3 results

Future oysters CRC-P: Species diversification to provide alternatives for commercial production

Project number: 2016-807
Project Status:
Completed
Budget expenditure: $243,426.00
Principal Investigator: Xiaoxu Li
Organisation: SARDI Food Safety and Innovation
Project start/end date: 23 Apr 2017 - 29 Jun 2019
Contact:
FRDC
TAGS
Resource Access And Allocation
Population Dynamics
Mortality
Fisheries Management
Disease
SPECIES
Sydney Rock Oyster
Native Oyster
Pacific Oyster
Oysters

Need

The establishment of a new native oyster and/or western rock oyster aquaculture sectors in SA and the former in Tasmania will not only diversify the business risk of the existing Pacific oyster sector, but has the potential to become a multi-million dollar industry itself. As native oysters would be more suited to subtidal or low intertidal culture while western rock oysters are an ideal alternative species to mitigate POMS, the successful development of these aquaculture sectors will strengthen the confidence of existing/new growers and investors in Pacific, western rock and native oysters; thereby encouraging further expansion of the industry. In addition, supporting species diversification is one of the high strategic priorities in the Oysters Australia Strategic Plan 2014-2019.

Objectives

1. To develop Native Oyster on-farm growing methods that maximise survival and growth in South Australia and Tasmania
2. To compare the performance between Pacific Oysters and Native Oysters in South Australia
3. To establish a Native Oyster farmers network to share new techniques and knowledge
4. To develop translocation protocols for the safe translocation of Western Rock Oysters to South Australia
5. Trial Western Rock Oysters in the field in South Australia to assess their performance and viability of a potential industry if agreed by industry and regulators

Final report

ISBN: 978-1-8767007-45-4
Authors: Xiaoxu Li Penny Miller-Ezzy Christine Crawford Deborah Gardner Marty Deveney Jessica Buss Ben Diggles Kathryn Wiltshire
Final Report • 2023-05-01 • 3.61 MB
2016-807-DLD.pdf

Summary

Pacific Oyster Mortality Syndrome (POMS), the disease caused by OsHV-1 microvariant, results in high and rapid mortality in Pacific Oysters (Crassostrea gigas) and has been responsible for significant economic loss to oyster industries in Australia and around the world. The diversification of commercial production into different oyster species (Native Oysters and Rock Oysters), that are not susceptible to POMS, has been proposed as a way to mitigate the risk of POMS in southern Australia. However, the Australia Native Oyster (Ostrea angasi) industry is still in its infancy, with knowledge gaps along the production chain. Additionally, there are no wild populations of Rock Oysters (Saccostrea sp.) in South Australia. Despite Rock Oyster aquaculture being well established in New South Wales and recently in Western Australia they have never been commercially produced in South er Australia and translocation policies to move them around the state are non-existent. This project aimed to improve on-farm production of Native Oysters and determine if Rock Oysters can be safely translocated to South Australia from Western Australia, to help Australian oyster growers to diversify into these species.

Assessing occurrence of pathogenic species of the marine bacteria Vibrio in Tasmanian oysters from St Helens

Project number: 2015-042
Project Status:
Completed
Budget expenditure: $29,520.38
Principal Investigator: Tom Madigan
Organisation: SARDI Food Safety and Innovation
Project start/end date: 29 Feb 2016 - 29 Jun 2016
Contact:
FRDC
TAGS
Disease
SPECIES
Commercial Scallop
Sydney Rock Oyster
Pacific Oyster
Blue Mussel
Oysters

Need

This is the first time that an illness associated with Vibrio has been traced-back to Tasmanian oysters. Regrettably, this incident occurred in the only major harvesting area in Tasmania that has not been impacted by the current Pacific oyster mortality event.

In Australia the control of Vibrio is currently limited to temperature controls during storage or transport. Pre-harvest controls used by the shellfish quality assurance programs are predicated on controlling risk posed by faecal contamination and biotoxins and are not suitable for controlling risk from these naturally occurring bacteria. Although the recent implementation of the Codex Standard for pathogenic marine vibrios suggests risk in bivalve growing areas should be assessed to ascertain the risk to public health, there has been limited research undertaken in Australia. The studies undertaken to date have generally been short in nature with no comprehensive longitudinal studies being undertaken and methodologies have now progressed significantly, whereas New Zealand has been undertaking a long-term survey to understand the risk posed by these pathogens (Cruz, Hedderley & Fletcher 2015). This issue may become a risk in accessing key markets that are active in monitoring or who regulate for these pathogens.

