Salmon louse infestation levels on sea trout can be predicted from a hydrodynamic lice dispersal model

Bøhn, Thomas; Nilsen, Rune; Gjelland, Karl Øystein; Biuw, Martin; Sandvik, Anne Dagrun; Primicerio, Raul; Karlsen, Ørjan; Serra‐Llinares, Rosa Maria

doi:10.1111/1365-2664.14085

Cited by 16 publications

(8 citation statements)

References 65 publications

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“…Salmon lice from aquaculture can considerably increase mortality and reduce growth both in Atlantic salmon and sea trout in farm‐intensive areas (Johnsen et al, 2020; Skaala et al, 2014; Vollset et al, 2016). Sea trout are likely to be more seriously affected by salmon lice than Atlantic salmon because most sea trout remain feeding and growing in coastal waters, where salmon farms are situated, during their entire marine migration (Bøhn et al, 2021; Fjørtoft et al, 2014). Atlantic salmon, in contrast, migrate through coastal areas on the way to ocean feeding grounds or during return to their native rivers and are hence exposed to salmon lice over shorter time periods than sea trout.…”

Section: Discussionmentioning

confidence: 99%

“…An alternative multinominal logistic regression with mortality classes as factors produced similar results (significant effects of lice index and salinity) and an overall correct classification at 62%. The approach taken is supported by studies showing significant relationships between predicted salmon lice infestation intensity from models and the observed infestation of sea trout sampled in the monitoring programme (Bøhn et al, 2021; Myksvoll et al, 2018).…”

Section: Methodsmentioning

confidence: 99%

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Novel large‐scale mapping highlights poor state of sea trout populations

Fiske,

Forseth,

Thorstad

et al. 2024

Aquatic Conservation

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The state of sea trout in 1251 Norwegian watercourses was assessed based on a scoring system for human pressures, abundance data, and local knowledge. Over 16,000 km of rivers and lakes were available to sea trout in these watercourses, spanning from the temperate to Arctic regions. Sea trout were classified to be in a good or very good state in fewer than 25% of the watercourses and in a poor or very poor state in almost 40%. Twenty‐nine watercourses had lost their sea trout populations. Salmon lice from aquaculture salmon farms had by far the largest adverse effect on sea trout among the human impact factors, both in the number of watercourses (83%) and river area affected (60%), and the total effect on sea trout abundance. Agriculture and hydropower production also had strong adverse impacts (35% and 19% of watercourses), but substantially lower than that caused by salmon lice. Culverts related to road crossings and other habitat alterations also had impacts on sea trout in many watercourses (27%). Exploitation of sea trout has been reduced in Norway in recent years, both in the marine and freshwater fisheries. Yet, the exploitation pressure was moderate or high in almost 14% of the watercourses where the state of sea trout was poor or very poor, suggesting a high potential for overexploitation in these. The state of sea trout was best in the northern sparsely populated areas. However, distribution of watercourses with sea trout in a poor or very poor state was more linked to aquaculture, agriculture, and hydropower production than human population density. The developed approach for large‐scale mapping of state and pressures, which is vital for prioritizing management measures, may inspire other nations in their conservation effort for this important species.

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Section: Discussionmentioning

confidence: 99%

Section: Methodsmentioning

confidence: 99%

Novel large‐scale mapping highlights poor state of sea trout populations

Fiske,

Forseth,

Thorstad

et al. 2024

Aquatic Conservation

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“…Anadromy comprises a successful life-cycle adaptation for salmonids migrating between adjacent low-risk, nutrient-poor habitats (streams, rivers and lakes) and high-risk, nutrient-rich habitats (marine waters) [ 4 , 5 ]. Natural selection for, or against expression of anadromy has occurred since the last ice-age, for some 10,000 years [ 6 ], yet in relative terms, recent human activities have altered the planet’s environment to an extent worth coining a new geological epoch: the Anthropocene [ 7 ]. Anadromous salmonids are greatly impacted by these anthropogenic environmental changes, due to their dependence on several different habitats and connectivity between them [ 8 ].…”

Section: Introductionmentioning

confidence: 99%

“…Overfishing, habitat degradation (e.g., hydropower development, riverbed regulations), climate change and water pollution are listed amongst the main disturbances affecting brown trout populations [ 21 ]. Increasing salmonid aquaculture activity has compounded densities of the parasitic salmon-lice ( Lepeophtheirus salmonis ) in many fjords [ 6 , 44 , 45 ], with anadromous brown trout prone to infection by this parasite since they mainly utilise marine areas in close vicinity to aquaculture facilities and during periods of high salmon-lice densities [ 44 ]. Therefore, anadromous brown trout experience increased marine mortality and reduced individual growth in fjords with extensive salmon farming activity [ 46 – 48 ].…”

