2018
DOI: 10.1111/eff.12404
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Swimming responses of larval and juvenile freshwater fishes to nearshore and offshore water sources

Abstract: Dispersal of young fish through wind‐driven currents has a growing research focus in large freshwater lakes; however, the influence of behaviour on such dispersal has not been tested. Fish may orient to different environmental cues and use swimming behaviours to navigate towards or retain their position within important habitats. To examine the ability of larval and juvenile fishes of the Laurentian Great Lakes to perceive and orient to nearshore or offshore habitats, we carried out a series of behavioural tri… Show more

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Cited by 3 publications
(2 citation statements)
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“…In contrast, C. gibelio from the dams revealed considerably high shape variations, particularly in the body depth and snout length, suggesting a greater magnitude of environmental heterogeneity (biotic and/or abiotic) among dams. There is considerable evidence that the intra‐population morphological (phenotypic) variation can increase with increasing environmental heterogeneity, and thus, the population experiencing higher environmental heterogeneity often exhibits more elevated levels of morphological (phenotypic) variation (Griffiths et al, 2000; Lázaro‐Nogal et al, 2015; Malinich, 2019). Water flow is considered the main driver that initiates the morphological variation in fishes (Haas et al, 2010; Kelley et al, 2017; Shuai et al, 2018).…”
Section: Discussionmentioning
confidence: 99%
“…In contrast, C. gibelio from the dams revealed considerably high shape variations, particularly in the body depth and snout length, suggesting a greater magnitude of environmental heterogeneity (biotic and/or abiotic) among dams. There is considerable evidence that the intra‐population morphological (phenotypic) variation can increase with increasing environmental heterogeneity, and thus, the population experiencing higher environmental heterogeneity often exhibits more elevated levels of morphological (phenotypic) variation (Griffiths et al, 2000; Lázaro‐Nogal et al, 2015; Malinich, 2019). Water flow is considered the main driver that initiates the morphological variation in fishes (Haas et al, 2010; Kelley et al, 2017; Shuai et al, 2018).…”
Section: Discussionmentioning
confidence: 99%
“…Dispersal in large freshwater systems is influenced by water currents, and previous studies have often considered juvenile fish to act similar to passive particles [2,3]. However, recent research suggests that juvenile fish dispersal may not be entirely passive [4]. The marine origin of percids [5] likely explains the existence of the early pelagic phase in their life cycle [3,6].…”
Section: Introductionmentioning
confidence: 99%