Effects of prey size structure and turbulence on feeding and growth of anchovy larvae

Authored by Oyvind Fiksen, Agurtzane Urtizberea

Date Published: 2013

DOI: 10.1007/s10641-012-0102-6

Sponsors: Norwegian Research Council (NRF)

Platforms: Fortran

Model Documentation: ODD Flow charts Mathematical description

Model Code URLs: Model code not found

Abstract

Foraging processes in plankton and planktivorous fish are constrained by relative prey and predator size and therefore, these are important variables to include in a foraging model. The distribution of prey biomass across different size classes can be characterized by a size spectrum slope. We present a foraging model for anchovy larvae including the most relevant processes such as prey encounter, capture- and pursuit success, all influenced by light, turbulence and prey characteristics. We modelled ingestion rates and specific growth rate by coupling the foraging model with an existing bioenergetic model, and performed a sensitivity analysis of prey ingestion in turbulent environments assuming either hemispherical or conical perceptive volume. Our results suggest that turbulence has no positive effect because of the low capture ability, small prey size and small visual volume for anchovy larvae. The predicted ingestion is too low to sustain the growth potential of larvae when assuming conical perceptive volume even under prey densities substantially higher than normally found in the field. Ingestion rate is sensitive to the total biomass and the slope of the prey size spectra, specifically because it determines the abundance of prey around the optimal size for the larvae. The model also suggests that small larvae benefit from a prey size structure with steep prey size-spectra slope while a large larva benefit from less steep slopes. The model can act as a link between size-spectra measurements from the field and the foraging conditions of larval anchovies.

Tags

individual-based models Foraging behavior Georges bank Cod gadus-morhua North-sea Small-scale turbulence Encounter rates Herring clupea-harengus Engraulis-encrasicolus larvae Video plankton recorder