Risk assessment of the environmental impact of Norwegian Atlantic salmon farming

Taranger, Geir Lasse; Karlsen, Ørjan; Bannister, Raymond; Glover, Kevin A.; Husa, Vivian; Karlsbakk, Egil; Kvamme, Bjørn; Boxaspen, Karin; Bjørn, Pål Arne; Finstad, Bengt; Madhun, Abdullah Sami; Morton, H. Craig; Svåsand, Terje

doi:10.1093/icesjms/fsu132

Cited by 328 publications

(291 citation statements)

References 154 publications

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“…Similar findings have been reported from Norway (Grimnes et al 2000) and Scotland (Mackenzie et al 1998, Butler 2002. In a recent study, Taranger et al (2015) undertook a risk assessment of the effects of salmon lice on wild salmonid populations along the intensively farmed Norwegian coastline and found that sea trout from the majority of sampled sites had salmon lice infections, mainly resulting from salmon farming, which indicated moderate or high mortality risk of sea trout. In an extensive review of the impacts of the salmon louse on sea trout, Thorstad et al (2015) concluded that salmon farming increases the abundance of salmon lice in the marine habitat, and there is extensive published evidence that salmon lice in intensively farmed areas have negatively impacted wild sea trout populations by in creasing marine mortality, changes in migratory be haviour, reduction of marine growth and reduced population sizes.…”

Section: Discussionsupporting

confidence: 76%

Temporal variation in sea trout Salmo trutta life history traits in the Erriff River, western Ireland

Gargan¹,

Kelly²,

Shephard³

et al. 2016

Aquacult. Environ. Interact.

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The demographic and life history characteristics of sea trout Salmo trutta L. populations can be changed by a range of pressures in both freshwater and marine environments. Few long-term monitoring programmes are in place to assess temporal change in population dynamics. We analysed a 20 yr time series (1985−2004) using 15 sea trout population response variables in the Erriff River, western Ireland. Over this period, when time was considered as a categorical variable comprising 4 sequential periods of 5 yr, important life history changes were observed. The most dramatic of these changes corresponded with the period immediately after the commencement of salmon farming in the local estuary, with significant decreases in the number and length of sea trout kelts, the estimated number of eggs deposited, the sea trout rod catch, the proportion of older (1+ and 2+ sea age) fish and the frequency of repeat spawners. We found a significant positive relationship between the number of salmon lice Lepeophtheirus salmonis in the local salmon farm and the number of lice found on sea trout collected contemporaneously in local rivers. Results of this long-term monitoring programme demonstrate that significant changes in sea trout population structure with respect to quantitative life history traits can occur over a relatively short time period and suggest that the introduction of salmon farming into the local estuary most likely contributed to the observed changes in sea trout population dynamics.

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Section: Discussionsupporting

confidence: 76%

Temporal variation in sea trout Salmo trutta life history traits in the Erriff River, western Ireland

Gargan¹,

Kelly²,

Shephard³

et al. 2016

Aquacult. Environ. Interact.

View full text Add to dashboard Cite

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“…The high level of genetic differentiation between these fish and native populations (Table 3) is likely to increase the level of genetic change resulting from introgression (Glover et al 2013). Taranger et al (2015) concludes that the risk of genetic introgression is considered high, with a frequency of escapees >10% and low risk < 4%. The results of the present study suggest that in Cyprus the risk of introgression is in general moderate, but at certain locations there is a very high risk of interbreeding due to the high number of escapees present.…”

Section: Discussionmentioning

confidence: 99%

Prevalence and survival of escaped European seabass Dicentrarchus labrax in Cyprus identified using genetic markers

Brown¹,

Miltiadou²,

Tsigenopoulos³

2015

Aquacult. Environ. Interact.

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The escape of European seabass Dicentrarchus labrax (L.) from fish farms is considered to be a widespread problem in the Mediterranean area, where this species is produced in large quantities in offshore cages. Whilst estimates of the number of escaped seabass in the wild have been made previously, the actual distribution, long-term survival and the potential effects on native populations remain largely unknown. This study characterises the genetic profiles of all contemporary and some historic aquaculture sources of European seabass in Cyprus and uses these profiles to identify escaped fish in seabass collected from the wild around the island. Significant differences in the microsatellite and mitochondrial DNA marker profiles were found between farmed and wild fish. The number of escapees identified was 15% of the total number of wild-caught fish sampled. However, escapees were not equally distributed; at one location ~70% of wild-caught fish were escapees while in other areas escapees only accounted for up to 4%. Escapees were present in all size classes of fish, but the majority were of commercial size (300−500 g) typical of seabass farmed in seacages. This indicates that they may have escaped recently and during normal aquaculture operations as no escape event was reported in the course of the study. Two large, egg-bearing females and some juvenile fish were also classified as escapees, which suggests that long-term survival and interbreeding with wild fish is possible in Cypriot waters.

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“…Global aquaculture is the fastest growing food-producing sector, with nearly half of the world's seafood supply now sourced from aquaculture (FAO 2012). A main challenge facing this industry is sustaining a continued increase in fish production while minimizing the impact on the environment (Sugiura et al 2006, 1994, Phillips et al 1991) and the rapid expansion of caged fish culture has raised a general concern about the release of solid and dissolved waste products to the environment (Troell & Norberg 1998, Perez et al 2002, Cheshuk et al 2003, Whitmarsh et al 2006, Valdemarsen et al 2012, Taranger et al 2015. Conspicuous environmental ef fects can stem from the increased organic matter loading on the seafloor, and consequential changes in benthic habitat and communities (Strain & Hargrave 2005, Kutti et al 2007).…”

Section: Introductionmentioning

confidence: 99%

Temporal variations in suspended particulate waste concentrations at open-water fish farms in Canada and Norway

Brager¹,

Cranford²,

Jansen³

et al. 2016

Aquacult. Environ. Interact.

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Risk assessment of the environmental impact of Norwegian Atlantic salmon farming

Cited by 328 publications

References 154 publications

Temporal variation in sea trout Salmo trutta life history traits in the Erriff River, western Ireland

Temporal variation in sea trout Salmo trutta life history traits in the Erriff River, western Ireland

Prevalence and survival of escaped European seabass Dicentrarchus labrax in Cyprus identified using genetic markers

Temporal variations in suspended particulate waste concentrations at open-water fish farms in Canada and Norway

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