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Surface environment modification in Atlantic salmon sea-cages: effects on amoebic gill disease, salmon lice, growth and welfare

Wright, DW, Geitung, L, Karlsbakk, E, Stien, LH, Dempster, T, Oldham, TMW ORCID: 0000-0002-8994-0052, Nola, V and Oppedal, F 2018 , 'Surface environment modification in Atlantic salmon sea-cages: effects on amoebic gill disease, salmon lice, growth and welfare' , Aquaculture Environment Interactions, vol. 10 , pp. 255-265 , doi:

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Surface environment modification is a potential parasite control strategy in Atlantic salmon sea-cage farming. For instance, a temporary low salinity surface layer in commercial-scale snorkel sea-cages has coincided with reduced amoebic gill disease (AGD) levels after an outbreak. We tested if a permanent freshwater (FW) surface layer in snorkel sea-cages would lower AGD and salmon lice levels of stock relative to snorkel cages with seawater (SW) only and standard production cages with no snorkels. Triplicate cages of each type with 2000 post-smolts were monitored in autumn to winter for 8 wk and sampled 4 times. Lower proportions of individuals with elevated AGD-related gill scores were registered in SW and FW snorkel cages compared to standard cages; however, these proportions did not differ between SW and FW snorkel cages. Individuals positive for AGD-causing Paramoeba perurans were reduced by 65% in FW snorkel relative to standard cages, but values were similar between SW snorkel cages and other types. While total lice burdens were reduced by 38% in SW snorkel compared to standard cages, they were unchanged between FW snorkel and other cage types. Fish welfare and growth were unaffected by cage type. Surface activity was detected in all cages; however, more surface jumps were recorded in standard than snorkel cages. Overall, fish in FW snorkel cages appeared to reside too little in freshwater to consistently reduce AGD levels and salmon lice compared to SW snorkel cages. Further work should test behavioural and environmental manipulations aimed at increasing freshwater or low salinity surface layer use.

Item Type: Article
Authors/Creators:Wright, DW and Geitung, L and Karlsbakk, E and Stien, LH and Dempster, T and Oldham, TMW and Nola, V and Oppedal, F
Keywords: aquaculture, cage environment, Salmo salar, Lepeophtheirus salmonis, Paramoeba perurans, parasite control
Journal or Publication Title: Aquaculture Environment Interactions
Publisher: Inter-Research
ISSN: 1869-7534
DOI / ID Number:
Copyright Information:

Copyright 2018 The AuthorsLicensed under Creative Commons Attribution 4.0 International (CC BY 4.0)

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