Reconciling classical and individual-based approaches in theoretical population ecology: A protocol for extracting population parameters from individual-based models
Authored by Volker Grimm, C Wissel, L Fahse
Date Published: 1998
DOI: 10.1086/286212
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Abstract
The two main approaches in theoretical population ecology-the classical
approach using differential equations and the approach using
individual-based modeling-seem to be incompatible. Linked to these two
approaches are two different timescales: population dynamics and
behavior or physiology. Thus, the question of the relationship between
classical and individual-based approaches is related to the question of
the mutual relationship between processes on the population and the
behavioral timescales. We present a simple protocol that allows the two
different approaches to be reconciled by making explicit use of the fact
that processes operating on two different timescales can be treated
separately. Using an individual-based model of nomadic birds as an
example, we extract the population growth rate by deactivating all
demographic processes-in other words, the individuals behave but do not
age, die, or reproduce. The growth rate closely matches the logistic
growth rate for a wide range of parameters. The implications of this
result and the conditions for applying the protocol to other
individual-based models are discussed. Since in physics the technique of
separating timescales is linked to some concepts of self-organization, we believe that the protocol will also help to develop concepts of
self-organization in ecology.
Tags
Dynamics
Difference
Foraging behavior