Microhabitat distribution and coexistence of Microcotylidae (Monogenea) on the gills of the striped mullet Mugil cephalus: chance or competition?

The two monogenean species Metamicrocotyla cephalus and Microcotyle mugilis have specific microhabitats on the gills of Mugil cephalus on which they may or may not coexist. M. cephalus is found in sector 1 of the posterior hemibranch of arch I. M. mugilis is found on the filaments of sector 5 of the posterior hemibranch of arch I. The coexistence of these two monogenean species on the same fish does not induce a change in their respective distribution, except for a marked preference of M. cephalus for the left side and of M. mugilis for the right. This 15-month-long study shows that when the two species of monogeneans coexist the infection prevalence and intensity are higher than in cases of monospecific infection. The specific character of the microhabitat, the apparent absence of interspecific competition, and the existence of positive species interactions are discussed.

Selective distribution of sugars on the tegumental surface of adult Bothriocephalus gregarius (Cestoda: Pseudophyllidea).

Whole specimens and histological and semi-thin sections of Bothriocephalus gregarius adults were exposed to lectins to identify carbohydrates present in the tegument and parenchyma. The sugars N-acetyl glucosamine, N-acetyl galactosamine, galactose, glucose (or mannose) and fucose were detected in the cestode using eight lectins: WGA (Wheat germ agglutinin), HPA (Helix pomatia agglutinin), SBA (Soy bean agglutinin), PHA (Phaseolus vulgaris agglutinin), RCA60 and RCA120 (Ricinus communis toxin and agglutinin), ConA (Concanavalin agglutinin) and UEA-I (Ulex europaeus agglutinin). Combined use of these methodological approaches (whole specimens, paraffin and semi-thin sections) revealed the presence of a gradient in the distribution of most of the sugars over the tegument, with the highest concentrations on the strobila (as shown by most of the lectins). Other sugars were specific for the scolex or strobila (as shown by UEA-I or HPA, respectively). The ultrastructural study showed that the distribution of glycoconjugates was associated with the presence of specific tegumental coats. The significance of this selective distribution and its relevance to cestode physiology and host-parasite relationships are discussed.

The fine structure of the embryonic envelopes before and after hatching in bothriocephalids: physiological and ecological significance.

The fine structure and differentiation of the embryonic envelopes before and after hatching in two bothriocephalid species of teleostean fish are described. Scanning electron microscopic observation of the egg surface confirmed the specific ornamentation of the capsule. Its thickness and topographic morphology reflect the physiocochemical characteristics of the environment. Beneath the eggshell, two syncytial layers were observed around the oncosphere. The outer envelope, visible during the preoncospheral phase, degenerated before the liberation of the coracidium. Glycoconjugate labelling confirmed the nutritive character of this layer. After hatching, the inner envelope was the only layer covering the oncosphere. The apical plasma membrane of the coracidial sheath bore cilia and numerous clublike microvilli. Beneath the cortical zone, the syncytial cytoplasm was vacuolated, resembling a honeycomb; the electron-dense zone, described from other pseudophyllideans, was not present. The basal membrane of the inner envelope, uniformly electron-dense, was assimilated by the oncospheral membrane. Comparison of the composition of the embryonic envelopes of pseudophyllideans with those of other tapeworm orders and trematodes revealed ontogenetic, structural and functional similarities between the embryotrophic layers. The physiological and ecological significance of the structure of the free-swimming coracidium is discussed. In this respect, the inner envelope around the oncosphere appears to be responsible for the inability of the larva to detect and invade the intermediate host.