Your search keyword '"Anne Berit Skiftesvik"' showing total 92 results

1. Atlantic cod (Gadus morhua) larvae are attracted by low-frequency noise simulating that of operating offshore wind farms

Author

Alessandro Cresci, Guosong Zhang, Caroline M. F. Durif, Torkel Larsen, Steven Shema, Anne Berit Skiftesvik, and Howard I. Browman

Subjects

Biology (General), QH301-705.5

Abstract

Abstract The number and size of offshore wind (OW) turbines is increasing rapidly. OW turbines produce continuous, low-frequency noise that could impact marine fish dispersing/migrating through the facilities. Any such impact would be relevant for larval stages, which have limited possibility to swim away from OW facilities. If directional movement of fish larvae at sea is impacted by low-frequency continuous sound is unknown. We observe the behavior of Atlantic cod larvae (N = 89) in response to low-frequency sound while they are drifting in a Norwegian fjord inside transparent drifting chambers. We transmit 100 Hz continuous sound in the fjord, in the intensity range of OW turbines’ operational noise, and measure the sound pressure and 3-D particle motion. Half of the larvae (N = 45) are exposed to low-frequency (100 Hz) continuous sound, while the other half (N = 44) are observed under the same conditions but without the sound. Exposure does not affect the routine and maximum swimming speeds or the turning behavior of the larvae. Control larvae orient to the northwest. In contrast, exposed larvae orient towards the source of low-frequency sound and particle motion. This provides a basis to assess how OW might impact dispersal in this species.

Published

2023

2. Magnetic fields generated by submarine power cables have a negligible effect on the swimming behavior of Atlantic lumpfish (Cyclopterus lumpus) juveniles

Author

Caroline M. F. Durif, Daniel Nyqvist, Bastien Taormina, Steven D. Shema, Anne Berit Skiftesvik, Florian Freytet, and Howard I. Browman

Subjects

Anthropogenic MF, Lumpsucker, Swimming speed, Subsea cables, HVDC, Medicine, Biology (General), QH301-705.5

Abstract

Submarine power cables carry electricity over long distances. Their geographic distribution, number, and areal coverage are increasing rapidly with the development of, for example, offshore wind facilities. The flow of current passing through these cables creates a magnetic field (MF) that can potentially affect marine organisms, particularly those that are magnetosensitive. The lumpfish (Cyclopterus lumpus) is a migratory species that is widely distributed in the North Atlantic Ocean and Barents Sea. It migrates between coastal spawning grounds and pelagic offshore feeding areas. We tested whether lumpfish respond to MFs of the same intensity as those emitted by high voltage direct current (HVDC) submarine power cables. Laboratory experiments were conducted by placing juvenile lumpfish in an artificial MF gradient generated by a Helmholtz coil system. The intensity of the artificial MF used (230 µT) corresponded to the field at 1 m from a high-power submarine cable. The fish were filmed for 30 min with the coil either on or off. Swimming speeds, and presence in the different parts of a raceway, were extracted from the videos and analyzed. Juvenile lumpfish activity, defined as the time that the fish spent swimming relative to stationary pauses (attached to the substrate), and the distance travelled, were unaffected by exposure to the artificial MF. The swimming speed of juvenile lumpfish was reduced (by 16%) when the coil was on indicating that the fish could either sense the MF or the induced electric field created by the movement of the fish through the magnetic field. However, it seems unlikely that a 16% decrease in swimming speed occurring within 1 m of HVDC cables would significantly affect Atlantic lumpfish migration or homing.

Published

2023

3. Gene expression and epigenetic responses of the marine Cladoceran, Evadne nordmanni, and the copepod, Acartia clausi, to elevated CO2

Author

Neelakanteswar Aluru, David M. Fields, Steven Shema, Anne Berit Skiftesvik, and Howard I. Browman

Subjects

climate change, DNA methylation, ocean acidification, marine cladocerans, RNAsequencing, Ecology, QH540-549.5

Abstract

Abstract Characterizing the capacity of marine organisms to adapt to climate change related drivers (e.g., pCO2 and temperature), and the possible rate of this adaptation, is required to assess their resilience (or lack thereof) to these drivers. Several studies have hypothesized that epigenetic markers such as DNA methylation, histone modifications and noncoding RNAs, act as drivers of adaptation in marine organisms, especially corals. However, this hypothesis has not been tested in zooplankton, a keystone organism in marine food webs. The objective of this study is to test the hypothesis that acute ocean acidification (OA) exposure alters DNA methylation in two zooplanktonic species—copepods (Acartia clausii) and cladocerans (Evadne nordmanii). We exposed these two species to near‐future OA conditions (400 and 900 ppm pCO2) for 24 h and assessed transcriptional and DNA methylation patterns using RNA sequencing and Reduced Representation Bisulfite Sequencing (RRBS). OA exposure caused differential expression of genes associated with energy metabolism, cytoskeletal and extracellular matrix functions, hypoxia and one‐carbon metabolism. Similarly, OA exposure also caused altered DNA methylation patterns in both species but the effect of these changes on gene expression and physiological effects remains to be determined. The results from this study form the basis for studies investigating the potential role of epigenetic mechanisms in OA induced phenotypic plasticity and/or adaptive responses in zooplanktonic organisms.

Published

2021

4. The effects of hydrogen peroxide on mortality, escape response, and oxygen consumption of Calanus spp.

Author

Rosa H. Escobar-Lux, David M. Fields, Howard I. Browman, Steven D. Shema, Reidun M. Bjelland, Ann-Lisbeth Agnalt, Anne Berit Skiftesvik, Ole B. Samuelsen, and Caroline M.F. Durif

Subjects

aquaculture, behavior, ecotoxicology, hydrogen peroxide, sublethal effects, zooplankton, Education, Science

Abstract

Hydrogen peroxide (H2O2), a pesticide used in salmonid aquaculture, is released directly into the environment where nontarget organisms are at risk of exposure. We determined threshold concentrations for mortality of Calanus spp., the dominant zooplankton species in the North Atlantic, and assessed sublethal effects, focusing on the escape response and oxygen consumption rates (OCRs) as behavioral and physiological assays. One-hour exposure to 170 mg·L−1 (i.e., 10% of the recommended H2O2 treatment) was lethal to copepodite stage V (92% mortality) and adult females (100% mortality). The acute median lethal concentration (1h-LC50) was 214.1 (150.67–277.4) and 48.6 (44.9–52.2) mg·L−1 for copepodite V and adults, respectively. The 25-h LC50 was 77.1 (57.9–96.2) and 30.63 (25.4–35.8) mg·L−1 for copepodite V and adults, respectively. At concentrations of 0.5% and 1% of the recommended treatment level, Calanus spp. showed a decrease in escape performance and lower OCRs with increased concentration. At H2O2 concentrations of 5% of the recommended treatment levels (85 mg·L−1), exposed copepods showed no escape reaction response. These results suggest that sublethal concentrations of H2O2 will increase the risk of predation for Calanus spp. Furthermore, this study provides supporting evidence that theoretical “safe” values, traditionally used for predicting toxicity thresholds, underestimate the impact of H2O2 on the physiological condition of nontarget crustaceans.

Published

2019

5. Atlantic Haddock (Melanogrammus aeglefinus) Larvae Have a Magnetic Compass that Guides Their Orientation

Author

Alessandro Cresci, Claire B. Paris, Matthew A. Foretich, Caroline M. Durif, Steven D. Shema, CJ E. O’Brien, Frode B. Vikebø, Anne Berit Skiftesvik, and Howard I. Browman

Subjects

Science

Abstract

Summary: Atlantic haddock (Melanogrammus aeglefinus) is a commercially important species of gadoid fish. In the North Sea, their main spawning areas are located close to the northern continental slope. Eggs and larvae drift with the current across the North Sea. However, fish larvae of many taxa can orient at sea using multiple external cues, including the Earth's magnetic field. In this work, we investigated whether haddock larvae passively drift or orient using the Earth's magnetic field. We observed the behavior of 59 and 102 haddock larvae swimming in a behavioral chamber deployed in the Norwegian North Sea and in a magnetic laboratory, respectively. In both in situ and laboratory settings, where the magnetic field direction was modified, haddock larvae significantly oriented toward the northwest. We conclude that haddock larvae orientation at sea is guided by a magnetic compass mechanism. These results have implications for retention and dispersal of pelagic haddock larvae. : Piscine Behavior; Geomagnetism; Ichthyology Subject Areas: Piscine Behavior, Geomagnetism, Ichthyology

Published

2019

6. The relationship between the moon cycle and the orientation of glass eels (Anguilla anguilla) at sea

Author

Alessandro Cresci, Caroline M. Durif, Claire B. Paris, Cameron R. S. Thompson, Steven Shema, Anne Berit Skiftesvik, and Howard I. Browman

Subjects

european eel, orientation, lunar cycle, migration, Science

Abstract

Links between the lunar cycle and the life cycle (migration patterns, locomotor activity, pulses in recruitment) of the European eel (Anguilla anguilla) are well documented. In this study, we hypothesized that the orientation of glass eels at sea is related to the lunar cycle. The European eel hatches in the Sargasso Sea and migrates across the Atlantic Ocean towards Europe. Upon reaching the continental shelf, the larvae metamorphose into glass eels and migrate up the estuaries, where some individuals colonize freshwater habitats. How glass eels navigate pelagic waters is still an open question. We tested the orientation of 203 glass eels in a transparent circular arena that was drifting in situ during the daytime, in the coastal Norwegian North Sea, during different lunar phases. The glass eels swimming at sea oriented towards the azimuth of the moon at new moon, when the moon rose above the horizon and was invisible but not during the other moon phases. These results suggest that glass eels could use the moon position for orientation at sea and that the detection mechanism involved is not visual. We hypothesize a possible detection mechanism based on global-scale lunar disturbances in electrical fields and discuss the implications of lunar-related orientation for the recruitment of glass eels to estuaries. This behaviour could help glass eels to reach the European coasts during their marine migration.

Published

2019

7. The planktonic stages of the salmon louse (Lepeophtheirus salmonis) are tolerant of end-of-century pCO2 concentrations

Author

Cameron R.S. Thompson, David M. Fields, Reidun M. Bjelland, Vera B.S. Chan, Caroline M.F. Durif, Andrew Mount, Jeffrey A. Runge, Steven D. Shema, Anne Berit Skiftesvik, and Howard I. Browman

Subjects

Salmon lice, Copepod, Ocean acidification, Parasite, Energetics, Metabolism, Medicine, Biology (General), QH301-705.5

Abstract

The copepod Lepeophtheirus salmonis is an obligate ectoparasite of salmonids. Salmon lice are major pests in salmon aquaculture and due to its economic impact Lepeophtheirus salmonis is one of the most well studied species of marine parasite. However, there is limited understanding of how increased concentration of pCO2 associated with ocean acidification will impact host-parasite relationships. We investigated the effects of increased pCO2 on growth and metabolic rates in the planktonic stages, rearing L. salmonis from eggs to 12 days post hatch copepodids under three treatment levels: Control (416 µatm), Mid (747 µatm), and High (942 µatm). The pCO2 treatment had a significant effect on oxygen consumption rate with the High treatment animals exhibiting the greatest respiration. The treatments did not have a significant effect on the other biological endpoints measured (carbon, nitrogen, lipid volume, and fatty acid content). The results indicate that L. salmonis have mechanisms to compensate for increased concentration of pCO2and that populations will be tolerant of projected future ocean acidification scenarios. The work reported here also describes catabolism during the lecithotrophic development of L. salmonis, information that is not currently available to parameterize models of dispersal and viability of the planktonic free-living stages.

