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results
Industry
PROJECT NUMBER • 2017-170
PROJECT STATUS:
COMPLETED

Real time monitoring of water quality and mechanisation of pond management to boost productivity and increase profit

Maintenance of adequate levels of dissolved oxygen (DO) are critical for the health and production of aquaculture species. In barramundi (Lates calcarifer) pond aquaculture the use of 24 hr/7 day mechanical aeration via paddlewheels represents a significant energy cost to companies,...
ORGANISATION:
James Cook University (JCU)
SPECIES
Industry
PROJECT NUMBER • 2017-241
PROJECT STATUS:
COMPLETED

Understanding blood flukes infecting Southern Bluefin Tuna

Cardicola forsteri is the dominant blood fluke species detected in farmed Southern Bluefin Tuna in 2018. Our results have shown that traditional methods (heart flush and gill microscopy) were limited to detecting adults or eggs. Comparisons of currently used diagnostic methods showed that...
ORGANISATION:
RMIT University Melbourne City Campus
Industry
PROJECT NUMBER • 2019-214
PROJECT STATUS:
COMPLETED

Survey for WSSV vectors in the Moreton Bay White Spot Biosecurity Area

The objective of this project was to undertake opportunistic plankton sampling and collect small non-commercial species of decapod crustaceans in northern Moreton Bay and near the intakes of the three prawn farms which remained operating on the Logan River during April and May 2020, at a time when...
ORGANISATION:
DigsFish Services Pty Ltd
Industry
PROJECT NUMBER • 2016-800
PROJECT STATUS:
COMPLETED

Future Oysters CRC-P Management and Extension

The Future Oysters CRC-P project (CRC-P 2016-553805; Future Oysters) was funded by the Australian Government’s Business Cooperative Research Centres (CRC) Program, which is managed by the Department of Industry, Innovation and Science (DIIS). The Future Oysters CRC-P project was developed to...
ORGANISATION:
Australian Seafood Industries Pty Ltd (ASI)
Environment
PROJECT NUMBER • 2018-034
PROJECT STATUS:
COMPLETED

Effects of climate change and habitat degradation on Coral Trout

Fishes are at considerable risk from changing environmental conditions because they are, for most part, unable to regulate their body temperature. Exposure to high temperatures may therefore compromise critical biological functions, resulting in reduced performance, fitness and ultimately survival....
ORGANISATION:
James Cook University (JCU)
Industry
PROJECT NUMBER • 2004-237
PROJECT STATUS:
COMPLETED

Aquaculture Nutrition Subprogram: assessment of growth performance under limiting environmental conditions

This research has advanced our understanding of how fish growth is influenced by nutrition, by environment and by the interaction between nutritional and environmental factors. When the research started the majority of nutrition research considered the performance of feeds under optimum...
ORGANISATION:
University of Tasmania (UTAS)
Environment
PROJECT NUMBER • 2016-009
PROJECT STATUS:
COMPLETED

Aquatic Animal Health and Biosecurity Subprogram: Perkinsus olseni in abalone - development of fit-for-purpose tools to support its management

The project was able to successfully propagate a new P. olseni isolate from Queensland and successfully cultured the isolates from Spain, Japan, New Zealand, and South Australia as well as P. chesapeaki, which was used as a negative control. We were unable to culture the Western Australian (WA)...
ORGANISATION:
Department of Primary Industries and Regional Development (DPIRD) WA
Industry
PROJECT NUMBER • 2019-088
PROJECT STATUS:
COMPLETED

Development of a national sector-specific biosecurity plan guideline and template for the sea-cage finfish (non-salmonid) industry of Australia.

In this project, we developed guidelines to provide the Australian sea-cage finfish (non-salmonid) industry with the tools and templates to create an auditable farm biosecurity plan. Consideration was given to the current farming of yellowtail kingfish (Seriola lalandi), southern bluefin tuna...
ORGANISATION:
University of Adelaide