Habitat assessment by parasitoids: consequences for population distribution

The ideal free distribution (IFD) is a stable distribution ofcompetitors among resource patches. For equally efficient competitors,equilibrium is reached when the per capita rate of intake equalizesacross patches. The seminal version of the IFD assumes omniscience,but populations may still converge toward the equilibrium providedthat competitors 1) accurately assess their environment by learningand 2) remain for an optimal (rate-maximizing) time on eachencountered patch. In the companion article (Tentelier C, DesouhantE, Fauvergue X. 2006. Habitat assessment by parasitoids: mechanismsfor patch time allocation. Behav Ecol. Forthcoming), it is shownthat the parasitoid wasp Lysiphlebus testaceipes adapts itsexploitation of aphid host colonies based on previous experience,in a manner consistent with these two conditions. We thereforepredicted that a randomly distributed population of initiallynaive wasps should converge toward the IFD. We tested this predictionby introducing 1300 L. testaceipes females into a 110-m² greenhousecontaining 40 host patches. Just after introduction, the parasitoidrate of gain was positively affected by host number and negativelyaffected by parasitoid number but, as predicted, these effectsvanished in the course of the experiment. Six hours after introduction,the expected rate of gain reached a constant. Surprisingly,this passage through equilibrium was not accompanied by a decreasein the coefficient of variation among gain rates or by a shiftfrom a random to an aggregated distribution of parasitoids.These results challenge our understanding of the link betweenindividual behavior and population distribution.