Your search keyword '"Fosseidengen JE"' showing total 10 results

1. Towards cod without spawning: artificial continuous light in submerged sea-cages maintains growth and delays sexual maturation for farmed Atlantic cod Gadus morhua

Author

Korsøen, ØJ, primary, Dempster, T, additional, Fosseidengen, JE, additional, Karlsen, Ø, additional, Oppedal, F, additional, Stien, LH, additional, and Kristiansen, TS, additional

Published

2013

2. Consistent melanophore spot patterns allow long-term individual recognition of Atlantic salmon Salmo salar.

Author

Stien LH, Nilsson J, Bui S, Fosseidengen JE, Kristiansen TS, Øverli Ø, and Folkedal O

Subjects

Animals, Image Processing, Computer-Assisted, Life Cycle Stages, Salmo salar classification, Melanophores, Salmo salar anatomy & histology

Abstract

The present study shows that permanent melanophore spot patterns in Atlantic salmon Salmo salar make it possible to use images of the operculum to keep track of individual fish over extended periods of their life history. Post-smolt S. salar (n = 246) were initially photographed at an average mass of 98 g and again 10 months later after rearing in a sea cage, at an average mass of 3088 g. Spots that were present initially remained and were the most overt (largest) 10 months later, while new and less overt spots had developed. Visual recognition of spot size and position showed that fish with at least four initial spots were relatively easy to identify, while identifying fish with less than four spots could be challenging. An automatic image analysis method was developed and shows potential for fast match processing of large numbers of fish. The current findings promote visual recognition of opercular spots as a welfare-friendly alternative to tagging in experiments involving salmonid fishes., (© The Authors. Journal of Fish Biology published by John Wiley & Sons Ltd on behalf of The Fisheries Society of the British Isles.)

Published

2017

3. 'Snorkel' lice barrier technology reduced two co- occurring parasites, the salmon louse (Lepeophtheirus salmonis) and the amoebic gill disease causing agent (Neoparamoeba perurans), in commercial salmon sea-cages.

Author

Wright DW, Stien LH, Dempster T, Vågseth T, Nola V, Fosseidengen JE, and Oppedal F

Subjects

Animals, Ectoparasitic Infestations veterinary, Fisheries, Gills parasitology, Host-Parasite Interactions, Lice Infestations prevention & control, Norway, Pest Control methods, Pilot Projects, Salmon, Seasons, Aquaculture methods, Copepoda physiology, Fish Diseases parasitology, Fish Diseases prevention & control, Lice Infestations veterinary, Salmo salar parasitology

Abstract

Diverse chemical-free parasite controls are gaining status in Atlantic salmon sea-cage farming. Yet, the intricacies of their use at commercial scale, including effects on co-occurring parasites, are seldom reported. A new salmon lice prevention method involves installing a deep net roof and 'snorkel' lice barrier in cages to shelter salmon from free-living infective larvae which concentrate at shallow depths, and allows salmon to jump and re- inflate their buoyancy-regulating swim bladder by swallowing air. We document use of snorkel cages (10m deep barrier) in commercial farms, where their effects on salmon lice levels, amoebic gill disease (AGD)-related gill scores, the cage environment, fish welfare and farm management practices were compared to standard cages. During an autumn-winter study involving only snorkel cages, high AGD-related gill scores were observed to decline when freshwater was pumped into snorkels, creating a freshwater surface layer for salmon to enter for self-treatment. In a spring-summer study incorporating snorkel and standard cages, snorkel cages were found to reduce new lice infestations by 84%. The deployment of snorkels and intermittent oxygen depletion detected within them in the spring-summer study did not alter fish welfare parameters. Overall, the results suggest snorkel technology has a place in the toolkit of commercial salmon sea-cage farmers co-managing salmon lice and amoebic gill disease outbreaks - two principal parasite issues facing the industry., (Copyright © 2017 Elsevier B.V. All rights reserved.)

Published

2017

4. The interaction between water currents and salmon swimming behaviour in sea cages.

Author

Johansson D, Laursen F, Fernö A, Fosseidengen JE, Klebert P, Stien LH, Vågseth T, and Oppedal F

Subjects

Animals, Behavior, Animal, Environmental Monitoring, Fisheries, Oceans and Seas, Salmon physiology, Swimming, Water Movements

Abstract

Positioning of sea cages at sites with high water current velocities expose the fish to a largely unknown environmental challenge. In this study we observed the swimming behaviour of Atlantic salmon (Salmo salar L.) at a commercial farm with tidal currents altering between low, moderate and high velocities. At high current velocities the salmon switched from the traditional circular polarized group structure, seen at low and moderate current velocities, to a group structure where all fish kept stations at fixed positions swimming against the current. This type of group behaviour has not been described in sea cages previously. The structural changes could be explained by a preferred swimming speed of salmon spatially restricted in a cage in combination with a behavioural plasticity of the fish.

