Project Search

Australia's prawn farmers have developed a five year R&D plan through rigorous consultation throughout the industry and with other stakeholders, such as R&D providers and funding agencies.

As a result Australian prawn farmers have identified their primary objective from investment in R&D is achieveing growth in an economic and environmentally sustainable manner.

They aim to do this by investing to increase the industries average production from 4t/ha to 8t/ha, increasing the farm gate value of farmed prawns from $14/kg to $16.50/kg whilst continuosly improving environmental management.

The R&D required to underpin achievement of these objectives has been broken down into three programs:
1. Improving domesticated broodstock
2. Improving prawn farm productivity
3. Improving farmed prawn market value

As such industry support for project development is based on both proposed new projects and existing projects contributing to achieveing these objectives.

Within the Seafood CRC industry involvement in project planning and review is considered a must, as is maintenance of the relevance of the R&D strategy. The Executive Officer position will be responsible for achieving this under the direction of the APFA Executive Committee.

Objectives

1. To ensure that the Australian prawn farmers are driving the direction and utilising the outcomes of their R&D investment to achieve targetted growth

Seafood CRC- Quality, shelf-life and value-adding of Australian oysters (operating expenses)

Project number: 2008-763.10

Project Status:

Completed

Budget expenditure: $27,378.00

Principal Investigator: Tom Madigan

Organisation: SARDI Food Safety and Innovation

Project start/end date: 28 Feb 2010 - 31 May 2012

Contact:

FRDC

TAGS

SPECIES

Need

This project will contribute to work that will fulfil critical CRC Milestones. Furthermore, there is potential that the work
will result in a direct increase in the value of Australian oyster production by value adding existing
products.

The Australian Seafood CRC has previously identified that building capacity in the area of seafood
processing is a high priority for the CRC. This project will make use of and contribute to the collaborative
links with the UK based Grimsby Institute.

The project will develop Australian capability and capacity in value adding of products that will be
applicable to many areas of the CRC. This will be critical to the Australian seafood processing industry
being able to deliver innovative seafood products which are of high eating quality.

Objectives

1. Identify key organoleptic, microbial and biochemical indicators of quality in half shell Australian oysters to be used to assess quality in further stages of the project.

2. Conduct a detailed evaluation of current processing practices to evaluate the changes in microbial communities and key chemical indicators at all critical stages in the processing chain through to point of sale.

3. Evaluate the applicability of Modified Atmosphere Packaging to increase the shelf-life of half shell products, with the specific aim of developing a technique that can be used to produce a novel supermarket ready product

4. Evaluate the key organoleptic, microbiological and biochemical attributes of half shell Australian oysters following cryogenic freezing using the latest technologies

5. Evaluate the effects of novel HPP techniques on Australian oyster eating quality by evaluating the organoleptic, microbial and biochemical spoilage profiles post treatment

PROJECT NUMBER • 2008-763

PROJECT STATUS:

COMPLETED

SCRC: PhD : Quality, shelf-life and value-adding of Australian oysters

ORGANISATION:

University of South Australia

TAGS

SCRC: PhD : The effect of temperature on reproductive development in maiden and repeat spawning farmed Atlantic Salmon: Understanding the molecular basis for improved egg quality and survival

Project number: 2008-762

Project Status:

Completed

Budget expenditure: $0.00

Principal Investigator: Abigail Elizur

Organisation: University of the Sunshine Coast (USC)

Project start/end date: 14 Sep 2008 - 3 Feb 2011

Contact:

FRDC

TAGS

Need

The economic viability of sea cage farming of Atlantic salmon is strongly influenced by the cost of
production of smolts. Understanding the mechanisms that contribute to, or cause reproductive failure in
spawning fish is an essential component of reducing those industry production costs, and at a broader
level, ensuring that there are sufficient smolts produced each year to maintain industry production. The
issue has been identified as an industry priority with the stated SALTAS aim of reducing the reliance on
repeat spawning fish for egg production. The potential cost of failing to solve the problem is high. The
survival of eggs to the eyed embryo stage can be as low as 30-50%, compared with 80% for eggs from
best performing fish (SALTAS data). Modelling of this cost gives direct increases in smolt production
costs of $225,000 per annum, but a potential industry shortfall in production terms of $15-20 million per
annum.

The knowledge gained through this research will be applied in a real life context to the Atlantic salmon industry in Australia to overcome a real and immediate industry bottleneck, and provide information to assist in large scale production procedures. It will provide important new information regarding the endocrine regulation of egg quality, information that could be highly relevant to other finfish industries, such as tuna and kingfish.

In addition to the direct benefit of this research to the Salmon industry, the investigation of the impact of temperature on reproductive process in fish is relevant to environmental studies concerning the impact of global warming on biological processes, with the Atlantic salmon being an example of a fish that has been translocated from a colder environment (Europe) to the warmer Tasmania.

