Modelling sea lice control by lumpfish on Atlantic salmon farms: interactions with mate limitation, temperature and treatment rules

McEwan, Gregor; Groner, Maya L.; Cohen, Allegra A. B.; Imsland, Albert K.; Revie, Crawford W.

doi:10.3354/dao03329

Cited by 8 publications

(4 citation statements)

References 39 publications

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“…Another possible way of increasing the understanding of underlying causes of variation in the efficacy of lumpfish is to use biological modeling techniques to explore the interactive effect of lumpfish grazing and mate limitation on sea louse population dynamics under different environmental scenarios. McEwan et al [42] used an agent-based model (ABM) to simulate cleaner fish on a salmon farm to explore interactions between sea louse mating behavior, cleaner fish feeding rate, temperature, and external sea louse pressure. They found that sea louse mating has a substantial effect on sea louse infestations under a variety of environmental conditions.…”

Section: Small-scale Studiesmentioning

confidence: 99%

In lumpfish We Trust? The Efficacy of Lumpfish Cyclopterus lumpus to Control Lepeophtheirus salmonis Infestations on Farmed Atlantic Salmon: A Review

Imsland

Reynolds²

2022

Fishes

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In this review, we have systematized current knowledge about the effect of stocking lumpfish (Cyclopterus lumpus) as cleaner fish to control Lepeophtheirus salmonis infestations on farmed Atlantic salmon (Salmo salar L.). The review was prompted by recent reports in which the usefulness of lumpfish has been doubted, and the urgent need to investigate whether common lumpfish can be used to reduce L. salmonis numbers on farmed Atlantic salmon by active grazing on this species. Available published data clearly indicate that lumpfish graze on L. salmonis, and can significantly lower the lice burden in Atlantic salmon farming. It is possible to enhance the lice grazing behavior of lumpfish with the assistance of live feed conditioning prior to sea pen transfer, and with selective breeding. Data indicate that lice grazing of lumpfish is size dependent, and grazing effect is low for lumpfish larger than 200–250 g. Observations from large-scale rearing of Atlantic salmon in open sea cages in Norway, Iceland, the Faroe Islands, and Scotland also indicate that lumpfish can be effective in lowering infestations of L. salmonis on salmon. Overall, this present review reveals that lumpfish can actively contribute to lower numbers of L. salmonis on farmed Atlantic salmon.

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Section: Small-scale Studiesmentioning

confidence: 99%

In lumpfish We Trust? The Efficacy of Lumpfish Cyclopterus lumpus to Control Lepeophtheirus salmonis Infestations on Farmed Atlantic Salmon: A Review

Imsland

Reynolds²

2022

Fishes

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“…Temperature increases predator attack rate and reduce prey vulnerability (Pepi et al, 2018). Fluctuation in temperature severely affects reproductive behavior in animals due to mate limitation (McEwan et al, 2019). Thermal extremes effect growth in animals (Nishizaki & Carrington, 2015) and reduce offspring fitness in a cold-climate mainly in viviparous lizards (Cunningham et al, 2018).…”

Section: Behavioral Biomarkersmentioning

confidence: 99%

Markers for Global Climate Change and Its Impact on Social, Biological and Ecological Systems: A Review

Upadhyay¹

2020

AJCC

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Present article sketches out major climate induced changes in marine, aquatic and terrestrial life. Few important biomarkers such as ecological, meteorological, socioeconomic, thermal, biophysical and biological, behavioral markers of climate change and global environmental stress have been highlighted to predict the future challenges and finding appropriate solutions. Though, so many climate change induced effects are visible but few unpredictable effects may be seen in future. Therefore, all such effects have been acknowledged, and tried to find appropriate solutions. Most visible effect is collection of high amounts of carbon dioxide in the atmosphere which is responsible for green house effect and causing natural calamities round the globe. It is not only jeopardized the survival of terrestrial, fresh water animals mainly planktons, bottom dwellers; coral reefs, algae, fish fauna in marine environment belong to different taxon but also responsible for disruption of ocean's food web due to non-assimilation of extra carbon dioxide by the ocean water. There is a sharp decline in fresh water and sea shore micro-flora and micro-fauna. Other major visible effects are loss of biodiversity, depletion of forests, land degradation, severe floods and draughts. On other hand sudden changes in weather conditions causing irreparable devastations due to hurricanes and typhoons, storms, lightening, earthquakes and tsunamis are normally on rise. Both economic and ecological breakdowns are occurring more frequently which are more impactful and persistent. Climate change is major human health stressor; it is making fragmentation of socio-cultural bonds and reducing fertility of soil finally crop production. Climate change is imposing nonadaptive forced human migration, territorial conflicts, decreasing ecosystem productivity, disease out breaks, and impelling unequal resource utilization.

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“…To manage sea louse infestation on salmon farms, farm operators use a variety of methods (Overton et al 2019), including, among others, parasiticides to kill the parasites, fallow periods between production cycles where farms are emptied of fish to interrupt the parasite's life cycle, mechanical delousing to remove sea lice from salmon, and cleaner fish that feed on sea lice attached on salmon. In many instances, neighboring salmon farms adopt integrated pest management (IPM) to limit the exchange of sea lice among farms (Brooks 2009) and reduce external infestation pressure (McEwan et al 2019). The success and maintenance of these interventions are contingent on an accurate and precise surveillance system.…”

Section: Introductionmentioning

confidence: 99%

“…In many instances, neighboring salmon farms adopt integrated pest management (IPM) to limit the exchange of sea lice among farms (Brooks 2009) and reduce external infestation pressure (McEwan et al. 2019). The success and maintenance of these interventions are contingent on an accurate and precise surveillance system.…”

Section: Introductionmentioning

confidence: 99%

Web‐based application to guide sampling on salmon farms for more precise estimation of sea louse abundance

Jeong,

Revie

2024

N American J Aquac

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ObjectiveEfficiently managing sea lice on salmon farms through active surveillance, crucial for lice abundance estimation, is challenging due to the need for effective sampling schemes. To address this, we developed an application that considers infestation levels, farm structure, and management protocols, enhancing the precision of sampling strategies for sea louse abundance estimation.MethodsSimulation‐based methods are valuable for estimating suitable sample sizes in complex studies where standard formulae are inadequate. We introduce FishSampling, an open Web‐based application tailored to determine precise sample sizes for specific scenarios and objectives.ResultThe model incorporates factors such as sea lice abundance, farm pen numbers, potential clustering effects among these pens, and the desired confidence level. Simulation outcomes within this application provide practical advice on how to decide on the number of fish and pens to sample, under varying levels of assumed clustering.ConclusionThis approach can be used across the salmon aquaculture sector to improve sampling strategies for sea lice abundance estimation and balance surveillance costs against health objectives.

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Modelling sea lice control by lumpfish on Atlantic salmon farms: interactions with mate limitation, temperature and treatment rules

Cited by 8 publications

References 39 publications

In lumpfish We Trust? The Efficacy of Lumpfish Cyclopterus lumpus to Control Lepeophtheirus salmonis Infestations on Farmed Atlantic Salmon: A Review

In lumpfish We Trust? The Efficacy of Lumpfish Cyclopterus lumpus to Control Lepeophtheirus salmonis Infestations on Farmed Atlantic Salmon: A Review

Markers for Global Climate Change and Its Impact on Social, Biological and Ecological Systems: A Review

Web‐based application to guide sampling on salmon farms for more precise estimation of sea louse abundance

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