Abstract
AbstractEfficient sea‐lice control remains one of the most important challenges for the salmon farming industry. The use of wrasse (Labridae) as cleaner fish offers an alternative to medicines for sea‐lice control, but wrasse tend to become inactive in winter. Lumpfish (Cyclopterus lumpus) continue to feed on sea‐lice at low temperatures, and commercial production has escalated from thousands of fish in 2010 to well over 30 million juveniles deployed in 2016. However, production still relies on the capture of wild broodstock, which may not be sustainable. To meet global industry needs, lumpfish production needs to increase to reach c. 50 million fish annually and this can only come from aquaculture. We review current production methods and the use of lumpfish in sea cages and identify some of the main challenges and bottlenecks facing lumpfish intensification. Our gap analysis indicates that the areas in most need of research include better control of maturation for year‐round production; formulation of appropriate diets; artificial selection of elite lines with desirable traits; and development of vaccines for certified, disease‐free juvenile production. The welfare of farmed lumpfish also needs to be better quantified, and more information is needed on optimal densities and tank design. Finally, the risk of farmed lumpfish escaping from net pens needs to be critically assessed, and we argue that it might be beneficial to recover cleaner fish from salmon cages after the production cycle, perhaps using them as broodstock, for export to the Asian food markets or for the production of animal feeds.
Highlights
Lumpfish, a ‘green’ alternative for sea-lice controlGlobal production of Atlantic salmon, Salmo salar, reached 2.07 million tons in 2014 (worth over 9 billion Euros (Marine Harvest 2015), but losses due to sea-lice are limiting industry growth and compromising its sustainability (McVicar 2004; Costello 2009; Jones et al 2015)
Costs are set to increase as there is no effective vaccine against sea-lice, only a small number of antiparasitic therapeutants are currently licensed for treatment, and these are losing their efficacy due to evolved parasite resistance (Lees et al 2008; Jones et al 2013)
Our aim here is to summarize current knowledge on the artificial production of lumpfish for sea-lice control and address the challenges faced by lumpfish intensification, one that should not impact on wild stocks, or pose a disease risk to farmed salmon
Summary
A ‘green’ alternative for sea-lice controlGlobal production of Atlantic salmon, Salmo salar, reached 2.07 million tons in 2014 (worth over 9 billion Euros (Marine Harvest 2015), but losses due to sea-lice are limiting industry growth and compromising its sustainability (McVicar 2004; Costello 2009; Jones et al 2015). Our aim here is to summarize current knowledge on the artificial production of lumpfish for sea-lice control and address the challenges faced by lumpfish intensification, one that should not impact on wild stocks, or pose a disease risk to farmed salmon.
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