Final report

ISBN: 978-1-925982-26-8

Author: Kelli Anderson

Final Report • 2012-01-13 • 3.42 MB

2008-762-DLD-PhD.pdf

Summary

Tasmanian Atlantic Salmon (Salmo salar) broodstock can encounter temperatures above 20°C, which has a marked negative effect on reproductive development. Broodstock management strategies are needed in order to maintain egg quality in the face of thermal challenge either due to seasonal fluctuation or climate change, where temperatures are expected to rise even further. In Tasmania, the Atlantic Salmon industry uses maiden fish for approximately 75 % of egg production due to their smaller size and the lower cost associated with their husbandry relative to repeats. However, maidens appear to be more susceptible than repeat fish to the effects of elevated temperature. The salmon industry's ability to cope with rising temperature is hindered by the lack of understanding of the effects of thermal challenge on the endocrine system, which ultimately determines egg quality.

Therefore the aims of the research were to:

Determine how temperature influences endocrine function and reproductive development in maiden and repeat spawning female Atlantic Salmon;
Understand the molecular mechanisms that determine egg quality in broodstock maintained at elevated temperature; and
Develop management strategies to maintain endocrine function and egg quality under thermally challenging conditions

The research provided evidence that female maiden Atlantic Salmon are more susceptible to the effects of elevated temperature and that thermal impairment of endocrine function occurs at multiple levels of the reproductive axis. Treatment with various hormonal therapies showed mixed results and suggest that it is difficult to overcome the impacts of higher temperature on the reproductive axis using a single hormonal treatment. Hormonal therapies in the future should simultaneously stimulate vitellogenesis and zonagenesis in order to maintain egg quality. It is evident that the method of hormonal delivery is of considerable importance and implantation techniques also warrant further investigation.

PROJECT NUMBER • 2008-761

PROJECT STATUS:

COMPLETED

SCRC: PhD : Increasing Oyster Spat Production Through Management of Microbiological Contamination

ORGANISATION:

University of Tasmania (UTAS)

TAGS

Seafood CRC: Helping emerging leaders to develop networks and make more effective use of scientific and community resources, knowledge and skills

Project number: 2008-759

Project Status:

Completed

Budget expenditure: $7,085.80

Principal Investigator: Dean M. Lisson

Organisation: Abalone Council Australia Ltd (ACA)

Project start/end date: 30 Jun 2008 - 30 Oct 2008

Contact:

FRDC

TAGS

SPECIES

Need

The project is needed to assist with networking future leaders from our industry sector at a level that will enhance their ability to deal with issues that the industry constantly faces adn to be confident when new and emerging issues arise.

There are few participants in the wild capture abalone sector and of those who participate, there are fewer still who possess the capacity to take on the role of future leaders and decision makers. As such it is vitally important to engage as many of the current and future industry leaders, from across a broad section of the industry to provide them with an opportunity to network with each other and with people they would not ordinarily associate with. For example the leadership training course consists of potential future leaders from different sectors that probably network and mix with other industry people, researchers and government managers from their own sector, but rarely do they network or mix with people from other sectors to experience a wider variety of issues that others have to deal with.

The 4th National Abalone Convention provides a perfect opportunity to allow members of the wild capture abalone sector and people from other seafood industry sectors to attend and gain an appreciation of the issues being faced, how the fishery is managed and to meet and greet people from different areas of fisheries management.

Objectives

1. A better understanding by participants of the issues and challenges facing the abalone sector

2. A report produced by the participants dealing with young leaders' approach to implementing the Abalone QA program, the next Abalone convention and any other projects identified in the ACA Strategic Plan

3. A greater appreciation of the benefits of networking with other stakeholders in the industry

Seafood CRC: Development of a genetic management and improvement strategy for Australian cultured Barramundi

Project number: 2008-758

Project Status:

Completed

Budget expenditure: $31,132.58

Principal Investigator: Nicholas A. Robinson

Organisation: Flinders University

Project start/end date: 29 Nov 2008 - 30 Mar 2009

Contact:

FRDC

TAGS

SPECIES

Need

The Australian barramundi industry (through ABFA) have long appreciated the potential for improving the sustainability and profitability of production through the appropriate implementation of genetic management and improvement of the species. However, previous attempts to develop a coordinated national strategy for this species have not met with success due to a poor understanding of possible models by which a breeding program within the industry can be implemented, the resources required for implementation and the potential benefits that will arise from a successful breeding program. ABFA views the investment in the Seafood CRC as an opportunity to catalyse efforts towards an industry wide approach to the sustainable and economically viable genetic management and improvement strategy for cultured barramundi.

