Eusocial insects exhibit a remarkable reproductive division of labor between queens and largely sterile workers [1, 2]. Recently, it was shown that queens of diverse groups of social insects employ specific, evolutionarily conserved cuticular hydrocarbons to signal their presence and inhibit worker reproduction [3]. Workers also recognize and discriminate between eggs laid by the queen and those laid by workers, with the latter being destroyed by workers in a process known as "policing" [4, 5]. Worker policing represents a classic example of a conflict-reducing mechanism, in which the reproductive monopoly of the queen is maintained through the selective destruction of worker-laid eggs [5, 6]. However, the exact signals used in worker polic...
Social Hymenoptera are characterized by a reproductive division of labor, whereby queens perform mos...
© 2015 The Association for the Study of Animal Behaviour. Insect societies display a remarkable leve...
Mutual policing is an important mechanism for maintaining social harmony in group-living organisms. ...
SummaryEusocial insects exhibit a remarkable reproductive division of labor between queens and large...
Social Hymenoptera are characterized by a reproductive division of labor, whereby queens perform mos...
Social Hymenoptera are characterized by a reproductive division of labour, whereby queens perform mo...
Insect societies are well known for their cooperation. However, a number of conflicts do occur withi...
Social insects colonies are known for the incredible level of organization and provide hints about h...
Mutual policing, where group members suppress each others' reproduction, is hypothesized to be impor...
In some ants, bees, and wasps, workers kill or ‘‘police’ ’ male eggs laid by other workers in order ...
Queens and workers in social insect colonies can differ in reproductive goals such as colony-level s...
Insect societies are sometimes exploited by workers who reproduce selfishly rather than help to rear...
In insect societies, eggs laid by workers are frequently killed by other workers - a behaviour known...
The selective forces that shape and maintain eusocial societies are an enduring puzzle in evolutiona...
Although generally capable of producing males, workers in most hymenopteran societies (bees, ants an...
Social Hymenoptera are characterized by a reproductive division of labor, whereby queens perform mos...
© 2015 The Association for the Study of Animal Behaviour. Insect societies display a remarkable leve...
Mutual policing is an important mechanism for maintaining social harmony in group-living organisms. ...
SummaryEusocial insects exhibit a remarkable reproductive division of labor between queens and large...
Social Hymenoptera are characterized by a reproductive division of labor, whereby queens perform mos...
Social Hymenoptera are characterized by a reproductive division of labour, whereby queens perform mo...
Insect societies are well known for their cooperation. However, a number of conflicts do occur withi...
Social insects colonies are known for the incredible level of organization and provide hints about h...
Mutual policing, where group members suppress each others' reproduction, is hypothesized to be impor...
In some ants, bees, and wasps, workers kill or ‘‘police’ ’ male eggs laid by other workers in order ...
Queens and workers in social insect colonies can differ in reproductive goals such as colony-level s...
Insect societies are sometimes exploited by workers who reproduce selfishly rather than help to rear...
In insect societies, eggs laid by workers are frequently killed by other workers - a behaviour known...
The selective forces that shape and maintain eusocial societies are an enduring puzzle in evolutiona...
Although generally capable of producing males, workers in most hymenopteran societies (bees, ants an...
Social Hymenoptera are characterized by a reproductive division of labor, whereby queens perform mos...
© 2015 The Association for the Study of Animal Behaviour. Insect societies display a remarkable leve...
Mutual policing is an important mechanism for maintaining social harmony in group-living organisms. ...