Resolving the departures of observed results from the Ideal Free Distribution with simple random movements
Authored by AL Jackson, S Humphries, GD Ruxton
Date Published: 2004
DOI: 10.1111/j.0021-8790.2004.00832.x
Sponsors:
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. The Ideal Free Distribution (IFD) is one of the most widely applied
theoretical concepts in ecology. Many experimental tests of the IFD
incorporating unequal competitors have revealed three consistent
departures of observed results from those predicted by the theory.
Specifically these are: (1) the full range of predicted equilibria are
rarely realized; (2) under-matching of individuals to resource inputs;
and (3) continued movement of individuals after equilibrium is reached.
2. It has been suggested previously that a model including simple random
movements can explain simultaneously all three of these departures. The
acceptance of this theory has been hindered by arguments about model
construction relating to the timing of events and whether an analytical
or individual-based model is more appropriate.
3. Here we present the first internally consistent and biologically
realistic model of the IFD incorporating random non-IFD movements
(movements made at a rate independent of intake rates). We use this
model to confirm that random movements alone can explain all three of
the observed departures from the IFD. Furthermore, it is not necessary
to have any detailed a priori knowledge about the motivation behind the
non-IFD movements, in order to predict their consequences. We expect
non-IFD movements to be widespread in animal systems, and so warrant
further experimental consideration and investigation.
Tags
Predation risk
Rule
Resources
Food
Patch choice
Unequal competitors
Perceptual constraints
Spatial
predictability
Convict cichlids
Guppies