Modeling transport and survival of anchoveta eggs and yolk-sac larvae in the coastal zone off central-southern Chile: Assessing spatial and temporal spawning parameters
Authored by Carolina Parada, Francois Colas, Samuel Soto-Mendoza, Leonardo Castro, Wolfgang Schneider
Date Published: 2012
DOI: 10.1016/j.pocean.2011.07.001
Sponsors:
Institut de Recherche pour le Développement (IRD)
Platforms:
Java
Model Documentation:
Other Narrative
Flow charts
Mathematical description
Model Code URLs:
Model code not found
Abstract
A hydrodynamic model was coupled to an individual-based model (IBM)
initialized with conditions observed during 2004 to examine the
influence of spatial and temporal spawning parameters on transport and
survival of Engraulis ringens in central-southern Chile. Processes
modeled were transport, growth, and mortality of the early stages. The
results showed that spatial and temporal variations in spawning
modulated the survival of anchoveta eggs and yolk-sac larvae. The
resultant transport of the early stages had an important south-north
direction. In terms of connectivity, the greatest transfer of eggs and
larvae to the pre-recruitment zone came from four spawning zones.
Retention occurred in all spawning zones and was strongest in the Gulf
of Arauco and at Lebu-Corral. Mortality due to temperature and advective
losses was more intense at higher latitudes (Lebu-Corral). Observed and
simulated distributions of eggs and larvae were compared, and the
differences are discussed herein. A conceptual model is proposed, and we
discuss the relevance of IBMs as useful tools with which to assess
spawning zones for purposes of management. (C) 2011 Elsevier Ltd. All
rights reserved.
Tags
Individual-based model
El-nino
Small pelagic fish
Early-life-history
Humboldt current system
Engraulis-ringens
Nursery areas
Bay anchovy
Upwelling ecosystem
Northern
benguela