Coupling ecosystem and individual-based models to simulate the influence of environmental variability on potential growth and survival of larval sprat (Sprattus sprattus L.) in the North Sea
Authored by Myron A Peck, Ute Daewel, Corinna Schrum, John Michael A St, Wilfried Kuehn, Irina Alekseeva
Date Published: 2008
DOI: 10.1111/j.1365-2419.2008.00482.x
Sponsors:
European Union
German Research Foundation (Deutsche Forschungsgemeinschaft, DFG)
Platforms:
No platforms listed
Model Documentation:
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Abstract
To investigate the impact of changing environmental conditions in the
North Sea on the distribution and survival of early life stages of a
marine fish species, we employed a suite of coupled model components:
(i) an Eulerian coupled hydrodynamic/ecosystem (Nutrients, Phyto-, Zooplankton, Detritus) model to provide both 3-D fields of
hydrographical properties, and spatially and temporally variable prey
fields; (ii) a Lagrangian transport model to simulate temporal changes
in cohort distribution; and (iii) an individual-based model (IBM) to
depict foraging, growth and survival of fish early life stages. In this
application, the IBM was parameterized for sprat (Sprattus sprattus L.)
and included non-feeding (egg and yolk-sac larval) stages as well as
foraging and growth subroutines for feeding (post-yolk sac) larvae.
Sensitivity analyses indicated that the angle of visual acuity, assimilation efficiency and the maximum food consumption rate were the
most critical intrinsic model parameters. As an example, we applied this
model system for 1990 in the North Sea. Results included not only
information concerning the interplay of temperature and prey
availability on larval fish survival and growth but also information on
mechanisms underlying larval fish aggregation within frontal zones. The
good agreement between modelled and in situ estimates of sprat
distribution and growth rates in the German Bight suggested that
interconnecting these different models provided an expedient tool to
scrutinize basic processes in fish population dynamics.
Tags
turbulence
Temperature
Spatially-explicit
Cod gadus-morhua
Herring clupea-harengus
German bight
Early-life
Otolith microstructure
Fish ingestion rates
Baltic
sea