Familiarity, prior residency, resource availability and body mass as predictors of the movement activity of the European catfish

Slavík, Ondřej; Horký, Pavel; Maciak, Matúš; Wackermannová, Marie

doi:10.1007/s10164-015-0441-9

Cited by 16 publications

(20 citation statements)

References 55 publications

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“…Barbel, chub and catfish demonstrated high interseason fidelity to certain preferred habitats within the study area, even after long Dn (Figure 3). Site fidelity was also observed for barbel (Britton & Pegg, 2011;De Vocht & Baras, 2005;Ovidio et al, 2007), chub (Allouche et al, 1999), dace (Leuciscus leuciscus (L.); Clough & Ladle, 1997), ide (Leuciscus idus (L.); Kulíšková, Horký, Slavík & Jones, 2009;Winter & Fredrich, 2003) and catfish (Brevé et al, 2014;Carol, Zamora & García-Berthou, 2007), and may be regarded as a valuable behavioural strategy that minimises energy expenditure (Hart, 1986), or to defend territories in the case of the catfish (Slavík, Horký, Maciak & Wackermannová, 2016). In the present study (a study reach three times longer than the study reach of Brevé et al, 2014), site fidelity mostly appeared with the catfish, that tended to change location less often than the other species and that had lower interindividual heterogeneity mobility patterns (Figure 3).…”

Section: Discussionmentioning

confidence: 96%

Individual movements, home ranges and habitat use by native rheophilic cyprinids and non‐native catfish in a large regulated river

Capra

Pella

Ovidio

2018

Fisheries Management Eco

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The mobility patterns of two native species, barbel, Barbus barbus (L.) and chub, Squalius cephalus (L.), and of one non‐native fish species, the catfish Silurus glanis (L.), were assessed on a 35.5‐km reach of the Upper Rhône River, a strong flowing river with notable thermal regime alterations. An active acoustic tracking technique adapted to large rivers allowed (1) the identification of longitudinal home ranges, movements and preferred habitat at large scale, and (2) the analysis of the influence of discharge and water temperature on the movement patterns of the fish. The active fish‐tracking system recorded 1,572 fish localisations over 7 months on a weekly basis for 80% of the tagged fish (37 barbel, 23 chub and 13 catfish). Compared with the catfish, barbel and chub showed wider longitudinal home ranges, more movements >1 km and higher interindividual variability. The catfish preferred artificially heated habitats with less morphological diversity. The three species were more often localised in river sections with high density of woody debris. The results suggest that habitat degradation is more damaging for cyprinids in large modified rivers, while the catfish seemed less, impacted.

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Section: Discussionmentioning

confidence: 96%

Individual movements, home ranges and habitat use by native rheophilic cyprinids and non‐native catfish in a large regulated river

Capra

Pella

Ovidio

2018

Fisheries Management Eco

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“…For example, smaller individual zebrafish ( Danio rerio Hamilton, 1822) were more active in areas with a potentially higher predation risk (Polverino, Bierbach, Killen, Uusi‐Heikkilä, & Arlinghaus, ). Similarly, smaller catfish ( S. glanis ) showed more motivation to search for shelter than larger conspecifics (Slavík et al., ). However, the results from the field study presented here tended to show a positive relationship between body size and movement at the subpopulation level.…”

Section: Discussionmentioning

confidence: 99%

“…For example, newcomer coral fish ( Stegastes diencaeus Jordan and Rutter, 1897) showed higher movement and lower food intake compared with residents, and they experienced more attacks, indicating that relocating to a new territory induces higher energy costs, including those associated with stress, as well as decreased energy intake (McDougall & Kramer, ). Similarly, prior residency reduced the movement of catfish ( Silurus glanis Linnaeus, 1758) during competition for shelter; that is, to acquire available resources, intruders increased their movement more than residents (Slavík, Horký, Maciak, & Wackermannova, ). Specifically, individuals familiar with an area tend to be more successful in designating that area as a territory, so the specific behavior patterns of intruders, for example, increased movement, may be motivated by an effort to obtain more information about the local environment (Bruinzeel & van de Pol, ).…”

Section: Discussionmentioning

confidence: 99%

Diel movement of brown trout,Salmo trutta, is reduced in dense populations with high site fidelity

Slavík

Horký

Maciak

et al. 2018

Ecology and Evolution

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The movement of individuals within preferred areas is reduced by a high availability of food and information about its distribution, while high number of competitors promotes increased movement. Experienced animals use information about social and physical environment to improve resources exploitation, tended to maintain positions within the preferred areas and reuse the environment that is often referred to as site fidelity. In this study, radio‐telemetry was used to observe the movements of 98 adult brown trout, Salmo trutta, in oligotrophic streams with different population densities; to determine subpopulation site fidelity, 5,195 conspecifics from 14 subpopulations were individually tagged during spring and autumn. During a 7‐year‐long field study, we tested the hypothesis that brown trout individuals from subpopulations with high site fidelity would display lower movement. The hypothesis was supported, and reduced movement was further related to high subpopulation density in association with high slope indicating the physical environment‐influenced movement. The probability of contact between individuals increased with subpopulation site fidelity and subpopulation density. No influence of food abundance on brown trout movement was found. Furthermore, increased body size predicted higher movement (and vice versa). The least movement occurred during the day and during the full moons. Our study tended to show that individuals reused preferred areas and needed less movement to exploit available resources.

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“…Previous catfish stocking experiments in Czech reservoirs have shown that catfish respond to conditions surpassing ecological carrying capacity with extended movements, declines in growth and high catchability to angling gear, indicating intensive foraging in their new environment (Vejřík et al, 2017, 2019). Also, in previous work catfish have been found to be stressed by social competition (Carol et al, 2007; Slavík & Horký, 2009; Slavík et al, 2014), and are also challenged by finding shelter among unfamiliar individuals (Slavík, Horký, Maciak, & Wackermannová, 2016). Alternatively, because the translocated catfish were relatively large‐bodied, even the smallest catfish that we stocked unlikely experienced substantial risk of predation.…”

Section: Discussionmentioning

confidence: 96%

Behavioural and fitness effects of translocation to a novel environment: Whole‐lake experiments in two aquatic top predators

Monk

Chéret

Czapla

et al. 2020

Journal of Animal Ecology

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Familiarity, prior residency, resource availability and body mass as predictors of the movement activity of the European catfish

Cited by 16 publications

References 55 publications

Individual movements, home ranges and habitat use by native rheophilic cyprinids and non‐native catfish in a large regulated river

Individual movements, home ranges and habitat use by native rheophilic cyprinids and non‐native catfish in a large regulated river

Diel movement of brown trout,Salmo trutta, is reduced in dense populations with high site fidelity

Behavioural and fitness effects of translocation to a novel environment: Whole‐lake experiments in two aquatic top predators

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