From the Lotka-Volterra model to a spatialised population-driven individual-based model
Authored by David Sheeren, Claude Monteil, Nicolas Marilleau, Nathalie Corson, Hugo Thierry, Marion Amalric
Date Published: 2015
DOI: 10.1016/j.ecolmodel.2014.09.022
Sponsors:
French national network of complex systems (RNSC)
MAPS network (multi-agent modelling of spatialised phenomena)
Platforms:
NetLogo
Model Documentation:
ODD
Flow charts
Model Code URLs:
Model code not found
Abstract
The modelling of predator prey dynamics is of great importance in
ecology. Models based on differential equations aim to understand the
interactions between populations of prey and predators at population
scale, but they are unable to handle spatial and individual behaviour
heterogeneities (individual scale). In this study, a population-driven
individual-based model is proposed that has been developed from the
archetypical Lotka-Volterra model. The population scale was retained for
processes with slower dynamics, such as reproduction for both species
and the natural death of predators. The individual scale was only used
for the predation process, defining local rules for individual movements
of prey and predators (related to a perception distance of predators and
the presence of shelters for prey in the spatial environment) and to
locate births and deaths. This model was compared with the
Lotka-Volterra model. Simulations were able to exhibit the overall
classic periodic evolution of population sizes with local variations.
The effects of spatial heterogeneity were then explored through a range
of prey refuge densities. The model was implemented on the Netlogo
platform. This work illustrates how both individual and population
scales may be linked through methodological choices in order to focus on
the impacts of spatialisation and take into account the effects of
spatial and individual heterogeneities. (C) 2014 Elsevier B.V. All
rights reserved.
Tags
Dynamics
Simulations
patterns
stability
Predator-prey model
Refuges