Published

2019

8. Magnetic compass orientation in the European eel.

Author

Caroline M F Durif, Howard I Browman, John B Phillips, Anne Berit Skiftesvik, L Asbjørn Vøllestad, and Hans H Stockhausen

Subjects

Medicine, Science

Abstract

European eel migrate from freshwater or coastal habitats throughout Europe to their spawning grounds in the Sargasso Sea. However, their route (~ 6000 km) and orientation mechanisms are unknown. Several attempts have been made to prove the existence of magnetoreception in Anguilla sp., but none of these studies have demonstrated magnetic compass orientation in earth-strength magnetic field intensities. We tested eels in four altered magnetic field conditions where magnetic North was set at geographic North, South, East, or West. Eels oriented in a manner that was related to the tank in which they were housed before the test. At lower temperature (under 12°C), their orientation relative to magnetic North corresponded to the direction of their displacement from the holding tank. At higher temperatures (12-17°C), eels showed bimodal orientation along an axis perpendicular to the axis of their displacement. These temperature-related shifts in orientation may be linked to the changes in behavior that occur between the warm season (during which eels are foraging) and the colder fall and winter (during which eels undertake their migrations). These observations support the conclusion that 1. eels have a magnetic compass, and 2. they use this sense to orient in a direction that they have registered moments before they are displaced. The adaptive advantage of having a magnetic compass and learning the direction in which they have been displaced becomes clear when set in the context of the eel's seaward migration. For example, if their migration is halted or blocked, as it is the case when environmental conditions become unfavorable or when they encounter a barrier, eels would be able to resume their movements along their old bearing when conditions become favorable again or when they pass by the barrier.

Published

2013

9. Light primes the escape response of the calanoid copepod, Calanus finmarchicus.

Author

David M Fields, Steven D Shema, Howard I Browman, Thomas Q Browne, and Anne Berit Skiftesvik

Subjects

Medicine, Science

Abstract

The timing and magnitude of an escape reaction is often the determining factor governing a copepod's success at avoiding predation. Copepods initiate rapid and directed escapes in response to fluid signals created by predators; however little is known about how copepods modulate their behavior in response to additional sensory input. This study investigates the effect of light level on the escape behavior of Calanus finmarchicus. A siphon flow was used to generate a consistent fluid signal and the behavioral threshold and magnitude of the escape response was quantified in the dark and in the light. The results show that C. finmarchicus initiated their escape reaction further from the siphon and traveled with greater speed in the light than in the dark. However, no difference was found in the escape distance. These results suggest that copepods use information derived from multiple sensory inputs to modulate the sensitivity and strength of the escape in response to an increase risk of predation. Population and IBM models that predict optimal vertical distributions of copepods in response to visual predators need to consider changes in the copepod's behavioral thresholds when predicting predation risk within the water column.

Published

2012

10. Effect of sub-lethal exposure to ultraviolet radiation on the escape performance of Atlantic cod larvae (Gadus morhua).

Author

Yuichi Fukunishi, Howard I Browman, Caroline M F Durif, Reidun M Bjelland, and Anne Berit Skiftesvik

Subjects

Medicine, Science

Abstract

The amount of ultraviolet (UV) radiation reaching the earth's surface has increased due to depletion of the ozone layer. Several studies have reported that UV radiation reduces survival of fish larvae. However, indirect and sub-lethal impacts of UV radiation on fish behavior have been given little consideration. We observed the escape performance of larval cod (24 dph, SL: 7.6±0.2 mm; 29 dph, SL: 8.2±0.3 mm) that had been exposed to sub-lethal levels of UV radiation vs. unexposed controls. Two predators were used (in separate experiments): two-spotted goby (Gobiusculus flavescens; a suction predator) and lion's mane jellyfish (Cyanea capillata; a "passive" ambush predator). Ten cod larvae were observed in the presence of a predator for 20 minutes using a digital video camera. Trials were replicated 4 times for goby and 5 times for jellyfish. Escape rate (total number of escapes/total number of attacks ×100), escape distance and the number of larvae remaining at the end of the experiment were measured. In the experiment with gobies, in the UV-treated larvae, both escape rate and escape distance (36%, 38±7.5 mm respectively) were significantly lower than those of control larvae (75%, 69±4.7 mm respectively). There was a significant difference in survival as well (UV: 35%,63%). No apparent escape response was observed, and survival rate was not significantly different, between treatments (UV: 66%,74%) in the experiment with jellyfish. We conclude that the effect and impact of exposure to sub-lethal levels of UV radiation on the escape performance of cod larvae depends on the type of predator. Our results also suggest that prediction of UV impacts on fish larvae based only on direct effects are underestimations.

Published

2012

11. Habitat use and growth of yellow-stage European eel in coastal and freshwater ecosystems in Norway

Author

Mehis Rohtla, Françoise Daverat, Michael T. Arts, Howard I. Browman, Camilla Parzanini, Anne Berit Skiftesvik, Eva B. Thorstad, Terje van der Meeren, Leif Asbjørn Vøllestad, and Caroline M.F. Durif

Subjects

Aquatic Science, Ecology, Evolution, Behavior and Systematics

Abstract

Many anguillid eel species display facultative catadromy. Some eel spend their entire life cycle in marine coastal areas, but the geographical extent of this, especially at the extremes of their distributional ranges, is unknown. We analysed otolith Sr:Ca and Ba:Ca from yellow-stage European eel ( Anguilla anguilla) sampled along the coast of Norway and in several freshwater lakes (58°N–63°N), to infer their initial settlement and later life movement patterns with regards to habitat salinity. Most eel (80%) sampled in marine habitats ( n = 371) had settled and remained in marine water, but 20% had moved between marine and freshwater habitats and were hence classified as inter-habitat shifters. Among freshwater sampled eel ( n = 99), 80% had settled and remained in fresh water, but 20% were classified as inter-habitat shifters. The average growth rates for marine water residents, inter-habitat shifters, and freshwater residents were 35, 27, and 17 mm·year–1, respectively. Northern European shallow marine habitats may serve as important yellow eel growth habitats and may be critical to buffer the European eel population against the general decrease in continental recruitment.

Published

2023

12. Applying genetic technologies to combat infectious diseases in aquaculture

Author

Nicholas A. Robinson, Diego Robledo, Lene Sveen, Rose Ruiz Daniels, Aleksei Krasnov, Andrew Coates, Ye Hwa Jin, Luke T. Barrett, Marie Lillehammer, Anne H. Kettunen, Ben L. Phillips, Tim Dempster, Andrea Doeschl‐Wilson, Francisca Samsing, Gareth Difford, Sarah Salisbury, Bjarne Gjerde, John‐Erik Haugen, Erik Burgerhout, Binyam S. Dagnachew, Dominic Kurian, Mark D. Fast, Morten Rye, Marcela Salazar, James E. Bron, Sean J. Monaghan, Celeste Jacq, Mike Birkett, Howard I. Browman, Anne Berit Skiftesvik, David M. Fields, Erik Selander, Samantha Bui, Anna Sonesson, Stanko Skugor, Tone‐Kari Knutsdatter Østbye, and Ross D. Houston

Subjects

Genomic selection, Ecology, gene editing, white-spot syndrome virus, Gene editing, Management, Monitoring, Policy and Law, Aquatic Science, host resistance, White-spot syndrome virus, genomic selection, sea lice, Host resistance, transcriptomics, Sea lice, Transcriptomics

Abstract

Disease and parasitism cause major welfare, environmental and economic concerns for global aquaculture. In this review, we examine the status and potential of technologies that exploit genetic variation in host resistance to tackle this problem. We argue that there is an urgent need to improve understanding of the genetic mechanisms involved, leading to the development of tools that can be applied to boost host resistance and reduce the disease burden. We draw on two pressing global disease problems as case studies—sea lice infestations in salmonids and white spot syndrome in shrimp. We review how the latest genetic technologies can be capitalised upon to determine the mechanisms underlying inter- and intra-species variation in pathogen/parasite resistance, and how the derived knowledge could be applied to boost disease resistance using selective breeding, gene editing and/or with targeted feed treatments and vaccines. Gene editing brings novel opportunities, but also implementation and dissemination challenges, and necessitates new protocols to integrate the technology into aquaculture breeding programmes. There is also an ongoing need to minimise risks of disease agents evolving to overcome genetic improvements to host resistance, and insights from epidemiological and evolutionary models of pathogen infestation in wild and cultured host populations are explored. Ethical issues around the different approaches for achieving genetic resistance are discussed. Application of genetic technologies and approaches has potential to improve fundamental knowledge of mechanisms affecting genetic resistance and provide effective pathways for implementation that could lead to more resistant aquaculture stocks, transforming global aquaculture

Published

2022

13. Trophic ecology of the European eel (Anguilla anguilla) across different salinity habitats inferred from fatty acid and stable isotope analysis

Author

Camilla Parzanini, Caroline M. F. Durif, Mehis Rohtla, Dino Milotic, Anne Berit Skiftesvik, Michael Power, Janet Koprivnikar, Michael T. Arts, and Howard I. Browman

Subjects

chemistry.chemical_classification, endocrine system, animal structures, Brackish water, Stable isotope ratio, Ecology, Ecology (disciplines), Fatty acid, Aquatic Science, Salinity, chemistry, Seawater, Ecology, Evolution, Behavior and Systematics, Isotope analysis, Trophic level

Abstract

We combined fatty acid (FA) and stable isotope (SI) analyses to investigate the trophic ecology of different stages of European eels (Anguilla anguilla) across seawater (SW), brackish water (BW), and freshwater (FW) habitats. Salinity was the main driver of differences in the biochemical composition, and the greatest variation occurred between SW and FW eels. SW eels had a higher content of the FA indicator of carnivory, as well as the highest stable isotope ratios (C, N). In contrast, FW eels exhibited the highest lipid content and omega-6 polyunsaturated FA, but the lowest stable isotope ratios, suggesting major dietary differences between the eels in these two habitats. While the biochemical composition of BW eels was closer to those of SW eels, BW eels had the largest SI range, indicating higher dietary plasticity. FW individuals had better overall condition compared to SW eels. Independent of habitat, larger individuals were in the best condition, and had higher lipid content and monounsaturated FA. These findings suggest a biological advantage for eels to maintain a catadromous life history strategy.

