Your search keyword '"Barbara Koeck"' showing total 29 results

1. A role for lakes in revealing the nature of animal movement using high dimensional telemetry systems

Author

Robert J. Lennox, Samuel Westrelin, Allan T. Souza, Marek Šmejkal, Milan Říha, Marie Prchalová, Ran Nathan, Barbara Koeck, Shaun Killen, Ivan Jarić, Karl Gjelland, Jack Hollins, Gustav Hellstrom, Henry Hansen, Steven J. Cooke, David Boukal, Jill L. Brooks, Tomas Brodin, Henrik Baktoft, Timo Adam, and Robert Arlinghaus

Subjects

Telemetry, Sensor, Biologging, Movement ecology, Fish ecology, Biology (General), QH301-705.5

Abstract

Abstract Movement ecology is increasingly relying on experimental approaches and hypothesis testing to reveal how, when, where, why, and which animals move. Movement of megafauna is inherently interesting but many of the fundamental questions of movement ecology can be efficiently tested in study systems with high degrees of control. Lakes can be seen as microcosms for studying ecological processes and the use of high-resolution positioning systems to triangulate exact coordinates of fish, along with sensors that relay information about depth, temperature, acceleration, predation, and more, can be used to answer some of movement ecology’s most pressing questions. We describe how key questions in animal movement have been approached and how experiments can be designed to gather information about movement processes to answer questions about the physiological, genetic, and environmental drivers of movement using lakes. We submit that whole lake telemetry studies have a key role to play not only in movement ecology but more broadly in biology as key scientific arenas for knowledge advancement. New hardware for tracking aquatic animals and statistical tools for understanding the processes underlying detection data will continue to advance the potential for revealing the paradigms that govern movement and biological phenomena not just within lakes but in other realms spanning lands and oceans.

Published

2021

2. Correction to: A role for lakes in revealing the nature of animal movement using high dimensional telemetry systems

Author

Robert J. Lennox, Samuel Westrelin, Allan T. Souza, Marek Šmejkal, Milan Říha, Marie Prchalová, Ran Nathan, Barbara Koeck, Shaun Killen, Ivan Jarić, Karl Gjelland, Jack Hollins, Gustav Hellstrom, Henry Hansen, Steven J. Cooke, David Boukal, Jill L. Brooks, Tomas Brodin, Henrik Baktoft, Timo Adam, and Robert Arlinghaus

Subjects

Biology (General), QH301-705.5

Published

2021

3. Contrasting Patterns of Phytoplankton Assemblages in Two Coastal Ecosystems in Relation to Environmental Factors (Corsica, NW Mediterranean Sea)

Author

Marie Garrido, Barbara Koeck, Anne Goffart, Amandine Collignon, Jean-Henri Hecq, Sylvia Agostini, Bernard Marchand, Pierre Lejeune, and Vanina Pasqualini

Subjects

ecological succession, coastal waters, phytoplankton, pigment analysis, microscopy, size fractionation, Water Framework Directive, Biology (General), QH301-705.5

Abstract

Corsica Island is a sub-basin of the Northwestern Mediterranean Sea, with hydrological features typical of both oligotrophic systems and eutrophic coastal zones. Phytoplankton assemblages in two coastal ecosystems of Corsica (the deep Bay of Calvi and the shallow littoral of Bastia) show contrasting patterns over a one-year cycle. In order to determine what drives these variations, seasonal changes in littoral phytoplankton are considered together with environmental parameters. Our methodology combined a survey of the physico-chemical structure of the subsurface water with a characterization of the phytoplankton community structure. Sampling provided a detailed record of the seasonal changes and successions that occur in these two areas. Results showed that the two sampled stations presented different phytoplankton abundance and distribution patterns, notably during the winter–spring bloom period. Successions in pico-, nano-, and microphytoplankton communities appeared mainly driven by differences in the ability to acquire nutrients, and in community-specific growth rates. Phytoplankton structure and dynamics are discussed in relation to available data on the Northwestern Mediterranean Sea. These results confirm that integrated monitoring of coastal areas is a requisite for gaining a proper understanding of marine ecosystems.

Published

2014

4. Evaluation of impact of artificial reefs on artisanal fisheries: need for complementary approaches

Author

Barbara Koeck, Jérémy Pastor, Laetitia Larenie, Patrick Astruch, Gilles Saragoni, Marion Jarraya, and Philippe Lenfant

Subjects

Recifes artificiais, Pesca artesanal, Censo visual por mergulho autônomo, Monitoramento de desembarques, Marcação visual, Artificial reef, Artisanal fisheries, SCUBA visual census, Landings survey, Visual tagging, Oceanography, GC1-1581

Abstract

In a general context of fisheries decline due to overfishing and to other phenomena such as climate change, it appears to be crucial to implement a sustainable management of natural resources by finding a balance between conservation and exploitation purposes. Artificial reefs (ARs) have recently become one of the existing management tools, often in combination with fishing quotas or marine protected areas. To evaluate the effectiveness of the studied ARs, different methods have been used: (i) visual census by SCUBA diving (AR scale), (ii) fisheries landings survey (local scale) and (iii) external fish tagging (regional scale). Underwater visual census (UVC) showed a significantly higher species richness and density in ARs than in the control site. Abundance, biomass and LPUE data (Landings Per Unit Effort) issued from artisanal fisheries landings survey were not significantly different around the AR system from other fishing grounds of the French Catalan coast. The tagging experiments on Diplodus sargus suggested that the connectivity of demersal fish populations must be taken into account to evaluate the influence area of ARs and thus their indirect impacts on artisanal fisheries. The present study highlights the interest of combining methods covering different spatial scales in order to evaluate direct and indirect impacts of ARs on artisanal fisheries. Methods for the evaluation of AR efficiency are discussed.Dentro do atual contexto de redução nos estoques de peixes ligados à sobrepesca, e também à outros fenômenos tais como as mudanças climáticas, é indispensável implementar um plano de gestão durável para os recursos pesqueiros, conciliando sua exploração e conservação. Os recifes artificiais (RAs) tem surgido nos dias atuais como uma importante ferramenta de gestão, freqüentemente combinada à cotas de pesca ou áreas marinhas protegidas. Com a finalidade de avaliar a eficiência dos recifes artificiais, utilizou-se os seguintes métodos: i) censo visual direto através de mergulho autônomo com escafandro (na escala dos recifes artificiais); ii) monitoramento dos desembarques da pesca artesanal (na escala espacial local); e iii) marcações externas (em escala regional). As contagens realizadas através de mergulho mostraram que densidade e riqueza são significativamente mais elevadas nos recifes artificiais do que na área controle. A abundância, biomassa e os DPUE (Desembarques por unidade de esforço) provenientes do monitoramento dos desembarques da pesca artesanal, não foram significativamente diferentes entre as zonas de pesca do entorno dos recifes artificiais e as outras zonas de pesca da costa catalã francesa. Os resultados dos experimentos de marcação do sargo, Diplodus sargus, sugerem que a conectividade das populações de peixes demersais devem ser consideradas para avaliação das zonas de influência dos recifes artificiais e de seus impactos indiretos sobre a pesca artesanal. O presente estudo evidencia a oportunidade em combinar métodos que cubram diferentes escalas espaciais, a fim de avaliar os impactos diretos e indiretos dos RAs sobre a pesca artesanal. Os métodos para avaliar a eficiência dos recifes artificiais são também discutidos.

