Resource partitioning among competing individuals and population persistence: an individual-based model
Authored by J Uchmanski
Date Published: 2000
DOI: 10.1016/s0304-3800(00)00242-8
Sponsors:
Alexander von Humboldt Foundation
Platforms:
No platforms listed
Model Documentation:
Other Narrative
Mathematical description
Model Code URLs:
Model code not found
Abstract
Using classical models of population dynamics, Lomnicki analysed the
effects of different functions of resource partitioning. His main
conclusion is that the monopolisation of resources ensures the highest
population persistence. The objective of the present paper is to examine
if it is possible to obtain similar results by using individual-based
models for describing dynamics of a single population. Population
dynamics was analysed when: (1) resources are evenly partitioned among
individuals; (2) competition is of the scramble type; (3) competition is
of the contest type and (4) resources are monopolised. It was shown that
individual-based models do not support Lomnicki's simple and unequivocal
conclusions derived from classical models. Different kinds of resource
partitioning cannot be arranged on a linear scale that would represent
an increasing population persistence as measured by the mean extinction
time of the population. Lomnicki's conclusion that the population in
which a part of individuals monopolises the resources is most persistent
has not been confirmed. It is evident that models of population dynamics
with different functions for resource partitioning vary in their
properties, but these differences do not concern the mean extinction
time of the population but, above all, the ranges of the parameters for
which the longest extinction times of the population are observed. (C)
2000 Elsevier Science B.V. All rights reserved.
Tags
ecology
stability
Animals