Retina and dioptric apparatus of the dung beetle Euoniticellus africanus

Retinal fine structure and optics of the eye of the dung beetle Euoniticellus africanus have been studied and compared with those of three other scarabaeid beetles: Repsimus manicatus, Anoplognathus pallidicollis and Sericesthis geminata. The eye of Euoniticellus, in common with that of the other three species, possesses a dioptric system in which light first passes through a thick optically homogeneous cornea, and then enters a non-homogeneous crystalline cone. The lens cylinder properties of the latter cause the light rays to become partially focused across the clear-zone upon the rhabdom layer. Rays traced through a large scale drawing of the eye, with refractive indices measured for each component, predict an acceptance angle of approximately 26°. Since no significant aperture changes, lengthening of crystalline thread, cell or pigment migrations appear to be associated with dark/light adaptation, the eye may be assumed to be permanently poorly focused. In optomotor experiments the beetles did not show their characteristic antennal following response to black and white stripes when the latter had repeat periods of <30°. Structurally the eye of Euoniticellus differs markedly from that of other scarabaeids. It is totally divided into dorsal and ventral eye which are of a different size (the dorsal eye is smaller), but whose structural organization is basically the same. Principal pigment cells (they do not fully surround the cone) as well as accessory pigment cells (they accompany the retinula cells in an extraordinarily regular fashion as far as to the basement membrane) exhibit some unusual features. On the proximal side of the clear-zone, at a level where all retinula cell membranes form complex meanders and convolutions, cell 1 is the first to possess a rhabdomere. In it, all microvilli run parallel. This rhabdomere becomes part of the rectangular proximal rhabdom over the upper 20% of its length. Below this level the rhabdom consists of 6 rhabdomeres, but throughout its length microvilli are oriented in 2 orthogonal directions. It is thought that polarization sensitivity in dung beetles generally is related to the rhabdom organization described for Euoniticellus. An eighth (basal) cell is present in each ommatidium, but it lacks a rhabdomere. A tracheal tapetum is not developed. Finally, the point is made not to regard all different eye structures in insects as perfect adaptations to a particular environment or way of living, for specializations of photoreceptors may either follow, parallel or precede any ecological adaptation.