Published

2011

5. Contrasting fish behavior in artificial seascapes with implications for resources conservation.

Author

Barbara Koeck, Josep Alós, Anthony Caro, Reda Neveu, Romain Crec'hriou, Gilles Saragoni, and Philippe Lenfant

Subjects

Medicine, Science

Abstract

Artificial reefs are used by many fisheries managers as a tool to mitigate the impact of fisheries on coastal fish communities by providing new habitat for many exploited fish species. However, the comparison between the behavior of wild fish inhabiting either natural or artificial habitats has received less attention. Thus the spatio-temporal patterns of fish that establish their home range in one habitat or the other and their consequences of intra-population differentiation on life-history remain largely unexplored. We hypothesize that individuals with a preferred habitat (i.e. natural vs. artificial) can behave differently in terms of habitat use, with important consequences on population dynamics (e.g. life-history, mortality, and reproductive success). Therefore, using biotelemetry, 98 white seabream (Diplodus sargus) inhabiting either artificial or natural habitats were tagged and their behavior was monitored for up to eight months. Most white seabreams were highly resident either on natural or artificial reefs, with a preference for the shallow artificial reef subsets. Connectivity between artificial and natural reefs was limited for resident individuals due to great inter-habitat distances. The temporal behavioral patterns of white seabreams differed between artificial and natural reefs. Artificial-reef resident fish had a predominantly nocturnal diel pattern, whereas natural-reef resident fish showed a diurnal diel pattern. Differences in diel behavioral patterns of white seabream inhabiting artificial and natural reefs could be the expression of realized individual specialization resulting from differences in habitat configuration and resource availability between these two habitats. Artificial reefs have the potential to modify not only seascape connectivity but also the individual behavioral patterns of fishes. Future management plans of coastal areas and fisheries resources, including artificial reef implementation, should therefore consider the potential effect of habitat modification on fish behavior, which could have key implications on fish dynamics.

Published

2013

6. Simulated pre-spawning catch and release of wild Atlantic salmon (Salmo salar) results in faster fungal spread and opposing effects on female and male proxies of fecundity

Author

Neil B. Metcalfe, Libor Závorka, Miss Magdalene Papatheodoulou, Barbara Koeck, and Shaun S. Killen

Subjects

Fishery, %22">Fish , Aquatic Science, Biology, Salmo, biology.organism_classification, Fecundity, Ecology, Evolution, Behavior and Systematics, Catch and release

Abstract

Atlantic salmon (Salmo salar) are increasingly being released after capture by anglers. Yet, there are still unknown effects on the fish being subjected to the process of catch and release. Capture too close to spawning could have adverse effects on fish, and such data are important for setting appropriate closed seasons. This study examines how stressors related to catch and release experienced shortly before spawning affects adult mortality, vulnerability to Saprolegnia spp., and reproductive traits. Adult salmon were collected from the river Blackwater, Scotland, towards the end of their migration and were exposed to one of four protocols comprising exercise and air exposure of different durations. The experimental stressors increased the growth rate of the fungus Saprolegnia spp. over the body of the fish. Moreover, male salmon from the most disturbed group exhibited an increase in the maximum duration of their sperm motility. Lastly, females that experienced exercise and (or) air exposure spawned at the usual time but with fewer eggs. These suggest that there may be benefits from preventing angling close to the time of spawning.

Published

2022

7. Consequences for fisheries in a multi-stressor world

Author

Shaun S. Killen, Jack Hollins, Barbara Koeck, Robert J. Lennox, and Steven J. Cooke

Published

2022

8. Correction to: A role for lakes in revealing the nature of animal movement using high dimensional telemetry systems

Author

Allan T. Souza, Tomas Brodin, Robert J. Lennox, Ran Nathan, Karl Øystein Gjelland, Milan Říha, David S. Boukal, Henry H. Hansen, Marek Šmejkal, Robert Arlinghaus, Jill L. Brooks, Gustav Hellström, Marie Prchalová, Barbara Koeck, Samuel Westrelin, Shaun S. Killen, Steven J. Cooke, Jack Hollins, Ivan Jarić, Timo Adam, and Henrik Baktoft

Subjects

QH301-705.5, Animal ecology, Movement (music), Telemetry, High dimensional, Biology (General), Cartography, Ecology, Evolution, Behavior and Systematics, Geology

Published

2021

9. Within-stream phenotypic divergence in head shape of brown trout associated with invasive brook trout

Author

Niklas Wengström, Julien Cucherousset, Barbara Koeck, Jörgen I. Johnsson, Nicolas Larranaga, Libor Závorka, Magnus Lovén Wallerius, and Joacim Näslund

Subjects

0106 biological sciences, 0303 health sciences, Phenotypic plasticity, biology, animal diseases, media_common.quotation_subject, Zoology, biology.organism_classification, 010603 evolutionary biology, 01 natural sciences, Phenotype, Competition (biology), Head shape, Divergence, 03 medical and health sciences, Brown trout, Trout, Ecology, Evolution, Behavior and Systematics, 030304 developmental biology, media_common

Abstract

Competition with a non-native species can lead to morphological changes in native organisms induced by phenotypic plasticity, and by selection against individuals that do not adjust their morphology to the novel selection pressure. The morphological changes in native organisms are often associated with rapid behavioural responses to competition with the invader. However, knowledge of the interaction between the behaviour and morphology of native organisms competing with a non-native species remains scarce. Here, we investigated the effect of competition with non-native brook trout Salvelinus fontinalis on head shape of native brown trout Salmo trutta in a stream system where changes in diet and territorial behaviour of sympatric brown trout have previously been demonstrated. We found that sympatric brown trout had smaller eyes, shorter lower jaws and more terminal mouth than allopatric conspecifics. These differences in head shape were highly repeatable over a period of 12 months. Apparent survival indicated that the selection on head shape of brown trout was weaker in the sympatric than in the allopatric stretch of the stream. The results suggest that these changes reinforce divergences of foraging strategies between the allopatric and sympatric brown trout, which can negatively affect their population dynamics and trophic function in the food-web.

