Preliminary Comparisons of Day and Night Habits of Freshwater Fish in Ontario Lakes

Emery, Alan R.

doi:10.1139/f73-131

Cited by 161 publications

(102 citation statements)

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“…For visually oriented species, decreased activity may lower energetic costs during periods when fish are not actively feeding (Neilson & Perry 1990, Sogard & Olla 1996. Decreased activity may also facilitate the maintenance of congregations when there is insufficient light for visually mediated shoaling (Emery 1973). In addition to this modest light/dark effect, there was also a strong diel pattern of swimming speed, characterized by peak speeds during the early morning, which decreased through the day and then decreased further to uniformly low levels during the night.…”

Section: Discussionmentioning

confidence: 99%

“…Although other senses, such as the lateral line system, may play an important role in the spatial and angular orientation of individuals within a school (Partridge & Pitcher 19801, it is unlikely that in the wild many species are capable of schooling in the absence of sufficient light. Thls impression is supported by observational (Emery 1973, Helfman 1979 and bioacoustical studies which generally show that shoals and schools disperse at night (Appenzeller & Leggett 1992, Brodeur & Wilson 1996. Since ambient light in marine and aquatic habitats may vary greatly according to depth, turbidity, season, lunar stage and cloud cover (McFarland 1986), the meaning of 'night', relative to light levels, 1s rather ambiguous.…”

Section: Introductionmentioning

confidence: 96%

“…However, fish may have evolved other behaviors that minimize their nocturnal vulnerability and perhaps facilitate the reformation of groups at dawn. Some fish species decrease their activity during the night (Emery 1973, Helfman 1993) to conserve energy and possibly to reduce conspicuousness to predators. For shoaling and schooling fish, this may also minimize group dispersal and decrease the time required for individuals to locate conspecifics and reform shoals or schools at dawn.…”

Section: Introductionmentioning

confidence: 99%

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Effect of light on juvenile walleye pollock shoaling and their interaction with predators

Ryer¹,

Olla²

1998

Mar. Ecol. Prog. Ser.

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Research was undertaken to examine the influence of light lntenslty on the shoaling behavior, activity and anti-predator behavior of juvenlle walleye pollock Theragra chalcogramrna. Under a 12 h light/l2 h dark photoperiod, juveniles displayed a diurnal shoaling and activity pattern, characterized by fish swimming in cohesive groups during the day, with a cessation of shoaling and decreased swlmmlng speeds at nlght. Prior studies of school~ng fishes have demonstrated distinct light thresholds below which school~ng abruptly ceases. To see if this threshold effect occurs in a predominantly shoaling species, like juvenile walleye pollock, another experiment was undertaken in which illumination was lourered by orders of magnitude, glrrlng fish 20 mln to adapt to each light intensity Juvenlle walleye pollock were not characterized by a d~stinct light threshold for shoaling; groups gradually dispersed as light levels decreased and gradually recoalesced as light levels increased. At light levels below 2.8 X 1 0 .~ pE SS' m-" juvenile walleye pollock were so dispersed as to no longer constitute a shoal. Exposure to simulated predation risk had differing effects upon fish behavior under light and dark cond~tions Brief exposure to a mndc! p r e r l s t~r :E !he .'ark c;i;ssd fish to ~W

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Section: Discussionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 96%

Section: Introductionmentioning

confidence: 99%

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Effect of light on juvenile walleye pollock shoaling and their interaction with predators

Ryer¹,

Olla²

1998

Mar. Ecol. Prog. Ser.

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“…In our simulations, we assumed that wolves primarily detected caribou by olfaction and/or audition because forest cover limits visual detection. Environmental effects on vision may also determine the spatial distribution of prey as it directly affects the benefit of early predator detection provided by groups (Pulliam 1973, Beauchamp 2014 (Emery 1973) and dolphins (Scott and Cattanach 1998).…”

Section: Discussionmentioning

confidence: 99%

Spatial Patterning of Prey at Reproduction to Reduce Predation Risk: What Drives Dispersion from Groups?