Published

2014

5. Innovative behaviour in fish: Atlantic cod can learn to use an external tag to manipulate a self-feeder.

Author

Millot S, Nilsson J, Fosseidengen JE, Bégout ML, Fernö A, Braithwaite VA, and Kristiansen TS

Subjects

Animals, Feeding Behavior psychology, Female, Learning, Male, Tool Use Behavior, Gadus morhua physiology

Abstract

This study describes how three individual fish, Atlantic cod (Gadus morhua L.), developed a novel behaviour and learnt to use a dorsally attached external tag to activate a self-feeder. This behaviour was repeated up to several hundred times, and over time these fish fine-tuned the behaviour and made a series of goal-directed coordinated movements needed to attach the feeder's pull string to the tag and stretch the string until the feeder was activated. These observations demonstrate a capacity in cod to develop a novel behaviour utilizing an attached tag as a tool to achieve a goal. This may be seen as one of the very few observed examples of innovation and tool use in fish.

Published

2014

6. Food anticipatory behaviour as an indicator of stress response and recovery in Atlantic salmon post-smolt after exposure to acute temperature fluctuation.

Author

Folkedal O, Stien LH, Torgersen T, Oppedal F, Olsen RE, Fosseidengen JE, Braithwaite VA, and Kristiansen TS

Subjects

Animals, Conditioning, Classical physiology, Hydrocortisone metabolism, Light, Oxygen Consumption, Time Factors, Video Recording, Feeding Behavior physiology, Motivation physiology, Salmo salar physiology, Stress, Physiological physiology, Temperature

Abstract

In this study we evaluated Pavlovian conditioned food anticipatory behaviour as a potential indicator for stress in groups of Atlantic salmon, and compared this with the physiological stress responses of cortisol excretion into water and hyper-consumption of oxygen. We hypothesised that environmental stress would result in reduced feeding motivation. To assess this, we measured the strength of anticipatory behaviour during a period of flashing light that signalled arrival of food. Further, we expected that fish given a reduced food ration would be less sensitive to environmental stress than fish fed full ration. The fish responded to an acute temperature fluctuation with hyper-consumption of oxygen that decreased in line with the temperature, and elevated cortisol excretion up to 1h after the stressor. These physiological responses did not differ significantly between the food ration groups. The anticipatory behaviour was significantly reduced after the stressor and returned to control levels after 1 to 2 h in the reduced ration group, but not until after 3 to 4 h in the full ration group. Our results show that acute stress can be measured in terms of changes to feeding motivation, and that it is a more sensitive indicator of stress that influences the fish over a longer time period than measures of change in cortisol excretion., (Copyright © 2011 Elsevier Inc. All rights reserved.)

Published

2012

7. Technical note: Modifying Atlantic salmon (Salmo salar) jumping behavior to facilitate innovation of parasitic sea lice control techniques.

Author

Dempster T, Kristiansen TS, Korsøen ØJ, Fosseidengen JE, and Oppedal F

Subjects

Animals, Antiparasitic Agents administration & dosage, Antiparasitic Agents therapeutic use, Aquaculture, Behavior, Animal, Chrysanthemum cinerariifolium, Ectoparasitic Infestations therapy, Oils, Salmo salar, Animal Husbandry methods, Copepoda physiology, Ectoparasitic Infestations veterinary, Fish Diseases therapy, Motor Activity

Abstract

Industrial salmon farms are reservoirs of parasitic sea lice (Lepeophtheirus salmonis and Caligus spp.), which causes both production inefficiencies and contributes to population-level declines of wild salmon and trout. Current control methods vary in effect and stimulate controversy by the discharge of chemicals into the environment. An alternate control method uses a thin, chemical-infused oil layer on the sea surface. As farmed salmon jump through the surface, the treatment makes contact with the lipophilic carapace of sea lice and kills them. To enhance the effectiveness of this method, we tested whether the natural jumping behavior of salmon could be increased and directed. In a 2,000-m(3) experimental sea-cage, we removed the ability of groups of salmon to access the surface for different periods (0 to 48 h) and measured their surface behaviors after the surface became accessible again. Surface removal for 24 and 48 h induced 93% of salmon to jump in the 2 h after surface access was reinstated, a result that differed (P < 0.001) from the shorter duration (0 to 12 h) treatments. Salmon without surface access for 24 and 48 h jumped 2 to 3 times more often (P < 0.001), and made their first jump 2 to 3 times sooner (P = 0.003) on average after surface access became available than salmon in the shorter duration treatments. Our results indicate that removal of surface access for short periods may lead to loss of air from the physostomous swim bladder and cause negative buoyancy. This creates a behavioral drive for salmon to jump, swallow air and fill their swim bladders once surface access is reinstated. By combining the increased jumping behavior induced by this technique with a floating, oil-infused treatment, efficiency of sea lice treatments may be improved and treatment chemicals can be re-collected, thus decreasing environmental pollution.

