The impact of environmental toxicants on the fertility of female animals. This study aims to address a problem of national significance; determining the impact of commonly used environmental toxicants (pesticides) on the fertility and health of female animals, both agricultural and native. This project expects to generate new knowledge in the fields of ovarian biology, female fertility and toxicology by using a combination of mouse and marsupial animal models. The expected outcomes include the e ....The impact of environmental toxicants on the fertility of female animals. This study aims to address a problem of national significance; determining the impact of commonly used environmental toxicants (pesticides) on the fertility and health of female animals, both agricultural and native. This project expects to generate new knowledge in the fields of ovarian biology, female fertility and toxicology by using a combination of mouse and marsupial animal models. The expected outcomes include the establishment of interdisciplinary collaborations and provision of world-class training for staff and students in the field of reproductive biology. This project should provide significant benefits, such as improved chemical management in livestock production and the development of marsupial conservation action plans.Read moreRead less
Presentation At World Congress Of Aquaculture And Fisheries (Xiamen, China) On Biosecurity And Aquatic Animal Health
Funder
Fisheries Research and Development Corporation
Summary
I have been asked to Chair the Session and provide a presentation to the WCAF Conference during session 2-4: Biosecurity and Aquatic Animal Health, where I will talk about shared responsibility, cost sharing and collaborative responses with the Australian Aquatic Animal Health and Biosecurity Management Framework and take part in a panel session. My presentation will include an overview of the AAH and Biosecurity management system and the the development of the Aquatic Deed (and more importantly ....I have been asked to Chair the Session and provide a presentation to the WCAF Conference during session 2-4: Biosecurity and Aquatic Animal Health, where I will talk about shared responsibility, cost sharing and collaborative responses with the Australian Aquatic Animal Health and Biosecurity Management Framework and take part in a panel session. My presentation will include an overview of the AAH and Biosecurity management system and the the development of the Aquatic Deed (and more importantly the biosecurity /Aquatic animal health policy components that come directly from it as front end components of the Deed) as a one of a kind innovation that puts Australia on the map with respect to Aquatic EAD response management as well as Aquatic EAD avoidance and minimisation.
In addition to a significant Biosecurity and Aquatic Animal Health component, WCAF also features sessions on Aquatic Animal Nutrition, Disease & Health Management, there are some topics of interest including Aquaculture Reproduction & Breeding Technology (Resilience to The Environmental Variability And Sustainability), Commercialisation & Economics, Investment, Insurance of Aquaculture, Sustainable Culture and Development of Aquaculture & Fisheries, Smart Fisheries, and Culture, Seafood, and Global Change: Anthropological Perspectives on Food Habits and Aquatic Food Resources in a Time of Increasing Demographic and Climate Change Impacts. This are very relevant with respect to Aquaculture development in Australia and it would be beneficial to hear these presentations.
Objectives: 1. Presentation to WCAF (AAH and Biosecurity Session on Day 2): To elucidate and provide an update on developments in Australian Biosecurity and Aquatic Animal Health Policy Development 2. Take part in and Industry Panel on Day 1 and Chair the AAH and Biosecurity Session on Day 2: Better understand global biosecurity, aquatic animal health, nutrition, breeding and environmental performance and global aquaculture health policy development in a global context 3. Attendance at WCAF: To get a better understanding of global biosecurity, aquatic animal health, nutrition, breeding and environmental performance and global aquaculture health policy development 4. To be part of an Australian presence at a large Fisheries and Aquaculture Forum, and engage with other delegates with a view to facilitate improved cooperation/collaboration. And learn about AAH and Biosecurity Policy around the World Read moreRead less
Development Of A Sustainable Scallop (Ylistrum Balloti) Fisheries Enhancement Program For Western Australia: Preliminary Feasibility Study
Funder
Fisheries Research and Development Corporation
Funding Amount
$920,050.00
Summary
A substantial rise in future demand for seafood is forecast with ocean fishery productivity projected to decline by up to 50% in some fisheries due to ecological disruptions. A key challenge therefore will be maintaining fishery productivity. Shark Bay and the Abrolhos Islands scallop fisheries are prime examples - following the extreme marine heat wave of 2011 lost income from these fisheries is estimated at $53 million GVP, or $155 million including multipliers.
The integration of aq ....A substantial rise in future demand for seafood is forecast with ocean fishery productivity projected to decline by up to 50% in some fisheries due to ecological disruptions. A key challenge therefore will be maintaining fishery productivity. Shark Bay and the Abrolhos Islands scallop fisheries are prime examples - following the extreme marine heat wave of 2011 lost income from these fisheries is estimated at $53 million GVP, or $155 million including multipliers.