ABFA prepared a TO for the proposed scoping study identifying the following needs and researchable constraints to the development of a barramundi genetic management/improvement strategy:

• lack of a broad, industry wide, understanding of the potential benefits (and risks) associated with genetic management and improvement
• a lack of a clear understanding of the resources (human, economic, infrastructure and genetic) required for the implementation of genetic management and improvement in this species
• gaps in knowledge required for the implementation of genetic improvement including key genetic parameters and economic weights of traits that could be improved.
• limited information on the genetic status of existing hatchery broodstock and thus their potential as founder stocks for genetic breeding programs
• lack of clear guidelines on appropriate genetic improvement strategies

Objectives

1. To review existing barramundi-related genetic knowledge to identify relevant research and where the R&D gaps preventing instigation of barramundi breeding programs presently exist

2. To develop research options that will fill the knowledge gap currently impeding commencement of targeted breeding programs. This will be achieved through consultation with CRC R&D providers and industry.

3. To identify, through direct engagement with industry and R&D providers, the levels of infrastructure and resources that are available to undertake collaborative genetics related R&D

4. Undertake a genetic audit of available hatchery stocks, using established genetic marker systems, to provide a census of captured genetic variation and genealogical relationships among broodstock. This information will be essential for establishing commercial breeding programs, and could be used to identify suitable broodstock for CRC related research, if supported by the commercial company owning the fish.

5. To identify opportunities for additional industry investment in barramundi genetic improvement and related research through consultation with both ABFA and non-ABFA barramundi farmers and other industry groups and the stakeholders in the CRC Breeding for Profit Research Theme.

6. Undertake a prioritisation exercise to identify traits that should be targeted in future R&D and selection programs based on estimation of the economic weights of key traits and consultation with industry members.

7. Conduct a benefit cost analysis of the effective and appropriate implementation of genetic improvement strategies

8. Identify ABFA training needs in genetic management and improvement and raise awareness of the potential benefits of genetic improvement to the industry

9. Utilising all the information gathered in 1-8 above, identify one or more strategies for the implementation of a nationally coordinated genetic management and improvement program for cultured barramundi. The strategies to be prioritized, and implementation plans drafted, in consultation with ABFA.

Final report

ISBN: 978-0-9805789-1-1

Author: Dr Nick Robinson & Dr Dean Jerry

Final Report • 2009-03-01 • 1.40 MB

2008-758-DLD.pdf

Summary

The aim of this study was to review existing Barramundi-related genetic knowledge to identify relevant research and where the R&D gaps preventing instigation of Barramundi breeding programs presently exist. They identified and prioritised the research and steps that need to be taken to establish a sound program for genetic improvement of Barramundi farmed in Australia. Strengths, weaknesses, opportunities and threats associated with selective breeding were analysed, a risk analysis performed and suggestions for risk management made. Barramundi genetic knowledge and constraints to Barramundi genetic improvement were reviewed. A research and development strategy, linking research topics into larger collaborative projects, was developed to address these issues. Some basic options for selective breeding were modelled and the benefit-costs compared. The models predict that even under these basic options, selective breeding would be profitable and of high benefit to the industry.

The study predicts that the continuously improved seedstock supplied by an industry wide selective breeding program for Australian Barramundi should stimulate expansion, raise profitability and improve international competitiveness of the industry.

Seafood CRC: Commercial production of all-female reproductively sterile triploid Giant Tiger prawns (Penaeus monodon): Assessing their commercial performance in ponds.

Project number: 2008-757

Project Status:

Completed

Budget expenditure: $124,250.00

Principal Investigator: Melony J. Sellars

Organisation: CSIRO Oceans and Atmosphere Hobart

Project start/end date: 31 Jul 2008 - 29 Jun 2010

Contact:

FRDC

TAGS

SPECIES

Need

The Australian prawn industry needs a mechanism by which to confer genetic protection of seedstock with elite genotypes so that their commercial benefits can be made available to the entire domestic industry through the sale of elite seedstock for on-growing. To-date triploidy is the only available technology that is near commercialisation that provides a high level of genetic protection through reproductive sterility.

Triploidy has the added benefit of resulting in female populations, with females naturally growing larger than males. This attribute should provide further improvements on harvest yield beyond the performance provided from the elite genotypes alone. If this project demonstrates that total harvest yields are substantially improved through stocking triploids as predicted, triploid induction technologies will be of direct benefit to (and can be utilised by) the entire Australian industry as wild spawned females are also larger than males. This provides direct benefits to the industry independent of accessing the elite genotypes being produced by the four largest Australian prawn producers, providing immediate benefits for any Australian farm or hatchery producing seedstock.

Objectives

1. To develop P. monodon triploid heat shock induction systems that allow all eggs spawned from any one female to be exposed to heat shock at the same time.

2. To determine the performance (growth, survival, reproductive sterility and sex ratio) of triploid P. monodon when reared at commercial farms in earthen ponds relative to that of normal diploids.

3. To develop commercially relevant P. monodon triploid induction protocols for the Australian industry that accommodate constraints such as a natural spawning cycle (e.g. not reversed light as with experimental stocks), proximity of heated water to spawning tanks and systems available to add heated water to apply the shock).

4. To transfer commercially relevant triploid induction technologies to one or more commercial hatchery.

Final report

ISBN: 978-1-925982-00-8

Author: Melony J Sellars