aims to create a terrestrial acoustic sensor network comprising 450 listening stations across Australia. Acoustic sensing transforms environmental science by recording vocal species 24/7, providing spatial and temporal data for ecosystem monitoring and research. Australia has leading research expertise in this emerging field, which is relevant to its fragile and mega-diverse environment. This project is expected to ....Australian Acoustic Observatory: A network to monitor biodiversity. This project aims to create a terrestrial acoustic sensor network comprising 450 listening stations across Australia. Acoustic sensing transforms environmental science by recording vocal species 24/7, providing spatial and temporal data for ecosystem monitoring and research. Australia has leading research expertise in this emerging field, which is relevant to its fragile and mega-diverse environment. This project is expected to enable and develop continental scale environmental monitoring, and the data generated will be made freely available to all online, enabling new science in understanding ecosystems, long-term environmental change, data visualisation and acoustic science.Read moreRead less
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE240100131
Funder
Australian Research Council
Funding Amount
$539,000.00
Summary
Federated Omniverse Facilities for Smart Digital Futures. A world-first trans-disciplinary, -domain, and -institutional smart 3D omniverse R&D ecosystem AuVerse will be built in NSW, affiliated with Queensland, and accessible to academia and industry. AuVerse will support cloud-based, reality-virtuality-fused, immersive, interactive and secure future-oriented digital design, development, training and society. In the new era of digital innovation and paradigm shift, AuVerse will substantially boo ....Federated Omniverse Facilities for Smart Digital Futures. A world-first trans-disciplinary, -domain, and -institutional smart 3D omniverse R&D ecosystem AuVerse will be built in NSW, affiliated with Queensland, and accessible to academia and industry. AuVerse will support cloud-based, reality-virtuality-fused, immersive, interactive and secure future-oriented digital design, development, training and society. In the new era of digital innovation and paradigm shift, AuVerse will substantially boost Australia’s pivotal research leadership and business competitiveness in nurturing new-generation, collaborative and transformative digital R&D and talent pipeline. It will enable large-scale strategic business innovation and transformation including smart manufacturing and Industry 4.0.Read moreRead less
Towards Generalisable and Unbiased Dynamic Recommender Systems. This project aims to develop the foundations, including models, methodology, and algorithms for building generalisable and unbiased dynamic recommender systems to facilitate intelligent decision-making, prompt contextualised and personalised strategic plans, and support context-aware action recourse. To ensure that fundamental principles, such as fairness and transparency, are respected, a set of algorithms and techniques are propos ....Towards Generalisable and Unbiased Dynamic Recommender Systems. This project aims to develop the foundations, including models, methodology, and algorithms for building generalisable and unbiased dynamic recommender systems to facilitate intelligent decision-making, prompt contextualised and personalised strategic plans, and support context-aware action recourse. To ensure that fundamental principles, such as fairness and transparency, are respected, a set of algorithms and techniques are proposed to develop recommender systems in a more responsible manner. The result of this project will not only maintain Australia's leadership in this frontier research area, but also serve as an excellent vehicle for the education and training of Australia's next generation of scholars and engineers.Read moreRead less
DAFF National Agriculture Traceability Regulatory Technology Research And Insights Grant: Australian AgriFood Data Exchange - Ag Sector Traceability Transformation Delivered Through An Interoperable Data Platform And Exchange
Funder
Fisheries Research and Development Corporation
Funding Amount
$500,000.00
Summary
Regulatory efficiency and compliance across agricultural supply chains is hindered by inefficient, incompatible or unavailable data and systems that prevent creation of robust, interoperable traceability solutions. The Australian AgriFood Data Exchange (AAFDX) will solve this challenge by creating a secure, cloud-based platform enabling government, industry and other participants to share, re-use and merge data from disparate systems in a secure, controlled manner. The AAFDX will be a modern, ef ....Regulatory efficiency and compliance across agricultural supply chains is hindered by inefficient, incompatible or unavailable data and systems that prevent creation of robust, interoperable traceability solutions. The Australian AgriFood Data Exchange (AAFDX) will solve this challenge by creating a secure, cloud-based platform enabling government, industry and other participants to share, re-use and merge data from disparate systems in a secure, controlled manner. The AAFDX will be a modern, efficient, internationally recognised data infrastructure enabling regulators and industry to better manage compliance, stimulate innovation and supply chain