Variable performance of individuals: the role of population density and endogenously formed landscape heterogeneity
Authored by CA Pfister, SD Peacor
Date Published: 2003
DOI: 10.1046/j.1365-2656.2003.00742.x
Sponsors:
Mellon Foundation
United States National Science Foundation (NSF)
Platforms:
No platforms listed
Model Documentation:
Other Narrative
Mathematical description
Model Code URLs:
Model code not found
Abstract
1. Individuals can show positive correlations in performance (e.g.
growth and reproduction) through time beyond the effects of size or age.
This `performance autocorrelation' has been attributed previously to
traits that differ among individuals or to extrinsic generators of
environmental heterogeneity.
2. A model of mobile consumers on a dynamic resource showed that
consumer foraging gave rise to resource heterogeneity that in turn
generated autocorrelation in growth in consumers.
3. Resource heterogeneity and growth autocorrelation were most
pronounced when consumers were poorer foragers, moving locally and with
an imperfect ability to identify the highest resource cells.
4. The model predicted that lowered population density enhanced resource
heterogeneity and the strength of growth autocorrelation.
5. Consistent with model predictions, an experiment with tidepool
limpets demonstrated that autocorrelation in growth changed with
population density, with individuals in lower density tidepools showing
stronger temporal correlations in growth.
6. Our model and empirical results contrast with those of previous
studies with plants, where dominance and suppression increases with
increasing density.
7. Our results suggest that growth autocorrelation can occur without
invoking size-dependent advantages, intrinsic trait differences or
extrinsic generators of environmental heterogeneity.
Tags
Competition
dominance
Demographic stochasticity
Variability
Dependence
Growth-rate
Prey
selection
Spatial-pattern
Suppression
Thaidid gastropods