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A process-based population dynamics model to explore target and non-target impacts of a biological control agent

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  • Kriticos, Darren J.
  • Watt, Michael S.
  • Withers, Toni M.
  • Leriche, Agathe
  • Watson, Michelle C.

Abstract

The risks and benefits associated with efforts to control invasive alien species using classical biological control are being subjected to increasing scrutiny. A process-based population dynamics model was developed to explore the interactions between a folivorous biological control agent, Cleopus japonicus, and its plant host Buddleja davidii. The model revealed that climate could have a significant impact upon the interactions between B. davidii and C. japonicus. At the coolest sites, the impact of C. japonicus on B. davidii was slowed, but it was still eventually capable of controlling populations of B. davidii. At the warmer sites where both B. davidii and C. japonicus grew faster, B. davidii succumbed rapidly to weevil damage. We hypothesise that barring an encounter with a natural enemy, C. japonicus will eventually be able to provide sustained control B. davidii throughout the North Island of New Zealand. The model scenarios illustrate the potential for the C. japonicus population to attain high densities rapidly, and to defoliate patches of B. davidii, creating the potential for spill-over feeding on non-target plants. The potential magnitude of this threat will depend partly on the climate suitability for C. japonicus, the pattern by which it migrates in response to a reduction in the available leaf resource, and the suitability of non-target plants as hosts. In all migration scenarios considered, the pattern of population growth and resource consumption by C. japonicus was exponential, with a strong tendency toward complete utilisation of resource patches more quickly at the warmer compared to colder sites. In addition to providing some useful hypotheses about the effects of climate on the biological control system, and the non-target risks, it also provides some insight into the mechanisms by which climate affects the system.

Suggested Citation

  • Kriticos, Darren J. & Watt, Michael S. & Withers, Toni M. & Leriche, Agathe & Watson, Michelle C., 2009. "A process-based population dynamics model to explore target and non-target impacts of a biological control agent," Ecological Modelling, Elsevier, vol. 220(17), pages 2035-2050.
  • Handle: RePEc:eee:ecomod:v:220:y:2009:i:17:p:2035-2050
    DOI: 10.1016/j.ecolmodel.2009.04.039
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    Citations

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    Cited by:

    1. Bahlai, Christine A. & Weiss, Ross M. & Hallett, Rebecca H., 2013. "A mechanistic model for a tritrophic interaction involving soybean aphid, its host plants, and multiple natural enemies," Ecological Modelling, Elsevier, vol. 254(C), pages 54-70.
    2. Yonow, Tania & Kriticos, Darren J. & Zalucki, Myron P. & Mc Donnell, Rory J. & Caron, Valerie, 2023. "Population modelling for pest management: A case study using a pest land snail and its fly parasitoid in Australia," Ecological Modelling, Elsevier, vol. 482(C).
    3. 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.
    4. Pitt, Joel P.W. & Kriticos, Darren J. & Dodd, Michael B., 2011. "Temporal limits to simulating the future spread pattern of invasive species: Buddleja davidii in Europe and New Zealand," Ecological Modelling, Elsevier, vol. 222(11), pages 1880-1887.

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