Published

2021

14. A unifying hypothesis for the spawning migrations of temperate anguillid eels

Author

Howard I. Browman, Caroline M. F. Durif, Anne Berit Skiftesvik, Daniel Nyqvist, Alessandro Cresci, and Hans Hagen Stockhausen

Subjects

Anguilla sp, Earth's magnetic field, Oceanography, Temperate climate, Magnetic dip, Management, Monitoring, Policy and Law, Aquatic Science, Biology, Ecology, Evolution, Behavior and Systematics, Compass Orientation, Secular variation

Abstract

Anguillid eels grow in freshwater but spawn in the open ocean. The cues that guide eels over long distances to the spawning area are unknown. The Earth's magnetic field can provide directional and positional information and is likely used by catadromous eels during their spawning migration; as magnetosensitivity and compass orientation have been reported in eels. To test whether this is theoretically possible, we compared the migratory routes of five species of temperate eels that undertake long migrations with the geomagnetic field of their distribution/spawning areas. We found that, regardless of the species and although routes are different between life stages, larvae of those species always drift along paths of increasing magnetic inclination and intensity, while adults follow reverse gradients. This is consistent with an imprinting/retracing hypothesis. We propose a general navigation mechanism based on larvae imprinting on a target magnetic intensity (or inclination) at the hatching area and on the intensity (or inclination) gradient during larval drift. Years later, adults retrace the magnetic route by following the gradient of decreasing total intensity (or inclination) values that occurs towards lower latitudes. As they reach the target value, adults switch to compass orientation to stay on the target isoline and reach the spawning area. The proposed mechanism fits for all temperate eels examined. Knowledge about navigational strategies of eels is important to evaluate the effectiveness of management strategies that involve stocking of juveniles displaced from one area to another to rebuild local populations.

Published

2021

15. Magnetic fields produced by subsea high-voltage direct current cables reduce swimming activity of haddock larvae (Melanogrammus aeglefinus)

Author

Alessandro Cresci, Caroline M F Durif, Torkel Larsen, Reidun Bjelland, Anne Berit Skiftesvik, and Howard I Browman

Abstract

High-voltage direct current (HVDC) subsea cables are used to transport power between locations and from/to nearshore and offshore facilities. HVDC cables produce magnetic fields (B-fields) that could impact marine fish. Atlantic haddock (Melanogrammus aeglefinus) is a demersal fish that is at risk of exposure to anthropogenic B-fields. Their larvae drift over the continental shelf, and use the Earth's magnetic field for orientation during dispersal. Therefore, anthropogenic magnetic fields from HVDC cables could alter their behavior. We tested the behavior of 92 haddock larvae using a setup designed to simulate the scenario of larvae drifting past a B-field in the intensity range of that produced by a DC subsea cable. We exposed the larvae to a B-field intensity ranging from 50 to 150 µT in a raceway tank. Exposure to the B-field did not affect the spatial distribution of haddock larvae in the raceway. Larvae were categorized by differences in their exploratory behavior in the raceway. The majority (78%) of larvae were nonexploratory, and exposure to the artificial B-field reduced their median swimming speed by 60% and decreased their median acceleration by 38%. There was no effect on swimming of the smaller proportion (22%) of exploratory larvae. These observations support the conclusion that the swimming performance of nonexploratory haddock larvae would be reduced following exposure to B-field from HVDC cables. The selective impact on nonexploratory individuals, and the lack of impact on exploratory individuals, could have population-scale implications for haddock in the wild.

Published

2022

16. Feeding habitat and silvering stage affect lipid content and fatty acid composition of <scp>European</scp> eel <scp> Anguilla anguilla </scp> tissues

Author

Camilla Parzanini, Mehis Rohtla, Anne Berit Skiftesvik, Howard I. Browman, Janet Koprivnikar, Michael T. Arts, Caroline M. F. Durif, Michael Power, and Dino Milotic

Subjects

0106 biological sciences, endocrine system, animal structures, Brackish water, 010604 marine biology & hydrobiology, Aquatic ecosystem, Fatty Acids, Zoology, Fresh Water, Silvering, Aquatic Science, Biology, Anguilla, 010603 evolutionary biology, 01 natural sciences, Eicosapentaenoic acid, chemistry.chemical_compound, Nutrient, chemistry, Docosahexaenoic acid, Animals, Composition (visual arts), Arachidonic acid, Ecosystem, Ecology, Evolution, Behavior and Systematics

Abstract

Lipids, particularly fatty acids (FAs), are major sources of energy and nutrients in aquatic ecosystems and play key roles during vertebrate development. The European eel Anguilla anguilla goes through major biochemical and physiological changes throughout its lifecycle as it inhabits sea- (SW), and/or brackish- (BW) and/or freshwater (FW) habitats. With the ultimate goal being to understand the reasons for eels adopting a certain life history strategy (FW or SW residency vs. 'habitat shifting'), we explored differences in lipid content and FA composition of muscle, liver and eyes from eels collected across Norwegian SW, BW and FW habitats, and at different lifecycle stages (yellow to silver). FW and SW eels had a higher lipid content overall compared to BW eels, reflecting differences in food availability and life history strategies. SW eels had higher proportions of certain monounsaturated FAs (MUFAs; 18:1n-9, 20:1n-9), and of the essential polyunsaturated FAs 20:5n-3 (eicosapentaenoic acid, EPA) and 22:6n-3 (docosahexaenoic acid) than FW eels, reflecting a marine-based diet. In contrast, the muscle of FW eels had higher proportions of 18:3n-3, 18:2n-6 and 20:4n-6 (arachidonic acid), as is typical of FW organisms. MUFA proportions increased in later stage eels, consistent with the hypothesis that the eels accumulate energy stores prior to migration. In addition, the decrease of EPA with advancing stage may be associated with the critical role that this FA plays in eel sexual development. Lipid and FA information provided further understanding of the habitat use and overall ecology of this critically endangered species.

Published

2021

17. The lunar compass of European glass eels ( Anguilla anguilla ) increases the probability that they recruit to North Sea coasts

Author

Anne Dagrun Sandvik, María J. Olascoaga, Pål Næverlid Sævik, Caroline M. F. Durif, Howard I. Browman, Bjørn Ådlandsvik, Frode Bendiksen Vikebø, Alessandro Cresci, Anne Berit Skiftesvik, and P. Miron

Subjects

Oceanography, Geography, Compass, Biological dispersal, Aquatic Science, North sea

Abstract

The European eel hatches in the Sargasso Sea and migrates across the Atlantic Ocean toward Europe. At the continental shelf, larvae metamorphose into glass eels and then recruit to coastal habitats and estuaries. Among other cues, glass eels orient in situ using lunar cues, but what role this lunar compass plays in their recruitment to the coast is unknown. To assess this, we incorporated empirical in situ observations of glass eel swimming and lunar‐driven orientation into a biophysical advection model. We simulated dispersal of glass eels drifting with the North Atlantic Current to test the hypothesis that lunar‐driven swimming and orientation behavior affects recruitment to North Sea coasts. Particles were released from the continental slope north of Scotland, an obligate passage for migrating eel larvae. Four numerical experiments were conducted: one with passive drift and three including glass eel swimming speeds (ranging from 3 to 12 cm/s) and lunar‐driven orientation. With a speed of 3 cm/s, the lunar compass increased recruitment to the North Sea coasts of Southwestern Norway and Scotland by 34%–40%. Conversely, orientation behavior decreased recruitment to northern areas like Iceland (−46%), the Faroe Islands (−39%) and Northern Norway (−49%). Behavior affected the timing of recruitment to Southwestern Norway, causing peaks of abundance in May–June, but not to other regions. These results show that lunar‐driven orientation and swimming behavior observed in glass eels substantially increases their recruitment to North Sea coasts. Results agree with the distribution of eel in northern Europe, which decreases in abundance with increasing latitude.

Published

2020

18. Effects of Exposure to Low Concentrations of Oil on the Expression of Cytochrome P4501a and Routine Swimming Speed of Atlantic Haddock (Melanogrammus aeglefinus) Larvae In Situ

Author

Steven Shema, Reidun M. Bjelland, Claire B. Paris, Anne Berit Skiftesvik, Camilla L Di Persia, Elin Sørhus, Howard I. Browman, Frode Bendiksen Vikebø, Veronica Lucchese, Alessandro Cresci, Matthew A. Foretich, and Caroline M. F. Durif

Subjects

In situ, animal structures, Cytochrome, Zoology, 010501 environmental sciences, sublethal impacts, 01 natural sciences, Article, fish behavior, ecotoxicology, oil impact, Environmental Chemistry, Ecotoxicology, Animals, 14. Life underwater, Volume concentration, Oil toxicity, Swimming, 0105 earth and related environmental sciences, Larva, biology, fungi, oil toxicity, General Chemistry, Haddock, Ichthyoplankton, biology.organism_classification, larval fish, larval dispersal, Petroleum, 13. Climate action, biology.protein, Cytochromes, North Sea, human activities, Water Pollutants, Chemical

Abstract

Exposure to environmentally relevant concentrations of oil could impact survival of fish larvae in situ through subtle effects on larval behavior. During the larval period, Atlantic haddock (Melanogrammus aeglefinus) are transported toward nursery grounds by ocean currents and active swimming, which can modify their drift route. Haddock larvae are sensitive to dispersed oil; however, whether exposure to oil during development impacts the ability of haddock larvae to swim in situ is unknown. Here, we exposed Atlantic haddock embryos to 10 and 80 μg oil/L (0.1 and 0.8 μg ∑PAH/L) of crude oil for 8 days and used a novel approach to measure its effect on the larval swimming behavior in situ. We assessed the swimming behavior of 138 haddock larvae in situ, in the North Sea, using a transparent drifting chamber. Expression of cytochrome P4501a (cyp1a) was also measured. Exposure to 10 and 80 μg oil/L significantly reduced the average in situ routine swimming speed by 30–40% compared to the controls. Expression of cyp1a was significantly higher in both exposed groups. This study reports key information for improving oil spill risk assessment models and presents a novel approach to study sublethal effects of pollutants on fish larvae in situ., Very low concentrations of oil negatively impact swimming of haddock larvae in situ, lowering their chances to survive at sea.

Published

2020

19. Overwintering behaviour of yellow-stage European eel (Anguilla anguilla) in a natural marine fjord system

Author

Mehis Rohtla, Even Moland, Anne Berit Skiftesvik, Eva B. Thorstad, Sebastian Bosgraaf, Esben M. Olsen, Howard I. Browman, and Caroline M.F. Durif

Subjects

Aquatic Science, Oceanography

Abstract

Like many animals, northern temperate eel can enter a hibernation-like state and become dormant during the winter. Knowledge of overwintering behaviour in eel is sparse and mainly based on anecdotal observations and a few experimental studies on thermal tolerance. We studied European eel (Anguilla anguilla) overwintering behaviour in a Skagerrak fjord in Southern Norway, during three consecutive years, using an array of acoustic receivers and acoustic tags with depth and temperature sensors. We obtained results from 55 yellow eel, of which 19 were studied for one winter, 35 for two winters and one for three winters. Dormancy was inferred to begin in September for the earliest individuals and lasted until May for the last, with the majority of eel dormant from at least late October–November until mid-April. The timing of dormancy was mainly related to photoperiod and less to temperature. More than 50% of eel became dormant when day length was 14 h. Approximately 10% of eel remained active during the winter and 31% of eel changed their pattern between consecutive years. Some dormant individuals exhibited activity periods that interrupted their dormancy. Eel in the outer fjord nearer the open sea became dormant before eel in the inner more freshwater part of the fjord, and were dormant longer.

