Phenotypic variation in Heliconius erato crosses shows that iridescent structural colour is sex-linked and controlled by multiple genes

Bright, highly reflective iridescent colours can be seen across nature and are produced by the scattering of light from nanostructures. Heliconius butterflies have been widely studied for their diversity and mimicry of wing colour patterns. Despite iridescence evolving multiple times in this genus,...

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Detalles Bibliográficos
Autores Principales: Brien, Melanie N., Enciso-Romero, Juan, Parnell, Andrew J., Salazar, Patricio A., Morochz, Carlos, Chalá, Darwin, Bainbridge, Hannah E., Zinn, Thomas, Curran, Emma V., Nadeau, Nicola J.
Formato: Artículo (Article)
Lenguaje:Inglés (English)
Publicado: Royal Society Publishing 2019
Materias:
Acceso en línea:https://repository.urosario.edu.co/handle/10336/24325
https://doi.org/10.1098/rsfs.2018.0047
Descripción
Sumario:Bright, highly reflective iridescent colours can be seen across nature and are produced by the scattering of light from nanostructures. Heliconius butterflies have been widely studied for their diversity and mimicry of wing colour patterns. Despite iridescence evolving multiple times in this genus, little is known about the genetic basis of the colour and the development of the structures which produce it. Heliconius erato can be found across Central and South America, but only races found in western Ecuador and Colombia have developed blue iridescent colour. Here, we use crosses between iridescent and non-iridescent races of H. erato to study phenotypic variation in the resulting F 2 generation. Using measurements of blue colour from photographs, we find that iridescent structural colour is a quantitative trait controlled by multiple genes, with strong evidence for loci on the Z sex chromosome. Iridescence is not linked to the Mendelian colour pattern locus that also segregates in these crosses (controlled by the gene cortex). Small-angle X-ray scattering data show that spacing between longitudinal ridges on the scales, which affects the intensity of the blue reflectance, also varies quantitatively in F 2 crosses. © 2018 The Author(s) Published by the Royal Society. All rights reserved.