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Local population dynamics of an invasive tree species with a complex life-history cycle: A stochastic matrix model

Author

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  • Sebert-Cuvillier, Emmanuelle
  • Paccaut, Frédéric
  • Chabrerie, Olivier
  • Endels, Patrick
  • Goubet, Olivier
  • Decocq, Guillaume

Abstract

Biological invasions are widely accepted as having a major impact on ecosystem functioning worldwide, giving urgency to a better understanding of the factors that control their spread. Modelling tools have been developed for this purpose but are often discrete-space, discrete-time spatial-mechanistic models that adopt a computer simulation approach and resist mathematical analysis. We constructed a simple demographic matrix model to explore the local population dynamics of an invasive species with a complex life history and whose invasive success depends on resource availability, which occurs stochastically. As a case study we focused on the American black cherry (Prunus serotina Ehrh.), a gap-dependent tree able both to constitute a long-living seedling bank under unfavourable light conditions and to resprout vigorously once cut-down, which is invading European temperate forests. The model used was a stage-classified matrix population model (i.e., Lefkovitch matrix), integrating environmental stochasticity. Stochastic matrix projection analysis was combined with elasticity analysis and stochastic simulations to search for the species’ ‘Achille heel’. As expected, the population growth rate (i.e., Lyapunov exponent), which measures the risk of P. serotina invasion at the stand scale, increased with light frequency. There was a critical value above which the population of P. serotina explodes and below which it locally goes extinct. The resprouting capacity usually speed up the invasion but appeared to play a minor role. The mean duration of stand invasion was measured and important life stage transitions that mostly contribute to the local stochastic growth rate were identified. Some relevant management implications are discussed and the interest of such models for the understanding of demographic characteristics of invasive species is stressed.

Suggested Citation

  • Sebert-Cuvillier, Emmanuelle & Paccaut, Frédéric & Chabrerie, Olivier & Endels, Patrick & Goubet, Olivier & Decocq, Guillaume, 2007. "Local population dynamics of an invasive tree species with a complex life-history cycle: A stochastic matrix model," Ecological Modelling, Elsevier, vol. 201(2), pages 127-143.
  • Handle: RePEc:eee:ecomod:v:201:y:2007:i:2:p:127-143
    DOI: 10.1016/j.ecolmodel.2006.09.005
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    Citations

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    Cited by:

    1. arnaud dragicevic, 2012. "Bayesian Population Dynamics of Spreading Species," THEMA Working Papers 2012-30, THEMA (THéorie Economique, Modélisation et Applications), Université de Cergy-Pontoise.
    2. Vuilleumier, S. & Buttler, A. & Perrin, N. & Yearsley, J.M., 2011. "Invasion and eradication of a competitively superior species in heterogeneous landscapes," Ecological Modelling, Elsevier, vol. 222(3), pages 398-406.
    3. Fargue-Lelièvre, A. & Le Cœur, D. & Baudry, J., 2011. "Integrating farming techniques in an ecological matrix model: Implementation on the primrose (Primula vulgaris)," Ecological Modelling, Elsevier, vol. 222(4), pages 1002-1015.
    4. Bown, James L. & Pachepsky, Elizaveta & Eberst, Alistair & Bausenwein, Ursula & Millard, Peter & Squire, Geoff R. & Crawford, John W., 2007. "Consequences of intraspecific variation for the structure and function of ecological communities," Ecological Modelling, Elsevier, vol. 207(2), pages 264-276.
    5. Picard, Nicolas & Bar-Hen, Avner & Gourlet-Fleury, Sylvie, 2007. "Estimator of upgrowth transition rates for size-classified matrix from small samples," Ecological Modelling, Elsevier, vol. 204(1), pages 59-69.
    6. Brancatelli, Gabriela I.E. & Amodeo, Martín R. & Zalba, Sergio M., 2022. "Demographic model for Aleppo pine invading Argentinean grasslands," Ecological Modelling, Elsevier, vol. 473(C).

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