Published

2022

20. A positive temperature-dependent effect of elevated CO2 on growth and lipid accumulation in the planktonic copepod, Calanus finmarchicus

Author

David M. Fields, Jeffrey A. Runge, Cameron R. S. Thompson, Caroline M. F. Durif, Steven D. Shema, Reidun M. Bjelland, Maura Niemisto, Michael T. Arts, Anne Berit Skiftesvik, and Howard I. Browman

Subjects

Aquatic Science, Oceanography

Abstract

Calanus finmarchicus were reared from eggs to adults at 12°C and 16°C with non-limiting food in combination with ambient (600 μatm) and high (1100 μatm) pCO2. These conditions are likely to be encountered by the species at the southern margins of its biogeographical range by the end of the century. Dry weight (DW), carbon (C) and nitrogen (N) mass, oil-sac volume (OSV), fatty acid composition (FA), and oxygen consumption rates (OCR) were measured on newly molted stage CV copepodites and recently molted adult females. By focusing our measurements on these precise events in the life cycle, we were able to obtain a more accurate comparison of growth and respiration across treatments. Copepods raised at 12°C had a significantly greater DW, OSV, and C and N mass than those raised at 16°C High pCO2, independent of temperature, was associated with a further increase in the DW and C content of the copepods. Interactive effects of temperature and pCO2 resulted in a larger OSV at low temperature and high pCO2. Mass-specific respiration rates were significantly lower at lower temperatures and elevated pCO2 suggesting that the increase in mass (DW, C, and OSV) resulted from reduced metabolic cost. The composition of fatty acids in the copepods varied mainly with temperature. Two fatty acids varied with pCO2: 16:0 tended to decrease with higher pCO2 and 18:3n−3 tended to increase with higher pCO2. These observations suggest that elevated pCO2/lower pH in future oceans may have a beneficial effect on C. finmarchicus.

Published

2022

21. Increasing temperature and prey availability affect the growth and swimming kinematics of Atlantic herring (Clupea harengus) larvae

Author

Bridie J M Allan, Howard I Browman, Steven Shema, Anne-Berit Skiftesvik, Arild Folkvord, Caroline M F Durif, and Olav Sigurd Kjesbu

Subjects

Ecology, Aquatic Science, Ecology, Evolution, Behavior and Systematics

Abstract

Climate change will increase the magnitude and duration of warming events and the variability in the phenology and abundance of available prey to the early life stages of fish. These factors influence physiological, behavioral and ecological processes, impacting growth, development and survival. Using a fully factorial design with two prey-availability treatments (1200 prey items L−1 (high prey abundance) or 40 prey items L−1 (low prey abundance)) under three temperature regimes (8, 10 and 12°C), the swimming kinematics of 6-week old spring-spawning Atlantic herring larvae were examined using silhouette video photography. Higher temperatures combined with food limitation significantly decreased the growth and swimming kinematics of larval herring, with the most negative effect observed in larvae reared at 12°C and exposed to low food abundances. Specifically, larvae displayed reduced locomotory behaviors and reduced vertical movements. By contrast, larvae reared at high prey abundance and at 12°C displayed more active swimming and exploratory behavior, as evidenced by an increase in both locomotory behavior and vertical and horizontal turn angles, suggesting increased motivation to search for food. This research highlights the importance of determining to what degree fish larvae are sensitive to changes in temperature and how these changes might be further influenced by food availability.

Published

2022

22. Magnetic fields generated by the DC cables of offshore wind farms have no effect on spatial distribution or swimming behavior of lesser sandeel larvae (Ammodytes marinus)

Author

Alessandro Cresci, Prescilla Perrichon, Caroline M.F. Durif, Elin Sørhus, Espen Johnsen, Reidun Bjelland, Torkel Larsen, Anne Berit Skiftesvik, and Howard I. Browman

Subjects

Energy-Generating Resources, Magnetic Fields, Larva, Animals, Wind, General Medicine, Aquatic Science, Oceanography, Pollution, Swimming, Perciformes

Abstract

In the North Sea, the number and size of offshore wind (OW) turbines, together with the associated network of High Voltage Direct Current (HVDC) subsea cables, will increase rapidly over the coming years. HVDC cables produce magnetic fields (MFs) that might have an impact on marine animals that encounter them. One of the fish species that is at risk of exposure to MF associated with OW is the lesser sandeel (Ammodytes marinus), a keystone species of the North Sea basin. Lesser sandeel could be exposed to MF as larvae, when they drift in proximity of OW turbines. Whether MFs impact the behavior of lesser sandeel larvae, with possible downstream effects on their dispersal and survival, is unknown. We tested the behavior of 56 lesser sandeel larvae, using a setup designed to simulate the scenario of larvae drifting past a DC cable. We exposed the larvae to a MF intensity gradient (150-50 μT) that is within the range of MFs produced by HVDC subsea cables. Exposure to the MF gradient did not affect the spatial distribution of lesser sandeel larvae in a raceway tank 50 cm long, 7 cm wide and 3.5 cm deep. Nor did the MF alter their swimming speed, acceleration or distance moved. These results show that static MF from DC cables would not impact behavior of lesser sandeel larvae during the larval period of their life although it does not exclude the possibility that later life stages could be affected.

Published

2022

23. Co-exposure to UV radiation and crude oil increases acute embryotoxicity and sublethal malformations in the early life stages of Atlantic haddock (Melanogrammus aeglefinus)

Author

Elin Sørhus, Carey E. Donald, Charlotte L. Nakken, Prescilla Perrichon, Caroline M.F. Durif, Steven Shema, Howard I. Browman, Anne Berit Skiftesvik, Kai K. Lie, Josef D. Rasinger, Mette H.B. Müller, and Sonnich Meier

Subjects

Environmental Engineering, Environmental Chemistry, Pollution, Waste Management and Disposal

Abstract

Crude oil causes severe abnormalities in developing fish. Photomodification of constituents in crude oil increases its toxicity several fold. We report on the effect of crude oil, in combination with ultraviolet (UV) radiation, on Atlantic haddock (Melanogrammus aeglefinus) embryos. Accumulation of crude oil on the eggshell makes haddock embryos particularly susceptible to exposure. At high latitudes, they can be exposed to UV radiation many hours a day. Haddock embryos were exposed to crude oil (5-300 μg oil/L nominal loading concentrations) for three days in the presence and absence of UV radiation (290-400 nm). UV radiation partly degraded the eggs' outer membrane resulting in less accumulation of oil droplets in the treatment with highest oil concentration (300 μg oil/L). The co-exposure treatments resulted in acute toxicity, manifested by massive tissue necrosis and subsequent mortality, reducing LC50 at hatching stage by 60 % to 0.24 μg totPAH/L compared to 0.62 μg totPAH/L in crude oil only. In the treatment with nominal low oil concentrations (5-30 μg oil/L), only co-exposure to UV led to sublethal morphological heart defects. Including phototoxicity as a parameter in risk assessments of accidental oil spills is recommended.

Published

2023

24. Towards a sustainable fishery and use of cleaner fish in salmonid aquaculture

Author

Kim Tallaksen Halvorsen, Anne Berit Skiftesvik, Caroline Durif, Ellika Faust, Håkan Wennhage, Carl André, Jacob Linnemann Rønfeldt, Peter Rask Møller, Henrik Carl, Terje Jørgensen, Maria Quintela, Nina Sandlund, Lars Helge Stien, Kjell Nedreaas, Eeva Jansson, Hans Hagen Stockhausen, Kjetil Korsnes, Patrick Reynolds, Albert Imsland, Inger Fyllingen, Hulda Bysheim, Lauren Henly, and Stein Mortensen

Published

2021

25. Increasing temperature and prey availability affect the growth and swimming kinematics of Atlantic herring (

Author

Bridie J M, Allan, Howard I, Browman, Steven, Shema, Anne-Berit, Skiftesvik, Arild, Folkvord, Caroline M F, Durif, and Olav Sigurd, Kjesbu

Abstract

Climate change will increase the magnitude and duration of warming events and the variability in the phenology and abundance of available prey to the early life stages of fish. These factors influence physiological, behavioral and ecological processes, impacting growth, development and survival. Using a fully factorial design with two prey-availability treatments (1200 prey items L

Published

2021

26. Photo-enhanced toxicity of crude oil on early developmental stages of Atlantic cod (Gadus morhua)

Author

Carey E. Donald, Anne Berit Skiftesvik, Fekadu Yadetie, Libe Aranguren-Abadía, Anders Goksøyr, Steven Shema, Charlotte L. Nakken, Kai K. Lie, Xiaokang Zhang, Lars Eirik Myklatun, Sonnich Meier, Prescilla Perrichon, Howard I. Browman, Odd André Karlsen, Elin Sørhus, and Caroline M. F. Durif

Subjects

Larva, animal structures, Environmental Engineering, biology, Chemistry, Hatching, Ultraviolet Rays, Embryo, biology.organism_classification, Crude oil, Pollution, Human fertilization, Petroleum, Gadus morhua, embryonic structures, Toxicity, Environmental Chemistry, Gadus, Animals, Food science, Atlantic cod, Waste Management and Disposal, Water Pollutants, Chemical

Abstract

Photo-enhanced toxicity of crude oil is produced by exposure to ultraviolet (UV) radiation. Atlantic cod (Gadus morhua) embryos were exposed to crude oil with and without UV radiation (290–400 nm) from 3 days post fertilization (dpf) until 6 dpf. Embryos from the co-exposure experiment were continually exposed to UV radiation until hatching at 11 dpf. Differences in body burden levels and cyp1a expression in cod embryos were observed between the exposure regimes. High doses of crude oil produced increased mortality in cod co-exposed embryos, as well as craniofacial malformations and heart deformities in larvae from both experiments. A higher number of differentially expressed genes (DEGs) and pathways were revealed in the co-exposure experiment, indicating a photo-enhanced effect of crude oil toxicity. Our results provide mechanistic insights into crude oil and photo-enhanced crude oil toxicity, suggesting that UV radiation increases the toxicity of crude oil in early life stages of Atlantic cod. publishedVersion

Published

2021

27. The effects of hydrogen peroxide on mortality, escape response, and oxygen consumption of Calanus spp

Author

Howard I. Browman, Reidun M. Bjelland, Ole Bent Samuelsen, Steven Shema, Anne Berit Skiftesvik, Caroline M. F. Durif, Ann-Lisbeth Agnalt, Rosa H. Escobar-Lux, and David M. Fields

Subjects

0106 biological sciences, zooplankton, chemistry.chemical_element, Escape response, hydrogen peroxide, sublethal effects, 01 natural sciences, Zooplankton, Oxygen, ecotoxicology, chemistry.chemical_compound, Aquaculture, Ecotoxicology, Hydrogen peroxide, lcsh:Science, Multidisciplinary, biology, business.industry, behavior, 010604 marine biology & hydrobiology, 04 agricultural and veterinary sciences, Pesticide, biology.organism_classification, chemistry, aquaculture, Environmental chemistry, 040102 fisheries, Calanus, 0401 agriculture, forestry, and fisheries, lcsh:Q, business, lcsh:L, lcsh:Education

Abstract

Hydrogen peroxide (H2O2), a pesticide used in salmonid aquaculture, is released directly into the environment where nontarget organisms are at risk of exposure. We determined threshold concentrations for mortality of Calanus spp., the dominant zooplankton species in the North Atlantic, and assessed sublethal effects, focusing on the escape response and oxygen consumption rates (OCRs) as behavioral and physiological assays. One-hour exposure to 170 mg·L−1 (i.e., 10% of the recommended H2O2 treatment) was lethal to copepodite stage V (92% mortality) and adult females (100% mortality). The acute median lethal concentration (1h-LC50) was 214.1 (150.67–277.4) and 48.6 (44.9–52.2) mg·L−1 for copepodite V and adults, respectively. The 25-h LC50 was 77.1 (57.9–96.2) and 30.63 (25.4–35.8) mg·L−1 for copepodite V and adults, respectively. At concentrations of 0.5% and 1% of the recommended treatment level, Calanus spp. showed a decrease in escape performance and lower OCRs with increased concentration. At H2O2 concentrations of 5% of the recommended treatment levels (85 mg·L−1), exposed copepods showed no escape reaction response. These results suggest that sublethal concentrations of H2O2 will increase the risk of predation for Calanus spp. Furthermore, this study provides supporting evidence that theoretical “safe” values, traditionally used for predicting toxicity thresholds, underestimate the impact of H2O2 on the physiological condition of nontarget crustaceans.

