Determination Of The Impacts Of Direct Harvest Of Coral Species In Northern Australia
Funder
Fisheries Research and Development Corporation
Funding Amount
$360,000.00
Summary
Australia’s aquarium fisheries are high value (GVP >$20 million), small scale fisheries that rely on exporting CITES listed corals for profitability and viability. The Australian government requires fisheries collecting and exporting these species to demonstrate that their harvest is sustainable under the Environment Protection and Biodiversity Conservation Act 1999 (EPBC Act) in order to meet Australia's obligations under CITES. In the absence of empirical evidence, precautionary harvest l ....Australia’s aquarium fisheries are high value (GVP >$20 million), small scale fisheries that rely on exporting CITES listed corals for profitability and viability. The Australian government requires fisheries collecting and exporting these species to demonstrate that their harvest is sustainable under the Environment Protection and Biodiversity Conservation Act 1999 (EPBC Act) in order to meet Australia's obligations under CITES. In the absence of empirical evidence, precautionary harvest limits are set on all coral species, and monitored and reported by NT Fisheries to the Commonwealth Department of Environment and Energy (DoEE), to fulfil EPBC requirements. Increased global demand for valuable coral species presents an opportunity for licenced fishers to develop new and existing international markets. However, in order to increase harvest limits, evidence is required to reinforce that the harvest and subsequent export will not have a detrimental effect on the population status of the species (CITES non-detriment finding). Any supporting non-detriment finding must be corroborated with new empirical evidence on the impacts of harvesting corals. The FRDC project ‘Establishing baselines and assessing vulnerability of commercially harvested corals across northern Australia’ (FRDC 2014-029) (currently underway) attempts to address some of these issues including taxonomy, abundance and distribution of key coral species but fails to address the long-standing concern of the impacts of coral harvesting. Understanding and quantifying the impacts of harvesting coral has the potential for providing the greatest benefit to industry. The specific need is to investigate the extent of recovery (or not) of key species of Scleractinian (hard) corals harvested at the level of individual colonies over an appropriate temporal scale. Members of the A12 Aquarium display fishery are supportive of this project and will be actively involved in assisting with data collection. This project directly addresses the NT Research Advisory Committee priority ‘Impact of harvesting key species of Scleractinian (hard) corals in the Northern Territory’.
Objectives: 1. Establish a monitoring program involving commercial fishers to determine the impacts of harvest on key coral species. 2. Improve the accuracy of coral species identification through the development of an NT identification guide. 3. Assess reproductive modes, and establish rates of recruitment for commercially important Northern Territory corals. Read moreRead less
Aquatic Animal Health And Biosecurity Subprogram: Comparative Pathogenicity Of Exotic Acute Hepatopancreatic Necrosis Disease (AHPND) And The Presumptive Bacterial Hepatopancreatitis Detected In Farmed Penaeus Monodon In Queensland
Funder
Fisheries Research and Development Corporation
Funding Amount
$131,106.00
Summary
Australian prawn production, forecast at 24 kilotonnes in 2014/15, is valued at >$310 million. The prawn fishery is an important natural resource that supports a substantial export industry. Prawn aquaculture in northern Australia accounts for approximately 20% of the total volume of Australian production. The new, emerging disease syndrome, characterised by hepatopancreatitis and mortalities in farmed P monodon, was first reported in north Queensland in early 2015. The disease was again detecte ....Australian prawn production, forecast at 24 kilotonnes in 2014/15, is valued at >$310 million. The prawn fishery is an important natural resource that supports a substantial export industry. Prawn aquaculture in northern Australia accounts for approximately 20% of the total volume of Australian production. The new, emerging disease syndrome, characterised by hepatopancreatitis and mortalities in farmed P monodon, was first reported in north Queensland in early 2015. The disease was again detected in late 2015 and emerged in central Queensland in early 2016. The disease in two prawn farming regions in Queensland is ongoing. While there are similarities with the emerging disease in central and north Queensland with exotic AHPND, the following important information is still unknown:
1) what is the variability (if any) in host bacterial strains associated with the AHPND toxin genes in diseased prawns in Queensland, particularly between the two different regions currently affected?
