Fe. Werner et al., Larval trophodynamics, turbulence, and drift on Georges Bank: A sensitivity analysis of cod and haddock, SCI MAR, 65, 2001, pp. 99-115
Using an individual-based model approach we consider trophodynamic effects
on the growth and survival of larval cod (Gadus morhua) and haddock (Melano
grammus aeglefinus) on Georges Bank during late winter/early spring. These
studies represent an extension of results described in Werner et al. (1996;
Deep-Sea Res. lf), wherein the effect of turbulence-enhanced larval-prey c
ontact rates increased the effective prey concentration resulting in growth
of cod larvae consistent with observed rates in the field. We reformulated
the feeding of the larvae to include existing relationships between maximu
m prey-length and larval-length and we examined: (i) larval search behaviou
r and its effect on encounter with prey, (ii) the ability of larvae to purs
ue and capture prey in a turbulent environment, and (iii) the effect of tur
bulence on the dispersion of larvae in the vertical, We find that search be
haviour, the effect of turbulence on pursuit and capture, and vertical disp
ersion decrease the predicted larval growth rates compared to those observe
d in the earlier study. These results suggest that larval feeding behaviour
, and especially the ability of larvae to pursue encountered prey, could be
an important input to larval growth and survival models. The inclusion of
turbulence in determining the position of passive larvae in the water colum
n allows the larvae to sample the entire water column, contributing to a de
crease in the variance of the size of the larvae over time. The ability of
larvae to swim and aggregate in the vertical will be necessary to reproduce
distributions observed in the field.