Published

2019

10. Socially induced stress and behavioural inhibition in response to angling exposure in rainbow trout

Author

Erik Sandblom, Magnus Lovén Wallerius, Albin Gräns, Barbara Koeck, Robert Arlinghaus, Jörgen I. Johnsson, David Berger, and Andreas Ekström

Subjects

0106 biological sciences, Ecology, 010604 marine biology & hydrobiology, Stressor, Fishing, Vulnerability, Aquatic Science, Biology, 010603 evolutionary biology, 01 natural sciences, Hooking, Fishery, Fight-or-flight response, Induced stress, Rainbow trout, Social information

Abstract

It is well known that fish can learn to avoid angling gear after experiencing a catch‐and‐release event, that is, after a private hooking experience. However, the possible importance of social information cues and their influence on an individual's vulnerability to angling remains largely unexplored, that is, social experience of a conspecific capture. The effects of private and social experience of hooking on the stress response of fish and subsequent catch rates were examined. Hatchery‐reared rainbow trout, Oncorhynchus mykiss (Walbaum), were implanted with heart rate loggers and experimentally subjected to private or social experience of hooking. Private and social experience of angling induced an increased heart rate in fish compared with naive control fish. While private experience of hooking explained most of the reduced vulnerability to capture, no clear evidence was found that social experience of hooking affected angling vulnerability in fish that had never been hooked before. While both private and social experiences of angling constitute significant physiological stressors for rainbow trout, only the private experience reduces an individual's vulnerability to angling and in turn affecting population‐level catchability.

Published

2019

11. Angling selects against active and stress-resilient phenotypes in rainbow trout

Author

Jörgen I. Johnsson, Svante Winberg, Libor Závorka, Björn Thrandur Björnsson, Joacim Näslund, David Aldvén, Robert Arlinghaus, Per-Ove Thörnqvist, and Barbara Koeck

Subjects

0106 biological sciences, endocrine system, animal structures, urogenital system, animal diseases, 010604 marine biology & hydrobiology, Stressor, Dopaminergic, Zoology, Aquatic Science, Biology, Serotonergic, biology.organism_classification, 010603 evolutionary biology, 01 natural sciences, Phenotype, Predation, Brown trout, Rainbow trout, Salmo, Ecology, Evolution, Behavior and Systematics

Abstract

Selection induced by human harvest can lead to different patterns of phenotypic change than selection induced by natural predation and could be a major driving force of evolution of wild populations. The vulnerability of individuals to angling depends on the individual decision to ingest the bait, possibly mediated by their neuroendocrine response towards the associated stimulus. To investigate the mechanisms behind individual vulnerability to angling, we conducted angling experiments in replicated ponds and quantified individual behavioral traits and neuroendocrine stress responsiveness in two salmonid species, rainbow trout (Oncorhynchus mykiss) and brown trout (Salmo trutta). We discovered a phenotypic syndrome in rainbow trout, but not in brown trout, where lower serotonergic and dopaminergic brain activity and cortisol levels (i.e., lower stress responsiveness) in response to a standardized experimental stressor were associated with higher activity, forming a proactive phenotype that showed increased vulnerability to angling. Our results show that angling targets the most stress-resilient and active phenotypes of rainbow trout, supporting the suggestion that fishing-induced phenotypic selection may lead to an increased representation of stress-responsive and low-activity phenotypes in harvested populations.

Published

2019

12. Does thermal plasticity affect susceptibility to capture in fish? Insights from a simulated trap and trawl fishery

Author

Shaun S. Killen, Barbara Koeck, Amélie Crespel, David M. Bailey, and Jack Hollins

Subjects

0106 biological sciences, Fishery, 010604 marine biology & hydrobiology, Fishing, %22">Fish , 14. Life underwater, Aquatic Science, Biology, Affect (psychology), 010603 evolutionary biology, 01 natural sciences, Ecology, Evolution, Behavior and Systematics

Abstract

In fishes, physiological and behavioural traits can correlate with vulnerability to capture with fishing gears, highlighting the capacity of fisheries selection to drive phenotypic change in exploited populations. There remains a paucity of information regarding how different fishing gears may select on phenotypic traits and how relationships between individual traits and capture vulnerability change across environmental gradients. By simulating the capture process in a trawl and trap using wild minnows (Phoxinus phoxinus) acclimated to different temperatures, we investigated how contrasting fishing gears select on behavioural and physiological traits and how this selection is modulated by temperature. Despite similar risk of capture in each gear, selection differed between traps and trawls. Fish exhibiting low spontaneous activity were at greater capture risk in the trawl across all temperatures, while traps showed no selection except at 24 °C. No relationships between physiological traits and capture vulnerability were found, except between swim performance and trap capture vulnerability at 24 °C. This study demonstrates that fisheries selection on individual traits is likely context-specific, depending on both fishing gear type and environment.

Published

2021

13. Reduced exploration capacity despite brain volume increase in warm acclimated common minnow

Author

Tiffany Armstrong, Amélie Crespel, Mustafa Soğanci, Shaun S. Killen, Barbara Koeck, and Libor Závorka

Subjects

0106 biological sciences, Dorsum, Physiology, Acclimatization, media_common.quotation_subject, Cyprinidae, Zoology, Aquatic Science, Biology, 010603 evolutionary biology, 01 natural sciences, 03 medical and health sciences, Boldness, Animals, Common minnow, Neural plasticity, Molecular Biology, Ecology, Evolution, Behavior and Systematics, 030304 developmental biology, media_common, 0303 health sciences, Global warming, Brain morphometry, Temperature, Brain, biology.organism_classification, Cold Temperature, Phoxinus, Metabolism, Phenotypic syndrome, Energy expenditure, 13. Climate action, Insect Science, Ectotherm, Brain size, Animal Science and Zoology, Research Article

Abstract

While evidence suggests that warming may impact cognition of ectotherms, the underlying mechanisms remain poorly understood. A possible but rarely considered mechanism is that the metabolic response of ectotherms to warming is associated with changes in brain morphology and function. Here, we compared aerobic metabolism, brain volume, boldness and accuracy of maze solving of common minnows (Phoxinus phoxinus) acclimated for 8 months to either their current optimal natural (14°C) or warm (20°C) water temperature. Metabolic rates indicated increased energy expenditure in warm-acclimated fish, but also at least partial thermal compensation as warm-acclimated fish maintained high aerobic scope. Warm-acclimated fish had larger brains than cool-acclimated fish. The volume of the dorsal medulla relative to the overall brain size was larger in warm- than in cool-acclimated fish, but the proportion of other brain regions did not differ between the temperature treatments. Warm-acclimated fish did not differ in boldness but made more errors than cool-acclimated fish in exploring the maze across four trials. Inter-individual differences in the number of exploration errors were repeatable across the four trials of the maze test. Our findings suggest that in warm environments, maintaining a high aerobic scope, which is important for the performance of physically demanding tasks, can come at the cost of changes in brain morphology and impairment of the capacity to explore novel environments. This trade-off could have strong fitness implications for wild ectotherms., Highlighted Article: In fish, thermal metabolic compensation in response to warming under predicted climate change scenarios may alter brain morphology and cognition, potentially causing fitness impairment.

