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An experimental test of the nature of predation: neither prey- nor ratio-dependent

  1. DOMINIQUE SCHENK1,
  2. LOUIS-FÉLIX BERSIER2,3,
  3. SVEN BACHER1,*

Article first published online: 6 DEC 2004

DOI: 10.1111/j.1365-2656.2004.00900.x

Issue

Journal of Animal Ecology

Journal of Animal Ecology

Volume 74, Issue 1, pages 86–91, January 2005

Additional Information

How to Cite

SCHENK, D., BERSIER, L.-F. and BACHER, S. (2005), An experimental test of the nature of predation: neither prey- nor ratio-dependent. Journal of Animal Ecology, 74: 86–91. doi: 10.1111/j.1365-2656.2004.00900.x

Author Information

  1. 1

    Zoological Institute, Community Ecology, University of Bern, Baltzerstr. 6, CH-3012 Bern, Switzerland;

  2. 2

    Zoological Institute, Rue Emile-Argand 11, C.P. 2, CH-2007 Neuchâtel, Switzerland; and

  3. 3

    Chair of Statistics, Department of Mathematics, Swiss Federal Institute of Technology, CH-1015 Lausanne, Switzerland

* Sven Bacher, Zoological Institute, Community Ecology, Baltzerstr. 6, CH-3012 Bern, Switzerland. Tel. +41 31 6314539; Fax: +41 31 6314888; E-mail: sven.bacher@zos.unibe.ch

Publication History

  1. Issue published online: 6 DEC 2004
  2. Article first published online: 6 DEC 2004
  3. Received 5 August 2003; accepted 7 June 2004

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Keywords:

  • Cassida rubiginosa;
  • functional response;
  • Polistes dominulus;
  • predation rate;
  • predator interference

Summary

  • 1
    There is a current debate about the appropriateness of prey-dependent vs. ratio-dependent functional responses in predator–prey models. This is an important issue as systems governed by these models exhibit quite different dynamical behaviour. However, the issue is not yet resolved on a theoretical basis, and there is a lack of experimental evidence in natural systems. We used a paper wasp–shield beetle system in a natural setting to assess the validity of either approach.
  • 2
    We manipulated the abundance of herbivorous insect prey on thistle plants and of predatory paper wasps in the immediate environment of the prey by opening or closing cages containing wasp nests.
  • 3
    The number of wasps foraging at the site increased when cages were opened, but rapidly reached an asymptote, indicating predator interference. The predation rate per predator decreased with the number of wasps in the environment. Thus, the functional response depended on both prey and predator density.
  • 4
    Neither a pure prey- nor a pure ratio-dependent model fitted perfectly our observations. However, the functional response of the paper wasps towards shield beetle larvae was closer to ratio-dependence. To our knowledge, this is the first experimental evidence discriminating between ratio- and prey-dependence in a natural setting with unconfined predators and prey.
  • 5
    Predator interference was most probably responsible for the specific form of the functional response found. We found indications that both direct (e.g. aggression) and indirect interference mechanisms (e.g. depletion of easy-to-find prey) were at work in our system. We conclude that predator density cannot be ignored in models of predator–prey interactions.
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