Resource inheritance is a major source of conflict in animal societies. However, the assumptions and predictions of models of conflict over resource inheritance have not been systematically tested within a single system. We developed an inclusive fitness model for annual eusocial Hymenoptera that predicts a zone of conflict in which future reproductive workers are selected to enforce nest inheritance before the queen is selected to cede the nest. We experimentally tested key elements of this model in the bumble bee Bombus terrestris. In colonies from which queens were sequentially removed, queen tenure was significantly negatively associated with worker male production, confirming that workers gain direct fitness by usurping the queen. In u...
In genetically diverse insect societies (polygynous or polyandrous queens), the production of new qu...
A caste system in which females develop into morphologically distinct queens or workers has evolved ...
Functional worker sterility is the defining feature of insect societies. Yet, workers are sometimes ...
Resource inheritance is a major source of conflict in animal societies. However, the assumptions and...
Resource inheritance is a major source of conflict in animal societies. However, the assumptions and...
Reproduction in cooperative animal groups is often dominated by one or a few individuals, with the r...
Eusocial insect colonies are vulnerable to exploitation by egg-laying workers arising either as nata...
Worker policing (mutual repression of reproduction) in the eusocial Hymenoptera represents a leading...
Reproductive cooperation confers benefits, but simultaneously creates conflicts among cooperators. Q...
Caste conflict theory predicts that worker-destined individuals in insect colonies may try to develo...
The evolution of effectively sterile workers in the aculeate Hymenoptera (ants, bees and stinging wa...
Kin selection theory predicts potential conflict between queen and workers over male parentage in hy...
Social insect colonies are pinnacles of evolved altruism, but also contain dramatic conflict among r...
Although social hymenopteran colonies show a high level of cooperation among their members, colony m...
Eusocial insects provide special opportunities to elucidate the evolution of ageing as queens have a...
In genetically diverse insect societies (polygynous or polyandrous queens), the production of new qu...
A caste system in which females develop into morphologically distinct queens or workers has evolved ...
Functional worker sterility is the defining feature of insect societies. Yet, workers are sometimes ...
Resource inheritance is a major source of conflict in animal societies. However, the assumptions and...
Resource inheritance is a major source of conflict in animal societies. However, the assumptions and...
Reproduction in cooperative animal groups is often dominated by one or a few individuals, with the r...
Eusocial insect colonies are vulnerable to exploitation by egg-laying workers arising either as nata...
Worker policing (mutual repression of reproduction) in the eusocial Hymenoptera represents a leading...
Reproductive cooperation confers benefits, but simultaneously creates conflicts among cooperators. Q...
Caste conflict theory predicts that worker-destined individuals in insect colonies may try to develo...
The evolution of effectively sterile workers in the aculeate Hymenoptera (ants, bees and stinging wa...
Kin selection theory predicts potential conflict between queen and workers over male parentage in hy...
Social insect colonies are pinnacles of evolved altruism, but also contain dramatic conflict among r...
Although social hymenopteran colonies show a high level of cooperation among their members, colony m...
Eusocial insects provide special opportunities to elucidate the evolution of ageing as queens have a...
In genetically diverse insect societies (polygynous or polyandrous queens), the production of new qu...
A caste system in which females develop into morphologically distinct queens or workers has evolved ...
Functional worker sterility is the defining feature of insect societies. Yet, workers are sometimes ...