Published

2019

28. Airgun blasts used in marine seismic surveys have limited effects on mortality, and no sublethal effects on behaviour or gene expression, in the copepod Calanus finmarchicus

Author

John Dalen, Nils Olav Handegard, Caroline M. F. Durif, Christiane Eichner, David M. Fields, Howard I. Browman, Anne Berit Skiftesvik, Ketil Malde, and Ørjan Karlsen

Subjects

0106 biological sciences, Ecology, biology, 010604 marine biology & hydrobiology, Calanus finmarchicus, Zoology, Aquatic Science, Oceanography, biology.organism_classification, 010603 evolutionary biology, 01 natural sciences, hemic and lymphatic diseases, Gene expression, Environmental science, Ecology, Evolution, Behavior and Systematics, Copepod

Abstract

Seismic surveys use airguns that emit low frequency high magnitude sound to detect subsea resources and to map seabed geology. The effect of seismic blasts on Calanus spp., a key food source for commercially important fish, was assessed in field experiments. Immediate mortality of copepods was significantly different from controls at distances of 5 m or less from the airguns. Mortality 1 week after the airgun blast was significantly higher—by 9% relative to controls—in the copepods placed 10 m from the airgun blast but was not significantly different from the controls at a distance of 20 m from the airgun blast. The increase in mortality—relative to controls—did not exceed 30% at any distance from the airgun blast. Only two genes changed in response to the airgun blast; however, their function is unknown. There were no sublethal effects of the seismic blasts on the escape performance or the sensory threshold needed to initiate an escape response at any of the distances from the airgun blast that were tested. Results from these experiments suggest that seismic blasts have limited effects on the mortality or escape response of Calanus sp. within 10 m of the blast and no measurable impact at greater distances.

Published

2019

29. Correction to 'Effects of Exposure to Low Concentrations of Oil on the Expression of Cytochrome P4501a and Routine Swimming Speed of Atlantic Haddock (Melanogrammus aeglefinus) Larvae In Situ'

Author

Alessandro Cresci, Claire B. Paris, Howard I. Browman, Anne Berit Skiftesvik, Steven Shema, Reidun Bjelland, Caroline M. F. Durif, Matthew Foretich, Camilla Di Persia, Veronica Lucchese, Frode B. Vikebø, and Elin Sørhus

Subjects

Environmental Chemistry, General Chemistry

Published

2022

30. Gene expression and epigenetic responses of the marine Cladoceran, Evadne nordmanni, and the copepod, Acartia clausi, to elevated CO2

Author

Howard I. Browman, Anne Berit Skiftesvik, Steven Shema, David M. Fields, and Neelakanteswar Aluru

Subjects

RNAsequencing, DNA methylation, Ecology, biology, Zoology, ocean acidification, Ocean acidification, biology.organism_classification, Acartia clausi, climate change, Evadne nordmanni, Gene expression, marine cladocerans, Epigenetics, Research Articles, QH540-549.5, Ecology, Evolution, Behavior and Systematics, Copepod, Research Article, Nature and Landscape Conservation

Abstract

Characterizing the capacity of marine organisms to adapt to climate change related drivers (e.g., pCO2 and temperature), and the possible rate of this adaptation, is required to assess their resilience (or lack thereof) to these drivers. Several studies have hypothesized that epigenetic markers such as DNA methylation, histone modifications and noncoding RNAs, act as drivers of adaptation in marine organisms, especially corals. However, this hypothesis has not been tested in zooplankton, a keystone organism in marine food webs. The objective of this study is to test the hypothesis that acute ocean acidification (OA) exposure alters DNA methylation in two zooplanktonic species—copepods (Acartia clausii) and cladocerans (Evadne nordmanii). We exposed these two species to near‐future OA conditions (400 and 900 ppm pCO2) for 24 h and assessed transcriptional and DNA methylation patterns using RNA sequencing and Reduced Representation Bisulfite Sequencing (RRBS). OA exposure caused differential expression of genes associated with energy metabolism, cytoskeletal and extracellular matrix functions, hypoxia and one‐carbon metabolism. Similarly, OA exposure also caused altered DNA methylation patterns in both species but the effect of these changes on gene expression and physiological effects remains to be determined. The results from this study form the basis for studies investigating the potential role of epigenetic mechanisms in OA induced phenotypic plasticity and/or adaptive responses in zooplanktonic organisms., Characterizing the capacity of marine organisms to adapt to climate‐change‐related drivers (e.g. pCO2 and temperature), and the possible rate of this adaptation, is required to assess their resilience (or lack thereof) to these drivers. In an effort to understand these, we conducted a study investigating the potential epigenetic changes in response to Ocean acidification in two planktonic species of ecological importance (Copepod, Acartia clausi and Cladoceran, Evadne nordmanni). Our results suggest that these organisms can employ epigenetic mechanisms in coping with acute changes in pCO2 levels. Future research will characterize long‐term adaptive responses to climatic factors such as pCO2 and temperature.

Published

2021

31. Movement patterns of temperate wrasses (Labridae) within a small marine protected area

Author

Caroline M. F. Durif, Nicolai Aasen, Torkel Larsen, Anne Berit Skiftesvik, Kim Aleksander Tallaksen Halvorsen, Leif Asbjørn Vøllestad, Alessandro Cresci, Reidun M. Bjelland, Tonje Knutsen Sørdalen, and Howard I. Browman

Subjects

VDP::Agriculture and fishery disciplines: 900::Fisheries science: 920, biology, Norway, Fishing, Aquatic Science, Cleaner fish, biology.organism_classification, Perciformes, Mark and recapture, Fishery, Ctenolabrus rupestris, Wrasse, Temperate climate, Animals, Marine protected area, West coast, Ecology, Evolution, Behavior and Systematics, VDP::Landbruks- og Fiskerifag: 900::Fiskerifag: 920

Abstract

The movement patterns of three commercially important wrasse (Labridae) species inside a small marine protected area (~ 0.15 km2 ) on the west coast of Norway were analysed over a period of 21 months. The mean distance between capture and recapture locations varied between 10 and 187 m, and was species and season specific. The extent of movement was not related to body size or sex. These results imply that a network of small strategically located marine protected areas can be used as management tools to protect wrasses from size- and sex-selective fishing mortality.

Published

2021

32. Orientation behavior and swimming speed of Atlantic herring larvae (Clupea harengus) in situ and in laboratory exposures to rotated artificial magnetic fields

Author

Anne Berit Skiftesvik, Steven Shema, Alessandro Cresci, Howard I. Browman, and Bridie J. M. Allan

Subjects

0106 biological sciences, In situ, Larva, Atlantic herring, biology, 010604 marine biology & hydrobiology, Context (language use), Clupea, Aquatic Science, biology.organism_classification, 010603 evolutionary biology, 01 natural sciences, Fishery, Herring, Orientation (mental), Biological dispersal, Ecology, Evolution, Behavior and Systematics

Abstract

The dispersal of fish larvae during the early life stages plays an important role in recruitment. Together with oceanographic processes, larval orientation and swimming behavior significantly influences dispersal. However, currently there is no information of larval behavior in situ for most subpolar species. The Atlantic herring (Clupea harengus) is an ecologically and commercially important component of the North Atlantic ecosystem. This species has sustained a large fishery for over a century, and its stocks have experienced both dramatic collapse and recovery. The Atlantic herring is highly migratory, making it challenging for researchers to determine with certainty the structure and discreteness of different herring stocks. In this context, studying the behavior of herring larvae at sea is crucial for a deeper understanding of their dispersal. However, to date information on the orientation behavior and swimming abilities of herring larvae in situ is missing. In this study, we coupled in situ observations and laboratory experiments to investigate whether herring larvae display orientation when swimming in situ, and which mechanisms/cues they could use. We video recorded the orientation behavior of 208 herring larvae between 14 and 28 days post hatch (DPH) in the coastal Norwegian North Sea while they drifted in transparent behavioral chambers. We also tested the orientation of 136 larvae in a magnetic laboratory, in which they were deprived of any external cue and where we could modify the direction of the magnetic field. We report evidence that herring larvae have a significant preferred orientation direction to the southeast, which does not change between 14 and 28 DPH. Moreover, our results suggest that sunlight plays a key role as larvae had a highly significant orientation towards the sun during sunny weather, but they lost this ability, and exhibited lower precision in their orientation, under an overcast sky. We did not find evidence of magnetic compass orientation, indicating that the orientation direction of herring larvae is not magnetic, at least at this life history stage. Larvae swam at an average speed of 0.36–0.40 cm/s and reached maximum speeds of 3–3.36 cm/s. These results demonstrate that 14–28 DPH herring larvae are capable of orienting in situ. Possible implications of this orientation behavior for larval transport in Norwegian waters are also explored.

Published

2020

33. Mind the depth: The vertical dimension of a small-scale coastal fishery shapes selection on species, size, and sex in wrasses

Author

Kim Aleksander Tallaksen Halvorsen, Tonje Knutsen Sørdalen, Howard I. Browman, Anne Berit Skiftesvik, Jon Albretsen, Trond Rafoss, and Torkel Larsen

Subjects

Fishery, Geography, Dimension (vector space), Scale (ratio), Aquatic Science, Ecology, Evolution, Behavior and Systematics, Selection (genetic algorithm), VDP::Landbruks- og Fiskerifag: 900::Fiskerifag: 920

Abstract

Small‐scale fisheries (SSFs) tend to target shallow waters, but the depth distributions of coastal fish can vary depending on species, size, and sex. This creates a scope for a form of fishing selectivity that has received limited attention but can have considerable implications for monitoring and management of these fisheries. We conducted a case study on the Norwegian wrasse fishery, a developing SSF in which multiple species are caught in shallow waters (mean depth = 4.5 m) to be used as cleaner fish in aquaculture. Several of these wrasses have life histories and behaviors that are sensitive to selective fishing mortality, such as sexual size dimorphism, paternal care, and sex change. An experimental fishery was undertaken over three sampling periods in 2018. Data on catch, length, and sex of wrasses across a depth gradient (0–18 m) were collected and analyzed. We found that depth distributions were species specific and the vertical overlap with the fishery was high for Corkwing Wrasse Symphodus melops and Ballan Wrasse Labrus bergylta, which were most abundant at depths less than 5 m. Three other wrasse species had invariant or increasing abundance with depth and were therefore less likely to be negatively impacted by this fishery. Body size was positively correlated with depth for these wrasses, and sex ratio became more male biased for the Corkwing Wrasse, the only species that could be visually sexed. This study demonstrates that depth can have strong effects on fishing selectivity at multiple scales and that such knowledge is necessary to develop management strategies that balance fishing mortality sustainably across species, sizes, and sexes. We recommend that management priorities be directed toward the Ballan and Corkwing wrasses—the species having the highest vertical overlap with the fishery. Furthermore, CPUE was strongly affected by seasonality and positively correlated with increasing wave exposure for one of the species. This underscores the general importance of standardizing catch data for several environmental covariates when monitoring species that are affected by SSFs.