The integration of aquaculture and wild fisheries is becoming increasingly recognised as a tool for enhancing fishery productivity (Taylor et al, 2017). Re-stocking and stock enhancement following recruitment failure could lead to faster fishery recoveries, and also be used to supplement natural recruitment to provide a more consistent and higher yield harvest from year to year. Development of supply chains for scallops into domestic and overseas high-value live markets requires consistent supply. Due to climatic variability and highly variable natural recruitment there is an urgent need to investigate scallop stock enhancement using hatchery-produced juveniles in WA.
A key element for success will be the development of reliable, efficient and scalable seed production systems, which will be based on previous research findings integrated novel, contemporary shellfish production technology. During this project, 16 million cultured scallop spat are planned to be released. The annual yield of scallops from the Rottnest SWF Zone A is 25 to 50 tonnes (whole scallop weight), or approximately 250,000 - 500,000 scallops assuming an average weight of 0.100 kg/whole scallop. This Project aims to release on average 8 million spat each year of the Project (600,000, 1,500,000 and 6,000,000 of 10mm, 5mm and 2mm spat respectively), which could contribute 45,000 hatchery-produced scallops to the catch each year assuming 2.50%, 1.00% and 0.25% of 10mm, 5mm and 2mm spat released respectively were captured, increasing yield by 8.3 – 16.6 % in the annual production, demonstrating the feasibility of scallop stock enhancement.
Objectives: 1. Develop and validate genetic tools to determine parentage / origin of scallops and measure genetic diversity 2. Develop hatchery and nursery protocols for consistent production of scallop spat 3. Develop strategies and methodologies for scallop spat deployment and stock enhancement sampling; measurement of seeded scallop spat survivorship; assessment of effect of spat size at deployment on survival rates; duration of growth to market size; determine impact of enhancement Read moreRead less
Industrial Transformation Training Centres - Grant ID: IC230100016
Funder
Australian Research Council
Funding Amount
$5,000,000.00
Summary
ARC Training Centre in Predictive Breeding for Agricultural Futures. This Centre aims to develop the advanced capacity needed to secure Australia’s food and fibre production and export value into the future. Leveraging immense industry support, the Centre expects to develop and integrate cutting-edge plant and animal breeding technologies and deliver world-class training that addresses critical demand for highly skilled industry leaders. Expected outcomes include a future-ready predictive breedi ....ARC Training Centre in Predictive Breeding for Agricultural Futures. This Centre aims to develop the advanced capacity needed to secure Australia’s food and fibre production and export value into the future. Leveraging immense industry support, the Centre expects to develop and integrate cutting-edge plant and animal breeding technologies and deliver world-class training that addresses critical demand for highly skilled industry leaders. Expected outcomes include a future-ready predictive breeding industry able to transform data into optimised decisions, and the human capacity to drive it. This should provide significant benefits to enhance the sustainability and profitability of all major Australian agriculture sectors, including livestock, grains, horticulture, cotton, wine, dairy, forestry and fisheries.Read moreRead less
Improving The Availability Of Safe And Effective Veterinary Medicines For Australia's Seafood Industry
Funder
Fisheries Research and Development Corporation
Funding Amount
$322,764.00
Summary
Globally, disease is the major limiting factor restricting growth in aquaculture (Stentiford et al 2012; Jennings et al 2016), with impact of aquatic diseases exceeding $6 billion per annum. Aquaculture is the fastest growing livestock industry in Australia, and is expected to double in value to $2 billion by 2027 to meet global seafood demand (National Aquaculture Strategic Plan). Therefore access to safe and effective veterinary medicines is critically import to support the current industry an ....Globally, disease is the major limiting factor restricting growth in aquaculture (Stentiford et al 2012; Jennings et al 2016), with impact of aquatic diseases exceeding $6 billion per annum. Aquaculture is the fastest growing livestock industry in Australia, and is expected to double in value to $2 billion by 2027 to meet global seafood demand (National Aquaculture Strategic Plan). Therefore access to safe and effective veterinary medicines is critically import to support the current industry and its expansion.
Australia’s aquaculture industry must have access to safe and effective veterinary medicines for disease management, industry productivity and animal welfare. This need is highlighted in Australia’s national strategic plan (www.agriculture.gov.au/animal/aquatic/aquaplan) and FRDC’s strategic plan (2015-2020 and 2020-2025) including supporting the future sustainable expansion of aquaculture.
Veterinary medicines are required for prevention (for example, vaccines), therapeutic treatments (for example, antibiotics, anthelmintics and antimycotics) and husbandry (for example, hormones for reproduction and anaesthetics for animal handling). Currently there is a substantial lack of access to permitted or registered products.
