In many ecological situations, resources are difficult to find but become more apparent to nearby searchers after one of their numbers discovers and begins to exploit them. If the discoverer cannot monopolize the resources, then others may benefit from joining the discoverer and sharing their discovery. Existing theories for this type of conspecific attraction have often used very simple rules for how the decision to join a discovered resource patch should be influenced by the number of individuals already exploiting that patch. We use a mechanistic, spatially explicit model to demonstrate that individuals should not necessarily simply join patches more often as the number of individuals exploiting the patch increases, because those patches...
Optimal foraging theory predicts that individuals should become more opportunistic when intraspecifi...
Animals are often attracted to one another when selecting habitats, but little is known about the ru...
Foraging is a common decision problem in natural environments. When new exploitable sites are always...
In many ecological situations, resources are difficult to find but become more apparent to nearby se...
The dynamics of resource patches and species that exploit such patches are of interest to ecologists...
For foragers that exploit patchily distributed resources that are challenging to locate, detecting d...
Background: Many animals live in groups. One proposed reason is that grouping allows cooperative foo...
In collective foraging, interactions between conspecifics can be exploited to increase foraging effi...
Neighbouring resources have been found to either decrease or increase the likelihood that a consumer...
<div><p>Individuals foraging in groups can use two different tactics for obtaining food resources. I...
Individuals foraging in groups can use two different tactics for obtaining food resources. Individua...
Individuals foraging in groups can use two different tactics for obtaining food resources. Individua...
Foraging is a common decision problem in natural environments. When new exploitable sites are always...
Animals that forage in groups commonly share patches of food discovered by one or a few individuals
Optimal foraging theory predicts that individuals should become more opportunistic when intraspecifi...
Optimal foraging theory predicts that individuals should become more opportunistic when intraspecifi...
Animals are often attracted to one another when selecting habitats, but little is known about the ru...
Foraging is a common decision problem in natural environments. When new exploitable sites are always...
In many ecological situations, resources are difficult to find but become more apparent to nearby se...
The dynamics of resource patches and species that exploit such patches are of interest to ecologists...
For foragers that exploit patchily distributed resources that are challenging to locate, detecting d...
Background: Many animals live in groups. One proposed reason is that grouping allows cooperative foo...
In collective foraging, interactions between conspecifics can be exploited to increase foraging effi...
Neighbouring resources have been found to either decrease or increase the likelihood that a consumer...
<div><p>Individuals foraging in groups can use two different tactics for obtaining food resources. I...
Individuals foraging in groups can use two different tactics for obtaining food resources. Individua...
Individuals foraging in groups can use two different tactics for obtaining food resources. Individua...
Foraging is a common decision problem in natural environments. When new exploitable sites are always...
Animals that forage in groups commonly share patches of food discovered by one or a few individuals
Optimal foraging theory predicts that individuals should become more opportunistic when intraspecifi...
Optimal foraging theory predicts that individuals should become more opportunistic when intraspecifi...
Animals are often attracted to one another when selecting habitats, but little is known about the ru...
Foraging is a common decision problem in natural environments. When new exploitable sites are always...