Population Dynamical Consequences of Gregariousness in a Size-structured Consumer-resource Interaction.
From: Department of Ecology and Environmental Science, Umeå University, Sweden. tobias.v.kooten@emg.umu.se
Journal of theoretical biology
- Publish Date: Apr 2007
- ISSN: 0022-5193
- Volume: 245
- Issue: 4
- Pages: 763-74
- Medium: Print
- Language: English
- Citation (JAMA): van Kooten Tobias, Persson Lennart, de Roos André M, et al. Population Dynamical Consequences of Gregariousness in a Size-structured Consumer-resource Interaction.. J. Theor. Biol. Apr 2007;245:763-74
Abstract
Many animal species live in groups. Group living may increase exploitation competition within the group, and variation among groups in intra-group competition intensity could induce life-history variability among groups. Models of physiologically structured populations generally predict single generation cycles, driven by exploitation competition within and between generations. We expect that life-history variability and habitat heterogeneity induced by group living may affect such competition-driven population dynamics. In this study, we vary the gregariousness (the tendency to aggregate in groups) of a size-structured consumer population in a spatially explicit environment. The consumer has limited mobility, and moves according to a probabilistic movement process. We study the effects on the population dynamics, as mediated through the resource and the life-history of the consumer. We find that high gregariousness leads to large spatial resource variation, and highly variable individual life-history, resulting in highly stochastic population dynamics. At reduced gregariousness, life-history of consumers synchronizes, habitat heterogeneity is reduced, and single generation cycles appear. We expect this pattern to occur for any group living organism with limited mobility. Our results indicate that constraints set by population dynamical feedback may be an important aspect in understanding group living in nature.
Mesh Headings (Keywords): Animals, Animals, Newborn, Behavior, Animal, Competitive Behavior, Ecosystem, Feedback, Mathematics, Models, Biological, Perches, Population Dynamics, Reproduction, Social Behavior, Stochastic Processes
Check for Full Text / PubMed Unique Identifier (PMID): 17240402
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