1994
DOI: 10.1577/1548-8675(1994)014<0710:mmoldf>2.3.co;2
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Microhabitat Models of Large Drift-Feeding Brown Trout in Three New Zealand Rivers

Abstract: We examined summer habitat use by 189 drift‐feeding brown trout Salmo trutta, 45–65 cm long (fork length), by measuring substrate, depth, mean velocity, focal point velocity use, and adjacent velocity into which fish were feeding in three New Zealand rivers. We compared habitat used with habitat available (simulated by hydraulic modeling), and we derived habitat use, habitat preference, and logistic regression models of habitat selection. Focal points usually were associated with large substrate components inc… Show more

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Cited by 118 publications
(112 citation statements)
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“…Each sampling point was classified as a suitable or unsuitable feeding site depending on its depth, velocity, and cover characteristics. We defined optimum feeding sites for brown trout, as depths exceeding 0.3 m with velocities between 0.20 and 0.30 m/s for age 1 and 2 trout and depths exceeding 0.6 m with velocities between 0.15 and 0.29 m/s for age 3 trout (Shirvell and Dungey 1983;Hayes and Jowett 1994;Grant 1999). Cover also had to be present within 1 m of these points.…”
Section: Bioenergetics Model Simulationsmentioning
confidence: 99%
“…Each sampling point was classified as a suitable or unsuitable feeding site depending on its depth, velocity, and cover characteristics. We defined optimum feeding sites for brown trout, as depths exceeding 0.3 m with velocities between 0.20 and 0.30 m/s for age 1 and 2 trout and depths exceeding 0.6 m with velocities between 0.15 and 0.29 m/s for age 3 trout (Shirvell and Dungey 1983;Hayes and Jowett 1994;Grant 1999). Cover also had to be present within 1 m of these points.…”
Section: Bioenergetics Model Simulationsmentioning
confidence: 99%
“…These ecological habitat suitability models have become an essential tool in the management and conservation of freshwater fish populations (Frank et al, 2011). The continuous univariate Habitat Suitability Curves (HSCs) are a simple and common modelling approach in studies involving the instream flow assessment (Payne and Allen, 2009), and hence several researchers have developed habitat suitability models in the form of the aforementioned HSCs (Ayllón et al, 2010;Bovee, 1978;Hayes and Jowett, 1994;Raleigh et al, 1986;Vismara et al, 2001). The Weighted Usable Area (WUA) (Bovee, 1998) derived from these models could be used in the assessment of minimum flows.…”
Section: Introductionmentioning
confidence: 99%
“…En conséquence, un microhabitat trop lent serait limitant en terme d'apport énergétique (nombre de proies insuffisant), alors qu'un habitat trop rapide nécessiterait une grande dépense d'énergie pour maintenir le poste (FACEY et GROSSMAN, 1992) et/ou réduirait la capturabilité des proies (HUGHES et DILL, 1990 ;HILL et GROSSMAN, 1993). (GOSSE et HELM, 1982 ;SHIRVELL et DUNGEY, 1983 ;HAYES et JOWETT, 1994 ;SHULER et NEHRING, 1994). …”
Section: Discussionunclassified