Literature DB >> 19553205

Locating the transition from periodic oscillations to spatiotemporal chaos in the wake of invasion.

Jonathan A Sherratt1, Matthew J Smith, Jens D M Rademacher.   

Abstract

In systems with cyclic dynamics, invasions often generate periodic spatiotemporal oscillations, which undergo a subsequent transition to chaos. The periodic oscillations have the form of a wavetrain and occur in a band of constant width. In applications, a key question is whether one expects spatiotemporal data to be dominated by regular or irregular oscillations or to involve a significant proportion of both. This depends on the width of the wavetrain band. Here, we present mathematical theory that enables the direct calculation of this width. Our method synthesizes recent developments in stability theory and computation. It is developed for only 1 equation system, but because this is a normal form close to a Hopf bifurcation, the results can be applied directly to a wide range of models. We illustrate this by considering a classic example from ecology: wavetrains in the wake of the invasion of a prey population by predators.

Mesh:

Year:  2009        PMID: 19553205      PMCID: PMC2701342          DOI: 10.1073/pnas.0900161106

Source DB:  PubMed          Journal:  Proc Natl Acad Sci U S A        ISSN: 0027-8424            Impact factor:   11.205


  14 in total

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10.  Ecological chaos in the wake of invasion.

Authors:  J A Sherratt; M A Lewis; A C Fowler
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5.  Towards the rational design of synthetic cells with prescribed population dynamics.

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6.  Chaos theory discloses triggers and drivers of plankton dynamics in stable environment.

Authors:  Irena V Telesh; Hendrik Schubert; Klaus D Joehnk; Reinhard Heerkloss; Rhena Schumann; Martin Feike; Arne Schoor; Sergei O Skarlato
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