Fine structure of photoreceptors in larval trematodes. A comparative study.

Abstract

The fine structure of photoreceptors is described in miracidia of Fasciola hepatica, Heronimus chelydrae, Allocreadium lobatum, and Spirorchis sp., and in a spirorchiid cercaria. All have in common eyespots consisting of pigment cells with chambers occupied by rhabdomeres consisting of retinular cell dendrites with numerous microvilli. Photoreceptors of the miracidia show a bilateral asymmetry which is most pronounced in H. chelydrae with a pair of well separated eyespots unequal in size. The smaller right one consists of a pigment cell and two rhabdomeres; the larger left eyespot has an anterior pigment cell with two rhabdomeres and a posterior cell containing one rhabdomere. Photoreceptors in the other species of miracidia also have five rhabdomeres but contain only two pigment cells which are closely apposed. Each contains a pair of lateral rhabdomeres and a fifth one occupies a posteromedian extension of the left pigment cell. In the number of rhabdomeres, their relationship to pigment cells and the resulting asymmetry, photoreceptors are more alike in the distantly related species of miracidia studied than they are in ocellate cercariae or even in the miracidium and cercaria of the same species or two closely related ones. From the asymmetry of photoreceptors in larvae of certain flatworms other than digenetic trematodes, it seems that eyespots of miracidia have retained an ancestral pattern whereas the diversity of photoreceptors in cercariae reflects the varied phototactic behavior of those larvae which complete their life cycles by all the means known for cercariae with a free-swimming period. In both miracidia and cercariae, photoreceptors show an anterior-posterior organization that would seem to be concerned with orientation of the larvae with respect to light.