2) what is the pathogenicity of Australian bacterial isolates containing the AHPND toxin genes to P. monodon and P merguiensis how does this compare to disease caused by exotic AHPND isolates?
3) the preliminary WGS analysis needs to be repeated/confirmed using a more stringent and advanced platform.
This project will characterise the causative agent(s) and hepatopancreatitis disease in Australian farmed P. monodon. This information is critical for the prawn industry, policy-makers and regulators in order to respond to the disease. The Project aligns with Key Research Area 6.2.1 of the FRDC AAHS R&D Plan “Knowledge about new and emerging infectious diseases”.
Objectives: 1. Compare the pathogenicity of exotic AHPND and the presumptive bacterial hepatopancreatitis in Penaeus monodon and P. merguensis. 2. Compare the pathology caused by exotic AHPND and the presumptive bacterial hepatopancreatitis in Penaeus monodon and P. merguensis. 3. Determine the whole genome sequence of the Vibrio harveyi strain from farmed Penaeus monodon and P. merguensis presumptive bacterial hepatopancreatitis. 4. Optimise, evaluate through inter-laboratory testing and then implement improved diagnostic tests for the Pir toxin gene. Read moreRead less
The Detection Of Ciguatera Toxins In NSW Spanish Mackerel
Funder
Fisheries Research and Development Corporation
Funding Amount
$490,000.00
Summary
Ciguatera Fish Poisoning (CFP) causes the largest number of seafood-related food safety incidents in Australia. In NSW and southern QLD waters, CFP is mostly related to Spanish Mackerel (Scomberomorus commerson). Ciguatoxins (CTXs) produced by marine microalgae (Gambierdiscus spp), are polyether toxins that accumulate in fish and cause CFP when fish are eaten. CTXs are heat stable, odourless, tasteless, and toxic at low concentrations, therefore it is very difficult to distinguish toxic fish. In ....Ciguatera Fish Poisoning (CFP) causes the largest number of seafood-related food safety incidents in Australia. In NSW and southern QLD waters, CFP is mostly related to Spanish Mackerel (Scomberomorus commerson). Ciguatoxins (CTXs) produced by marine microalgae (Gambierdiscus spp), are polyether toxins that accumulate in fish and cause CFP when fish are eaten. CTXs are heat stable, odourless, tasteless, and toxic at low concentrations, therefore it is very difficult to distinguish toxic fish. In NSW, since 2014, 31 people have contracted CFP after consuming Spanish Mackerel caught locally, mostly through recreational fishing.
Validated commercial monitoring methods for CTXs are unavailable internationally, although research tools for CTX measurement have been developed. Regulatory methods for CFP prevention are to avoid certain fish species, fish of certain sizes (ie >10kg), or fish from certain regions. In Australia, effective prevention methods have not been clearly evaluated. This results in Spanish Mackerel that are safe to eat potentially being excluded from sale, resulting in significant losses (ie > ~$200k p.a in NSW). This project addresses this issue, which was identified as high priority in the Australian ciguatera research strategy formulated at a recent workshop (27-28th March, 2019).
In 2014, FRDC (Tactical Response) and the NSW Recreational Fisheries Trust funded an initial study on the incidence of CTXs in NSW Spanish Mackerel. CTX was present in flesh and liver samples (1-7% incidence), and was not clearly correlated with the weight of individual fish. This information showed that CFP risk management may require reassessment. This project will advance knowledge by: evaluating methods of detection of CTXs; determining detailed predictive data on CTX incidence; and evaluating environmental and biological factors associated with CTX in Spanish Mackerel to allow for an evaluation of risk assessment strategies. This information will benefit industry by enhancing consumer safety and industry confidence, and enabling the sale of safe Spanish Mackerel.
