PROJECT NUMBER
•
2023-070
PROJECT STATUS:
CURRENT
ORGANISATION:
NSW Farmers' Association
TAGS
SPECIES
164 results
Developing FRDC’s 2020-2025 RD&E Plan
Project number:
2018-197
Project Status:
Completed
Budget expenditure:
$370,061.23
Principal Investigator:
Matt Barwick
Organisation:
Fisheries Research and Development Corporation (FRDC)
Project start/end date:
19 Apr 2019
-
30 Dec 2020
Contact:
FRDC
Section 19 of PIRD Act requires R&D corporations to prepare R&D Plans for each consecutive 5-year period. Each plan is to include (at a minimum):
· a statement of the Corporation’s objectives and priorities for the period to which the plan is expressed to relate; and
· an outline of the strategies that the Corporation intends to adopt in order to achieve those objectives.
Under section 10 of the Funding Agreement between FRDC and the Department of Agriculture and Water Resources (DAWR), FRDC is required to develop a consultation plan, which seeks to:
• explain the purpose and objectives of consultation to inform the 2020-2025 RD&E Plan;
• describe who will be consulted;
• outline methods proposed; and,
• explain how input provided will be used.
FRDC is to obtain DAWR approval for the consultation plan prior to commencement of activities.
In order to develop an RD&E Plan which accurately interprets and responds to RD&E needs for Australia’s fishing and aquaculture community it is important to understand the aspirations, pain points, risks and opportunities of each sector over the intended life of the plan through undertaking broad consultation. It is also important to understand the current situation of the fishing and aquaculture (F&A) community (including indigenous, wild catch, aquaculture and recreational, and post-harvest sectors). The situational analysis should provide an updated understanding of what fishing and aquaculture looks like in Australia today, who is involved, what drives them, how they are performing, how the product (if retained) is used, what are the main dominant risks and trends. An earlier situational analysis delivered as an output of FRDC Project 2014/503.20 provides a useful template.
Finally, it is for any RD&E plan to be informed by an understanding of likely future trends, risks and opportunities facing Australia’s F&A community in the future. This requires:
· compilation of evidence to enable consideration of likely future geopolitical, social, economic, environmental and/or technical changes likely to occur in the future, and drivers of those changes;
· generation of projections relating to supply and demand for seafood products as well as cultural and/or recreational time use
1. Undertake consultative activities to inform development of the 2020-2025 RD&E Plan
2. Deliver a contemporary situational analysis for Australia’s fishing and aquaculture community to inform FRDC’s 2020-2025 RD&E Plan
3. Deliver a future-scan with a decadal time horizon (2030) to inform FRDC’s 2020-2025 RD&E Plan
4. Undertake activities necessary to enable launch of the 2020-2025 RD&E Plan by 30 June 2020.
Final report
Authors:
Jeff Dambacher
Alistair Hobday
Fabio Boschetti
Chris Moeseneder
Linda Thomas
Final Report
•
2020-05-28
•
2.57 MB
2018-197-DLD.pdf
This report covers the second of two CSIRO contributions to the project FRDC 2018-197. This project was reviewing FRDC research objectives through a process that developed alternative scenarios of possible futures relevant to Australian fisheries. Discussed here is the development of a quantitative model to explore future seafood scenarios developed elsewhere. The purpose of this modelling exercise was to support the project FRDC 2018-197. The development of these possible future scenarios was undertaken in a process
that ran in parallel to the CSIRO contribution. This process involved a series of stakeholder workshops and follow-up discussions, to which CSIRO staff were occasional observers.
that ran in parallel to the CSIRO contribution. This process involved a series of stakeholder workshops and follow-up discussions, to which CSIRO staff were occasional observers.
The qualitative models developed to describe present day dynamics were then tested to see if they could account for previously observed shocks or perturbations the Australian aquaculture and fisheries system. This involved a face-to-face workshop and teleconference with representatives of the Stage 1 expert group.
Based on external input to management, employment and environmental variables, the qualitative models produced a set of predictions that were highly consistent with previously observed impacts in Australian fisheries and aquaculture.
The models were then tested to see how well they compared to the dynamics described in the future scenarios, and here model predictions were found to be highly consistent with the dynamics played out in the two future scenarios – that is, both worlds are likely.
The models were then tested to see how well they compared to the dynamics described in the future scenarios, and here model predictions were found to be highly consistent with the dynamics played out in the two future scenarios – that is, both worlds are likely.
With ongoing support from CSIRO, these models can now be used to explore alternative perturbations, identify the informative indicators, and to determine when these models of the future (World A and B) are no longer realistic representations of real situation. If insufficient information is being gather on these indicators, the efforts could be made to collect such data, or if the information is too expensive, the alternatives can also be investigated to determine how many alternative indicators provide the equivalent conformation
PROJECT NUMBER
•
2017-215
PROJECT STATUS:
COMPLETED
Storm Bay Biogeochemical Modelling & Information System Supporting sustainable aquaculture expansion in Tasmania
This project delivers a hindcast and near real time Storm Bay Modelling and Information System that is fit for the purpose of simulating water quality and characterising nutrients in Storm Bay from ocean currents, sediment resuspension, river and anthropogenic (including fish farm) inputs. The...
