Abstract
Current research on female colour polymorphism in Ischnura damselflies suggests that a balanced fitness trade-off between morphotypes contributes to the maintenance of polymorphism inside populations. The genetic inheritance system constitutes a key factor to understand morph fluctuation and fitness. Ischnura genei, an endemic species of some Mediterranean islands, has three female colour morphs, including one androchrome (male-coloured) and two gynochromes. In this study, we reared two generations of I. genei under laboratory conditions and tested male behavioural responses to female colour morphs in the field. We recorded ontogenetic colour changes and studied morph frequency in three populations from Sardinia (Italy). Morph frequencies of laboratory crosses can be explained by a model based on an autosomal locus with three alleles and sex-restricted expression, except for one crossing of 42 families with unexpected offspring. The allelic dominance relationship was androchrome > infuscans > aurantiaca. Old individuals reared in the laboratory exhibited different levels of melanism in variable extent depending on sex and morph. Results of model presentations indicate a male preference for gynochrome females and the lack of recognition of androchromes as potential mates. Aurantiaca females were the most frequent morph in the field (63–87%). Further studies in other populations and islands are needed to understand the maintenance of this polymorphism.
Highlights
Phenotypic variability is biologically important because it increases adaptive opportunities, and provides a potential avenue for speciation
Colour polymorphism is a common phenomenon in the Odonata, in coenagrionids where females exhibit different colour morphs (Cordero & Andrés, 1996; Fincke et al, 2005)
Each female colour morph is balanced by different costs and benefits across fluctuations in the intensity of male harassment, which is frequency-dependent (Van Gossum, Sherratt & Cordero-Rivera, 2008)
Summary
Phenotypic variability is biologically important because it increases adaptive opportunities, and provides a potential avenue for speciation. The adaptive significance of female body colour variation is currently interpreted as an evolutionary response to male reproductive harassment In this scenario, each female colour morph is balanced by different costs and benefits across fluctuations in the intensity of male harassment, which is frequency-dependent (Van Gossum, Sherratt & Cordero-Rivera, 2008). In all polymorphic Coenagrionid species so far studied, one of the female morphs presents similar body colouration as the conspecific male (androchrome) and other/s show a different colour (gynochromes) This variation is controlled by one autosomal locus with 2–3 alleles and sex-restricted expression, where only females show colour morphs (Johnson, 1964; Johnson, 1966; Cordero, 1990; Andrés & Cordero, 1999; Sánchez-Guillén, Van Gossum & Cordero-Rivera, 2005). The androchrome allele is recessive in Ischnura damula (Johnson, 1964), I. demorsa (Johnson, 1966), and Ceriagrion tenellum (Andrés & Cordero, 1999); has been suggested to be recessive in Ischnura senegalensis (Takahashi et al, 2014); but is dominant in Ischnura graellsii (Cordero-Rivera, 1990) and I. elegans (Sánchez-Guillén, Van Gossum & CorderoRivera, 2005)
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