DeMars

Breed

Potts

et al. 2016

The American Naturalist

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Group-living is a widespread behaviour thought to be an evolutionary adaptation for reducing predation risk. Many group-living species, however, spend a portion of their life cycle as dispersed individuals, suggesting that the costs and benefits of these opposing behaviours vary temporally. Here, we evaluated mechanistic hypotheses for explaining individual dispersion as a tactic for reducing predation risk at reproduction (i.e. birthing) in an otherwise group-living animal. Using simulation analyses parameterized by empirical data, we assessed whether dispersion increases reproductive success by: (i) increasing predator search time, (ii) reducing predator encounter rates because individuals are inconspicuous relative to groups, or (iii) eliminating the risk of multiple kills per encounter. Simulations indicate that dispersion only becomes favourable when detectability increases with group size and there is risk of multiple kills per encounter. This latter effect, however, is likely the primary mechanism driving females to disperse at reproduction because group detectability effects are presumably constant year round. We suggest that the risk of multiple kills imposed by highly vulnerable offspring may be an important factor influencing dispersive behaviour in many species and conservation strategies for such species will require protecting sufficient space to allow dispersion to effectively reduce predation risk.

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“…This dispersal makes fish more easily detected (especially as single targets) by acoustic equipment. Fish also move between offshore and nearshore areas between day and night (e.g., Emery 1973). Masson et al (2001) found that at night, fish distributions were skewed towards the offshore, with a greater proportion of smaller bodied fish present compared with daytime surveys.…”

Section: Figmentioning

confidence: 99%

Acoustic measures of lake community size spectra

Wheeland

Rose

2016

Can. J. Fish. Aquat. Sci.

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Acoustic methods were tested as an alternative to catch data to measure size spectra of freshwater fish communities in Lac du Bonnet (LdB), Manitoba, Canada. Eleven daytime hydroacoustic surveys conducted in 2011 and 2012 enabled lengthfrequency spectra of fish communities to be calculated within LdB. Fish echoes tracked and converted to length (>5 cm) formed size spectra with significant linear regressions in all cases (p values < 0.05, R 2 values from 0.87 to 0.99). Fish abundance (spectral height) was greater in 2011 (mean ± SD = 0.19 ± 0.15) than in 2012 (-0.19 ± 0.20), decreasing through the summer sampling season. Both abundance and size composition (spectral slope) of fish communities differed between three basins of varying bathymetry, with steepest slopes and lowest heights associated with the shallowest waters. We conclude that acoustically derived size spectra provide an efficient means to detect and monitor fish community dynamics over varied spatial and temporal scales in aquatic ecosystems where fish are not highly aggregated and hence single acoustic targets predominate.Résumé : Des méthodes acoustiques ont été mises à l'essai comme solution de rechange aux données sur les prises pour mesurer les spectres de tailles de communautés de poissons d'eau douce dans le lac du Bonnet (LdB), au Manitoba (Canada). Onze levés hydroacoustiques diurnes menés en 2011 et 2012 ont permis de calculer les spectres de fréquences des longueurs des communautés de poissons dans le LdB. Les échos de poissons suivis et convertis en longueur (>5 cm) formaient des spectres de tailles donnant des régressions linéaires significatives dans tous les cas (p < 0,05; R 2 = 0,87-0,99). L'abondance des poissons (hauteur des spectres) était plus grande en 2011 (moyenne ± écart-type = 0,19 ± 0,15) qu'en 2012 (-0,19 ± 0,20), montrant une diminution au fil de la saison d'échantillonnage estivale. Tant l'abondance que la composition par taille (pente des spectres) des communautés de poissons étaient différentes pour trois bassins de bathymétrie distincte, les pentes les plus grandes et les hauteurs les plus faibles étant associées aux eaux les moins profondes. Nous concluons que les spectres de tailles obtenus de levés acoustiques constituent un moyen efficace pour détecter et surveiller la dynamique des communautés de poissons à différentes échelles spatiales et temporelles dans les écosystèmes aquatiques dans lesquels les poissons ne sont pas très agrégés et où dominent donc les cibles acoustiques individuelles. [Traduit par la Rédaction]

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Preliminary Comparisons of Day and Night Habits of Freshwater Fish in Ontario Lakes

Cited by 161 publications

References 0 publications

Effect of light on juvenile walleye pollock shoaling and their interaction with predators

Effect of light on juvenile walleye pollock shoaling and their interaction with predators

Spatial Patterning of Prey at Reproduction to Reduce Predation Risk: What Drives Dispersion from Groups?

Acoustic measures of lake community size spectra

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