Abstract
Establishment of new groups is an important step in the life history of a social species. Fissioning is a common mode not only in group proliferation, for instance, as a regular part of the life cycle in the honey bee, but also when multiple females reproduce in the same group, as in multiple-queen ant societies. We studied the genetic consequences of fissioning in the ant Proformica longiseta, based on DNA microsatellites. In P. longiseta, new nests arise by fissioning from the old ones when they grow large, and the daughter nests consist of workers and queens or queen pupae but never both. Our results show that fissioning is not entirely random with respect to kinship. Workers tend to segregate along kin lines, but only when the initial relatedness in the parental nests is low. Workers in a daughter nest also tend to be associated with closely related adult queens, whereas such an association is not detected between workers and queen pupae. Most queens and workers are carried to the daughter nest by a specialized group of transporting workers, suggesting active kin discrimination by them. Fissioning pattern in P. longiseta is different from that found in other social insects with regular fission (e.g., the honey bee, swarm-founding wasps), where no fissioning along kin lines has been found. It does, however, resemble fissioning in another group of social animals: primates.
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Acknowledgements
We thank Pia Gertsch for help in the lab, Cathy Liautard for discussions, and anonymous referees for insightful comments. This work was supported by a Marie Curie fellowship (EU-TMR, to I F-E), Swedish Natural Research Council of Science and EU-TMR network “Social Insects” (to PP). The work described in this article comply with the current laws of the countries in which it was performed.
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Seppä, P., Fernández-Escudero, I., Gyllenstrand, N. et al. Colony fission affects kinship in a social insect. Behav Ecol Sociobiol 62, 589–597 (2008). https://doi.org/10.1007/s00265-007-0483-2
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DOI: https://doi.org/10.1007/s00265-007-0483-2