Objectives: 1. Determine industry CTX needs and conduct of review of available CTX measurement tools (including cell based assays, ELISA kits, and LCMS) against these needs. Conduct an assessment of the currently available screening tools to determine which, if any, hold promise for industry use. Conduct a viability assessment for how a tool might be used in industry or, if none of the currently available tools are appropriate, make recommendations for future activities to develop a rapid screening tool that meets industry needs. 2. Obtain samples of flesh and liver from ~300 individual Spanish Mackerel of all sizes caught in Industry relevant regions of NSW waters over a period of 2 years, as well as length, weight, sex and site information, with the participation of the Sydney Fish Market and commercial fishing Cooperatives. Obtain samples from any individual Spanish Mackerel associated with illnesses in NSW or QLD. Measure CTX1B and other available CTX analogs using best practice methods identified in Objective 1. 3. Conduct statistical data analyses of all available data on CTX concentrations in Spanish Mackerel in comparison to biological and environmental variables.Develop recommended options for food safety risk management for Spanish Mackerel in NSW that will allow for a viable industry while protecting public health. Read moreRead less
Toxigenic Vibrio Baselines And Optimum Storage, Transport And Shelf-life Conditions To Inform Cold Supply Chains In The North Australian Tropical Rock Oyster Industry
Funder
Fisheries Research and Development Corporation
Funding Amount
$199,300.00
Summary
Internationally, Tropical Rock Oysters have a poor safety reputation with Vibrio at the top of the list. While a pro-active not reactive approach to vibrio food safety is essential for product assurance and branding, effort needs to be proportional to risk. And risk assessment also needs to be informed by real data. There are certainly knowledge gaps for north Australia, but we know seawater contains up to 42 Vibrio spp. including several known toxigenic species in addition to the human pathogen ....Internationally, Tropical Rock Oysters have a poor safety reputation with Vibrio at the top of the list. While a pro-active not reactive approach to vibrio food safety is essential for product assurance and branding, effort needs to be proportional to risk. And risk assessment also needs to be informed by real data. There are certainly knowledge gaps for north Australia, but we know seawater contains up to 42 Vibrio spp. including several known toxigenic species in addition to the human pathogens Vibrio parahaemolyticus (Vp) and V. vulnificus (Vv). We know Vp responds to temperature but Vv does not. And we know Vv concentrations in seawater are higher in the wet season compared to the dry, and more shellfish are Vp and Vv positive in the wet season. So if vibrio diversity and abundance in TRO is seasonal (as shown elsewhere), it is likely that Vibrio spp. infections in humans will also follow a seasonal trend which has implications for risk management. A major bottleneck is that we don’t know how vibrios respond to storage and transport temperatures in TRO. We know that the Pacific and Sydney Rocks respond differently so it is not ‘one size fits all’ and it is certain TROs will be different again. In addition to identifying vibrio baselines in TRO and developing tests for toxigenic species, we will identify the best post-harvest storage and transport temperatures and assess TRO shelf life at realistic storage temperatures. This will provide fundamental information to inform cold supply chains that will support farmers, wholesalers and retailers of TROs from north Australia. We can also use this information to prepare an appropriate and regionally relevant vibrio risk profile for TRO in northern Australia to assist initial risk management activities. This information will provide the developing TRO industry with the knowledge needed to ensure an exemplary reputation, thus giving access to premium markets.
Objectives: 1. Measure vibrio baseline in Tropical Rock Oysters and develop tests to vibrio species that are toxigenic to oysters and humans 2. Identify optimum storage and transport temperatures to inform post-harvest cold supply chains 3. Assess TRO shelf life at realistic storage temperatures to maximise product quality and inform cold supply chains 4. Use objective 1-3 outcomes to produce a risk profile for vibrio in north Australian TRO that will support the industry as it seeks to deliver a safe, premium product Read moreRead less