This project has confirmed the knowledge that management of barramundi translocations outside their natural range requires fisheries authorities take into account the risk that barramundi nodavirus may lethally infect native freshwater fishes. The project has shown barramundi nodavirus can...
In summary, we have made significant progress towards the establishment of the selective breeding program for barramundi by:
Registering a company for selective breeding of barramundi (Barratek) and producing a genetic business plan and lobbying document.
Identifying and characterising...
Researchers from Queensland’s Department of Agriculture and Fisheries, James Cook University, and the University of Western Australia tested a range of otolith-based and genetic methods to identify hatchery-born from wild-born Barramundi. The project took place in the Dry Tropics region, where...
Results from the current ‘proof of concept’ study indicate that near infrared (NIR) spectra collected from fish otoliths have potential to estimate the age of Barramundi (Lates calcarifer) and Snapper (Pagrus auratus), with performance varying between species and locality of capture. A...
The 2005 ASFB Workshop was hosted by the Department of Primary Industry, Fisheries and Mines in Darwin on 11-12 July 2005. The workshop explored the theme ‘Monitoring Fish Stocks and Aquatic Ecosystems’. The event attracted 138 delegates from Australia, New Zealand, Africa and North...
As the link between land and sea environments, estuaries are complex ecosystems vulnerable to human impacts, which directly and indirectly affect plants and animals, including fish. Fish are key biological indicators of environmental contamination, as they are water breathers, common in aquatic...