PLoS ONE (Jan 2018)

Evaluation of a national operational salmon lice monitoring system-From physics to fish.

  • Mari Skuggedal Myksvoll,
  • Anne Dagrun Sandvik,
  • Jon Albretsen,
  • Lars Asplin,
  • Ingrid Askeland Johnsen,
  • Ørjan Karlsen,
  • Nils Melsom Kristensen,
  • Arne Melsom,
  • Jofrid Skardhamar,
  • Bjørn Ådlandsvik

DOI
https://doi.org/10.1371/journal.pone.0201338
Journal volume & issue
Vol. 13, no. 7
p. e0201338

Abstract

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The Norwegian government has decided that the aquaculture industry shall grow, provided that the growth is environmentally sustainable. Sustainability is scored based on the mortality of wild salmonids caused by the parasitic salmon lice. Salmon lice infestation pressure has traditionally been monitored through catching wild sea trout and Arctic char using nets or traps or by trawling after Atlantic salmon postsmolts. However, due to that the Norwegian mainland coastline is nearly 25 000 km, complementary methods that may be used in order to give complete results are needed. We have therefore developed an operational salmon lice model, which calculates the infestation pressure all along the coast in near real-time based on a hydrodynamical ocean model and a salmon lice particle tracking model. The hydrodynamic model generally shows a negative temperature bias and a positive salinity bias compared to observations. The modeled salmon lice dispersion correlates with measured lice on wild salmonids caught using traps or nets. This allows for using two complementary data sources in order to determine the infestation pressure of lice originating from fish farms on wild salmonids, and thereby provide an improved monitoring system for assessing risk and sustainability which forms the basis for knowledge-based advice to management authorities.