Beetles in fragmented woodlands: a formal framework for dynamics of movement in ecological landscapes
Authored by DJ Murrell, R Law
Date Published: 2000
DOI: 10.1046/j.1365-2656.2000.00409.x
Sponsors:
European Science Foundation
United Kingdom Natural Environment Research Council (NERC)
Platforms:
No platforms listed
Model Documentation:
Other Narrative
Mathematical description
Model Code URLs:
Model code not found
Abstract
1. We consider the movement of carabid beetles in a fragmented woodland
landscape. Landscape ecology has lacked a formal framework for the
analysis of dynamics of this kind, and stochastic spatial simulations
have generally been needed to gain insight.
2. We first define an individual-based stochastic model for movement in
a heterogeneous landscape. From this a deterministic approximation is
derived which describes the build-up in association of the beetles with
their environment; the deterministic model makes use of a second-order
spatial moment. It is shown that the results of the deterministic
approximation match closely those of the underlying stochastic process.
On this basis we suggest that the dynamical system provides a formal
framework for the dynamics of animal movements in ecological landscapes.
3. The results show that the beetles, starting from an initial random
layout, rapidly become associated with the woodlands and, by the time
100 days have elapsed, the association is close to its asymptotic state.
The strength of the association depends very much on the spatial
auto-covariance function of the environment.
4. A number of extensions are suggested, including landscapes comprising
multiple habitats of different degrees of suitability, landscapes that
change through human activity, birth and death processes of single
species, and interactions between species. The method of moments
provides a flexible basis for future work in this area.
Tags
Heterogeneous landscapes
Random-walk
Coleoptera
Carabid beetles