Evidence for a Dome-Shaped Relationship Between Turbulence and Larval Fish Ingestion Rates

Recent theoretical work suggests that small-scale turbulence enhances encounter rates between larval fish and treir prey. This finding has been extended to suggest that feeding rates will increase in turbulent environments. However, this extrapolation assumes that turbulence has no detrimental effec...

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Published in:	Limnology and oceanography Vol. 39; no. 8; pp. 1790 - 1799
Main Authors:	MacKenzie, Brian R., Miller, Thomas J., Cyr, Stephane, Leggett, William C.
Format:	Journal Article
Language:	English
Published:	Waco, TX American Society of Limnology and Oceanography 01-12-1994
Subjects:	Animal, plant and microbial ecology Biological and medical sciences Brackish Fish larvae Freshwater Fundamental and applied biological sciences. Psychology General aspects. Techniques Ingestion Larvae Marine Marine fishes Methods and techniques (sampling, tagging, trapping, modelling...) Pisces Plankton Predators Swimming Turbulence Turbulence models Velocity Aquatic environment Geometrical shape Vertebrata Correlation Turbulence Larva Food intake Pisces Environmental factor Mathematical model Zooplankton
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Abstract	Recent theoretical work suggests that small-scale turbulence enhances encounter rates between larval fish and treir prey. This finding has been extended to suggest that feeding rates will increase in turbulent environments. However, this extrapolation assumes that turbulence has no detrimental effects on post-encounter behaviors (e.g. pursuit success). We develop an analytical model to estimate the probability that larval fish feeding in turbulent environments successfully pursue encountered prey. We show that the overall probability of feeding is a dome-shaped function of turbulent velocity and that the height and location of the maxima depend on turbulence level and the behavioral characteristics of predator and prey. Highly, turbulent conditions (e.g. storms) will reduce feeding rates below those which occur during calmer conditions and will affect the type of prey captured and ingested.
AbstractList	Recent theoretical work suggests that small-scale turbulence enhances encounter rates between larval fish and treir prey. This finding has been extended to suggest that feeding rates will increase in turbulent environments. However, this extrapolation assumes that turbulence has no detrimental effects on post-encounter behaviors (e.g. pursuit success). We develop an analytical model to estimate the probability that larval fish feeding in turbulent environments successfully pursue encountered prey. We show that the overall probability of feeding is a dome-shaped function of turbulent velocity and that the height and location of the maxima depend on turbulence level and the behavioral characteristics of predator and prey. Highly, turbulent conditions (e.g. storms) will reduce feeding rates below those which occur during calmer conditions and will affect the type of prey captured and ingested. Recent theoretical work suggests that small‐scale turbulence enhances encounter rates between larval fish and their prey. This finding has been extended to suggest that feeding rates will increase in turbulent environments. However, this extrapolation assumes that turbulence has no detrimental effects on post‐encounter behaviors (e.g. pursuit success). We develop an analytical model to estimate the probability that larval fish feeding in turbulent environments successfully pursue encountered prey. We show that the overall probability of feeding is a dome‐shaped function of turbulent velocity and that the height and location of the maxima depend on turbulence level and the behavioral characteristics of predator and prey. Highly turbulent conditions (e.g. storms) will reduce feeding rates below those which occur during calmer conditions and will affect the type of prey captured and ingested.
Author	Cyr, Stephane MacKenzie, Brian R. Miller, Thomas J. Leggett, William C.
Author_xml	– sequence: 1 givenname: Brian R. surname: MacKenzie fullname: MacKenzie, Brian R. – sequence: 2 givenname: Thomas J. surname: Miller fullname: Miller, Thomas J. – sequence: 3 givenname: Stephane surname: Cyr fullname: Cyr, Stephane – sequence: 4 givenname: William C. surname: Leggett fullname: Leggett, William C.
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Snippet	Recent theoretical work suggests that small-scale turbulence enhances encounter rates between larval fish and treir prey. This finding has been extended to... Recent theoretical work suggests that small‐scale turbulence enhances encounter rates between larval fish and their prey. This finding has been extended to... Recent theoretical work suggests that small-scale turbulence enhances encounter rates between larval fish and their prey. This finding has been extended to...
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SubjectTerms	Animal, plant and microbial ecology Biological and medical sciences Brackish Fish larvae Freshwater Fundamental and applied biological sciences. Psychology General aspects. Techniques Ingestion Larvae Marine Marine fishes Methods and techniques (sampling, tagging, trapping, modelling...) Pisces Plankton Predators Swimming Turbulence Turbulence models Velocity
Title	Evidence for a Dome-Shaped Relationship Between Turbulence and Larval Fish Ingestion Rates
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