There is a clear need for national coordination of applications for permits and registrations for aquatic veterinary medicines that replaces the duplication, disjointed efforts, poor permit applications and restrictive minor use permits and generally wasted resources occurring in the seafood industry.
There is a need to coordinate seafood industry prioritisation and application for access and use of agvet chemicals and to establish effective relationships between the seafood industry and APVMA to progress this important issue.
A model to support the resourcing of this service to industry and regulators needs to be devised to maintain this activity after completion of this project. Objectives: 1. Document a safe and effective process for the off-label use of veterinary medicines aimed at supporting fish health, welfare and production while managing environmental risks and enabling data generation. 2. Coordinate a national effort to facilitate the progress of priority aquatic veterinary medicines in the seafood industry through to permitting or registration with the APVMA 3. Determine options for a system, framework and / or business case to effectively coordinate national data generation and applications to the APVMA into the future, and maintain current permits and registrations in the seafood industry. 4. Develop and implement a communication and awareness strategy for industry on safe and effective veterinary medicine use Read moreRead less
Improving Southern Rock Lobster On-vessel Handling Practices, Data Collection And Industry Tools For Lobster Quality Assessment
Funder
Fisheries Research and Development Corporation
Funding Amount
$538,604.00
Summary
The export of Southern Rock Lobster (SRL) from Southern Australia to international markets is one of Australia's most valuable fisheries. There are increasing trends in post-harvest mortality of SRL confirmed by the recent Fisheries Research and Development Corporation project (FRDC 2016-235). This is costing the industry millions due to stock losses, decreased consumer confidence in product quality and reputational damage to the SRL market brand. The causes of this increased post-harvest mortal ....The export of Southern Rock Lobster (SRL) from Southern Australia to international markets is one of Australia's most valuable fisheries. There are increasing trends in post-harvest mortality of SRL confirmed by the recent Fisheries Research and Development Corporation project (FRDC 2016-235). This is costing the industry millions due to stock losses, decreased consumer confidence in product quality and reputational damage to the SRL market brand. The causes of this increased post-harvest mortality are inconsistent across the industry sector with a range of factors implicated including environmental stressors, novel health conditions, and sub-optimal post-harvest practices. Results from (FRDC2016-235) indicate a need to optimise live lobster management processes across the entire post-harvest chain of custody in-order to minimize lobster mortality and enhance the economics of the SRL fishing and processing industry sectors.
The FRDC SRL live holding project (2016-235) conducted an analysis of the processing industry sector practices and provided guidance for best practices. These recommendations have been welcomed by the industry and further consultation has identified a critical need to extend this approach to the fishing component of the industry.
This project will address these key industry priorities and conduct an analysis of on-vessel live lobster handling and holding practices, quantify the impact of systems and practices on lobster quality and provide recommendations on improving on-vessel post-harvest practices. The current FRDC traceability project (FRDC 2016-177) is trialing a range of traceability technologies that this proposed new project will extend and enhance on-vessels to strengthen the capture, monitoring, and analysis of post-harvest data on lobster welfare, quality, and handling practices.
This project will also extend the development of practical and easy to use tools for the evaluation of lobster health including the handheld lactate meter and refractive index. Building evidenced-based approaches to measuring health and stress will provide all industry sectors with improved measurement of quality, animal welfare, and sustainability at all points in the supply chain.
Objectives: 1. Investigate the impacts of on-vessel handling and maintenance practices on live SRL post-harvest performance 2. Develop practical tools for the improved management of SRL industry live lobster operations (ie hand-held lactate meter and refractive index including thresholds for poor lobster performance) 3. Extend findings to the SRL industry (best practice guides and workshops) and incorporation of results into the SRL Clean green program. Read moreRead less
Minor Use Permit For Oxytetracycline In Marine And Freshwater Crustaceans
Funder
Fisheries Research and Development Corporation
Funding Amount
$75,000.00
Summary
This project will develop a Minor Use Permit application for oxytetracycline for use in crustacean aquaculture comprising: - a human health assessment focusing on worker exposure to OTC through mixing and administration - an environment assessment comprising use of existing trigger values with estimated release volumes of chemicals to understand environmental safety and to develop environmental release conditions - an efficacy and safety summary based on published information As ....This project will develop a Minor Use Permit application for oxytetracycline for use in crustacean aquaculture comprising: - a human health assessment focusing on worker exposure to OTC through mixing and administration - an environment assessment comprising use of existing trigger values with estimated release volumes of chemicals to understand environmental safety and to develop environmental release conditions - an efficacy and safety summary based on published information Assembly of these and all other relevant data into a Minor Use Permit application and submission to APVMA. Objectives: 1. Obtain a minor use permit for oxytetracycline use in crustacean aquaculture Read moreRead less