Review Of Domestic Commercial Vessel Safety Legislation
Funder
Fisheries Research and Development Corporation
Funding Amount
$36,500.00
Summary
This industry consultation needs to be collated to assist the Australian seafood industry provide a nationally co-ordinated and well-informed response to a review of AMSA legislation.
There is a need for a nationally co-ordinated and well-informed seafood industry response to a review of the AMSA legislation. SIA has engaged with industry nationally and the need to respond in a collective submission that is reflective of the views of Australia’s seafood industry
In addition, ....This industry consultation needs to be collated to assist the Australian seafood industry provide a nationally co-ordinated and well-informed response to a review of AMSA legislation.
There is a need for a nationally co-ordinated and well-informed seafood industry response to a review of the AMSA legislation. SIA has engaged with industry nationally and the need to respond in a collective submission that is reflective of the views of Australia’s seafood industry
In addition, there is a need for subsequent interpretation of the outputs from the AMSA legislation review to aid industry in understanding the implications of the findings. This industry consultation needs to be collated to assist the Australian seafood industry provide a nationally co-ordinated and well-informed response to a review of AMSA legislation.
Objectives: 1. Engage a range of seafood industry representatives (individuals and organisations) in provision of input to a consolidated SIA response to the AMSA Legislation Review 2. Understand and report on industry issues associated with the application and content of the AMSA legislation 3. Provide advice to SIA to inform a national response to the AMSA legislation review Read moreRead less
To Develop A National Marine Safety Extension Resource Toolkit And To Trial With All Fisheries Jurisdictions
Funder
Fisheries Research and Development Corporation
Funding Amount
$350,000.00
Summary
There have been significant resources (financial and physical) allocated to workplace health and safety (including mental health, training and systems for data collection) over the last 15 years in the commercial fishing industry .However the majority have been “stand alone" and there has been limited extension for the wider industry to adopt. Although there have been some positive moves in the area of health and safety such as the SRL Clean Green program and the Spencer Gulf Prawn fishery, ther ....There have been significant resources (financial and physical) allocated to workplace health and safety (including mental health, training and systems for data collection) over the last 15 years in the commercial fishing industry .However the majority have been “stand alone" and there has been limited extension for the wider industry to adopt. Although there have been some positive moves in the area of health and safety such as the SRL Clean Green program and the Spencer Gulf Prawn fishery, there has largely been a “silo” approach to the various initiatives across the commercial fishing industry and a real lack of coordination that can lead to a lack of communication, adoption and the lack of visibility of tools to those that need it. This is due in part to the nature of the industry that tends (overall) not to have the willingness to adopt something that another fishery has implemented, fragmentation of industry in some states and within a fishery. Additionally, the absence of a peak national body until June 2017 also created a gap for driving nationwide issues including workplace safety and health initiatives. Through the building of these networks and the establishment of on the ground champion in each state to influence industry including the building of capacity/ resources within the peak bodies to embrace workplace health and safety on behalf of their members, improved awareness and adoption of safety programs should occur. To do this State peak bodies require support to enable them to add value for their members and therefore utilise existing and currently funded research and develop extension processes.It is unknown to what level industry uptake of the current AMSA requirements for a safety management system (SMS) has occurred. It is not well understood by industry that the existence of a SMS to meet AMSA requirements only goes half way for legal compliance. Each states Worksafe body also has legislation that requires compliance with safe work practices. It is desirable to produce a SMS that meets both sets of legislation and develop a tool that can be used to assess the uptake of the initiatives through the peak bodies as well as developing a robust set of statistics to benchmark the performance. Objectives: 1. To build capability in each jurisdiction industry council for the development of a safety management system toolkit based on gear type/fishery type for implementation across industry 2. To develop processes to ensure existing and future projects including LMS ( 2017-194) and Barriers to Adoption ( 2017-046) are integrated into objective 1 above 4. To develop a national “champions” network for workplace/ marine safety to assist jurisdictional bodies communicate and champion the safety message 5. To ensure current and previous marine safety RD&E projects are linked and collaborate effectively to achieve increased levels of extension 6. To develop a tool and estimate wild catch fisheries accident statistics ( historical) and to provide a system and a benchmark to measure future performance of accident statistics Read moreRead less