Published

2021

14. A role for lakes in revealing the nature of animal movement using high dimensional telemetry systems

Author

Milan Říha, Ran Nathan, Ivan Jarić, Marie Prchalová, Robert J. Lennox, Samuel Westrelin, Karl Øystein Gjelland, Gustav Hellström, Steven J. Cooke, Jack Hollins, Tomas Brodin, Henry Arne Hansen, Marek Šmejkal, Shaun S. Killen, Barbara Koeck, Henrik Baktoft, Jill L. Brooks, Timo Adam, Robert Arlinghaus, David S. Boukal, Allan T. Souza, NORCE Norwegian Research Center, Risques, Ecosystèmes, Vulnérabilité, Environnement, Résilience (RECOVER), Aix Marseille Université (AMU)-Institut National de Recherche pour l’Agriculture, l’Alimentation et l’Environnement (INRAE), Biology Centre of the Czech Academy of Sciences (BIOLOGY CENTRE CAS), Czech Academy of Sciences [Prague] (CAS), and 'Multi-Lake Research of Fish Ecology and Management using High-Resolution 3D Telemetry Systems', funded by ALTER-Net within the Multi Site Research (MSR) initiative. IJ was supported by J. E. Purkyně Fellowship of the Czech Academy of Sciences. MŠ was supported by TAČR ZÉTA project (No. TJ02000012). The work was supported from ERDF/ESF project Biomanipulation as a tool for improving water quality of dam reservoirs (No. CZ.02.1.01/0.0/0.0/16_025/0007417). This publication is also based upon work from COST Action CA18102 - The European Aquatic Animal Tracking Network, supported by COST (European Cooperation in Science and Technology). the Norwegian Research Council project LaKES (320726).

Subjects

0106 biological sciences, Ecology: 488 [VDP], QH301-705.5, Ecology (disciplines), Biologging, High dimensional, Review, 010603 evolutionary biology, 01 natural sciences, Movement ecology, Fish ecology, [SDV.EE.ECO]Life Sciences [q-bio]/Ecology, environment/Ecosystems, Telemetry, Biology (General), Ecology, Evolution, Behavior and Systematics, Sensor, Ekologi, Ecology, Movement (music), VDP::Økologi: 488, 010604 marine biology & hydrobiology, Correction, VDP::Ecology: 488, Data science, Animal ecology, %22">Fish , ZABR, Økologi: 488 [VDP]

Abstract

Movement ecology is increasingly relying on experimental approaches and hypothesis testing to reveal how, when, where, why, and which animals move. Movement of megafauna is inherently interesting but many of the fundamental questions of movement ecology can be efficiently tested in study systems with high degrees of control. Lakes can be seen as microcosms for studying ecological processes and the use of high-resolution positioning systems to triangulate exact coordinates of fish, along with sensors that relay information about depth, temperature, acceleration, predation, and more, can be used to answer some of movement ecology's most pressing questions. We describe how key questions in animal movement have been approached and how experiments can be designed to gather information about movement processes to answer questions about the physiological, genetic, and environmental drivers of movement using lakes. We submit that whole lake telemetry studies have a key role to play not only in movement ecology but more broadly in biology as key scientific arenas for knowledge advancement. New hardware for tracking aquatic animals and statistical tools for understanding the processes underlying detection data will continue to advance the potential for revealing the paradigms that govern movement and biological phenomena not just within lakes but in other realms spanning lands and oceans. Correction published here, October 2021: https://doi.org/10.1186/s40462-021-00285-3

Published

2021

15. A comprehensive framework for handling location error in animal tracking data

Author

Ronald Moen, Koji Yamazaki, Kamran Safi, Kristie A. Stein, Tom S. B. Akre, Alexandre Roulin, Nicholas P. Gould, Jared A. Stabach, Jill M. Shephard, Justin M. Calabrese, Nandintsetseg Dejid, Christopher M. Tonra, Yayoi Kaneko, Thomas Pfeiffer, Robin Séchaud, J.N. Dunlop, Vickie DeNicola, Shaun S. Killen, Michael J. Noonan, Kyana N. Pike, Donald J. Brown, Christopher S. DePerno, Roland Kays, Jack Hollins, Madaline M. Cochrane, Christen H. Fleming, Tricia A. Miller, Emília Patrícia Medici, Anne K. Scharf, Sergio A. Lambertucci, William F. Fagan, Hiroaki Ishii, Bernd-U. Meyburg, Barbara Koeck, Thomas Mueller, Scott D. LaPoint, and Jonathan Drescher-Lehman

Subjects

Schedule, Computer science, business.industry, Inference, Estimator, computer.software_genre, Visualization, Global Positioning System, Relevance (information retrieval), Anomaly detection, Data mining, Scale (map), business, computer

Abstract

Animal tracking data are being collected more frequently, in greater detail, and on smaller taxa than ever before. These data hold the promise to increase the relevance of animal movement for understanding ecological processes, but this potential will only be fully realized if their accompanying location error is properly addressed. Historically, coarsely-sampled movement data have proved invaluable for understanding large scale processes (e.g., home range, habitat selection, etc.), but modern fine-scale data promise to unlock far more ecological information. While GPS location error can often be ignored in coarsely sampled data, fine-scale data require more care, and tools to do this have not kept pace. Current approaches to dealing with location error largely fall into two categories—either discarding the least accurate location estimates prior to analysis or simultaneously fitting movement and error parameters in a hidden-state model. In some cases these approaches can provide a level of correction, but they have known limitations, and in some cases they can be worse than doing nothing. Here, we provide a general framework to account for location error in the analysis of triangulated and trilatcralizcd animal tracking data, which includes GPS, Argos Doppler-shift, triangulated VHF, trilatcralized acoustic and cellular location data. We apply our error-modelselection framework to 190 GPS, cellular, and acoustic devices representing 27 models from 14 manufacturers. Collectively, these devices were used to track a wide range of taxa comprising birds, fish, reptiles, and mammals of different sizes and with different behaviors, in urban, suburban, and wild settings. In almost half of the tested device models, error-model selection was necessary to obtain the best performing error model, and in almost a quarter of tested device models, the reported DOP values were actually misinformative. Then, using empirical tracking data from multiple species, we provide an overview of modern, error-informed movement analyses, including continuous-time path reconstruction, home-range distribution, home-range overlap, speed, and distance estimation. Adding to these techniques, we introduce new error-informed estimators for outlier detection and autocorrelation visualization. Because error-induced biases depend on many factors—sampling schedule, movement characteristics, tracking device, habitat, etc.—differential bias can easily confound biological inference and lead researchers to draw false conclusions. We demonstrate how error-informed analyses on calibrated tracking data can provide more accurate estimates are that are insensitive to location error, and allow researchers to use all of their data.

