Anatomy of a chaotic attractor: Subtle model-predicted patterns revealed in population data

Aaron A. King; R. F. Costantino; J. M. Cushing; Shandelle M. Henson; Robert A. Desharnais; Brian Dennis

doi:10.1073/pnas.2237266100

Anatomy of a chaotic attractor: Subtle model-predicted patterns revealed in population data

Aaron A. King
, R. F. Costantino
, J. M. Cushing
, Shandelle M. Henson
, Robert A. Desharnais
, Brian Dennis

Research output: Contribution to journal › Article › peer-review

35 Scopus citations

Abstract

Mathematically, chaotic dynamics are not devoid of order but display episodes of near-cyclic temporal patterns. This is illustrated, in interesting ways, in the case of chaotic biological populations. Despite the individual nature of organisms and the noisy nature of biological time series, subtle temporal patterns have been detected. By using data drawn from chaotic insect populations, we show quantitatively that chaos manifests itself as a tapestry of identifiable and predictable patterns woven together by stochasticity. We show too that the mixture of patterns an experimentalist can expect to see depends on the scale of the system under study.

Original language	English (US)
Pages (from-to)	408-413
Number of pages	6
Journal	Proceedings of the National Academy of Sciences of the United States of America
Volume	101
Issue number	1
DOIs	https://doi.org/10.1073/pnas.2237266100
State	Published - Jan 2004

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abstract = "Mathematically, chaotic dynamics are not devoid of order but display episodes of near-cyclic temporal patterns. This is illustrated, in interesting ways, in the case of chaotic biological populations. Despite the individual nature of organisms and the noisy nature of biological time series, subtle temporal patterns have been detected. By using data drawn from chaotic insect populations, we show quantitatively that chaos manifests itself as a tapestry of identifiable and predictable patterns woven together by stochasticity. We show too that the mixture of patterns an experimentalist can expect to see depends on the scale of the system under study.",

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AU - Henson, Shandelle M.

AU - Desharnais, Robert A.

AU - Dennis, Brian

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AB - Mathematically, chaotic dynamics are not devoid of order but display episodes of near-cyclic temporal patterns. This is illustrated, in interesting ways, in the case of chaotic biological populations. Despite the individual nature of organisms and the noisy nature of biological time series, subtle temporal patterns have been detected. By using data drawn from chaotic insect populations, we show quantitatively that chaos manifests itself as a tapestry of identifiable and predictable patterns woven together by stochasticity. We show too that the mixture of patterns an experimentalist can expect to see depends on the scale of the system under study.

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Anatomy of a chaotic attractor: Subtle model-predicted patterns revealed in population data

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