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Colony Structure in a Plant-Ant: Behavioural, Chemical and Genetic Study of Polydomy in Cataulacus mckeyi (Myrmicinae)
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Colony Structure in a Plant-Ant: Behavioural, Chemical and Genetic Study of Polydomy in Cataulacus mckeyi (Myrmicinae)
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Colony Structure in a Plant-Ant: Behavioural, Chemical and Genetic Study of Polydomy in Cataulacus mckeyi (Myrmicinae)
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Journal Article
Colony Structure in a Plant-Ant: Behavioural, Chemical and Genetic Study of Polydomy in Cataulacus mckeyi (Myrmicinae)
2003
Overview
Social organisation of colonies of obligate plant-ants can affect their interaction with myrmecophyte hosts and with other ants competing for the resources they offer. An important parameter of social organisation is whether nest sites of a colony include one or several host individuals. We determined colony boundaries in a plant-ant associated with the rainforest understorey tree Leonardoxa africana subsp. africana, found in coastal forests of Cameroon (Central Africa). This myrmecophyte is strictly associated with two ants, Petalomyrmex phylax and Cataulacus mckeyi. Plants provide food and nesting sites for P. phylax, which protects young leaves against insect herbivores. This mutualism is often parasitised by C. mckeyi, which uses but does not protect the host. The presence of C. mckeyi on a tree excludes the mutualistic ant. Because Petalomyrmex -occupied trees are better protected, their growth and survival are superior to those of Cataulacus -occupied trees, giving P. phylax an advantage in occupation of nest sites. C. mckeyi often colonises trees that have lost their initial associate P. phylax, as a result of injury to the tree caused by disturbance. Polydomy may allow C. mckeyi to occupy small clumps of trees, without the necessity of claustral colony foundation in each tree. Investigating both the proximate (behavioural repertoire, colony odour) and the ultimate factors (genetic structure) that may influence colony closure, we precisely defined colony boundaries. We show that colonies of C. mckeyi are monogynous and facultatively polydomous, i.e. a colony occupies one to several Leonardoxa trees. Workers do not produce males. Thus, the hypothesis that polydomy allows workers in queenless nests to evade queen control for their reproduction is not supported in this instance. This particular colony structure may confer on C. mckeyi an advantage in short-distance dispersal, and this could help explain its persistence within the dynamic Leonardoxa system.
Publisher
Springer-Verlag,Springer,Springer Nature B.V
Subject