There is an immediate need to collect information on prevalence for the remainder of the summer period to understand the risk and evaluate if there is a relationship to salinity, temperature and toxic strains. This information will be immediately useful for developing appropriate management plans in this growing region.

This illness outbreak will likely result in Tasmanian Shellfish Quality Assurance Program and the other state programs having to consider how to manage risk in the growing areas and establish what is an acceptable level. The work proposed here could be used as a framework for future work that assesses risk across the bivalve industry Australia-wide.

Objectives

1. Assess for the prevalence of pathogenic Vibrio species in the St Helens harvesting region
2. Assess for the presence of genes associated with virulence in Vibrio parahaemolyticus
3. Evaluate if a relationship exisits that between prevalance and sea water temperature and salinity

Final report

ISBN: 978-1-921563-92-8
Authors: Tom Madigan Kate Wilson Gayle Smith and Alison Turnbull
Final Report • 2017-05-28 • 901.79 KB
2015-042-DLD.pdf

Food safety validation of storage/transport temperatures for live Australian oyster species

Project number: 2007-406
Project Status:
Completed
Budget expenditure: $9,800.00
Principal Investigator: Andrew Pointon
Organisation: SARDI Food Safety and Innovation
Project start/end date: 21 Apr 2007 - 30 May 2007
Contact:
FRDC
TAGS
Supply Chain
Stakeholder
Seafood Quality
Innovation
Food Safety
SPECIES
Blacklip Abalone
Oysters

Need

Industry faces a range of regulatory requirements for storage and transport of live oysters, notably: ASQAP stipulates colder than 10°C after 24 hours;
· current AQIS Export Control (Fish and Fish Products) Orders 2005 indicate that live oysters should be stored at 5°C UNLESS alternative storage arrangements can be validated and shown to not affect fitness for human consumption;
· NSW currently have a dispensation for colder than 25°C for 72 hours then colder than 15°C thereafter.

Objectives

1. Conduct a hazard identification to clarify the food safety risks that the myriad
2. Use the hazard identification to inform the technical interpretation of existing requirements with AQIS and NSW. Tasmanian and South Australian regulators and seek agreement on scientifically justifiable critical limits and define data gaps for validation of alternative temperature regimes.
3. Detail the scope of any research required.

Final report

Author: Andrew Pointon
Final Report • 2007-06-04 • 2.25 MB
2007-406-DLD.pdf

Summary

Apparent anomalies between the Australian Shellfish Quality Assurance Program (ASQAP) and the Export Control Orders stimulated the submission of FRDC Application TM003: Microbiological validation of current storage and transport temperatures for Pacific oyster industries in Australia. The application was approved conditional on wider industry involvement. Subsequently, the New South Wales industry identified the above dispensation and asked that it be considered within the proposal. 

A teleconference on Friday 23rd Feb with New South Wales, Tasmanian and South Australian industry representatives, NSW Food Authority and Seafood Services Australia considered a background paper canvassing the above issues; no representative of AQIS was available. The meeting determined that, as a prelude to deciding the scope of work designed to close information gaps on storage temperatures and times, a Hazard Identification be undertaken for Pacific oysters (Crassostrea gigas) and Sydney rock oysters (Saccostrea glomerata).

Project products

Report • 1.21 MB
2007-406-Product.pdf

Summary

Hazard Identification is defined as: The identification of biological, chemical and physical agents capable of causing adverse health effects and that may be present in a particular food or group of foods. 

It is an important aspect of both HACCP and risk assessment. HACCP Principle 1 involves listing potential hazards while Hazard Identification is the first of four stages in risk assessment for which, in effect, it represents a Go/No Go stage.

The aims of this investigation were to:
• Identify those microbiological hazards reasonably likely to occur in oyster harvest, storage and processing of Pacific and Sydney rock oysters.
• Document their involvement in outbreaks of illness for each species.
• Identify knowledge gaps which can be closed by research.
• Inform regulator and industry consultations.

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