Published

2020

16. Interspecific association of brown trout (Salmo trutta ) with non-native brook trout (Salvelinus fontinalis ) at the fry stage

Author

Joacim Näslund, Magnus Lovén Wallerius, Jörgen I. Johnsson, and Barbara Koeck

Subjects

0106 biological sciences, Sympatry, endocrine system, animal structures, biology, urogenital system, animal diseases, 010604 marine biology & hydrobiology, Niche, Zoology, Interspecific competition, biology.organism_classification, digestive system, 010603 evolutionary biology, 01 natural sciences, Trout, Brown trout, Juvenile, Animal Science and Zoology, Salmo, Ecology, Evolution, Behavior and Systematics, Salvelinus

Abstract

The introduction of non-native brook trout (Salvelinus fontinalis) in Europe has led to displacement and decreasing populations of native brown trout (Salmo trutta). Some studies have found that brown trout shift to a diet niche similar to brook trout when the two species live in sympatry, which conflicts with the competitive exclusion principle. A change in feeding niche may be a sign of early interspecific association and social learning, leading to behavioral changes. As a first step to address this possibility, it is essential to assess the interspecific association between the species during the early ontogenetic life stages. In this study, we therefore assess whether juvenile brown trout associate with non-native juvenile brook trout to the same extent as with conspecifics by setting up two experiments: (i) a binomial choice test allowing visual and chemical cues to estimate the species specificity of group preference, and (ii) an association test without physical barriers to estimate the degree of association of a focal brown trout with a group of either conspecifics or heterospecifics. In experiment (1), we found that focal juvenile brown trout preferred to associate with the stimuli groups and did not discriminate either against conspecific or heterospecific groups. Furthermore, more active individuals showed stronger preference for the stimuli group than less active ones, regardless of species. In experiment (2), we found that brook trout groups had a tighter group structure than brown trout groups, and that focal brown trout showed stronger association with brook trout than with brown trout. These results indicate that brown trout may associate with brook trout at an early life stage, which would allow for interspecific social learning to occur. Future studies should look closer into causes and consequences of interspecific association and social learning, including potential effects on the phenotype selection in brown trout populations.

Published

2017

17. Aquatic Predators Influence Flux of Essential Micronutrients

Author

Shaun S. Killen, Libor Závorka, Martin J. Kainz, and Barbara Koeck

Subjects

Food Chain, Ecology, Predatory Behavior, Animals, Micronutrients, Biology, Micronutrient, Flux (metabolism), Ecology, Evolution, Behavior and Systematics, Ecosystem, Predation

Abstract

No abstract available.

Published

2019

18. Laboratory captivity can affect scores of metabolic rates and activity in wild brown trout

Author

Johan Höjesjö, Libor Závorka, Joacim Näslund, Magnus Lovén Wallerius, Barbara Koeck, Jörgen I. Johnsson, Niklas Wengström, Jeroen Brijs, Rémy Lassus, Julien Cucherousset, and David Aldvén

Subjects

0106 biological sciences, Phenotypic plasticity, 05 social sciences, Captivity, Zoology, Phenotypic trait, Biology, Affect (psychology), biology.organism_classification, 010603 evolutionary biology, 01 natural sciences, Acclimatization, Familiar environment, Brown trout, 0501 psychology and cognitive sciences, Animal Science and Zoology, 050102 behavioral science & comparative psychology, Salmo, Ecology, Evolution, Behavior and Systematics

Abstract

Phenotypic scoring of wild animals under standardized laboratory conditions is important as it allows field ecologists and evolutionary biologists to understand the development and maintenance of interindividual differences in plastic traits (e.g. behaviour and physiology). However, captivity is associated with a shift from a natural familiar environment to an unfamiliar and artificial environment, which may affect estimates of plastic phenotypic traits. In this study, we tested how previous experience with laboratory environments and time spent in captivity affects behavioural (i.e. activity) and metabolic (i.e. standard and maximum metabolic rates) scoring of our model species, wild brown trout Salmo trutta. We found that individuals with previous experience of laboratory captivity (10.5 months earlier) showed higher activity in an open field test than individuals with no prior experience of laboratory captivity. Previous experience with captivity had no significant effect on metabolic rates. However, metabolic rates seemed to increase with increasing time spent in captivity prior to the collection of measurements. Although there are benefits of keeping wild animals in captivity prior to scoring, our results suggest that while allowing for sufficient acclimatization researchers should aim at minimizing time in captivity of wild animals to increase accuracy and ecological relevance of the scoring of plastic phenotypic traits.

Published

2019

19. Shoal familiarity modulates effects of individual metabolism on vulnerability to capture by trawling

Author

David M. Bailey, Davide Thambithurai, T. E. Van Leeuwen, Barbara Koeck, Shaun S. Killen, Jack Hollins, and Brooke A. Allan

Subjects

Physiology, media_common.quotation_subject, Ecophysiology, Fishing, Vulnerability, trawl, Management, Monitoring, Policy and Law, Conformity, Life history theory, social behaviour, biology.animal, fishing, Nature and Landscape Conservation, media_common, geography, geography.geographical_feature_category, biology, Ecology, Trawling, Ecological Modeling, Shoal, Minnow, biology.organism_classification, Phoxinus, metabolism, Research Article

Abstract

The role of shoal familiarity in modulating relationships between individual fish’s metabolic traits and vulnerability to capture in a simulated trawl were tested in the lab. Fish tested in familiar shoals showed a negative relationship between anaerobic metabolic capacity and time spent in the trawl net, but not fish tested in unfamiliar shoals., Impacts of fisheries-induced evolution may extend beyond life history traits to more cryptic aspects of biology, such as behaviour and physiology. Understanding roles of physiological traits in determining individual susceptibility to capture in fishing gears and how these mechanisms change across contexts is essential to evaluate the capacity of commercial fisheries to elicit phenotypic change in exploited populations. Previous work has shown that metabolic traits related to anaerobic swimming may determine individual susceptibility to capture in trawls, with fish exhibiting higher anaerobic performance more likely to evade capture. However, high densities of fish aggregated ahead of a trawl net may exacerbate the role of social interactions in determining an individual fish’s behaviour and likelihood of capture, yet the role of social environment in modulating relationships between individual physiological traits and vulnerability to capture in trawls remains unknown. By replicating the final moments of capture in a trawl using shoals of wild minnow (Phoxinus phoxinus), we investigated the role of individual metabolic traits in determining susceptibility to capture among shoals of both familiar and unfamiliar conspecifics. We expected that increased shoal cohesion and conformity of behaviour in shoals of familiar fish would lessen the role of individual metabolic traits in determining susceptibility to capture. However, the opposite pattern was observed, with individual fish exhibiting high anaerobic capacity less vulnerable to capture in the trawl net, but only when tested alongside familiar conspecifics. This pattern is likely due to stronger cohesion within familiar shoals, where maintaining a minimal distance from conspecifics, and thus staying ahead of the net, becomes limited by individual anaerobic swim performance. In contrast, lower shoal cohesion and synchronicity of behaviours within unfamiliar shoals may exacerbate the role of stochastic processes in determining susceptibility to capture, disrupting relationships between individual metabolic traits and vulnerability to capture.