Published

2020

34. Exposure to teflubenzuron negatively impacts exploratory behavior, learning and activity of juvenile European lobster (Homarus gammarus)

Author

Caroline M. F. Durif, Reidun M. Bjelland, Alessandro Cresci, Anne Berit Skiftesvik, Ole Bent Samuelsen, Howard I. Browman, and Ann-Lisbeth Agnalt

Subjects

0106 biological sciences, Health, Toxicology and Mutagenesis, Fish farming, Aquaculture, 010501 environmental sciences, 01 natural sciences, Nephropidae, Predation, Animal science, Homarus gammarus, Gammarus, Animals, Learning, Juvenile, 0105 earth and related environmental sciences, Antiparasitic Agents, Behavior, Animal, biology, Norway, business.industry, 010604 marine biology & hydrobiology, Public Health, Environmental and Occupational Health, General Medicine, biology.organism_classification, Pollution, Antiparasitic agent, Benzamides, Exploratory Behavior, business, Water Pollutants, Chemical

Abstract

Infestations with salmon lice, a parasitic copepod, is a major problem in the salmon farming industry. Teflubenzuron is an in-feed pharmaceutical applied to control lice outbreaks; the standard medication is 10 mg per kg fish per day for seven days. Surveys reveal that teflubenzuron accumulates and persists in the sediment around fish farms and causes deformities and mortality in juvenile European lobster (Homarus gammarus), a species commonly found in the vicinity of salmon farms in Norway. To date, there is no information on sub-lethal effects of teflubenzuron on, for example, behavior. We conducted an experiment to assess possible difference in the shelter seeking behavior of teflubenzuron-exposed (N = 19) vs. not exposed (N = 19) H. gammarus juveniles. The teflubenzuron-exposed juveniles had been given very low concentrations, 1.7 µg per pellet twice per week for 113 days prior to this experiment. The concentration of teflubenzuron was estimated to be less than 1 ng/g lobster when they were tested in the behavior experiment. Animals were placed in a lane with a shelter at one end. Once a lobster had found and entered the shelter, they were repeatedly displaced back to the opposite end of the lane, for a total of 3 repeated runs per animal. Three of the exposed juveniles failed to settle in the shelter, and the remaining teflubenzuron-exposed animals took significantly more time to explore the environment and to find and recognize shelter. Furthermore, exposed lobsters also exhibited slower walking speed compared to the controls. These results demonstrate that teflubenzuron significantly reduces exploratory behavior, learning and activity of juvenile H. gammarus. Thus, exposure to teflubenzuron could increase predation mortality of juvenile lobsters in the wild.

Published

2018

35. Welfare of aquatic animals: where things are, where they are going, and what it means for research, aquaculture, recreational angling, and commercial fishing

Author

James D. Rose, Stuart W. G. Derbyshire, Alexander Schwab, Steven J. Cooke, Robert Arlinghaus, Ian G. Cowx, E. Don Stevens, Howard I. Browman, A. O. Kasumyan, Brian Key, Craig A. Watson, and Anne Berit Skiftesvik

Subjects

0106 biological sciences, Ecology, business.industry, 010604 marine biology & hydrobiology, media_common.quotation_subject, Fishing, Environmental ethics, Aquatic animal, State of affairs, 04 agricultural and veterinary sciences, Aquatic Science, Oceanography, 01 natural sciences, Commercial fishing, Aquaculture, 040102 fisheries, 0401 agriculture, forestry, and fisheries, business, Recreation, Welfare, Ecology, Evolution, Behavior and Systematics, Skepticism, media_common

Abstract

We revisit the evidence attributing sentience-pain-suffering to aquatic animals. The objective is to inform readers of the current state of affairs, to direct attention to where research is needed, and to identify “wicked” questions that are difficult to resolve unequivocally. By separating the ethical from the scientific debate, applying organized skepticism to the latter, and taking a pragmatic approach that does not depend on resolving the “wicked” questions, we hope to focus and strengthen research on aquatic animal welfare. A second but closely-related objective is to briefly summarize the research used to support the regulations governing the welfare of aquatic animals, particularly its limitations. If you interact with aquatic animals, these regulations already affect you. If the regulatory environment continues on its current trajectory (adding more aquatic animal taxa to those already regulated), activity in some sectors could be severely restricted, even banned. There are surely some lively debates and tough choices ahead. In the end, extending legal protection to aquatic animals is a societal choice, but that choice should not be ascribed to strong support from a body of research that does not yet exist, and may never exist, and the consequences of making that decision must be carefully weighed.

Published

2018

36. Behavioural responses of infective-stage copepodids of the salmon louse (Lepeophtheirus salmonis, Copepoda:Caligidae) to host-related sensory cues

Author

Anne Berit Skiftesvik, David M. Fields, and Howard I. Browman

Subjects

0301 basic medicine, animal diseases, Veterinary (miscellaneous), Salmo salar, Context (language use), Ectoparasitic Infestations, Aquatic Science, Biology, medicine.disease_cause, Host-Parasite Interactions, Copepoda, Fish Diseases, 03 medical and health sciences, Salmon louse, parasitic diseases, Infestation, medicine, Sensory ecology, Animals, Chile, Salmo, Sensory cue, Ecology, Host (biology), Chemotaxis, biology.organism_classification, 030104 developmental biology, Lepeophtheirus, Cues

Abstract

The salmon louse (Lepeophtheirus salmonis [Krøyer]) is an ectoparasitic copepod that causes disease in farmed Atlantic salmon (Salmo salar) and may play a role in the decline of some wild salmonid populations. Controlling lice infestations is a major cost for the salmon industry; this has stimulated the pursuit of alternative approaches to controlling them. One such approach involves determining, and then disrupting, the sensory cues used by the parasite to find its host. In this context, we examined the behavioural responses of lice copepodids to light flicker-simulating light reflecting from the sides of the salmon host and/or the shadows cast by fish passing overhead-and water-soluble chemicals released from the skin of the salmon. From these observations, we estimate that visual cues such as those presented here would operate at relatively long range (metres to tens of metres). A diffuse host-related olfactory cue stimulated swimming, however, it remains unclear whether olfactory cues provide directional information. The observations presented herein could be used to disrupt the link between the parasite and host fish, using a large number of traps deployed at a distance from a salmon farm, for example, thereby reducing sea lice infestation pressure.

Published

2017

37. The planktonic stages of the salmon louse ( Lepeophtheirus salmonis) are tolerant of end-of-century p CO2 concentrations

Author

Jeffrey A. Runge, Andrew S. Mount, Cameron Thompson, Steven Shema, Caroline M. F. Durif, Anne Berit Skiftesvik, David M. Fields, Vera B. S. Chan, Reidun M. Bjelland, Howard I. Browman, Institute of Marine Research [Bergen] (IMR), University of Bergen (UiB), Bigelow Laboratory for Ocean Sciences, Austevoll Research Station (IMR), University of Bergen (UiB)-University of Bergen (UiB), Laboratoire des Sciences de l'Environnement Marin (LEMAR) (LEMAR), Institut de Recherche pour le Développement (IRD)-Institut Français de Recherche pour l'Exploitation de la Mer (IFREMER)-Université de Brest (UBO)-Institut Universitaire Européen de la Mer (IUEM), Institut de Recherche pour le Développement (IRD)-Institut national des sciences de l'Univers (INSU - CNRS)-Université de Brest (UBO)-Centre National de la Recherche Scientifique (CNRS)-Institut national des sciences de l'Univers (INSU - CNRS)-Université de Brest (UBO)-Centre National de la Recherche Scientifique (CNRS)-Centre National de la Recherche Scientifique (CNRS), Institut Français de Recherche pour l'Exploitation de la Mer (IFREMER), Department of Biological Sciences [Clemson], Clemson University, University of Maine, Gulf of Maine Research Institute (GMRI), and Institut de Recherche pour le Développement (IRD)-Institut national des sciences de l'Univers (INSU - CNRS)-Université de Brest (UBO)-Centre National de la Recherche Scientifique (CNRS)-Institut de Recherche pour le Développement (IRD)-Institut national des sciences de l'Univers (INSU - CNRS)-Université de Brest (UBO)-Centre National de la Recherche Scientifique (CNRS)-Centre National de la Recherche Scientifique (CNRS)

Subjects

0106 biological sciences, Zoology, lcsh:Medicine, Growth, Aquaculture, Biology, 010603 evolutionary biology, 01 natural sciences, General Biochemistry, Genetics and Molecular Biology, calanus-finmarchicus, Salmon louse, Lepeophtheirus salmonis, Energetics, 14. Life underwater, threat, impacts, business.industry, behavior, 010604 marine biology & hydrobiology, General Neuroscience, Marine larval ecology, ACL, Salmon lice, Ocean acidification, fungi, lcsh:R, General Medicine, Plankton, Lipid, biology.organism_classification, Copepod, infection, sea lice, Parasite, Metabolism, 13. Climate action, Lepeophtheirus, responses, Biological dispersal, [SDE.BE]Environmental Sciences/Biodiversity and Ecology, General Agricultural and Biological Sciences, business, respiration

Abstract

The copepod Lepeophtheirus salmonis is an obligate ectoparasite of salmonids. Salmon lice are major pests in salmon aquaculture and due to its economic impact Lepeophtheirus salmonis is one of the most well studied species of marine parasite. However, there is limited understanding of how increased concentration of pCO2 associated with ocean acidification will impact host-parasite relationships. We investigated the effects of increased pCO2 on growth and metabolic rates in the planktonic stages, rearing L. salmonis from eggs to 12 days post hatch copepodids under three treatment levels: Control (416 µatm), Mid (747 µatm), and High (942 µatm). The pCO2 treatment had a significant effect on oxygen consumption rate with the High treatment animals exhibiting the greatest respiration. The treatments did not have a significant effect on the other biological endpoints measured (carbon, nitrogen, lipid volume, and fatty acid content). The results indicate that L. salmonis have mechanisms to compensate for increased concentration of pCO2and that populations will be tolerant of projected future ocean acidification scenarios. The work reported here also describes catabolism during the lecithotrophic development of L. salmonis, information that is not currently available to parameterize models of dispersal and viability of the planktonic free-living stages.

Published

2019

38. Glass eels (

Author

Alessandro, Cresci, Caroline M, Durif, Claire B, Paris, Steven D, Shema, Anne Berit, Skiftesvik, and Howard I, Browman

Subjects

Magnetic Fields, Memory, Norway, Behavioural ecology, Orientation, Hydrodynamics, Animals, Animal Migration, Anguilla, Estuaries, Article, Spatial Navigation

Abstract

The European eel (Anguilla anguilla) hatches in the Sargasso Sea and migrates to European and North African freshwater. As glass eels, they reach estuaries where they become pigmented. Glass eels use a tidal phase-dependent magnetic compass for orientation, but whether their magnetic direction is innate or imprinted during migration is unknown. We tested the hypothesis that glass eels imprint their tidal-dependent magnetic compass direction at the estuaries where they recruit. We collected 222 glass eels from estuaries flowing in different cardinal directions in Austevoll, Norway. We observed the orientation of the glass eels in a magnetic laboratory where the magnetic North was rotated. Glass eels oriented towards the magnetic direction of the prevailing tidal current occurring at their recruitment estuary. Glass eels use their magnetic compass to memorize the magnetic direction of tidal flows. This mechanism could help them to maintain their position in an estuary and to migrate upstream., Cresci et al. show that glass eels are able to use their magnetic compass to imprint the magnetic direction of tidal flows at the estuaries of the streams where they develop into yellow eels. The authors hypothesize that this ability helps glass eels to maintain their position in an estuary and to migrate upstream.

