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Efficient harvesting of renewing resources

Author

Listed:
  • Kazuharu Ohashi
  • James D. Thomson

Abstract

Many foraging animals return to feeding sites to harvest replenishing resources, but little is known about efficient tactics for doing this. Can animals with adequate cognitive abilities increase their efficiency by modifying their behavior according to memories of past experience at particular sites? We developed a simulation model of animals harvesting renewable resources from isolated patches in undefended, competitive situations. We compared four foraging tactics: (1) moving stochastically without using any information from past experiences (random searching); (2) moving stochastically, but going longer distances after encountering lower reward (area-restricted searching); (3) repeatedly moving along a fixed route (complete traplining); and (4) traplining, but sampling and shifting to neighboring rewarding patches after encountering low reward (sample-and-shift traplining). Following Possingham, we tracked both the resources actually harvested by a focal forager (i.e., rewards) and the standing crops of resources that accumulated at patches. Complete traplining always produces less variation in elapsed time between visits than random searching or area-restricted searching, which has three benefits: increasing the reward crop harvested, if resource renews nonlinearly; reducing resource standing crop in patches; and reducing variation in reward crop per patch. Moreover, the systematic revisitation schedule produced by complete traplining makes it more competitive, regardless of resource renewal schedule or competitor frequency. By responding to their past experiences, using sample-and-shift traplining, foragers benefit only when many patches are left unvisited in the habitat. Otherwise, the exploratory component of sample-and-shift traplining, which increases the movement distance and the variation in elapsed time between visits, makes it more costly than complete traplining. Thus, traplining will usually be beneficial, but foragers should switch between "impatient" (sample-and-shift traplining) and "tenacious" (complete traplining) traplining, according to temporal changes in surrounding situations. Copyright 2005.

Suggested Citation

  • Kazuharu Ohashi & James D. Thomson, 2005. "Efficient harvesting of renewing resources," Behavioral Ecology, International Society for Behavioral Ecology, vol. 16(3), pages 592-605, May.
  • Handle: RePEc:oup:beheco:v:16:y:2005:i:3:p:592-605
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    File URL: http://hdl.handle.net/10.1093/beheco/ari031
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    Citations

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    Cited by:

    1. Kazuharu Ohashi & Alison Leslie & James D. Thomson, 2013. "Trapline foraging by bumble bees: VII. Adjustments for foraging success following competitor removal," Behavioral Ecology, International Society for Behavioral Ecology, vol. 24(3), pages 768-778.
    2. Kazuharu Ohashi & James D. Thomson, 2013. "Trapline foraging by bumble bees: VI. Behavioral alterations under speed–accuracy trade-offs," Behavioral Ecology, International Society for Behavioral Ecology, vol. 24(1), pages 182-189.
    3. Vergara, Pablo M. & Saura, Santiago & Pérez-Hernández, Christian G. & Soto, Gerardo E., 2015. "Hierarchical spatial decisions in fragmented landscapes: Modeling the foraging movements of woodpeckers," Ecological Modelling, Elsevier, vol. 300(C), pages 114-122.

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