Effects of light on pigment development in the echiuran worm, <i>Bonellia viridis</i>

Although Bonellia viridis is the best studied echiurid species, many aspects of its anatomy and ultrastructure are still unclear. In this study, detailed description of proboscis epithelium of females of B. viridis is done and illustrated by accurate schemes. Accordingly to histological specificities, four zones of proboscis stem can be distinguished: dorsal, ventral, and two lateral.These zones differ from each other in ciliation and abundance of bonellin-producing and gland cells. Each zone supplies certain functions: protective for dorsal, transport of food particles for ventral, and agglutination of food particles for lateral. Ciliated cells have been described in epithelium of the dorsal side of the proboscis stem for the first time. These cells, probably, supply slow ciliary movements of proboscis. For the first time, the organization of epithelial cells is described and the ability of epithelial cells to consume nutrients is detected. The absence of continuous basal lamina under the ventral epithelium is ascertained. This unusual state may be explained by activity of bonellin-producing cells, which constantly penetrate between epithelial cells. In bonellin-producing cells, voluminous perinuclear space and contribution of rough endoplasmic reticulum into formation of bonellin-containing granules are detected for the first time. Innervation of epithelial and gland cells occurs via nerve tracts originating from proboscis nerve cords. In general, echiurid proboscis epithelium exhibits many unusual features, which are unknown for any other food collecting apparatuses of annelids. The specificity of organization of proboscis correlates with unique evolutionary transformation, which echiurids underwent from initially segmented ancestor to recent non-segmented state.

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Development of pigment in the echiuran worm Bonellia viridis

Agius

Jaccarini

1981

Journal of Zoology

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An account is given of the development of green pigment in the early larval stages of the echiuran worm, Bonellia viridis. The green pigment first appears in scattered epidermal cells of the gastrula, before the development of the trochal rings. It is contained in spherical vacuoles (0.5‐1.0 μm in diameter). As the gastrula develops into the trochophore there is an increase in total pigment content, as well as an increase in number of pigment cells and size of pigment vacuoles. The increase in pigment cell number in the trochophore results from the proliferation of the pigment cells of the gastrula. The pigment content increases rapidly before the trochophores hatch but shows little relative increase after hatching whilst the trochophores remain undifferentiated. We suggest that the pigment may have a protective role in the free‐living trochophore for camouflage or chemical defence. In trochophores that undergo male differentiation the pigmentation is lost. Since the males do not lead a free‐living existence but live as commensals inside the uterus of the female camouflage or chemical defence would be unnecessary. In trochophores undergoing female differentiation there is an increase in pigment content of the preoral lobe which develops into the proboscis. Following the enlargement of the coelom, clusters of coelomic cells accumulate green pigment whilst still in the coelom and then migrate to the integument of the body wall.

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Effects of light on pigment development in the echiuran worm, Bonellia viridis

Cited by 3 publications

References 5 publications

Echiura and Sipuncula

Echiura and Sipuncula

New data on the ultrastructure of the proboscis in females of Bonellia viridis (Annelida: Bonellinae)

Development of pigment in the echiuran worm Bonellia viridis

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