performance, assure consumers, coordinate biosecurity and export market access, through enhanced traceability. The funding will build the minimal viable product, with expansion to specific traceability and compliance applications. The AAFDX will endure beyond the funding period with partner co-investment and a user pays revenue stream Objectives: 1. Deliver a minimum viable product (MVP) of the Australian Agrifood Data Exchange services 2. Develop a platform that facilitates applications/solutions that increase traceability, productivity, compliance, profitability 3. Develop governance arrangements to ensure that data security, and in turn users trust in ag-tech is not compromised 4. Build digital maturity of the fisheries and aquaculture sectors to engage in the potential, permissioned shared data offers Read moreRead less
Responsible Fisheries And Aquaculture - Activating A Comprehensive Ecological, Social, And Governance (ESG) Reporting Data System To Uplift Sustainability And Traceability
Funder
Fisheries Research and Development Corporation
Funding Amount
$500,000.00
Summary
Verification of fishing and aquaculture sustainability credentials is essential to increase consumer confidence, market access and community benefit. Sector performance currently centres on monitoring fish stocks & economic benefits. However, markets increasingly require traceable evidence of Environmental, Social & Governance (ESG) indicators such as provenance, safety, diversity, animal welfare, carbon, biodiversity to inform decisions. To meet this need, this project activates CSIROs Healthch ....Verification of fishing and aquaculture sustainability credentials is essential to increase consumer confidence, market access and community benefit. Sector performance currently centres on monitoring fish stocks & economic benefits. However, markets increasingly require traceable evidence of Environmental, Social & Governance (ESG) indicators such as provenance, safety, diversity, animal welfare, carbon, biodiversity to inform decisions. To meet this need, this project activates CSIROs Healthcheck ESG Fishing & Aquaculture data system by engaging industry, managers & researchers to identify data gaps and prioritise/collect essential indicators to allow more comprehensive ESG reporting. Data will be compatible and interoperable with existing catalogues/exchanges, for publishing to recognised sustainability frameworks (e.g. Status of Australian Fish Stocks, WhichFish, National Fisheries Plan, UN SDGs). Community surveys will allow adaptive prioritisation of future data/reporting needs. Objectives: 1. Activate an existing ESG data system (Healthcheck) with complementary ESG frameworks (Status of Australian Fish Stocks, Whichfish, Our Pledge, National Fisheries Plan, UN SDGs) and promote data use to increase traceability & sustainability of wild harvest fisheries, aquaculture operations and fish stocks (hereafter, F&A) 2. Increase the number of F&A reporting against ESG frameworks from 20 to 100 stocks (over 90 percent seafood value) 3. Address F&A priority data gaps 4. Increase data access & traceability through use of data exchanges 5. Use feasibility tested data to populate existing/emerging sustainability frameworks (e.g. Status of Australian Fish Stocks, National Fisheries Plan reporting, carbon & nature-based financial disclosure frameworks) and use verified sustainability credentials to demonstrate best practice (e.g. SIAs ‘Our Pledge’, Marine Stewardship Certification) 6. Be interoperable with related frameworks e.g. Australian Agricultural Sustainability Framework, ‘Know & Show your Carbon Footprint’ (funded by Agricultural Innovation Australia) 7. Understand community sustainability sentiment to inform future data gap prioritisation and build confidence Read moreRead less
Measuring Non-commercial Fishing Catches (traditional Subsistence Fishing) In The Torres Strait In Order To Improve Fisheries Management And Promote Sustainable Livelihoods
Funder
Fisheries Research and Development Corporation
Funding Amount
$250,288.00
Summary
Following the initial groundwork to assess community support and approaches for a non-commercial fishery monitoring program in the Torres Strait (Bedford et al 2021 - https://www.pzja.gov.au/sites/default/files/final_report_-_monitoring_the_non-commercial_catch_in_torres_strait_update_06042021.pdf ), the following five steps were proposed: 1. Community consultation and sign on (engaging community re support for the suggested monitoring method). 2. Assess self-reporting web-based tool/AP ....Following the initial groundwork to assess community support and approaches for a non-commercial fishery monitoring program in the Torres Strait (Bedford et al 2021 - https://www.pzja.gov.au/sites/default/files/final_report_-_monitoring_the_non-commercial_catch_in_torres_strait_update_06042021.pdf ), the following five steps were proposed: 1. Community consultation and sign on (engaging community re support for the suggested monitoring method). 2. Assess self-reporting web-based tool/APP platform design and development options (including data collection and storage options), through co-design with communities and Government to meet stakeholder needs. 3. Develop self-reporting web-based tool/APP platform, database and data flow infrastructure. 4. Community rollout – pilot (in some communities). 5. Community rollout – full-scale (to all communities).