Situational Assessment as a Marker of Cognitive Skill Decay. The aim of this study is to test how differences in exposure to complex tasks change the capacity for situational assessment. Amongst drivers, pilots and electricity controllers, the capacity to assess and respond effectively to changes in the operational environment are critical in sustaining performance and ensuring the safety and security of the public. Establishing the nature of this relationship will enable, for the first time, ob ....Situational Assessment as a Marker of Cognitive Skill Decay. The aim of this study is to test how differences in exposure to complex tasks change the capacity for situational assessment. Amongst drivers, pilots and electricity controllers, the capacity to assess and respond effectively to changes in the operational environment are critical in sustaining performance and ensuring the safety and security of the public. Establishing the nature of this relationship will enable, for the first time, objective measures of cognitive skill decay. In evaluating cognitive skill decay more accurately, we will provide a cost-effective, easily administered tool, enabling practitioners to identify and address areas of development and providing data to anticipate when cognitive skill decay is most likely to occur.Read moreRead less
Towards equity in crash protection. Women are at increased relative risk for death and serious injury in motor vehicle crashes compared to men and the reasons for this are not clear. This Fellowship aims to build a new model that describes the mechanistic pathways for this inequity to identify where and how intervention could reduce this relative risk. This will establish what population groups have good and poor access to the best vehicle safety technologies, the differences, and what might cau ....Towards equity in crash protection. Women are at increased relative risk for death and serious injury in motor vehicle crashes compared to men and the reasons for this are not clear. This Fellowship aims to build a new model that describes the mechanistic pathways for this inequity to identify where and how intervention could reduce this relative risk. This will establish what population groups have good and poor access to the best vehicle safety technologies, the differences, and what might cause these differences in the benefits of vehicle safety technology between women and men. The outcomes will be of use to academics, policy makers and industry designing to new ways to protect women in crashes and close this gender gap.Read moreRead less
Risk Profile For Paralytic Shellfish Toxins In Tasmanian Periwinkles
Funder
Fisheries Research and Development Corporation
Funding Amount
$180,504.00
Summary
Recurrent harmful algal blooms in Tasmanian waters (Gymnodinium in the South and Alexandrium on the East Coast) have impacted Oyster, Mussel, Abalone and Rock Lobster industries, necessitating the implementation of biotoxin monitoring programs and harvest closures during high risk periods. It is currently unknown whether Periwinkles can accumulate paralytic shellfish toxins (PST) from Tasmanian microalgal blooms and a conservative risk management approach has been taken thus far to protect both ....Recurrent harmful algal blooms in Tasmanian waters (Gymnodinium in the South and Alexandrium on the East Coast) have impacted Oyster, Mussel, Abalone and Rock Lobster industries, necessitating the implementation of biotoxin monitoring programs and harvest closures during high risk periods. It is currently unknown whether Periwinkles can accumulate paralytic shellfish toxins (PST) from Tasmanian microalgal blooms and a conservative risk management approach has been taken thus far to protect both public health and market access.
Unlike bivalve shellfish, Abalone and Rock Lobster, there is currently no clearly defined biotoxin management plan for Periwinkles in Tasmania. As grazers, Periwinkles are loosely grouped with Urchins and Abalone, the latter of which are a proven PST risk. This Abalone biotoxin sampling plan is triggered when Tasmanian Shellfish Market Access Program (ShellMAP) closes bivalve harvest areas due to PST risk. In a conservative approach, the current recommendation is PST analysis of 20 pooled Periwinkles per Abalone block on at least a monthly basis to maintain market access. This presents a considerable cost burden to the small dive fishery and interrupts harvest operations, as PST sampling of Periwinkles is required if elevated PST are detected in Abalone, which are known to hold onto PST for longer time periods in between blooms (years).
To date, the vast majority of Periwinkle samples that have been analysed for PST were collected from weak or no bloom years or regions. Evidence from French tank trials exposing the common European Periwinkle (Littorina littorea) to Alexandrium minutum cysts containing PST showed significant toxin uptake (0.2 mg PST/kg) within six days of exposure (Neves et al, 2015). It remains unknown whether commercially harvested Tasmanian Periwinkles (Lunella undulata) are at risk of PST accumulation and if the current conservative monitoring approach is commensurate to risk. In such scenarios, risk managers will commonly outsource a preliminary risk assessment (known as a risk profile). Risk profiles are an important tool for risk managers and industry. They provide a summary of all information pertinent to food safety associated with the specific hazard/food combination. The purpose of a risk profile is to assist initial risk management activities, such as identifying future actions required (if any), and the options for food safety management programs. They also inform the level of resourcing required to control the hazard/food pairing.
