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Demographic models reveal the shape of density dependence for a specialist insect herbivore on variable host plants

  1. TOM E. X. MILLER

Article first published online: 21 MAY 2007

DOI: 10.1111/j.1365-2656.2007.01239.x

Issue

Journal of Animal Ecology

Journal of Animal Ecology

Volume 76, Issue 4, pages 722–729, July 2007

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How to Cite

MILLER, T. E. X. (2007), Demographic models reveal the shape of density dependence for a specialist insect herbivore on variable host plants. Journal of Animal Ecology, 76: 722–729. doi: 10.1111/j.1365-2656.2007.01239.x

Author Information

  1. 348 Manter Hall, School of Biological Sciences, University of Nebraska, Lincoln, NE 68588-0118, USA

* T. E. X. Miller, 348 Manter Hall, School of Biological Sciences, University of Nebraska, Lincoln, NE 68588-0118, USA. Tel.: 402 650 8154. Fax: 402 472 2083. E-mail: tmiller2@unl.edu

Publication History

  1. Issue published online: 2 JUN 2007
  2. Article first published online: 21 MAY 2007
  3. Received 3 December 2006; accepted 28 February 2007

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Keywords:

  • Chihuahuan desert;
  • Narnia pallidicornis;
  • plant–insect interactions;
  • population dynamics;
  • resource allocation

Summary

  • 1
    It is widely accepted that density-dependent processes play an important role in most natural populations. However, persistent challenges in our understanding of density-dependent population dynamics include evaluating the shape of the relationship between density and demographic rates (linear, concave, convex), and identifying extrinsic factors that can mediate this relationship.
  • 2
    I studied the population dynamics of the cactus bug Narnia pallidicornis on host plants (Opuntia imbricata) that varied naturally in relative reproductive effort (RRE, the proportion of meristems allocated to reproduction), an important plant quality trait. I manipulated per-plant cactus bug densities, quantified subsequent dynamics, and fit stage-structured models to the experimental data to ask if and how density influences demographic parameters.
  • 3
    In the field experiment, I found that populations with variable starting densities quickly converged upon similar growth trajectories. In the model-fitting analyses, the data strongly supported a model that defined the juvenile cactus bug retention parameter (joint probability of surviving and not dispersing) as a nonlinear decreasing function of density. The estimated shape of this relationship shifted from concave to convex with increasing host-plant RRE.
  • 4
    The results demonstrate that host-plant traits are critical sources of variation in the strength and shape of density dependence in insects, and highlight the utility of integrated experimental–theoretical approaches for identifying processes underlying patterns of change in natural populations.
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