Knowing your habitat: linking patch-encounter rate and patch exploitation in parasitoids

doi:10.1093/beheco/arh030

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Behavioral Ecology Vol. 15 No. 3: 419-425
Behavioral Ecology vol. 15 no. 3 © International Society for Behavioral Ecology 2004; all rights reserved

Knowing your habitat: linking patch-encounter rate and patch exploitation in parasitoids

Andra Thiel and Thomas S. Hoffmeister

Zoological Institute, Department of Animal Ecology, Christian-Albrechts-University, Am Botanischen Garten 1–9, D-24098 Kiel, Germany

Address correspondence to A. Thiel. E-mail: athiel{at}zoologie.uni-kiel.de.

According to optimal foraging theory, animals should decidewhether or not to leave a resource patch by comparing the currentprofitability of the patch with the expected profitability ofsearching elsewhere in the habitat. Although there is abundantevidence in the literature that foragers in general are wellable to estimate the value of a single resource patch, theirdecision making has rarely been investigated with respect tohabitat quality. This is especially true for invertebrates.We have conducted experiments to test whether parasitic waspsadjust patch residence time and exploitation in relation tothe abundance of patches within the environment. We used thebraconid Asobara tabida, a parasitoid of Drosophila larvae,as our model species. Our experiments show that these waspsreduce both the residence time and the degree of patch exploitationwhen patches become abundant in their environment, as predictedby optimal foraging models. Based upon a detailed analysis ofwasp foraging behavior, we discuss proximate mechanisms thatmight lead to the observed response. We suggest that parasitoidsuse a mechanism of sensitization and desensitization to chemicalsassociated with hosts and patches, in order to respond adaptivelyto the abundance of patches within their environment.

Key words: Asobara tabida, behavioral plasticity, habitat quality, marginal value theorem, optimal foraging, patch-time allocation, travel time.

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