Published

2019

39. Atlantic haddock (Melanogrammus aeglefinus) larvae have a magnetic compass that guides their orientation

Author

Anne Berit Skiftesvik, Matthew A. Foretich, Caroline M. F. Durif, Howard I. Browman, Frode Bendiksen Vikebø, CJ E. O’Brien, Claire B. Paris, Alessandro Cresci, and Steven Shema

Subjects

0301 basic medicine, 02 engineering and technology, Fish larvae, Article, 03 medical and health sciences, Compass, Ichthyology, 14. Life underwater, lcsh:Science, Larva, geography, Multidisciplinary, geography.geographical_feature_category, biology, Continental shelf, Pelagic zone, Haddock, Geomagnetism, 021001 nanoscience & nanotechnology, biology.organism_classification, Piscine Behavior, 030104 developmental biology, Oceanography, Biological dispersal, lcsh:Q, 0210 nano-technology, Geology

Abstract

Summary Atlantic haddock (Melanogrammus aeglefinus) is a commercially important species of gadoid fish. In the North Sea, their main spawning areas are located close to the northern continental slope. Eggs and larvae drift with the current across the North Sea. However, fish larvae of many taxa can orient at sea using multiple external cues, including the Earth's magnetic field. In this work, we investigated whether haddock larvae passively drift or orient using the Earth's magnetic field. We observed the behavior of 59 and 102 haddock larvae swimming in a behavioral chamber deployed in the Norwegian North Sea and in a magnetic laboratory, respectively. In both in situ and laboratory settings, where the magnetic field direction was modified, haddock larvae significantly oriented toward the northwest. We conclude that haddock larvae orientation at sea is guided by a magnetic compass mechanism. These results have implications for retention and dispersal of pelagic haddock larvae., Graphical Abstract, Highlights • Atlantic haddock larvae drift with the current and spread across the North Sea • In this area, larvae swimming in situ orient to the northwest • In a magnetic laboratory, larvae orient to the same direction, the magnetic northwest • Haddock larvae have a magnetic compass that they use to orient at sea, Piscine Behavior; Geomagnetism; Ichthyology

Published

2019

40. Male-biased sexual size dimorphism in the nest building corkwing wrasse (Symphodus melops): implications for a size regulated fishery

Author

Tonje Knutsen Sørdalen, Anne Berit Skiftesvik, Reidun M. Bjelland, Leif Asbjørn Vøllestad, Esben Moland Olsen, Torborg Emmerhoff Rustand, Caroline M. F. Durif, Halvor Knutsen, and Kim Aleksander Tallaksen Halvorsen

Subjects

0106 biological sciences, Ecology, 010604 marine biology & hydrobiology, Aquatic Science, Biology, Oceanography, biology.organism_classification, 010603 evolutionary biology, 01 natural sciences, Symphodus, Sexual dimorphism, Fishery, Nest, Ecology, Evolution, Behavior and Systematics, Corkwing wrasse

Published

2016

41. Is the ballan wrasse (Labrus bergylta) two species? Genetic analysis reveals within-species divergence associated with plain and spotted morphotype frequencies

Author

Elin Annie Danielsen, Anne Berit Skiftesvik, Kevin A. Glover, Lua Lopez, Terje Svåsand, María Quintela, Rodolfo Barreiro, and Halvor Knutsen

Subjects

0106 biological sciences, 0301 basic medicine, Sympatry, ballan wrasse, Short Communication, Zoology, Genetic relationship, Labrus bergylta, DNA, Mitochondrial, 010603 evolutionary biology, 01 natural sciences, Genetic analysis, microsatellites, Perciformes, 03 medical and health sciences, Animals, biology, Genetic heterogeneity, color morphotypes, Sequence Analysis, DNA, biology.organism_classification, 030104 developmental biology, speciation, Spain, Wrasse, Microsatellite, Animal Science and Zoology, Microsatellite Repeats

Abstract

The ballan wrasse (Labrus bergylta) is a marine fish belonging to the family Labridae characterized by 2 main morphotypes that occur in sympatry: spotty and plain. Previous studies have revealed differences in their life‐history traits, such as growth and maturation; however, the genetic relationship between forms is presently unknown. Using 20 recently developed microsatellite markers, we conducted a genetic analysis of 41 and 48 spotty and plain ballan wrasse collected in Galicia (northwest Spain). The 2 morphotypes displayed highly significant genetic differences to each other (F ST = 0.018, P < 0.0001). A similar degree of genetic differentiation (F ST = 0.025, P < 0.0001) was shown using the STRUCTURE clustering approach with no priors at K = 2. In this case, the frequency of spotty and plain morphotypes was significantly different (χ2 = 9.46, P = 0.002). It is concluded that there is significant genetic heterogeneity within this species, which appears to be highly associated with the spotty and plain forms, but not completely explained by them. Given the previously demonstrated biological differences between morphotypes, and the present genetic analyses, we speculate about the convenience of a taxonomic re‐evaluation of this species.

Published

2016

42. End of the century CO2 concentrations do not have a negative effect on vital rates of Calanus finmarchicus, an ecologically critical planktonic species in North Atlantic ecosystems

Author

Caroline M. F. Durif, Howard I. Browman, Anne Berit Skiftesvik, Steven Shema, Jeffrey A. Runge, David M. Fields, Cameron R. S. Thompson, and Reidun M. Bjelland

Subjects

0106 biological sciences, 010504 meteorology & atmospheric sciences, Ecology, 010604 marine biology & hydrobiology, Calanus finmarchicus, Aquatic Science, Plankton, Biology, Oceanography, biology.organism_classification, 01 natural sciences, Ecosystem, Vital rates, Ecology, Evolution, Behavior and Systematics, 0105 earth and related environmental sciences

Abstract

The Subarctic copepod, Calanus finmarchicus, is an ecologically critical foundation species throughout the North Atlantic Ocean. Any change in the abundance and distribution of C. finmarchicus would have profound effects on North Atlantic pelagic ecosystems and the services that they support, particularly on the coastal shelves located at the southern margins of the species' range. We tested the hypothesis that the physiological rates and processes of C. finmarchicus, determining its vital rates, are unaffected by increases in CO2 concentration predicted to occur in the surface waters of the ocean during the next 100 years. We reared C. finmarchicus from eggs to adults at a control (580 µatm, the ambient concentration at the laboratory's seawater intake) and at predicted mid-range (1200 µatm) and high (1900 µatm) pCO2. There was no significant effect of pCO2 on development times, lipid accumulation, feeding rate, or metabolic rate. Small but significant treatment effects were found in body length and mass (in terms of dry, carbon and nitrogen mass), notably a somewhat larger body size at the mid-pCO2 treatment; that is, a putatively beneficial effect. Based on these results, and a review of other studies of Calanus, we conclude that the present parameterizations of vital rates in models of C. finmarchicus population dynamics, used to generate scenarios of abundance and distribution of this species under future conditions, do not require an “ocean acidification effect” adjustment. A review of research on planktonic copepods indicates that, with only a few exceptions, impacts of increased CO2 are small at the levels predicted to occur during the next century.

Published

2016

43. Whether European eel leptocephali use the Earth’s magnetic field to guide their migration remains an open question

Author

Caroline M. F. Durif, Anne Berit Skiftesvik, Martin Castonguay, A. Moore, Estibaliz Diaz, Willem Dekker, Cédric Briand, Sylvain Bonhommeau, Håkan Westerberg, Reinhold Hanel, Claire B. Paris, Françoise Daverat, Howard I. Browman, Michael J. Miller, Håkan Wickström, Austevoll Research Station (IMR), Institute of Marine Research [Bergen] (IMR), University of Bergen (UiB)-University of Bergen (UiB), Institut Français de Recherche pour l'Exploitation de la Mer (IFREMER), EPTB VILAINE LA ROCHE BERNARD FRA, Partenaires IRSTEA, Institut national de recherche en sciences et technologies pour l'environnement et l'agriculture (IRSTEA)-Institut national de recherche en sciences et technologies pour l'environnement et l'agriculture (IRSTEA), FISHERIES AND OCEANS MONT JOLI CAN, Ecosystèmes aquatiques et changements globaux (UR EABX), Institut national de recherche en sciences et technologies pour l'environnement et l'agriculture (IRSTEA), Swedish University of Agricultural Sciences (SLU), AZTI SUKARRIETA ESP, THUNEN INSTITUTE OF FISHERIES ECOLOGY HAMBURG DEU, NIHON UNIVERSITY KANAGAWA JPN, LOWESTOFT LABORATORY SUFFOLK GBR, and UNIVERSITY OF MIAMI USA

Subjects

0106 biological sciences, 0301 basic medicine, Earth, Planet, Biology, 01 natural sciences, General Biochemistry, Genetics and Molecular Biology, 03 medical and health sciences, Rivers, Animals, Sargasso sea, 14. Life underwater, geography, Eels, geography.geographical_feature_category, 010604 marine biology & hydrobiology, Estuary, Pelagic zone, Anguilla, Life stage, Fishery, Magnetic Fields, 030104 developmental biology, Earth's magnetic field, Benthic zone, Larva, [SDE]Environmental Sciences, General Agricultural and Biological Sciences

Abstract

International audience; European eels (Anguilla anguilla) migrate between the southwestern Sargasso Sea and the European and Mediterranean coasts. In a recent paper in Current Biology, Naisbett-Jones et al. [1] claim to "provide the first evidence that they [eels] derive positional information from the Earth's magnetic field" and that this information guides their migration. The evidence reported by Naisbett-Jones et al. [1] in support of this conclusion was derived from eels collected in the Severn River (UK), approximately 50 km upstream of the estuary (i.e. not "in the Severn Estuary" as stated by the authors). Eels collected this far into rivers are benthic and fully adapted to freshwater; that is, they are late-stage glass eels (∼ 2 years old), not the pelagic leptocephalus (larval) life stage that actually undertakes the trans-Atlantic migration. The entire interpretive framework for the Naisbett-Jones et al. [1] study rests on the assumption that the behaviour of these late-stage freshwater glass eels, and their responses to magnetic fields, can be used as a proxy for the responses of eel leptocephali. The authors present no evidence in support of this key assumption. Durif et al. take issue with a recent Current Biology study on eel migration.

