Guragain, Prashanna;
Tkachov, Max;
Båtnes, Anna Solvang;
Olsen, Yngvar;
Winge, Per;
Bones, Atle M.
Principles and Methods of Counteracting Harmful Salmon–Arthropod Interactions in Salmon Farming: Addressing Possibilities, Limitations, and Future Options
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Medientyp:
E-Artikel
Titel:
Principles and Methods of Counteracting Harmful Salmon–Arthropod Interactions in Salmon Farming: Addressing Possibilities, Limitations, and Future Options
Beteiligte:
Guragain, Prashanna;
Tkachov, Max;
Båtnes, Anna Solvang;
Olsen, Yngvar;
Winge, Per;
Bones, Atle M.
Erschienen:
Frontiers Media SA, 2021
Erschienen in:
Frontiers in Marine Science, 8 (2021)
Beschreibung:
<jats:p>The arthropod salmon louse (<jats:italic>Lepeophtheirus salmonis</jats:italic>) is a major threat to Atlantic salmon aquaculture and wild salmonids. Essentially like in monoculture, very high concentrations of susceptible hosts may result in high reproduction and severe production of waves of pests. Pest management is crucial both for fish health and protection of wild fish populations from aquaculture influence. Various methods have been utilized to control salmon lice infestations, such as pesticide use, physical treatments, construction modifications, fallowing, breeding, vaccination, and biological control. Most of the methods are partially successful, but none completely fulfills the necessary pest control strategy. Like in agriculture, lice/pest management is an arms race, but the marine environment makes it even more difficult to precisely hit the target pest and avoid unintended negative effects on general wildlife. In this study, we provide an overview of the methods and principles of salmon lice management and address current possibilities and limitations. We also highlight the potential of emerging strategies and enabling technologies, like genome editing, RNA interference, and machine learning, in arthropod management in aquaculture.</jats:p>