Abstract
Structure and photomechanical changes upon light/dark adaptation in the superposition compound eyes of the highly sexu- ally dimorphic Orygia antiqua were studied by light and electron microscopy. The eyes of the fully winged male differ from those of the wingless, sedentary female in several respects: they are significantly larger, display a more regular ommatidial array, have a wider clearzone and possess a much more substantial tracheal tapetum. However, the eyes of the female exhibit more pronounced photomechanical changes upon light/dark adaptation than those of the male. We believe that for females, on account of their limited mobility, it is necessary that their eyes can cope with widely fluctuating brightnesses, but that visual sensitivity and resolving power are less important to them than to the actively flying males. Although the latter may be attracted to the females by pheromones, males in their diurnal searches will have to visually avoid obstacles and predators. Moreover, because of their ability to fly, males can seek shelters or shaded areas and unlike the sedentary females avoid prolonged exposures to potentially hazardous light levels. This could explain why the eyes of the females exhibit more pronounced photomechanical responses to changes in ambient light lev- els.
Highlights
Most arthropods live in environments, in which they experience considerable light intensity fluctuations
The present study focuses on the compound eye of the lymantriid Orgyia antiqua L
Male O. antiqua have bigger eyes than females and this result does agree with observations by Yagi & Koyama (1963), who investigated about 80 species from 25 lepidopteran families and found that male eyes were always bigger than those of females, it is not selfunderstood that this has to be so: there are insects like Hypothenemus hampei, for instance, in which the reverse holds true
Summary
Most arthropods live in environments, in which they experience considerable light intensity fluctuations Often their eyes are capable of adapting to sudden changes in ambient light levels caused by shadows or passing clouds and to the more predictable light intensity differences that accompany dawn and dusk each day. Sakura et al (2003) recently found that only adult males of the cricket Gryllus bimaculatus show a distinct circadian change in rhabdom size under conditions of constant darkness; eyes of nymphs and female crickets do not. This was the first report that demonstrated that day/night morphological changes need not be identical in all developmental stages and the two sexes
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