Published

2019

20. Field testing a novel high residence positioning system for monitoring the fine-scale movements of aquatic organisms

Author

Matthew M. Guzzo, Travis E. Van Leeuwen, Jack Hollins, Barbara Koeck, Matthew Newton, Dale M. Webber, Frank I. Smith, David M. Bailey, Shaun S. Killen

Published

2018

21. Coastal man-made habitats: Potential nurseries for an exploited fish species, Diplodus sargus (Linnaeus, 1758)

Author

Jérémy Pastor, Philippe Lenfant, Barbara Koeck, and Patrick Astruch

Subjects

Mediterranean climate, Fishery, Rocky shore, Larva, biology, Habitat, Ecology, Fish species, Human pressure, Diplodus, Aquatic Science, biology.organism_classification, Sargus

Abstract

Human pressure on seashores has induced the installation of many seawalls. Artificial coastal defence structures may be providential for the juveniles of fish species exploited by artisanal fisheries. Focusing on Diplodus sargus, the number of settling juveniles was estimated on artificial structures and on natural rocky shores. The aim is to know if these artificial areas can have a nursery function. Densities of juveniles are from 30 to 109 times greater than those in natural habitats. Artificial coastal defence structures can be regarded as artificial nurseries. However, in the studied case, they also cause the loss of the nursery function of the nearby lagoon. The artificial seawalls at the entrance to the lagoon receive almost all the larvae that would normally enter the lagoon. This study underlines the important role of these artificial habitats in the life cycle of white seabream. They may have a positive impact on maintaining other species exploited by artisanal fisheries.

Published

2013

22. Effects of intracoelomic tagging procedure on white seabream (Diplodus sargus) behavior and survival

Author

Barbara Koeck, Anaïs Gudefin, Julien Loubet, Pascal Romans, and Philippe Lenfant

Subjects

High variability, Captivity, Zoology, Anatomy, Diplodus, Aquatic Science, Biology, biology.organism_classification, White (mutation), Ethogram, medicine.anatomical_structure, medicine, Body cavity, Surgical incision, Ecology, Evolution, Behavior and Systematics, Sargus

Abstract

The effects of intracoelomic tagging procedure (i.e. implantation by surgical incision into the abdominal cavity or laparotomy) on wild white seabream (Diplodus sargus) were evaluated by the comparison of the behavior of tagged and untagged control fish. Activity budgets were made to examine their behaviors, using an instantaneous scan sampling method. This method consists in recording the occurrence of specific behaviors at a regular time interval. An ethogram was previously established, summarizing the different possible behaviors for white seabream in captivity conditions. The occurrence of the isolated behaviors from the ethogram between tagged and untagged groups and the temporal evolution of these behaviors were tested. The activity budgets of individual fish showed no significant differences, but high variability in behavioral patterns. No differences were detected for the occurrence of the different behaviors between the tagged and control groups, except for socializing behavior. Tagged fish were more often grouped than control fish. One fish lost its tag after 17 days, due to suture shedding (i.e. the loss of surgical monofilament used to close a wound by joining the edges). After 18 days, suture inspection showed that the incision regions had not healed, but no other fish had lost sutures. No mortality was recorded during the experiment, regardless of fish group. After 48 days, the tagged fish presented neither visceral damage nor inflammation. Incision regions presented no inflammation and had totally healed with only one out of the two or three suture points we made persisting for each tagged fish. In conclusion, neither tag presence in the body cavity nor the tagging procedure cause any adverse effects on the behavior and survival of wild seabream in captivity conditions. Therefore, we consider that the monitoring of tagged white seabreams is representative of untagged fish and reflect their natural behavior. Additionally, as white seabream recover quickly after surgery and present no adverse behavioral effects due to intracoelomic tag implantation, we recommend maintaining fish for as short a time as possible in captivity conditions to avoid extra stress, and to release them as soon as they recover from the tagging procedure.

Published

2013

23. Connectivity patterns of coastal fishes following different dispersal scenarios across a transboundary marine protected area (Bonifacio strait, NW Mediterranean)

Author

Sylvia Agostini, François Galgani, Olivia Gerigny, Laure-Hélène Garsi, Barbara Koeck, Paul-Antoine Bisgambiglia, Eric D.H. Durieux, and Sylvain Coudray

Subjects

Abiotic component, Mediterranean climate, reproductive timing, biophysical model, ichthyoplankton, Corsica, Pelagic zone, Aquatic Science, Ichthyoplankton, Oceanography, Fishery, pelagic larval duration, Mediterranean sea, Period (geology), Biological dispersal, Environmental science, Marine protected area, 14. Life underwater, early life stages

Abstract

The Strait of Bonifacio constitutes one of the rare transboundary Marine Protected Areas (MPA) of the Mediterranean Sea (between Sardinia, Italy and Corsica, France). Based on the hypothesis that no-take zones will produce more fish larvae, compared to adjacent fished areas, we modeled the outcome of larvae released by coastal fishes inside the no-take zones of the MPA in order to: (i) characterize the dispersal patterns across the Strait of Bonifacio; (ii) identify the main potential settlement areas; (iii) quantify the connectivity and the larval supply from the MPAs to the surrounding areas. A high resolution hydrodynamic model (MARS 3D, Corse 400m) combined to an individual based model (Ichthyop software) was used to model the larval dispersal of fish following various scenarios (Pelagic Larval Duration PLD and release depth) over the main spawning period (i.e. between April and September). Dispersal model outputs were then compared with those obtained from an ichthyoplankton sampling cruise performed in August 2012. There was a the significant influence of PLD to the connectivity between coastal areas. The synchronization between spawning and hydrodynamic conditions appeared to be determinant in the larval transport success. Biotic and abiotic parameters affecting the dispersal dynamic of fish larvae within the Strait of Bonifacio were identified and synthesis maps were established as a tool for conservation planning.

Published

2015

24. Contrasting patterns of phytoplankton assemblages in two coastal ecosystems in relation to environmental factors (Corsica, NW Mediterranean Sea)

Author

Bernard Marchand, Pierre Lejeune, Jean-Henri Hecq, Barbara Koeck, Anne Goffart, Sylvia Agostini, Marie Garrido, Amandine Collignon, Vanina Pasqualini, Sciences pour l'environnement (SPE), Centre National de la Recherche Scientifique (CNRS)-Université Pascal Paoli (UPP), Laboratoire d'Océanologie - Centre MARE, and Université de Liège

Subjects

coastal waters, ecological succession, size fractionation, Water Framework Directive, [SDV.EE.ECO]Life Sciences [q-bio]/Ecology, environment/Ecosystems, Mediterranean sea, pigment analysis, Phytoplankton, Littoral zone, Marine ecosystem, Ecosystem, phytoplankton, microscopy, 14. Life underwater, lcsh:QH301-705.5, ComputingMilieux_MISCELLANEOUS, Nature and Landscape Conservation, Ecology, Ecological Modeling, 15. Life on land, Agricultural and Biological Sciences (miscellaneous), lcsh:Biology (General), 13. Climate action, Environmental science, Eutrophication, Bloom, Bay

