- A vaccine developed by the University of Queensland could protect farmed saltwater crocodiles from West Nile virus (WNV), which poses a threat to the crocodile hide farming industry.
- The virus causes skin lesions in crocodiles, rendering their hides unsaleable, and consecutive years of high rainfall could make the industry unviable.
- The vaccine, based on a benign virus isolated from Australian mosquitoes, has shown proven safety and efficacy in crocodiles, inducing a strong immune response and protective immunity against WNV.
A University of Queensland developed vaccine will protect farmed saltwater crocodiles from West Nile virus (WNV), providing economic and biodiversity benefits to northern Australia.
Dr Jody Hobson-Peters from UQ’s School of Chemistry and Molecular Biosciences said the virus, which is prevalent in high rainfall years, threatens the commercial viability of the $100million a year crocodile hide farming industry.
“Crocs infected with the local strain of WNV, known as Kunjin virus, develop small skin lesions called pix, which renders their hide unsaleable,” Dr Hobson-Peters said.
“WNV infection can affect up to 30 per cent of croc hides, costing the industry as much as $10million in a single year.
“If we were to experience consecutive years of high rainfall, the virus could render the crocodile farming industry unviable and threaten the current conservation model.
“It would also disrupt an industry that contributes to Indigenous livelihoods and economic development opportunities in the Northern Territory and Far North Queensland.”
UQ’s Professor Roy Hall said the vaccine is based on a benign ‘Binjari’ virus isolated from Australian mosquitoes and is the first of its kind to achieve proven safety and efficacy in crocodiles.
“We have demonstrated that our vaccine induces a robust, immune response in vaccinated animals after two doses,” Professor Hall said.
“Crocodiles that received the vaccine developed strong protective immunity against WNV, without the virus replicating.”
UQ has received funding from the Australian Research Council to work with the Centre for Crocodile Research to assess the vaccine’s long-term performance.
Director of the Darwin-based Centre for Crocodile Research, Dr Sally Isberg said the surge in the wild crocodile population in recent decades was made possible by the farmed crocodile industry.
“It’s not just an economic threat we’re facing – croc farming has played a pivotal role in returning this apex predator from the brink of extinction over the past 60 years,” Dr Isberg said.
“The captive-breeding industry promotes sustainable practices and places an economic value on crocodiles, meaning communities living with or near crocs are more tolerant of their presence in waterways and are incentivised to protect their habitats.
“As a result, other species that co-inhabit with crocs are protected, such as the brolga, jabiru and long-necked turtle.”
The team is working with the Australian veterinary vaccine company Treidlia BioVet, to develop a commercial version of the vaccine for wider industry use.
UQ acknowledges the contributions of the Australian crocodile industry and biotechnology company Vaxine Pty Ltd.
The University of Queensland has developed a vaccine to protect farmed saltwater crocodiles from West Nile virus, which poses a significant threat to the crocodile hide farming industry. The vaccine has demonstrated safety and efficacy, providing hope for the industry’s economic viability and the conservation efforts surrounding crocodiles.