Foraging dynamics of Southern Brook Charr (Salvelinus fontinalis)

Habitat selection in drift feeding fishes, the majority of stream fishes in North America, is strongly affected by velocity, as well as other environmental and intrinsic characteristics of an individual drift feeder (e.g., size and dominance status). Our study subject, the Brook Charr ( Salvelinus f...

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Published in	Environmental biology of fishes Vol. 104; no. 7; pp. 825 - 835
Main Authors	Sliger, Ridge, Grossman, Gary D.
Format	Journal Article
Language	English
Published	Dordrecht Springer Netherlands 01.07.2021 Springer Nature B.V
Subjects	Animal behavior Animal Systematics/Taxonomy/Biogeography Biomedical and Life Sciences captive animals Captivity Dominance hierarchies Drift Dynamics Economic importance Environment Feeders Fish Foraging Foraging habitats Freshwater & Marine Ecology Freshwater plants habitat preferences Habitat selection Life Sciences Nature Conservation North America Prey Salvelinus fontinalis Streams Success Velocity Water velocity Zoology North America Microhabitat Holding velocity Reactive distance Drift-feeding Prey capture Brook Trout
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Abstract	Habitat selection in drift feeding fishes, the majority of stream fishes in North America, is strongly affected by velocity, as well as other environmental and intrinsic characteristics of an individual drift feeder (e.g., size and dominance status). Our study subject, the Brook Charr ( Salvelinus fontinalis Mitchill), is a widely distributed and economically important salmonid fish which exists in a variety of forms. We tested the effects of water velocity, fish size, days in captivity, dominance status, and size rank on prey capture success, holding velocity, and reactive distance of wild Southern Brook Charr (SBC), a rare subspecies. Mechanistic studies of foraging dynamics of drift feeders are not common. Prey capture success was negatively related to water velocity, holding velocity was positively related to water velocity, and larger, dominant fish had greater prey capture success than smaller subordinates. Prey capture success declined from 10 to 60 cm·s –1 . Reactive distances were not strongly or consistently affected by any treatment variables. Our data indicate that all else being equal, Southern Brook Charr will forage well in streams with abundant velocities up to 30 cm·s –1 .
AbstractList	Habitat selection in drift feeding fishes, the majority of stream fishes in North America, is strongly affected by velocity, as well as other environmental and intrinsic characteristics of an individual drift feeder (e.g., size and dominance status). Our study subject, the Brook Charr (Salvelinus fontinalis Mitchill), is a widely distributed and economically important salmonid fish which exists in a variety of forms. We tested the effects of water velocity, fish size, days in captivity, dominance status, and size rank on prey capture success, holding velocity, and reactive distance of wild Southern Brook Charr (SBC), a rare subspecies. Mechanistic studies of foraging dynamics of drift feeders are not common. Prey capture success was negatively related to water velocity, holding velocity was positively related to water velocity, and larger, dominant fish had greater prey capture success than smaller subordinates. Prey capture success declined from 10 to 60 cm·s–¹. Reactive distances were not strongly or consistently affected by any treatment variables. Our data indicate that all else being equal, Southern Brook Charr will forage well in streams with abundant velocities up to 30 cm·s–¹. Habitat selection in drift feeding fishes, the majority of stream fishes in North America, is strongly affected by velocity, as well as other environmental and intrinsic characteristics of an individual drift feeder (e.g., size and dominance status). Our study subject, the Brook Charr ( Salvelinus fontinalis Mitchill), is a widely distributed and economically important salmonid fish which exists in a variety of forms. We tested the effects of water velocity, fish size, days in captivity, dominance status, and size rank on prey capture success, holding velocity, and reactive distance of wild Southern Brook Charr (SBC), a rare subspecies. Mechanistic studies of foraging dynamics of drift feeders are not common. Prey capture success was negatively related to water velocity, holding velocity was positively related to water velocity, and larger, dominant fish had greater prey capture success than smaller subordinates. Prey capture success declined from 10 to 60 cm·s –1 . Reactive distances were not strongly or consistently affected by any treatment variables. Our data indicate that all else being equal, Southern Brook Charr will forage well in streams with abundant velocities up to 30 cm·s –1 . Habitat selection in drift feeding fishes, the majority of stream fishes in North America, is strongly affected by velocity, as well as other environmental and intrinsic characteristics of an individual drift feeder (e.g., size and dominance status). Our study subject, the Brook Charr (Salvelinus fontinalis Mitchill), is a widely distributed and economically important salmonid fish which exists in a variety of forms. We tested the effects of water velocity, fish size, days in captivity, dominance status, and size rank on prey capture success, holding velocity, and reactive distance of wild Southern Brook Charr (SBC), a rare subspecies. Mechanistic studies of foraging dynamics of drift feeders are not common. Prey capture success was negatively related to water velocity, holding velocity was positively related to water velocity, and larger, dominant fish had greater prey capture success than smaller subordinates. Prey capture success declined from 10 to 60 cm·s–1. Reactive distances were not strongly or consistently affected by any treatment variables. Our data indicate that all else being equal, Southern Brook Charr will forage well in streams with abundant velocities up to 30 cm·s–1.
Author	Sliger, Ridge Grossman, Gary D.
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SubjectTerms	Animal behavior Animal Systematics/Taxonomy/Biogeography Biomedical and Life Sciences captive animals Captivity Dominance hierarchies Drift Dynamics Economic importance Environment Feeders Fish Foraging Foraging habitats Freshwater & Marine Ecology Freshwater plants habitat preferences Habitat selection Life Sciences Nature Conservation North America Prey Salvelinus fontinalis Streams Success Velocity Water velocity Zoology
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Title	Foraging dynamics of Southern Brook Charr (Salvelinus fontinalis)
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