Abstract

Corsica Island is a sub-basin of the Northwestern Mediterranean Sea, with hydrological features typical of both oligotrophic systems and eutrophic coastal zones. Phytoplankton assemblages in two coastal ecosystems of Corsica (the deep Bay of Calvi and the shallow littoral of Bastia) show contrasting patterns over a one-year cycle. In order to determine what drives these variations, seasonal changes in littoral phytoplankton are considered together with environmental parameters. Our methodology combined a survey of the physico-chemical structure of the subsurface water with a characterization of the phytoplankton community structure. Sampling provided a detailed record of the seasonal changes and successions that occur in these two areas. Results showed that the two sampled stations presented different phytoplankton abundance and distribution patterns, notably during the winter–spring bloom period. Successions in pico-, nano-, and microphytoplankton communities appeared mainly driven by differences in the ability to acquire nutrients, and in community-specific growth rates. Phytoplankton structure and dynamics are discussed in relation to available data on the Northwestern Mediterranean Sea. These results confirm that integrated monitoring of coastal areas is a requisite for gaining a proper understanding of marine ecosystems.

Published

2014

25. Functional differences between fish communities on artificial and natural reefs: a case study along the French Catalan coast

Author

Barbara Koeck, Nicolas Dalias, Anne Tessier, Jérémy Pastor, Benjamin Bijaoui, Anik Brind’Amour, Patrick Astruch, Gilles Saragoni, Philippe Lenfant, Stella Mare, Université Pascal Paoli (UPP)-Centre National de la Recherche Scientifique (CNRS), Centre de Formation et de Recherche sur les Environnements Méditérranéens (CEFREM), Université de Perpignan Via Domitia (UPVD)-Centre National de la Recherche Scientifique (CNRS), SEANEO, Écologie et Modèles pour l'Halieutique (IFREMER EMH), Institut Français de Recherche pour l'Exploitation de la Mer - Atlantique (IFREMER Atlantique), Institut Français de Recherche pour l'Exploitation de la Mer (IFREMER)-Institut Français de Recherche pour l'Exploitation de la Mer (IFREMER), and GIS Posidonie

Subjects

QH301-705.5, Fishing, Ecological niche, Biodiversity, Coastal fish, Aquatic Science, Biology, Functional diversity, Oceanography, Microbiology, Underwater visual census, Fish community, Fisheries management, Mediterranean Sea, 14. Life underwater, Biology (General), Reef, Gulf of Lion, Ecology, Evolution, Behavior and Systematics, geography, geography.geographical_feature_category, Ecology, QR1-502, Habitat complexity, Fishery, Habitat, Species richness, [SDE.BE]Environmental Sciences/Biodiversity and Ecology

Abstract

International audience; In the context of growing anthropogenic disturbances that deeply alter marine coastal ecosystems, various management tools are used to protect biodiversity, such as fishing gear limitations, fishing quotas, protected areas or the creation of artificial reefs (ARs). In contrast to the other management tools, ARs require a modification of natural habitats. We used underwater visual censuses to investigate the effect of habitat modification on the structure of fish communities by comparing a natural reef (NR) to ARs with different habitat complexity. Different fish assemblage descriptors were used to assess species- and functional- and community-level aspects of the assemblages. ARs were rapidly colonized by adult fishes and presented community compositions different from that of the NR. Fish densities and functional richness were higher in the ARs than in the NR. Small isolated artificial structures, such as culverts and box-culverts, had different fish community compositions than more extended and complex structures, demonstrating the effect of structural habitat complexity on fish assemblages. Fish density was higher in small structures, most likely due to habitat isolation and patchiness. This study indicates that ARs which are located along sandy coastal areas with few rocky habitats and under high river nutrient influence, are a suitable habitat for rocky coastal fish communities. Nevertheless, due to higher habitat complexity and lower fishing pressure on ARs, fish communities of an AR functionally differ from those of a NR. Further research is necessary to understand how these differences act on the properties of the ecosystem as well as on local fisheries.

Published

2014

26. Diel and seasonal movement pattern of the dusky grouper Epinephelus marginatus inside a marine reserve

Author

Jérémy Pastor, Gilles Saragoni, Barbara Koeck, Nicolas Dalias, Philippe Lenfant, and Jérôme Payrot

Subjects

Male, Conservation of Natural Resources, Hot Temperature, Range (biology), Aquatic Science, Biology, Oceanography, Sexual Behavior, Animal, Animals, Telemetry, Grouper, Diel vertical migration, Swimming, Marine reserve, Epinephelus marginatus, General Medicine, biology.organism_classification, Pollution, Fishery, Habitat, Marine protected area, Animal Migration, Bass, Female, France, Seasons, Protected area

Abstract

Temporal movement patterns and spawning behaviour of the dusky grouper Epinephelus marginatus were investigated using depth and temperature sensors combined to acoustic telemetry. Results showed that these fish are year-round resident, remaining inside the fully protected area of the marine reserve of Cerbere-Banyuls (65 ha) and display a diurnal activity pattern. Records from depth sensors revealed that groupers range inside small, distinct, and individual territories. Individual variations in habitat depth are only visible on a seasonal scale, i.e., between the spawning season and the rest of the year. In fact, during summer months when the seawater temperature exceeded 20 °C, tagged groupers made vertical spawning migrations of 4-8 m in amplitude. These vertical migrations are characteristic of the reproductive behaviour of dusky groupers, during which they release their gametes. The results are notable for the implementation of management rules in marine protected areas, such as reduced navigation speed, boating or attendance during spawning season.

Published

2013

27. Evaluation of impact of artificial reefs on artisanal fisheries: need for complementary approaches

Author

Jérémy Pastor, Laetitia Larenie, Marion Jarraya, Gilles Saragoni, Philippe Lenfant, Patrick Astruch, and Barbara Koeck

Subjects

Artisanal fisheries, biology, Overfishing, Marcação visual, Recifes artificiais, Fishing, Artificial reef, Context (language use), Oceanography, biology.organism_classification, Scuba diving, Visual tagging, Fishery, Landings survey, Demersal fish, lcsh:Oceanography, Geography, SCUBA visual census, Sustainable management, Pesca artesanal, Monitoramento de desembarques, Censo visual por mergulho autônomo, Marine protected area, Species richness, lcsh:GC1-1581