This project will deliver an urgently required risk profile for PST in Periwinkles to inform future actions (if any) and provide options for cost-effective food safety management programs. This profile will: 1. Determine the risk of PST accumulation in Periwinkles in Tasmania as a result of harmful microalgal blooms during high risk exposures at peak algal bloom densities in the field and in tank trials. 2. Outline potential management options and knowledge gaps, should risk management be necessary. This includes an assessment of whether the bivalve PST regulatory limit is appropriate to use in Periwinkle risk management (currently based on shellfish serving size of 100-400g) and the spatial variability associated with sampling.
References Neves, Raquel AF, et al. "Responses of the common periwinkle Littorina littorea to exposure to the toxic dinoflagellate Alexandrium minutum." Journal of Molluscan Studies 81.2 (2015): 308-311.
Objectives: 1. Determine whether Tasmanian Periwinkles can bioaccumulate PST from Alexandrium and/or Gymnodinium microalgal blooms during both field and laboratory exposures. 2. Identify the most suitable size of biotoxin management zones for Periwinkles. 3. Assess whether the use of the bivalve PST regulatory limit is appropriate for Periwinkles by conducting a literature search and consumption survey. 4. Generate a risk profile for PST in Tasmanian wild caught Periwinkles and provide guidance for risk management. Read moreRead less
Crashworthiness topology optimisation for light-weight battery compartments. This project uses computational modelling and optimisation methods to the design of battery compartments for electric vehicles. As the use of electric vehicles becomes more extensive, awareness of the consequences of catastrophic failure of high energy battery in a crash has increased. This project will develop novel design methodologies, using multi-disciplinary techniques for battery compartment structure. The methodo ....Crashworthiness topology optimisation for light-weight battery compartments. This project uses computational modelling and optimisation methods to the design of battery compartments for electric vehicles. As the use of electric vehicles becomes more extensive, awareness of the consequences of catastrophic failure of high energy battery in a crash has increased. This project will develop novel design methodologies, using multi-disciplinary techniques for battery compartment structure. The methodology will expand conventional crashworthiness design to the coupled mechanical-electrochemical-thermal problems. The proposed crashworthiness optimisation of battery compartment structure will enhance safety and reliability of electric vehicles, potentially benefiting consumers and manufacturers.Read moreRead less
Contextualising Shellfish Food Safety In Northern Australia
Funder
Fisheries Research and Development Corporation
Funding Amount
$147,000.00
Summary
The emerging edible oyster industry in northern Australia involves Aboriginal communities, industry and governments and is working towards improvements in productions systems, biosecurity and capacity development. Initial volumes produced by this developing industry are likely to be small scale, targeting local markets, however there is significant potential to expand overtime to service the broader Australian and international markets.
To enable industry access to supply these markets ....The emerging edible oyster industry in northern Australia involves Aboriginal communities, industry and governments and is working towards improvements in productions systems, biosecurity and capacity development. Initial volumes produced by this developing industry are likely to be small scale, targeting local markets, however there is significant potential to expand overtime to service the broader Australian and international markets.
To enable industry access to supply these markets there is a need to ensure appropriate food safety. Preliminary shellfish quality assurance assessments have been conducted at oyster farming trials in Western Australia and the Northern Territory. However, there remains a gap in the knowledge of shellfish food safety risks and the most appropriate way to administer a shellfish food safety program in Northern Australia.
Information on the specific food safety risks in tropical Australia to inform the application or contextualise ASQAP in Northern Australia remains a gap. There is also a further need to consider how ASQAP can be applied to a developing industry in a remote context. Tropical Australia has unique challenges of temperature, environment, limited infrastructure and remoteness. The emerging tropical oyster industry requires an assessment of the risks and options to manage the sale of an initial small-scale production of farmed bivalve shellfish produced in Northern Australia. Objectives: 1. Perform an assessment of food safety concerns and associated risks in tropical Australia 2. Provide recommendations on appropriate harvest area classification systems (based on water and/or meat results) and monitoring and risk management protocols for oyster farming in tropical Australian environmental and remote contexts 3. Develop models for shellfish food safety programs in tropical Australian conditions Read moreRead less