Section: Introductionmentioning

confidence: 99%

Balancing risks and rewards of alternate strategies in the seaward extent, duration and timing of fjord use in contemporary anadromy of brown trout (Salmo trutta)

Hawley,

Urke,

Kristensen

et al. 2024

BMC Ecol Evo

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Background Anadromy comprises a successful life-cycle adaptation for salmonids, with marine migration providing improved feeding opportunities and thus improved growth. These rewards are balanced against costs from increased energy expenditure and mortality risk. Anthropogenic-induced environmental changes that reduce benefits and/or increase costs of migration e.g., aquaculture and hydropower, may therefore result in adaptations disfavouring anadromy. We tagged brown trout (Salmo trutta) smolts (N = 175) and veteran migrants (N = 342), from five adjacent riverine populations located in Sognefjorden, the longest Norwegian fjord-system supporting anadromous brown trout populations (209 km). Over four years, 138 acoustic telemetry receivers were deployed to track migrations of tagged individuals from freshwater and throughout Sognefjorden. Detected movements were used to fit migration models and multi-state mark-recapture models of survival and movement for each life-stage. Seaward migration distance was modelled to examine the fitness consequences from alternate migration strategies, with these models used to simulate the extent of fjord-use by individuals and accompanying growth, fecundity and survival consequences. We compared these findings with mark-recapture data collected prior to aquaculture and hydropower development. Results The telemetry data revealed that the outermost-fjord region was utilised by all populations albeit by few individuals. However, historical recaptures were located at a greater distance from the river mouth (87.7 ± 70.3 km), when compared to maximum migration distances of present-day counterparts (58.6 ± 54.9 km). River of origin influenced observed migratory behaviour and differential survival was estimated for each population and life-stage. The simulations based on telemetry-data models revealed a 30% and 23% difference in survival among populations for smolts and veteran migrants, respectively. At the individual-level, a long-distance migration strategy was rewarded with enhanced fecundity. However, the main contribution to population-level fecundity was overwhelmingly derived from middle-distance migrants, due to higher mortality rates and limited numbers of long-distant migrants. Conclusions We conclude that present-day anadromy is precarious, but potential risk varies considerably between life-stages and populations, even within a single fjord system. Our findings suggest that selection for extended migration is under pressure, we therefore stress the importance of monitoring and management actions to secure genetic variation pertinent to preserve fitness gains of anadromy.

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“…Atlantic salmon (Salmo salar) infested with lice incur damage to the skin, which may lead to pathological responses in the host when numbers are unnaturally high, ultimately resulting in death if untreated [3][4][5]. The presence of fish farming has repeatedly been linked to epidemic outbreaks of salmon lice on wild salmonids [6,7]. Consequently, salmon lice parasitism of wild Atlantic salmon, sea trout (Salmo trutta), and sea-run Arctic char (Salvelinus alpinus) post-smolts is one of the major environmental concerns for wild salmonids in countries with intensive salmon farming [8][9][10].…”

Section: Introductionmentioning

confidence: 99%

Direct evidence of increased natural mortality of a wild fish caused by parasite spillback from domestic conspecifics

et al. 2023

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Parasite spillback from domestic animals can distort the balance between host and parasites in surrounding wildlife, with potential detrimental effects on wild populations. In aquatic environments, parasite spillback from aquaculture to wild salmon is one of the most contentious sustainability debates. In a 19 year time series of release group studies of Atlantic salmon, we demonstrated that (i) the effect of subjecting out-migrating salmon smolts to parasite treatment on marine survival has been reduced over a time, (ii) the relation between salmon lice levels in the out-migration route of the salmon and effect of treatment against the parasite is weak, but also (iii) the return rates in both treated and untreated groups of salmon are negatively correlated with salmon lice levels, and (iv) returns of wild salmon to the region are similarly negatively correlated with salmon lice levels during the out-migration year. Our study suggests that salmon lice can have a large effect on wild salmon populations that is not revealed with randomized control trials using antiparasitic drugs. This should be better accounted for when considering the impacts of farms on wild salmon populations.

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Salmon louse infestation levels on sea trout can be predicted from a hydrodynamic lice dispersal model

Cited by 16 publications

References 65 publications

Novel large‐scale mapping highlights poor state of sea trout populations

Novel large‐scale mapping highlights poor state of sea trout populations

Balancing risks and rewards of alternate strategies in the seaward extent, duration and timing of fjord use in contemporary anadromy of brown trout (Salmo trutta)

Direct evidence of increased natural mortality of a wild fish caused by parasite spillback from domestic conspecifics

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