The Torres Strait Scientific Advisory Committee (TSSAC) recommended that steps 1 and 2 (above) be undertaken first and they form the scope of this proposal.
As also noted in the TSSAC committee meeting of June 2021, the project was an initiative of the quota working group subcommittee of the Torres Strait Regional Authority Board, and identified as a priority by the Traditional Inhabitants (https://www.pzja.gov.au/sites/default/files/tssac_79_meeting_record_final.pdf). In particular, by ‘improving estimates of non-commercial catch of commercial species to inform stock assessment and set sustainable catch levels, as well as determine the catch sharing between the sunset sector, and how much to allocate for community consumption, in order to protect Traditional non-commercial catches and help ensure sustainable management.’
As noted in the ‘Opportunity’ section of this proposal, this project help fill a range of needs for Torres Strait communities, including: • More accurate assessment of the Recommended Biological Catches of commercial species from all sources of fishing in the Torres Strait • Reliable assessments of ongoing catches from the substantial non-commercial sectors in the Torres Strait, including knowledge of future change in catches that may be due to pressures from fishing, coastal industry, climate change, other ecosystem regime change • Stronger ownership of marine resource management by Torres Strait communities, including ownership of non-commercial catch information, and supported by improved knowledge of the temporal and spatial dynamics of non-commercial catches.
The previous project also concluded that a non-commercial fishery monitoring program would have the best chance of success by gaining broad and committed acceptance by local communities and their leaders, with a strong co-design component. The need for this level of consultation was re-iterated by Traditional Inhabitants in several PZJA fishery management fora, including the TSSAC. This project is designed to meet that need.
The proposed project aligns strongly with the Torres Strait Fisheries Strategic Research Plan (https://www.pzja.gov.au/sites/default/files/tssac_srp_2018-2022_post_tssac_final.pdf). In particular: • Theme 1: Protecting the Torres Strait marine environment for the benefit of Traditional Inhabitants; which is based on improving effective management of fishery stocks in order to support Traditional Inhabitant social and economic needs; which is an expectation of the improved fishery data outputs from the project. • Theme 2: Social and Economic Benefits; which promotes social and economic benefits for Traditional Inhabitants from Torres Strait fisheries; for example, through increased capacity required to manage the program and increased knowledge of any future changes in catches through space and time in the Torres Strait. • Theme 3: Technology and Innovation; which promotes the development of technology to support the economic, environmental and social benefits from the fishing sector.
This research project is co funded by the Australian Fisheries Management Authority of the Australian Government. Project co- investigators are Kenny Bedford, David Brewer and Timothy Skewes. Objectives: 1. Collate and review existing and new information about the potential options for a non-commercial fishery monitoring program as recommended by Bedford et al. (2021) 2. Assess the level of community need and support (or otherwise) for a non-commercial fishery monitoring program through a comprehensive and equitable community consultation and participation process throughout Torres Strait and Northern Peninsula Area communities 3. Develop cost and performance options for a non-commercial fishery monitoring program and its components (e.g. self-reporting web-based tool/APP platform; data management, storage and access; complimented surveys) to allow for an assessment of value (e.g. meeting needs, ease of use, maintenance and data use in stock assessments) Read moreRead less
Sailing The Marine Knowledge Landscape: Enhancing The Discoverability, Accessibility, And Usability Of FRDC Investment
Funder
Fisheries Research and Development Corporation
Funding Amount
$80,000.00
Summary
Currently, there are only few mechanisms in place that attempt to synthesise the vast amount of research funded by Australia’s Research and Development Corporations (RDCs) in the agriculture, fisheries, and forestry sectors and organisations outside the RDC space. Even fewer mechanisms exist that attempt to synthesise research from across the marine science space specifically, wherein which the Fisheries RDC (FRDC) operates.
