Add to ORKGAbstract As most parasitoids are time limited, they usually die before they have laid all their eggs. In such cases, optimal foraging theory predicts that female parasitoids will adopt behavioral reproductive strategies enabling them to maximize progeny production per unit of time. One key situation in which parasitoid females must optimize their time budget is related to the fact that most of their hosts are distributed in discrete patches in the environment. In this review, I first present the results of basic theoretical models predicting female wasp search duration on a patch of hosts. I then compile and analyze all studies investigating the effect of different factors on parasitoid patch time allocation and patch-leaving decision rules...
This study investigated the effects of host density and distribution on the patch-leaving behavior o...
The optimal residence time of a forager exploiting a resource patch in the absence of competitors ha...
Animals foraging for patchily distributed resources may optimize their foraging decisions concerning...
1. Parasitoids are predicted to spend longer in patches with more hosts, but previous work on Cotesi...
International audience1. Patch time allocation has been mostly studied in female parasitoids exploit...
National audienceThe presence of competitors may affect the pay-off of individuals’ foraging strateg...
Classical optimal-foraging theory predicts that a parasitoid is less likely to leave a patch after a...
Optimal foraging models predict how an organism allocates its time and energy while foraging for agg...
Classical optimal-foraging theory predicts that a parasitoid is less likely to leave a patch after a...
The original publication can be found at www.springerlink.comThis study investigated the effects of ...
A female parasitoid searching for hosts in a patch experiences a diminishing encounter rate with unp...
Optimal foraging models predict how an organism allocates its time and energy while foraging for agg...
1. Parasitoids are predicted to spend longer in patches with more hosts, but previous work on Cotesi...
In patchy environments, patch-leaving decision rules are a key component of the foraging behavior of...
International audienceThe reproductive success of insect parasitoids depends on two activities, sear...
This study investigated the effects of host density and distribution on the patch-leaving behavior o...
The optimal residence time of a forager exploiting a resource patch in the absence of competitors ha...
Animals foraging for patchily distributed resources may optimize their foraging decisions concerning...
1. Parasitoids are predicted to spend longer in patches with more hosts, but previous work on Cotesi...
International audience1. Patch time allocation has been mostly studied in female parasitoids exploit...
National audienceThe presence of competitors may affect the pay-off of individuals’ foraging strateg...
Classical optimal-foraging theory predicts that a parasitoid is less likely to leave a patch after a...
Optimal foraging models predict how an organism allocates its time and energy while foraging for agg...
Classical optimal-foraging theory predicts that a parasitoid is less likely to leave a patch after a...
The original publication can be found at www.springerlink.comThis study investigated the effects of ...
A female parasitoid searching for hosts in a patch experiences a diminishing encounter rate with unp...
Optimal foraging models predict how an organism allocates its time and energy while foraging for agg...
1. Parasitoids are predicted to spend longer in patches with more hosts, but previous work on Cotesi...
In patchy environments, patch-leaving decision rules are a key component of the foraging behavior of...
International audienceThe reproductive success of insect parasitoids depends on two activities, sear...
This study investigated the effects of host density and distribution on the patch-leaving behavior o...
The optimal residence time of a forager exploiting a resource patch in the absence of competitors ha...
Animals foraging for patchily distributed resources may optimize their foraging decisions concerning...