ORGANISATION:
CSIRO Oceans and Atmosphere Hobart
SPECIES
PROJECT NUMBER
•
2022-061
PROJECT STATUS:
CURRENT
ORGANISATION:
Australian Prawn Farmers Association (APFA)
TAGS
SPECIES
PROJECT NUMBER
•
2021-021
PROJECT STATUS:
CURRENT
ORGANISATION:
Ellipsis Editing
PROJECT NUMBER
•
2023-099
PROJECT STATUS:
COMPLETED
Development of a temperature monitoring framework for Tasmania's seafood industry during marine heatwaves
Marine heatwaves can have devastating impacts on marine ecosystems, with a strong El Nino event forecast in Australia for the summer/autumn of 2023-24. Forecasts by CSIRO indicated sustained increases in water temperatures down the east coast of Tasmania with potential to significantly affect...
ORGANISATION:
Institute for Marine and Antarctic Studies (IMAS) Hobart
TAGS
PROJECT NUMBER
•
2017-102
PROJECT STATUS:
COMPLETED
Reducing the Number of Undefined Species in Future Status of Australian Fish Stocks Reports: Phase Two - training in the assessment of data-poor stocks
Seven data-poor assessment method training workshops were run in seven different jurisdictions (Tasmania, Victoria, South Australia, Western Australia, Northern Territory, Queensland, and New South Wales). Originally the workshops were to have been undertaken from March to the end of May 2018....
ORGANISATION:
CSIRO Oceans and Atmosphere Hobart
TAGS
SPECIES
PROJECT NUMBER
•
2019-214
PROJECT STATUS:
COMPLETED
Survey for WSSV vectors in the Moreton Bay White Spot Biosecurity Area
The objective of this project was to undertake opportunistic plankton sampling and collect
small non-commercial species of decapod crustaceans in northern Moreton Bay and near the
intakes of the three prawn farms which remained operating on the Logan River during April and May 2020,
at a time when...
ORGANISATION:
DigsFish Services Pty Ltd
Investigating drivers of environmental change in Pipe Clay Lagoon
Project number:
2023-176
Project Status:
Current
Budget expenditure:
$38,400.00
Principal Investigator:
Carryn Manicom
Organisation:
Marine Solutions Tasmania Pty Ltd
Project start/end date:
15 Sep 2024
-
29 Jun 2025
Contact:
FRDC
Coastal lagoon systems in Tasmania form a fundamental part of coastal ecosystems. Healthy lagoons support local biodiversity, and play a key role in nutrient cycling and flood protection. They provide opportunities for sustainable aquaculture, fishing and tourism, while also being appreciated for their recreational amenity and cultural values. Sustainable management of coastal lagoons is essential to environmental and socioeconomic development.
There is limited information about the ecosystem drivers that are influencing the changes being observed in Pipe Clay Lagoon, leading to knowledge gaps in decision making tools and monitoring strategies required to identify and mitigate these changes. The proposed application is a multifaceted approach to investigate the environmental drivers of change in Pipe Clay Lagoon. The findings can then be used to provide valuable guidance for the management and conservation of other coastal lagoons in Tasmania facing similar challenges, providing a model for proactive monitoring and ongoing sustainability.
The FRDC has a responsibility to ensure that research is undertaken to assist in the management of fisheries and aquaculture resources for ongoing sustainability. The changes being experienced in Pipe Clay Lagoon will have implications on the availability and suitability of the lagoon as a sustainable aquaculture site. The planned approach and objectives of the application align with the FRDC’s R&D Plan for 2020-2025 through:
- Building people's capacity and capability
- Ensuring that resulting knowledge and innovation is adopted for impact through awareness of the needs of the ‘adopter’, local context and effective networking
- Continual improvement and collaboration of industry and community to deliver competitive advantage, healthier ecosystems and community support
- Provision of foundational information
Equally and importantly the application aligns with the NRM Strategy for Southern Tasmania 2030 for Pipe Clay Lagoon and similar systems in that wetland health is improved for socio-economically important systems by working with key partners and encouraging investment in monitoring, land and water management practices and on-ground works.
The enthusiasm of those engaged in the stakeholder consultation process was a strong indication of the need, interest and urgency of the application.
1. Characterise and quantify environmental changes in Pipe Clay Lagoon, providing an evidence base for anecdotal observations of change.
2. Understand the drivers and interactions behind observed environmental changes in Pipe Clay Lagoon.
3. Identify management mechanisms to safeguard the values of Pipe Clay Lagoon and other Tasmanian coastal lagoons, including sustainability of the aquaculture industry.
4. Capacity building and increased marine literacy within community and industry to help observe and report change.
5. The applicant would welcome feedback and suggestions from FRDC and/or key beneficiaries for additional objectives.
PROJECT NUMBER
•
2021-019
PROJECT STATUS:
COMPLETED
Future proofing the northern Australia aquaculture industry need for skilled staff to 2050
The aquaculture industry in Northern Australia (NA) is undergoing a period of unprecedented growth, precipitating an increasing demand for skilled staff. To facilitate this growth, the industry requires an increasing stream of suitably skilled and qualified entrants to the industry workforce. Prior...
ORGANISATION:
James Cook University (JCU)
TAGS
SPECIES
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