Persistence of the single lineage of transmissible 'social cancer' in an asexual ant

Persistence of the single lineage of transmissible 'social cancer' in an asexual ant

How cooperation can arise and persist, given the threat of cheating phenotypes, is a central problem in evolutionary biology, but the actual significance of cheating in natural populations is still poorly understood. Theories of social evolution predict that cheater lineages are evolutionarily short...

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Published in:Molecular ecology Vol. 20; no. 3; pp. 441 - 455
Main Authors: DOBATA, S., SASAKI, T., MORI, H., HASEGAWA, E., SHIMADA, M., TSUJI, K.
Format: Journal Article
Language:English
Published: Oxford, UK Blackwell Publishing Ltd 01-02-2011
Subjects:
Alleles
Animal Migration
Animals
Ants - genetics
Ants - physiology
Behavior, Animal
Biological Evolution
cheating
clonal genetic structure
Cluster Analysis
Cooperation
DNA, Mitochondrial - chemistry
Ecology
Emery's rule
evolution of cooperation
Evolutionary biology
Female
Formicidae
genetic caste determination
Genotype
Haplotypes
Insects
Microsatellite Repeats
Molecular biology
Parthenogenesis - genetics
Phenotype
Phylogeny
Time Factors
transmissible cancer
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Summary:How cooperation can arise and persist, given the threat of cheating phenotypes, is a central problem in evolutionary biology, but the actual significance of cheating in natural populations is still poorly understood. Theories of social evolution predict that cheater lineages are evolutionarily short‐lived. However, an exception comes from obligate socially parasitic species, some of which thought to have arisen as cheaters within cooperator colonies and then diverged through sympatric speciation. This process requires the cheater lineage to persist by avoiding rapid extinction that would result from the fact that the cheaters inflict fitness cost on their host. We examined whether this prerequisite is fulfilled, by estimating the persistence time of cheaters in a field population of the parthenogenetic ant Pristomyrmex punctatus. Population genetic analysis found that the cheaters belong to one monophyletic lineage which we infer has persisted for 200–9200 generations. We show that the cheaters migrate and are thus horizontally transmitted between colonies, a trait allowing the lineage to avoid rapid extinction with its host colony. Although horizontal transmission of disruptive cheaters has the potential to induce extinction of the entire population, such collapse is likely averted when there is spatially restricted migration in a structured population, a scenario that matches the observed isolation by distance pattern that we found. We compare our result with other examples of disruptive and horizontally transmissible cheater lineages in nature.
Bibliography:istex:68F662329BE1D44203B64FD1691FB94692D21937
ark:/67375/WNG-DQFT2VDK-9
ArticleID:MEC4954
Present address: Japan Wildlife Research Center, Taito, Tokyo 110‐8676, Japan.
Present address: Research and Development Division, Fumakilla Ltd., Hatsukaichi, Hiroshima, 739‐0494, Japan.
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ISSN:0962-1083
1365-294X
DOI:10.1111/j.1365-294X.2010.04954.x