The aim of this project is to input FRDC research into the RL ....Currently, there are only few mechanisms in place that attempt to synthesise the vast amount of research funded by Australia’s Research and Development Corporations (RDCs) in the agriculture, fisheries, and forestry sectors and organisations outside the RDC space. Even fewer mechanisms exist that attempt to synthesise research from across the marine science space specifically, wherein which the Fisheries RDC (FRDC) operates.
The aim of this project is to input FRDC research into the RLA platform, thereby making it more discoverable, accessible, and usable. The RLA service offers various knowledge tools, which intend to be explored as part of this project also, to allow the FRDC to explore and better understand the marine science and agricultural innovation landscape. Furthermore, the project aims to make the RLA platform known within the wider marine science community and across different RDCs and encourage the adoption of the new capability to link industry and research.
This project expects to yield several benefits for actors both within and outside the fishing and aquaculture community. The RLA platform acts as a link between government, business, and research sectors. Inputting FRDC research into the RLA platform encourages collaboration and innovation between actors both within and outside the marine science space and facilitates knowledge transfer between these currently disconnected actors.
Objectives: 1. To share Fisheries Research and Development Corporation research project data to be made available on the Research Link Australia platform, thereby making it more discoverable, accessible, and usable. 2. To explore different knowledge tools (i.e., Research Link Australia-generated dashboards or applications of Large Language Models) to better understand the marine science space and explore the agricultural innovation landscape. 3. To make the Research Link Australia platform known within the wider marine science community and across different Research and Development Corporations and encourage the adoption of the tool. Read moreRead less
Privacy-preserving data processing on the cloud. This project aims to address the current lack of privacy of user data processed by common cloud computing web servers, including email, business data, and confidential files. This project aims to develop new techniques in cryptography. The anticipated outcome is a suite of practical tools enabling common cloud computing processing operations such as search, statistical analysis, and multi-user access control, to be performed efficiently while pres ....Privacy-preserving data processing on the cloud. This project aims to address the current lack of privacy of user data processed by common cloud computing web servers, including email, business data, and confidential files. This project aims to develop new techniques in cryptography. The anticipated outcome is a suite of practical tools enabling common cloud computing processing operations such as search, statistical analysis, and multi-user access control, to be performed efficiently while preserving the data privacy. These tools should provide significant benefits to the privacy of cloud users, as well as financial and reputation benefits to the IT industry, by significantly reducing the likelihood of massive user data privacy breaches in the event of a cyber-hacking attack on the cloud server.Read moreRead less
Assessing The Capacity For Sustainable Finfish Aquaculture In The Vicinity Of Seagrasses
Funder
Fisheries Research and Development Corporation
Funding Amount
$478,825.00
Summary
Globally, aquaculture accounts for over 50% of fish production. However, if poorly planned, rapid expansion to meet the ever increasing demand for seafood brings with it an environmental risk associated with eutrophication and organic enrichment of the seabed, adversely affecting marine coastal ecosystems. Approximately 75-85% of the nitrogen discharged from finfish aquaculture is dissolved and dispersed to nearby habitats. A major spatial constraint on aquaculture in nearshore areas around much ....Globally, aquaculture accounts for over 50% of fish production. However, if poorly planned, rapid expansion to meet the ever increasing demand for seafood brings with it an environmental risk associated with eutrophication and organic enrichment of the seabed, adversely affecting marine coastal ecosystems. Approximately 75-85% of the nitrogen discharged from finfish aquaculture is dissolved and dispersed to nearby habitats. A major spatial constraint on aquaculture in nearshore areas around much of Australia is the potential for these dispersed nutrients to negatively affect seagrasses. Seagrasses can be sensitive to increases in nitrogen, which can lead to habitat loss. This loss can have significant environmental and economic impacts with potential losses of ecosystem services including decreases in commercial and recreational fisheries catches, increases in sand instability and erosion, reduced biodiversity, loss of nitrogen assimilation and cycling, and loss of carbon sequestration.
In other situations, small increases in nutrients may have a positive effect on seagrasses, and thus it is not clear what the consequences of aquaculture derived nutrients will be. Subsequently, we can’t robustly determine the level of finfish aquaculture that can be sustainably supported by seagrass ecosystems. There is therefore a need to develop a process to determine the likelihood of seagrass growth (or loss) due to aquaculture derived nutrient inputs. This work will develop metrics that can be used in other aquaculture developments and in long-term regional monitoring.
