Individual-based model of the phenology of egg-bearing copepods: Application to Eurytemora affinis from the Seine estuary, France
Authored by Sami Souissi, Delphine Beyrend-Dur, Gael Dur, Raquel Jimenez-Melero, Jiang-Shiou Hwang
Date Published: 2013
DOI: 10.1016/j.ecolmodel.2013.08.006
Sponsors:
National Science Council of Taiwan
French National Center for Scientific Research (CNRS)
Seine-Aval IV program
Platforms:
Mobidyc
Model Documentation:
ODD
Mathematical description
Model Code URLs:
Model code not found
Abstract
This study presents a non-spatial and temperature-dependent population
model to better understand the population dynamics of the copepod
Eurytemora affinis in the Seine estuary. The proposed individual-based
model (IBM) allows each life-stage, or group of stages, to be
represented and considers the differences in development rates and
mortality caused by temperature and predation. The biological functions
of the model were selected and calibrated to ensure realistic
development at the temperatures recorded in the Seine estuary. The
effect of temperature on development time and clutch size (CS) were
obtained indirectly by fitting equations to the durations of stages
observed in the laboratory at various temperatures and to CSs observed
in the field. The degree-day approach was used to consider temperature
variations. Mortality from predation was parameterized using the
observed abundance of key predators. The proposed model successfully
reproduces the life-history timing of the E. affinis population observed
in the Seine estuary. The IBM approach was also used to simulate the
development of the E. affinis population over several years at various
temperatures with unlimited food conditions and no density dependence.
The results confirm that the proposed model captures the role of
temperature and predation in driving the seasonal population dynamics of
E. affinis in the Seine estuary. This tool could be applied to any other
egg-bearing copepods or could be used to test various E. affinis
development scenarios in estuaries. This study also provides examples
showing increasing temperatures and predation pressure shifts. (C) 2013
Elsevier B.V. All rights reserved.
Tags
Population-dynamics
Fresh-water
Baltic sea
Pseudodiaptomus-annandalei copepoda
Paracalanus-parvus copepoda
Calanoid copepod
Secondary
production
Narragansett-bay
Pseudocalanus-elongatus
Arctodiaptomus-salinus