Frequency-dependent variation in mimetic fidelity in an intraspecific mimicry system

Contemporary theory predicts that the degree of mimetic similarity of mimics towards their model should increase as the mimic/model ratio increases. Thus, when the mimic/model ratio is high, then the mimic has to resemble the model very closely to still gain protection from the signal receiver. To d...

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Bibliographic Details
Published in:Proceedings of the Royal Society. B, Biological sciences Biological sciences, 2011-10, Vol.278 (1721), p.3116-3122
Main Authors: Iserbyt, Arne, Bots, Jessica, Van Dongen, Stefan, Ting, Janice J, Van Gossum, Hans, Sherratt, Thomas N
Format: Article
Language:English
Subjects:
Abdomen
Adaptation, Biological
Animal morphology
Animals
Batesian Mimicry
British Columbia
Evolution
Female
Female animals
Female Polymorphism
females
Frequency-Dependent Selection
Genetic variation
Insecta - genetics
Male
Male animals
males
Mating behavior
Mimicry
morphometry
morphs
Ontario
Phenotype
Phenotypes
Phenotypic traits
Pigmentation
Polymorphism, Genetic - genetics
prediction
Quebec
Selection, Genetic
Sexual Conflict
Signal Detection Theory
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Summary:Contemporary theory predicts that the degree of mimetic similarity of mimics towards their model should increase as the mimic/model ratio increases. Thus, when the mimic/model ratio is high, then the mimic has to resemble the model very closely to still gain protection from the signal receiver. To date, empirical evidence of this effect is limited to a single example where mimicry occurs between species. Here, for the first time, we test whether mimetic fidelity varies with mimic/model ratios in an intraspecific mimicry system, in which signal receivers are the same species as the mimics and models. To this end, we studied a polymorphic damselfly with a single male phenotype and two female morphs, in which one morph resembles the male phenotype while the other does not. Phenotypic similarity of males to both female morphs was quantified using morphometric data for multiple populations with varying mimic/model ratios repeated over a 3 year period. Our results demonstrate that male-like females were overall closer in size to males than the other female morph. Furthermore, the extent of morphological similarity between male-like females and males, measured as Mahalanobis distances, was frequency-dependent in the direction predicted. Hence, this study provides direct quantitative support for the prediction that the mimetic similarity of mimics to their models increases as the mimic/model ratio increases. We suggest that the phenomenon may be widespread in a range of mimicry systems.
ISSN:0962-8452
1471-2954
1471-2945
DOI:10.1098/rspb.2011.0126