Clean Seas Seafood Pty Ltd are developing a new lease for the sea-cage aquaculture of 4500 tonnes of yellowtail kingfish (YTK) in the Fitzgerald Bay region. The nearshore habitats throughout the region are dominated by long-lived Posidonia seagrass. While Fitzgerald Bay was the original focus of YTK aquaculture in SA, it has not been utilised for ~10 years, essentially giving us the potential to study this system prior to the commencement of aquaculture (currently planned for ~ July 2019), as well as while production is increasing, and it thus provides an ideal case study for assessing how to sustainably farm finfish in a seagrass dominated ecosystem.
Objectives: 1. Determine cost-effective approaches to assessing the influence of finfish aquaculture derived nutrients on seagrasses, and using Fitzgerald Bay as a case study, what that influence is. 2. Develop a predictive modelling ability to estimate carrying capacity and allow scenario analysis of future aquaculture development and how it might affect seagrasses, to allow managers to make informed decisions about where to place future developments, and how much to allow existing developments to expand. 3. Use Fitzgerald Bay as a case study to document seagrass condition using a range of metrics both before the commencement of finfish aquaculture, and once production has reached a substantial level. 4. Develop a range of cost-effective indicators for monitoring the effects of aquaculture on adjacent seagrass beds. Read moreRead less
Citizen Science Guidelines In Recreational Fishing
Funder
Fisheries Research and Development Corporation
Funding Amount
$98,840.00
Summary
Many aspects of marine systems, including diverse species, habitats, and environmental issues, need expansive research to better understand and manage sustainability of the fishing and aquaculture industry. Unfortunately, data collection is one of the most resource-intensive aspects of science and can hinder the progression of commodity-specific research and development (R&D). This project will develop best practice guidelines for the creation, execution, evaluation, and evolution of citizen sci ....Many aspects of marine systems, including diverse species, habitats, and environmental issues, need expansive research to better understand and manage sustainability of the fishing and aquaculture industry. Unfortunately, data collection is one of the most resource-intensive aspects of science and can hinder the progression of commodity-specific research and development (R&D). This project will develop best practice guidelines for the creation, execution, evaluation, and evolution of citizen science projects that specifically address research data collection in the Australian aquaculture industry, which will contribute to research outcomes that facilitate long term productivity and sustainability of the industry. For more than 50 years, formal citizen science programs have proven to be an effective way for communities to contribute to R&D by collecting scientific data that drives decision making and creates innovative solutions. This project involves a four-stage approach to enhancing R&D practices for recreational fishers, fisheries scientists, and fisheries managers by providing researchers with industry-specific information to design citizen science projects that actively engage recreational fishers. The approach provides flexibility and agility to ensure the project can achieve high quality deliverables, on time, and in budget: 1. Consultation with industry stakeholders to determine current barriers and opportunities to developing, implementing, evaluating, and evolving citizen science projects targeted at recreational fishers. 2. Desktop review and global “environmental scan” to best characterise citizen science programs, projects, and frameworks relevant to recreational fishing. 3. Development of researcher citizen science guidelines for recreational fishing that provides detailed information pertinent to industry challenges and opportunities. The guidelines will be led by the results of Stages 1 and 2, and will be intuitive, user-friendly and easily updated in the future. 4. Industry communication of the guidelines to ensure streamlined adoption by researchers and improved return on investment for this project. Strategies to amplify collaborative and sustainable citizen science opportunities identified during this project will enhance FRDC R&D outcomes 3 (a culture that is inclusive and forward thinking) and 5 (community trust, respect, and value). The guidelines will help build an environment where researchers work directly with recreational fishers, which will promote inclusivity with stakeholders, harness the wealth of local ecological expertise and foster a solution-driven culture throughout the supply chain.
Objectives: 1. Characterisation of citizen science programs, projects, and frameworks relevant to recreational fishing in Australia. 2. Facilitating the identification, design, and impact measurement of marine-based citizen science programs that are of benefit to recreational fishers in Australia. 3. Provision of guidelines to citizen science practitioners to optimise community engagement and outcomes in marine-based citizen science projects. Read moreRead less