Published

2011

8. Learning and anticipatory behaviour in a "sit-and-wait" predator: the Atlantic halibut.

Author

Nilsson J, Kristiansen TS, Fosseidengen JE, Stien LH, Fernö A, and van den Bos R

Subjects

Animals, Flounder, Food, Photic Stimulation, Predatory Behavior, Probability, Psychomotor Performance, Time Factors, Conditioning, Classical, Learning, Motor Activity

Abstract

We studied the learning capacities and anticipatory behaviour in a "sit-and-wait" predatory fish, the Atlantic halibut, Hippoglossus hippoglossus. In Experiment 1 two groups of halibut received series of light flashes (conditioned stimulus, CS) that started before delivery of food (unconditioned stimulus, US) and persisted until after food delivery, i.e. delay conditioning. Control groups received unpaired CS and US presentations. The anticipatory behaviour of delay conditioned halibut consisted mainly of take-offs towards the surface shortly after onset of the CS. In Experiment 2 six groups of halibut were trained in three trace conditioning procedures: Two groups with 20s, two groups with 60s and two groups with 120s trace interval. Learning was evident in the 20 and 60s trace groups and in one of the 120s trace groups. In contrast to delay conditioning the anticipatory behaviour of trace conditioned halibut was characterized by subtle movements near the tank floor with orientation towards the CS. The cautious responses of halibut after trace conditioning differed markedly from what is observed in other fish species and are suggested to reflect a "sit-and-wait" foraging strategy that requires the predator to remain undetected until the prey is within lunging range., (Copyright (c) 2009 Elsevier B.V. All rights reserved.)

Published

2010

9. Sign- and goal-tracking in Atlantic cod (Gadus morhua).

Author

Nilsson J, Kristiansen TS, Fosseidengen JE, Fernö A, and van den Bos R

Subjects

Animals, Cues, Feeding Behavior, Gadus morhua, Goals, Social Environment, Time Factors, Association Learning, Choice Behavior, Conditioning, Classical, Reward

Abstract

When animals associate a stimulus with food, they may either direct their response towards the stimulus (sign-tracking) or towards the food (goal-tracking). The direction of the conditioned response of cod was investigated to elucidate how cod read cue signals. Groups of cod were conditioned to associate a blinking light (conditioned stimulus, CS) with a food reward (unconditioned stimulus, US), with the CS and the US located at opposite sides of the tank. Two groups were trained in a delay conditioning procedure (CS = 60 s, interstimulus interval = 30 s) and two groups were trained in a trace conditioning procedure (CS = 12 s, trace interval = 20 s). The response pattern was similar for the delay- and trace-conditioned groups. The initial main response at the onset of the CS was approaching the blinking lights, i.e. sign-tracking. In the early trials, the fish did not gather in the feeding area before the arrival of food. In the later trials, the fish first approached the blinking lights, but then moved across the tank and gathered below the feeder before the food arrived, i.e. sign-tracking followed by goal-tracking within each trial. These two responses are interpreted as reflecting two learning systems, i.e. one rapid, reflexive response directed at the signal (sign-tracking) and one slower, more flexible response based on expectations about time and place for arrival of the food (goal-tracking). The ecological significance of these two learning systems in cod is discussed.

Published

2008

10. Learning in cod (Gadus morhua): long trace interval retention.

Author

Nilsson J, Kristiansen TS, Fosseidengen JE, Fernö A, and van den Bos R

Subjects

Animals, Appetitive Behavior physiology, Time Factors, Association Learning physiology, Conditioning, Classical physiology, Gadus morhua physiology, Retention, Psychology physiology, Time Perception physiology

Abstract

Basic knowledge about learning capacities and awareness in fish is lacking. In this study we investigated which temporal gaps Atlantic cod could tolerate between two associated events, using an appetitive trace-conditioning paradigm with blinking light as conditioned stimulus (CS) and dry fish food as unconditioned stimulus (US). CS-US presentations were either temporally overlapping (delay conditioning, CS duration 24 s, interstimulus interval 12 s) or separated by 20, 60, or 120 s (trace conditioning, CS duration 12 s) or 2 h (control, CS duration 12 s). The percentage of fish in the feeding area increased strongly during CS presentation in all delay, 20 s, and 60 s trace groups and in one out of two 120 s trace groups, but not in the control groups. In the 20 and 60 s trace procedures, the fish crowded together in the small feeding area during the trace interval, showing strong anticipatory behaviour. In all the conditioned groups, the fish responded to the CS within eight trials, demonstrating rapid learning. At 88 and 70 days after the end of the conditioning experiments, the delay and 20 s trace groups, respectively, were presented the CS six times at 2-h intervals without reward. All groups responded to the light signal, demonstrating memory retention after at least 3 months. This study demonstrates that Atlantic cod has an impressively good ability to associate two time-separated events and long time retention of learnt associations.

Published

2008