Research to improve fish health
Stress slows wound healing in fish, according to doctoral work done by Lene Sveen at Nofima. Sveen defends her thesis 30 November 2018 at University of Bergen.
This article was last updated more than two years ago.
She has researched the impact of stress on fish’s ability to heal and to produce mucus. These are important capabilities in both open pens and closed containment aquaculture systems. She has induced stress by catching the fish, and by varying fish density and size of the fish in the pens.
Sveen used many different techniques to analyze wound healing in stressed and unstressed fish, including microarray. The main gene class that was affected by stress was the immune genes. Their job is to protect open wounds and remove damaged tissue. Many genes involved in wound repair also had a delayed response under stress, causing wounds to close more slowly in stressed fish.
“When a fish is stressed, its immune response changes. Not only do wounds heal more slowly – the fish will also be less able to resist disease,” says Sveen.
“We also found out that when a fish becomes acutely stressed, it loses its protective mucus coating. And it takes more than a day for it to return,” says Sveen.
This is bad news for the fish, as the mucous coating protects the fish against diseases.
“My message is that we must focus on preventative fish health when designing closed containment systems. I think it will be very interesting to see how the industry addresses this challenge.”
“Closed containment aquaculture systems are evolving rapidly, and I can’t wait to see what the fish farming industry’s equivalent to the iPad will be,” says Sveen.
Title of thesis is «Aquaculture relevant stressors and their impacts on skin and wound healing in post-smolt Atlantic salmon (salmo salar L.)». Supervisors has been Sigurd Stefansson, Sigurd Handeland, Lars Ebbesson, Harald Takle, Elisabeth Ytteborg and Tom Ole Nilsen.
Visit uib.no for details on the dissertation.
CtrlAQUA is a centre for research-based innovation (SFI) doing research on closed-containment aquaculture systems. The main goal is to develop technological and biological innovations that will make closed systems a reliable and economically viable technology.
Host institute is Nofima, and the centre has 7 R&D partners and 14 industry partners.