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Literature DB >> 17639397

Single-class orbits in nonlinear Leslie matrix models for semelparous populations.

Abstract

The dynamics of a general nonlinear Leslie matrix model for a semelparous population is investigated. We are especially concerned with the attractivity of the single-class state, in which all but one cohort (or year-class) are missing. Our result shows that the single-class state is attractive if inter-class competition is severe. Conversely, if intra-class competition is severe, the single-class state is repelling. Numerical investigations show that all classes do not necessarily coexist even if the single-class state is repelling.

Mesh：

Year: 2007 PMID： 17639397 DOI： 10.1007/s00285-007-0111-9

Source DB: PubMed Journal: J Math Biol ISSN： 0303-6812 Impact factor: 2.259

11 in total

Single-class orbits in nonlinear Leslie matrix models for semelparous populations.

1. Year class coexistence or competitive exclusion for strict biennials?

2. Permanence of single-species stage-structured models.

3. Entomology. The 17-year itch.

Review 4. Permanence and the dynamics of biological systems.

5. On synchronization in semelparous populations.

6. Evolutionary ecology of periodical insects.

7. Dynamic consequences of reproductive delay in Leslie matrix models with nonlinear survival probabilities.

8. THE PERIODICAL CICADA PROBLEM. II. EVOLUTION.

9. THE PERIODICAL CICADA PROBLEM. I. POPULATION ECOLOGY.

10. Coexistence for systems governed by difference equations of Lotka-Volterra type.

1. Three stage semelparous Leslie models.

2. Periodic orbits near heteroclinic cycles in a cyclic replicator system.

3. Bifurcations of cycles in nonlinear semelparous Leslie matrix models.