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Noise and determinism in synchronized sheep dynamics

Author

Listed:
  • B. T. Grenfell

    (University of Cambridge)

  • K. Wilson

    (University of Stirling)

  • B. F. Finkenstädt

    (University of Cambridge)

  • T. N. Coulson

    (Institute of Zoology, Zoological Society of London)

  • S. Murray

    (Scottish Natural Heritage)

  • S. D. Albon

    (Institute of Terrestrial Ecology, Hill of Brathens)

  • J. M. Pemberton

    (Institute of Cell, Animal and Population Biology, University of Edinburgh)

  • T. H. Clutton-Brock

    (University of Cambridge)

  • M. J. Crawley

    (Imperial College)

Abstract

A major debate in ecology concerns the relative importance of intrinsic factors and extrinsic environmental variations in determining population size fluctuations1,2,3,4,5,6. Spatial correlation of fluctuations in different populations caused by synchronous environmental shocks2,7,8 is a powerful tool for quantifying the impact of environmental variations on population dynamics8,9. However, interpretation of synchrony is often complicated by migration between populations8,10. Here we address this issue by using time series from sheep populations on two islands in the St Kilda archipelago11,12,13. Fluctuations in the sizes of the two populations are remarkably synchronized over a 40-year period. A nonlinear time-series model shows that a high and frequent degree of environmental correlation is required to achieve this level of synchrony. The model indicates that if there were less environmental correlation, population dynamics would be much less synchronous than is observed. This is because of a threshold effect that is dependent on population size; the threshold magnifies random differences between populations. A refined model showsthat part of the required environmental synchronicity can be accounted for by large-scale weather variations. These results underline the importance of understanding the interaction between intrinsic and extrinsic influences on population dynamics14.

Suggested Citation

  • B. T. Grenfell & K. Wilson & B. F. Finkenstädt & T. N. Coulson & S. Murray & S. D. Albon & J. M. Pemberton & T. H. Clutton-Brock & M. J. Crawley, 1998. "Noise and determinism in synchronized sheep dynamics," Nature, Nature, vol. 394(6694), pages 674-677, August.
    • Handle: RePEc:nat:nature:v:394:y:1998:i:6694:d:10.1038_29291
    DOI: 10.1038/29291
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    Cited by:

    1. Wang, Lin & Wang, Rui-Wu, 2022. "Host regulation and seasonality generate population chaos in a fig-wasp mutualism," Chaos, Solitons & Fractals, Elsevier, vol. 165(P2).
    2. Wang, Yanjun & Zhang, Qiqian & Zhu, Chenping & Hu, Minghua & Duong, Vu, 2016. "Human activity under high pressure: A case study on fluctuation scaling of air traffic controller’s communication behaviors," Physica A: Statistical Mechanics and its Applications, Elsevier, vol. 441(C), pages 151-157.
    3. Chołoniewski, Jan & Chmiel, Anna & Sienkiewicz, Julian & Hołyst, Janusz A. & Küster, Dennis & Kappas, Arvid, 2016. "Temporal Taylor’s scaling of facial electromyography and electrodermal activity in the course of emotional stimulation," Chaos, Solitons & Fractals, Elsevier, vol. 90(C), pages 91-100.
    4. Seuront, Laurent, 2004. "Small-scale turbulence in the plankton: low-order deterministic chaos or high-order stochasticity?," Physica A: Statistical Mechanics and its Applications, Elsevier, vol. 341(C), pages 495-525.
    5. Lorrillière, Romain & Couvet, Denis & Robert, Alexandre, 2012. "The effects of direct and indirect constraints on biological communities," Ecological Modelling, Elsevier, vol. 224(1), pages 103-110.

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