Individual-based simulations of larval fish feeding in turbulent environments
Authored by Patrizio Mariani, Vincenzo Botte, Brian R MacKenzie, Andre W Visser
Date Published: 2007
DOI: 10.3354/meps07092
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Abstract
We used an individual-based model coupled to a realistic turbulence flow
field to assess the effects of a wide range of turbulence levels on
encounter rate (E), pursuit success and ingestion rate in fish larvae.
We parameterized the model for larvae of Atlantic cod Gadus morhua and
evaluated how the geometry of their prey search volume (hemisphere, wedge) affected feeding rates. We then compared model outputs with
feeding rates for cod larvae in previous laboratory and field studies.
Search volume is smaller and E is lower for wedge searchers than
hemisphere searchers. However, as turbulence increases, larvae encounter
more prey but pursuit success decreases exponentially (relative to calm
water), yielding a dome-shaped relationship between turbulence and
ingestion rate. These results are robust to search volume geometry
(wedge or hemisphere). The increase in ingestion rates at moderate
turbulence for wedge searchers (relative to calm water rates) was higher
than for hemisphere searchers. However, model results derived using
hemisphere geometry are consistent with previous laboratory and field
observations of cod larvae in turbulent environments. Cod larvae
observed in a field study on Georges Bank in 1993-1994 could feed at
rates which corresponded with observed growth rates if they behaved as
hemispherical searchers and consumed a diet consisting of relatively
large prey (e.g. copepodites and adults of Pseudocalanus); if they used
wedge-shaped volumes, their ingestion and growth rates would have been
ca. 80 \% lower, resulting in higher mortality. Models like those
developed here will increase future understanding of factors affecting
larval feeding rates and dietary composition.
Tags
Cod gadus-morhua
Small-scale turbulence
Plankton contact rates
Georges-bank
Herring clupea-harengus
Haddock
melanogrammus-aeglefinus
Juvenile atlantic cod
Homogeneous isotropic turbulence
Direct
numerical-simulation
Dome-shaped relationship