Does vertical migratory behaviour retain fish larvae onshore in upwelling ecosystems? A modelling study of anchovy in the southern Benguela
Authored by der Lingen C D van, P Freon, C Mullon, C Parada, C Roy, L Hutchings
Date Published: 2008
DOI: 10.2989/ajms.2008.30.3.1.635
Sponsors:
Institut de Recherche pour le Développement
Platforms:
No platforms listed
Model Documentation:
Other Narrative
Model Code URLs:
Model code not found
Abstract
A spatially explicit individual-based model (IBM) forced by 3D
temperature and current fields simulated by a hydrodynamic model of the
southern Benguela upwelling region was used to test two hypotheses
concerning the role of diel vertical migration (DVM) by Cape anchovy
Engraulis encrasicolus larvae and pre-recruits. These hypotheses were
that: ( 1) DVM enhances alongshore transport of anchovy eggs and larvae
from the spawning grounds to the nursery area while avoiding the lethal
effect of low water temperatures in the upwelling system, and/or ( 2)
DVM enhances the transport of larvae and pre-recruits from the offshore
to the onshore domain of the nursery area, and then counteracts offshore
advection by favouring retention. We tracked the trajectories of virtual
particles in the model and calculated a pre-recruitment index as a proxy
for transport success to the nursery area ( onshore and offshore) and
found that the index increased from 10\% to 20\% after the incorporation
of larval vertical migration into the IBM, with virtual individuals held
at depths of around 60 m showing maximal pre-recruitment index values.
Hence, DVM does appear to enhance transport to the nursery area (
offshore) for early and late larvae. Model outputs showed coarse-scale
horizontal distribution patterns of larvae by age/size class that are
similar to field observations for early, small larvae but not for large
larvae and pre-recruits. Observations show that early/small larvae are
located offshore whereas older/larger larvae and pre-recruits are found
closer to the continental shelf and the inner nursery grounds. This
disparity between model results and field observations does not support
the hypothesis that DVM is one of the mechanisms involved in the onshore
movement of early life-history stages, especially for large larvae.
Tags
Dispersal
population
patterns
Recruitment
Survival
Transport
Agulhas-bank
West-coast
Nursery areas
Eggs