This parasite is one of the major threats to
salmon farmers. Salmon are stocked usually for a 14 - 18-month cycle. Salmon farms are an unusual, but ideal environment for the sea lice to breed and prolferate. In 2016 Guardian news stated that the lice killed thousands of tonnes of farmed fish, caused skin lesions and secondary infections in millions more, and cost the Scottish salmon industry around £300m in control efforts.
Mitigation efforts Salmon lice is one of the major challenges in today's salmon farming. It is possible to use several methods to increase its resistance against salmon lice.
Genomic selection (GS) is a form of
Molecular breeding and has become a very popular selection method, used in most livestock species, but also in several important aquaculture species, like salmon and tilapia. It offers higher selection accuracy than selection based on phenotypes and pedigree records alone. However, genetic progress in selective breeding is limited by the heritability of the measured traits, the generation interval of the species, and the need to target several traits in the breeding target. In addition, advanced breeding programs are normally closed systems, and are limited to the existing genetic variation in the
broodstock, and new variation that arises from the novo mutations. CRISPR is one of the methods that then offers new solutions and opportunities.
CRISPR is characterised as a
GMO-light method, since it does not necessarily mean that a new gene is introduced, it may for instance only have been repaired, if a harmful mutation has occurred. GMO stands for genetically modified organism. There is a big and global debate about what should be defined as genetic modification. In several countries (e.g. USA, Canada and Brazil), genetically modified fish is allowed to be sold as food today. In Norway, CRISPR has only been used in research so far, and genetic modification is strictly regulated by the Gene Technology Act. GMO could be a part of the solution for the salmon lice problem. The challenge is that lice resistance has a polygenic inheritance, and a low-to-moderate heritability, but with CRISPR technology we have the opportunity to go beyond the existing alleles and genome of the Atlantic salmon and use genomic material from for instance coho or pink salmon, which show almost complete lice resistance. CRISPR is a method used on an organism to change the DNA structure. There are several ways this can be done. A gene can be changed, pasted from another organisms, turned off, or knocked out. "Knocked–out" genes may cause other genes to compensate. Turning off the gene is the least complicated procedure. Turning off the gene often gives the same result that it is possible to achieve through breeding, but it's faster. It is also more probable that animals with small changes can become human food. Another use of CRISPR is escape-safe farmed salmon, since researchers now have succeeded in turning off a gene that prevents salmon from developing germ cells. The salmon without germ cells can not harm the local salmon strains genetically, even though it can still escape. However, this method is still not scalable to serve as a practical solution to all salmon produced for aquaculture purpose. A device has been developed which uses
lasers directed by
machine vision to "zap" and kill the lice. Salmon louses can also be removed through chemical baths. ==Disease==