On the emergent spatial structure of size-structured populations: when does self-thinning lead to a reduction in clustering?
Authored by David J Murrell
Date Published: 2009
DOI: 10.1111/j.1365-2745.2008.01475.x
Sponsors:
United Kingdom Natural Environment Research Council (NERC)
Platforms:
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Model Documentation:
Other Narrative
Mathematical description
Model Code URLs:
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Abstract
1. It is widely held that if competition is important, adult or mature
plants should be less-clustered than those in smaller size-classes.
Self-thinning, the competition for limited resources, should remove
individuals that are nearby neighbours, restricting recruitment of
adults around other adult trees and resulting in a decrease in
aggregation with size-class.
2. There is good empirical evidence for a reduction in clustering with
increase in size-class, and the pattern is strongest for richly abundant
species. However, few dynamical models have been developed to explore
the relationship between the emergent spatial pattern of adults and
juvenile plants and the underlying processes of neighbourhood
competition and dispersal. In particular is it correct to assume that
increased clustering with size-classes is inconsistent with
self-thinning?
3. The hypothesis that self-thinning leads to less-clustered adult trees
is assessed by analysing a deterministic approximation to a spatially
explicit individual-based model that incorporates two size-classes, local dispersal, and neighbourhood competition that increases death
rates and retards the growth of the smaller trees.
4. Analyses show that if recruitment of adults is limited by slow growth
rates, low fecundity, or high juvenile-juvenile competition, then adults
may well be more clustered than juveniles. This means an increase in
aggregation with size-class is consistent with self-thinning processes.
5. The models support previous empirical results in that the numerically
dominant species are more likely to show a reduction in clustering with
size-class than species with a lower abundance. The models suggest rare
species should show more adult clustering and less of a reduction in
aggregation with size-class due to a numerical decrease in conspecific
interactions.
6. Synthesis. The results show clearly that the Janzen-Connell
hypothesis and self-thinning in general are consistent with adults being
more clustered than juveniles, even when competitive interactions are
quite strong. The pattern of relative clustering in juveniles and adults
may therefore be indicative of adult recruitment rates, with weak
decreases in aggregation with size-class caused by low fecundity, poor
dispersal or slow growth, and strong decreases generated by high
fecundity, good dispersal and/or fast growth rates.
Tags
Competition
Dynamics
Coexistence
Dispersal
patterns
growth
Recruitment
Tree
Seedling survival
Tropical rain-forest