Published

2017

44. Pragmatic animal welfare is independent of feelings

Author

Anne Berit Skiftesvik, Brian Key, B. K. Diggles, Robert Arlinghaus, Alexander Schwab, Steven J. Cooke, Howard I. Browman, and Ian G. Cowx

Subjects

Multidisciplinary, Feeling, Animal Welfare (journal), media_common.quotation_subject, Political science, MEDLINE, Social psychology, media_common

Published

2020

45. Silencing of ionotropic receptor 25a decreases chemosensory activity in the salmon louse Lepeophtheirus salmonis during the infective stage

Author

Howard I. Browman, David M. Fields, Anne Berit Skiftesvik, Gustavo Núñez-Acuña, and Cristian Gallardo-Escárate

Subjects

0301 basic medicine, Sea louse, Salmo salar, Zoology, Real-Time Polymerase Chain Reaction, Receptors, Ionotropic Glutamate, Copepoda, 03 medical and health sciences, Fish Diseases, 0302 clinical medicine, Salmon louse, RNA interference, Genetics, medicine, Gene silencing, Animals, Gene Silencing, Receptor, RNA, Double-Stranded, Olfactory receptor, biology, General Medicine, biology.organism_classification, Chemoreceptor Cells, RNA silencing, 030104 developmental biology, medicine.anatomical_structure, Lepeophtheirus, 030220 oncology & carcinogenesis

Abstract

Chemoreception is critical for marine ectoparasites - such as salmon lice (Lepeophtheirus salmonis) - to identify and locate salmonid hosts. The molecular receptors that parasites employ to detect host-specific chemical stimuli from hosts (kairomones) have not been well characterised. In the present study, transcription of the sea louse Ionotropic receptor 25a (IR25a) was blocked to evaluate whether it functions as a chemical-perception related gene for a specific chemical cue from the Atlantic salmon host. Double-strand RNA interference (dsRNA) oligonucleotides were applied to salmon lice by in vitro transcription and then exposing salmon lice nauplii to dsRNA by soaking overnight. Silencing of the IR25a gene was confirmed by qPCR in experimental groups of knock-down copepodids (dsIR25a). Behavioural responses associated with host recognition were evaluated in dsIR25a sea lice after exposure to a peptide produced by the salmon host (Cath-2). The dsIR25a group decreased expression levels of IR25a by >7-fold with respect to the control group. This group was also 26% slower than the control group (control swimming speed was 69 mm/s, while the treated group was 51 mm/s). Since the swimming activity of salmon lice copepodids is associated with the activation of the chemosensory system, these results indicate that the L. salmonis chemosensory perception system was not fully activated due to gene silencing. The results of this study demonstrate the role of ionotropic receptor 25a during host recognition by sea lice.

Published

2018

46. The Atlantic salmon (Salmo salar) antimicrobial peptide cathelicidin-2 is a molecular host-associated cue for the salmon louse (Lepeophtheirus salmonis)

Author

Anne Berit Skiftesvik, Howard I. Browman, Steven Shema, Gustavo Núñez-Acuña, Cristian Gallardo-Escárate, Ignacio Ormazábal, and David M. Fields

Subjects

0301 basic medicine, medicine.medical_treatment, Salmo salar, lcsh:Medicine, Zoology, Peptide, Article, Host-Parasite Interactions, Cathelicidin, Copepoda, Fish Diseases, 03 medical and health sciences, Anti-Infective Agents, Salmon louse, Cathelicidins, medicine, Animals, Salmo, lcsh:Science, Skin, chemistry.chemical_classification, Multidisciplinary, biology, Obligate, Host (biology), lcsh:R, 04 agricultural and veterinary sciences, biology.organism_classification, 030104 developmental biology, chemistry, Lepeophtheirus, 040102 fisheries, 0401 agriculture, forestry, and fisheries, lcsh:Q, Transcriptome, Copepod, Antimicrobial Cationic Peptides

Abstract

Chemical signals are a key element of host-parasite interactions. In marine ecosystems, obligate ectoparasites, such as sea lice, use chemical cues and other sensory signals to increase the probability of encountering a host and to identify appropriate hosts on which they depend to complete their life cycle. The chemical compounds that underlie host identification by the sea lice are not fully described or characterized. Here, we report a novel compound - the Atlantic salmon (Salmo salar) antimicrobial peptide cathelicidin-2 (Cath-2) – that acts as an activation cue for the marine parasitic copepod Lepeophtheirus salmonis. L. salmonis were exposed to 0, 7, 70 and 700 ppb of Cath-2 and neural activity, swimming behaviour and gene expression profiles of animals in response to the peptide were evaluated. The neurophysiological, behavioural and transcriptomic results were consistent: L. salmonis detects Cath-2 as a water-soluble peptide released from the skin of salmon, triggering chemosensory neural activity associated with altered swimming behaviour of copepodids exposed to the peptide, and chemosensory-related genes were up-regulated in copepodids exposed to the peptide. L. salmonis are activated by Cath-2, indicating a tight link between this peptide and the salmon louse chemosensory system.

Published

2018

47. The swimming kinematics and foraging behavior of larval Atlantic herring (Clupea harengus L.) are unaffected by elevated pCO2

Author

Anne Berit Skiftesvik, Uwe Piatkowski, Rommel Maneja, Caroline M. F. Durif, Andrea Y Frommel, Arild Folkvord, Catriona Clemmesen, Howard I. Browman, Audrey J. Geffen, and Reidun M. Bjelland

Subjects

Atlantic herring, Larva, education.field_of_study, fungi, Foraging, Population, Zoology, Ocean acidification, Clupea, Aquatic Science, Biology, biology.organism_classification, pCO2, Fishery, Seawater, 14. Life underwater, education, human activities, Ecology, Evolution, Behavior and Systematics

Abstract

The kinematics of swimming behavior of Atlantic herring larvae cultured under three p CO 2 conditions (control — 370, medium — 1800, and high — 4200 μatm) were extracted at 34 days post-hatch (dph) from swim path recordings obtained using silhouette video photography. The swim paths were analyzed for move duration, speed and length, stop duration, and horizontal and vertical turn angles to determine the effects of elevated p CO 2 on fish larval behavior. The swimming kinematics and occurrence of S-postures in Atlantic herring larvae that had survived to 34-dph were unaffected by extremely elevated levels of seawater p CO 2 , indicating that at least some larvae in the population are resilient to ocean acidification.

Published

2015

48. Glass eels (Anguilla anguilla) have a magnetic compass linked to the tidal cycle

Author

Howard I. Browman, Reidun M. Bjelland, Anne Berit Skiftesvik, Claire B. Paris, Steven Shema, Caroline M. F. Durif, and Alessandro Cresci

Subjects

0106 biological sciences, Leptocephalus, magnetic compass, Tidal Waves, 010603 evolutionary biology, 01 natural sciences, Tidal cycle, Compass, geomagnetic field, Orientation, Animals, navigation, Research Articles, geography, Multidisciplinary, geography.geographical_feature_category, biology, Geography, Continental shelf, 010604 marine biology & hydrobiology, SciAdv r-articles, Magnetoreception, biology.organism_classification, Anguilla, Gulf Stream, Fishery, directional preference, Earth's magnetic field, Oceanography, Magnetic Fields, magnetoreception, Animal Migration, magnetic orientation, Research Article, Spatial Navigation

Abstract

Glass eels have a magnetic compass, and their orientation abilities are linked to their endogenous circatidal clock., The European eel (Anguilla anguilla) has one of the longest migrations in the animal kingdom. It crosses the Atlantic Ocean twice during its life history, migrating between the spawning area in the Sargasso Sea and Europe, where it is widely distributed. The leptocephalus larvae drift with the Gulf Stream and other currents for more than a year and metamorphose into glass eels when they arrive on the continental shelf and move toward coastal areas. The mechanisms underlying glass eel orientation toward the coast and into freshwater systems are poorly known. However, anguillid eels, including the glass eel life stage, have a geomagnetic sense, suggesting the possibility that they use Earth’s magnetic field to orient toward the coast. To test this hypothesis, we used a unique combination of laboratory tests and in situ behavioral observations conducted in a drifting circular arena. Most (98%) of the glass eels tested in the sea exhibited a preferred orientation that was related to the tidal cycle. Seventy-one percent of the same eels showed the same orientation during ebb tide when tested in the laboratory under a manipulated simulated magnetic field in the absence of any other cue. These results demonstrate that glass eels use a magnetic compass for orientation and suggest that this magnetic orientation system is linked to a circatidal rhythm.

Published

2017

49. Distribution and habitat preferences of five species of wrasse (Family Labridae) in a Norwegian fjord

Author

Caroline M. F. Durif, Howard I. Browman, Anne Berit Skiftesvik, and Reidun M. Bjelland

Subjects

Ecology, biology, Labrus, Aquatic Science, Oceanography, biology.organism_classification, Labrus bergylta, Cleaner fish, Fishery, Ctenolabrus rupestris, Wrasse, Salmo, Ecology, Evolution, Behavior and Systematics, Corkwing wrasse, Sex ratio

Abstract

Wrasse (Labridae) are used widely as cleaner fish to control sea lice infestation in commercial farming of Atlantic salmon (Salmo salar) and rainbow trout (Oncorhynchus mykiss) in Norway. As a result, there is an intense fishery for wrasse along the Norwegian coast. Little is known of the population ecology of wrasse and, therefore, an evaluation of their distribution, demographics, and habitat preferences was required as a baseline from which to assess the impact of the fishery. We analysed experimental catch data from a 3-year survey carried out in 1997–1999 (before the fishery began) during and after the wrasse spawning season in a Norwegian fjord. Corkwing wrasse (Symphodus melops) was always the most abundant species, ranging from 52 to 68% of the catches. Goldsinny (Ctenolabrus rupestris) and rock cook (Centrolabrus exoletus) were the second most abundant species (up to 30%). Ballan (Labrus bergylta) and cuckoo (Labrus mixtus) wrasse represented

Published

2014

50. Infection of the planktonic copepod Calanus finmarchicus by the parasitic dinoflagellate, Blastodinium spp: effects on grazing, respiration, fecundity and fecal pellet production

Author

Anne Berit Skiftesvik, David M. Fields, Howard I. Browman, Jeffrey A. Runge, Reidun M. Bjelland, Cameron Thompson, Steven Shema, and Caroline M. F. Durif

Subjects

education.field_of_study, Ecology, biology, Calanus finmarchicus, Population, Zoology, Aquatic Science, Plankton, biology.organism_classification, Fecundity, Zooplankton, Calanus, education, Ecology, Evolution, Behavior and Systematics, Copepod, Feces

Abstract

Several dinoflagellate species in the genus Blastodinium are gut parasites of marine planktonic copepods. However,there is only limited information on the occurrence and infection frequencies of Blastodinium spp. in the field andalmost no information on the functional impact on their hosts. We report upon the effects of Blastodinium sp. infectionon Calanus finmarchicus from the northeastern Atlantic coast off southern Norway during April 2013 and 2014. Up to58% of C. finmarchicus were infected near the coast, while ,5% were infected several kilometers offshore. Ingestionrates of infected females were below detection limits and significantly lower than uninfected females. Blastodinium sp.-infected females showed characteristic symptoms of starvation, including lower respiration rates (implying a lowermetabolic rate), production of smaller and fewer fecal pellets and significantly fewer eggs than uninfected females. Afew females in this study were able to void the infection, however the extended period of starvation is likely to havelonger-term repercussions on egg production rates well after the copepod clears the infection. The degree to whichthe infection affects C. finmarchicus recruitment depends on the extent of the spatial distribution of the infection.Monitoring of parasitic infection during routine field surveys will be required in order to clarify this.KEYWORDS: zooplankton; secondary production; gut parasite; starvation; egg production; sterility; metabolism;ingestion; population dynamics; biogeochemical cycles

Published

2014