High accuracy of color-generating nanoarchitectures is kept in lowland and mountainous populations of Polyommatus dorylas (Lepidoptera: Lycaenidae: Polyommatinae)

It is known that the size of the scales covering the surface of the Lepidoptera wings is in correlation with body size: larger species possess larger scales. However, butterfly individuals representing the various generations of the same species but differing in body size were not investigated in th...

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Bibliographic Details
Published in:Arthropod structure & development 2019-11, Vol.53, p.100887-100887, Article 100887
Main Authors: Bálint, Zsolt, Katona, Gergely Péter, Horváth, Zsolt Endre, Kertész, Krisztián, Piszter, Gábor, Biró, László Péter
Format: Article
Language:English
Subjects:
Animals
Butterflies - physiology
Butterflies - ultrastructure
Color
Microscopy, Electron, Scanning
Microscopy, Electron, Transmission
Nanoarchitecture
Pigmentation
Polyommatina
Sexual signal
Spectral properties
Voltinism
Wing scale size
Wings, Animal - physiology
Wings, Animal - ultrastructure
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Summary:It is known that the size of the scales covering the surface of the Lepidoptera wings is in correlation with body size: larger species possess larger scales. However, butterfly individuals representing the various generations of the same species but differing in body size were not investigated in this respect. Similarly, the question whether different scale size may influence structural color generation based on nanoarchitectures in the scale lumen was never addressed. Populations of lowland (environment of Budapest, Hungary) and upland (Carpathian Mountains, Romania) Polyommatus dorylas were compared in terms of voltinism, wing and scale size, and the structural origin of blue coloration. Data analysis showed that the univoltine upland population exhibits a larger wing and scale size. On the other hand, the nanomorphology of the blue color-generating scales was identical when compared between univoltine and bivoltine populations. Coloration was also identical when measured with a spectrophotometer under ultraviolet and visible light. This high accuracy present in the male structural coloration suggests that it is controlled genetically. Body size alteration for enhanced thermal fitness has no influence on the fine structure of the nanoarchitecture present in the scale lumen. •Unvoltine populations produce much larger imagines in Blue butterflies.•Within a species larger individuals have larger scales.•Nanoarchitecture hidden inside the scale provides male sexual signal.•Sexual signal spectral properties are irrelevant to scale size.•Bivoltine and univoltine populations share the same color.
ISSN:1467-8039
1873-5495
DOI:10.1016/j.asd.2019.100887