When foraging together, animals are often observed to feed from food discoveries of others. The producer-scrounger game predicts how frequently this phenomenon of food parasitism should occur. The game has two major requirements: (i) all individuals must either produce, meaning they invest time and/or energy getting resources, or scrounge, meaning they try to get resources from producers, and (ii) the payoffs received from the scrounger tactic must be highly negatively frequency-dependent such that they do better than producers when rare, but worse when common. This study provides the first experimental support for the use of the producer-scrounger game in group foraging contexts. A total of five flocks of spice finches (Lonchura punctulata...
When animals interact socially they experience and react to phenotypes of their social partners. Suc...
Individuals foraging in groups can use two different tactics for obtaining food resources. Individua...
Research Highlight: Reichert, S., Morand-Ferron, J., Kulahci, I. G., Firth, J. A., Davidson, G. L., ...
7 pagesInternational audienceWhen they forage in groups, animals can search for their own food (prod...
Foraging in a group allows for the exploitation of other individuals' food findings, often modeled a...
Producer–scrounger (PS) game-theoretical foraging models make predictions about the decision of grou...
There has been extensive game-theoretic modelling of conditions leading to equilibria of producer–sc...
The producer–scrounger game is a key element of foraging ecology in many systems. Producing and scro...
The producer-scrounger game is a key element of foraging ecology in many systems. Producing and scro...
Group foraging allows for individuals to exploit the food discoveries of other group members. If sea...
Abstract. Social foragers obtain food through two tactics: ‘producer ’ searches for its food, and ‘s...
Grouping in animals is ubiquitous and thought to provide group members antipredatory advantages and ...
When animals forage in groups, individuals can search for food themselves (producer tactic) or they ...
Individuals foraging in groups can use two different tactics for obtaining food resources. Individua...
<div><p>Individuals foraging in groups can use two different tactics for obtaining food resources. I...
When animals interact socially they experience and react to phenotypes of their social partners. Suc...
Individuals foraging in groups can use two different tactics for obtaining food resources. Individua...
Research Highlight: Reichert, S., Morand-Ferron, J., Kulahci, I. G., Firth, J. A., Davidson, G. L., ...
7 pagesInternational audienceWhen they forage in groups, animals can search for their own food (prod...
Foraging in a group allows for the exploitation of other individuals' food findings, often modeled a...
Producer–scrounger (PS) game-theoretical foraging models make predictions about the decision of grou...
There has been extensive game-theoretic modelling of conditions leading to equilibria of producer–sc...
The producer–scrounger game is a key element of foraging ecology in many systems. Producing and scro...
The producer-scrounger game is a key element of foraging ecology in many systems. Producing and scro...
Group foraging allows for individuals to exploit the food discoveries of other group members. If sea...
Abstract. Social foragers obtain food through two tactics: ‘producer ’ searches for its food, and ‘s...
Grouping in animals is ubiquitous and thought to provide group members antipredatory advantages and ...
When animals forage in groups, individuals can search for food themselves (producer tactic) or they ...
Individuals foraging in groups can use two different tactics for obtaining food resources. Individua...
<div><p>Individuals foraging in groups can use two different tactics for obtaining food resources. I...
When animals interact socially they experience and react to phenotypes of their social partners. Suc...
Individuals foraging in groups can use two different tactics for obtaining food resources. Individua...
Research Highlight: Reichert, S., Morand-Ferron, J., Kulahci, I. G., Firth, J. A., Davidson, G. L., ...