Abstract
The salmon (Salmo salar) aquaculture industry has used various practices to treat salmon louse (Lepeophtheirus salmonis) infections, including mechanical, thermal, and chemical treatments. However, due to the environmental and fish welfare issues, and limitations associated with these practices, the use of cleaner fish has become a popular complementary delousing method. The goldsinny wrasse (Ctenolabrus rupestris) is the smallest among the delousing species used, which makes it most susceptible to escape through the salmon cage netting. Escape of goldsinny wrasse into the wild would lead to additional costs for farmers and could spread diseases and genetically contaminate wild stocks, as these cleaner fish are often transported over large distances from the capture site to the aquaculture site. The Norwegian aquaculture industry sets the goldsinny wrasse minimum size for use with different salmon cage mesh sizes using guidelines based on simple penetration tests that do not consider the potential compressibility of fish or changes in mesh state due to factors such as sea conditions and maintenance operations. Using morphological measurements of 100 fish, results of 47,800 penetration tests, and computer simulation, we predicted the minimum sizes required to avoid escape of goldsinny wrasse through and array of salmon farm nets. Our results show that the minimum stocking sizes for goldsinny wrasse in the current guidelines used by the industry may pose escape risk. Further, our findings illustrate the importance of considering fish compressibility and mesh state when estimating the fish minimum sizes required to avoid escape via cage netting mesh penetration. Finally, the results presented here provide the salmon farming industry with new guidelines that will contribute to reducing goldsinny wrasse escape from the cages and ultimately lessen the potential environmental consequences of such escape. For the two most typical mesh-size used by the aquaculture industry in Norway i.e. 30 and 50 mm and under the worst-case scenario i.e. slack state, the minimum recommended lengths for goldsinny wrasse would be ~128 (~28) and ~ 206 mm (~123 g). These sizes represent an underestimation of 16 and 24% in the sizes of goldsinny wrasse necessary to avoid escape compared to the current guidelines based on stiff meshes.
Highlights
Aquaculture of Atlantic salmon (Salmo salar) has become an impor tant industry for several countries globally and in the North Atlantic in particular
The fish used were collected by a local fisherman and maintained alive in a small net fixed to the quay, which gave us continuous access to live fish and allowed us to select individuals necessary to cover the widest possible length span of goldsinny wrasse during the trials
As the mesh sizes and shapes allowed in salmon farming in Norway are not regulated by law and can vary greatly, generalizing or making recommendations about the minimum sizes of salmon and/or cleaner fish to be used in the cage netting to avoid escape is challenging
Summary
Aquaculture of Atlantic salmon (Salmo salar) has become an impor tant industry for several countries globally and in the North Atlantic in particular. The rapid development and expansion of the industry over the last 30 years has led to questions about its effects on marine ecosystems (Naylor et al, 2000), sustainability (Olesen et al., 2011), and fish welfare (Hvas et al, 2021). Issues such as the spreading of parasites and diseases (Aaen et al, 2015) and escapees that interbreed with local fish populations (Karlsson et al, 2016) are specific challenges that the industry has not yet fully resolved (Taranger et al, 2015). The use of cleaner fish that feed on lice has become a widespread delousing method in countries such as Ireland, Canada, the Faroe Islands, Norway, and Scotland (Bolton-Warberg, 2017; Gonzalez and de Boer, 2017; Brooker et al, 2018; Foss et al, 2020)
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