Abstract

In a general context of fisheries decline due to overfishing and to other phenomena such as climate change, it appears to be crucial to implement a sustainable management of natural resources by finding a balance between conservation and exploitation purposes. Artificial reefs (ARs) have recently become one of the existing management tools, often in combination with fishing quotas or marine protected areas. To evaluate the effectiveness of the studied ARs, different methods have been used: (i) visual census by SCUBA diving (AR scale), (ii) fisheries landings survey (local scale) and (iii) external fish tagging (regional scale). Underwater visual census (UVC) showed a significantly higher species richness and density in ARs than in the control site. Abundance, biomass and LPUE data (Landings Per Unit Effort) issued from artisanal fisheries landings survey were not significantly different around the AR system from other fishing grounds of the French Catalan coast. The tagging experiments on Diplodus sargus suggested that the connectivity of demersal fish populations must be taken into account to evaluate the influence area of ARs and thus their indirect impacts on artisanal fisheries. The present study highlights the interest of combining methods covering different spatial scales in order to evaluate direct and indirect impacts of ARs on artisanal fisheries. Methods for the evaluation of AR efficiency are discussed.Dentro do atual contexto de redução nos estoques de peixes ligados à sobrepesca, e também à outros fenômenos tais como as mudanças climáticas, é indispensável implementar um plano de gestão durável para os recursos pesqueiros, conciliando sua exploração e conservação. Os recifes artificiais (RAs) tem surgido nos dias atuais como uma importante ferramenta de gestão, freqüentemente combinada à cotas de pesca ou áreas marinhas protegidas. Com a finalidade de avaliar a eficiência dos recifes artificiais, utilizou-se os seguintes métodos: i) censo visual direto através de mergulho autônomo com escafandro (na escala dos recifes artificiais); ii) monitoramento dos desembarques da pesca artesanal (na escala espacial local); e iii) marcações externas (em escala regional). As contagens realizadas através de mergulho mostraram que densidade e riqueza são significativamente mais elevadas nos recifes artificiais do que na área controle. A abundância, biomassa e os DPUE (Desembarques por unidade de esforço) provenientes do monitoramento dos desembarques da pesca artesanal, não foram significativamente diferentes entre as zonas de pesca do entorno dos recifes artificiais e as outras zonas de pesca da costa catalã francesa. Os resultados dos experimentos de marcação do sargo, Diplodus sargus, sugerem que a conectividade das populações de peixes demersais devem ser consideradas para avaliação das zonas de influência dos recifes artificiais e de seus impactos indiretos sobre a pesca artesanal. O presente estudo evidencia a oportunidade em combinar métodos que cubram diferentes escalas espaciais, a fim de avaliar os impactos diretos e indiretos dos RAs sobre a pesca artesanal. Os métodos para avaliar a eficiência dos recifes artificiais são também discutidos.

Published

2011

28. Contrasting Fish Behavior in Artificial Seascapes with Implications for Resources Conservation

Author

Josep Alós, Romain Crec'hriou, Anthony Caro, Reda Neveu, Barbara Koeck, Gilles Saragoni, and Philippe Lenfant

Subjects

Conservation of Natural Resources, Population Dynamics, Population, lcsh:Medicine, Marine and Aquatic Sciences, Coastal fish, Marine Biology, Biology, Oceanography, Spatio-Temporal Analysis, Mediterranean Sea, Animals, Spatial and Landscape Ecology, lcsh:Science, education, Reef, Ecosystem, Seascape, Ecological niche, education.field_of_study, geography, Multidisciplinary, geography.geographical_feature_category, Behavior, Animal, Ecology, Population Biology, Coral Reefs, lcsh:R, Fishes, Marine Ecology, Fisheries Science, Coral reef, Fishery, Habitat, Earth Sciences, lcsh:Q, Population Ecology, Artificial reef, Coastal Ecology, Research Article

Abstract

Artificial reefs are used by many fisheries managers as a tool to mitigate the impact of fisheries on coastal fish communities by providing new habitat for many exploited fish species. However, the comparison between the behavior of wild fish inhabiting either natural or artificial habitats has received less attention. Thus the spatio-temporal patterns of fish that establish their home range in one habitat or the other and their consequences of intra-population differentiation on life-history remain largely unexplored. We hypothesize that individuals with a preferred habitat (i.e. natural vs. artificial) can behave differently in terms of habitat use, with important consequences on population dynamics (e.g. life-history, mortality, and reproductive success). Therefore, using biotelemetry, 98 white seabream (Diplodus sargus) inhabiting either artificial or natural habitats were tagged and their behavior was monitored for up to eight months. Most white seabreams were highly resident either on natural or artificial reefs, with a preference for the shallow artificial reef subsets. Connectivity between artificial and natural reefs was limited for resident individuals due to great inter-habitat distances. The temporal behavioral patterns of white seabreams differed between artificial and natural reefs. Artificial-reef resident fish had a predominantly nocturnal diel pattern, whereas natural-reef resident fish showed a diurnal diel pattern. Differences in diel behavioral patterns of white seabream inhabiting artificial and natural reefs could be the expression of realized individual specialization resulting from differences in habitat configuration and resource availability between these two habitats. Artificial reefs have the potential to modify not only seascape connectivity but also the individual behavioral patterns of fishes. Future management plans of coastal areas and fisheries resources, including artificial reef implementation, should therefore consider the potential effect of habitat modification on fish behavior, which could have key implications on fish dynamics. © 2013 Koeck et al.

Published

2013

29. A physiological perspective on fisheries-induced evolution

Author

Shaun S. Killen, Jan Lindström, Amélie Crespel, Kevin J. Parsons, Steven J. Cooke, Jack Hollins, David M. Bailey, Davide Thambithurai, and Barbara Koeck

Subjects

0106 biological sciences, Environmental change, ecophysiology, Range (biology), media_common.quotation_subject, Population, Fishing, Context (language use), Biology, Fish stock, 010603 evolutionary biology, 01 natural sciences, harvest‐induced selection, Genetics, 14. Life underwater, education, fishing, Ecology, Evolution, Behavior and Systematics, media_common, education.field_of_study, metabolic rate, 010604 marine biology & hydrobiology, Fecundity, Fishery, Perspective, Psychological resilience, anthropogenic change, General Agricultural and Biological Sciences, Perspectives

Abstract

There is increasing evidence that intense fishing pressure is not only depleting fish stocks but also causing evolutionary changes to fish populations. In particular, body size and fecundity in wild fish populations may be altered in response to the high and often size‐selective mortality exerted by fisheries. While these effects can have serious consequences for the viability of fish populations, there are also a range of traits not directly related to body size which could also affect susceptibility to capture by fishing gears—and therefore fisheries‐induced evolution (FIE)—but which have to date been ignored. For example, overlooked within the context of FIE is the likelihood that variation in physiological traits could make some individuals within species more vulnerable to capture. Specifically, traits related to energy balance (e.g., metabolic rate), swimming performance (e.g., aerobic scope), neuroendocrinology (e.g., stress responsiveness) and sensory physiology (e.g., visual acuity) are especially likely to influence vulnerability to capture through a variety of mechanisms. Selection on these traits could produce major shifts in the physiological traits within populations in response to fishing pressure that are yet to be considered but which could influence population resource requirements, resilience, species’ distributions and responses to environmental change.