[Formation of the fertilization membrane of the egg inArtemia salina]

Scanning Electron Microscopy of Vitellogenic Oocytes and Spawned Eggs of the Portunid Crab Charybdis hellerii (Crustacea-Brachyura) (Milne Edwards, 1867)

Background:

The portunid crab Charybdis hellerii is an economically critical aquatic species in the Mediterranean region. Several investigators have reported scanning electron microscopy (SEM) observations on some crustacean's eggs' morphology. Going through the previous studies, knowledge regarding the morphology of C. hellerii. vitellogenic oocytes and spawned egg membranes are not available.

Aims and Objectives:

In the present study, an attempt has been made to describe the morphology and the structure of the membranes of vitellogenic oocytes and the newly spawned eggs to provide necessary information for further studies on the reproductive and evolutionary biology of the crab C. hellerii.

Materials and Methods:

Samples of ripe pinkish orange ovaries of non-ovigarous females and the spawned incubated eggs of ovigerous females with orange and grey spawns were processed for scanning electron microscopy. The prepared samples were examined in a Zeiss DSM 940 scanning electron microscope.

Results:

The present SEM study revealed that, vitellogenic oocytes are highly packed with yolk inclusions, which appear to be embedded in a definite acellular matrix and surrounded by a distinct chorion, which is pierced by several pores. The follicle cells appear polygonal in shape and interconnected through thin lateral projections and strongly associated with vitellogenic oocytes. The brooded fertilized eggs are attached through a marked stalk (funiculus) and surrounded by three distinct envelopes, which showed specific ornamentations and variations in their surface topography. The outer envelope coarsely wrinkled, while the middle envelope showed finely wrinkled ornamentation, and the inner envelope appeared with its characteristic spongy, porous appearance.

Conclusions:

This study denotes a significant difference between mature vitellogenic oocytes inside the ripe ovary and the spawned ova. The differences have been shown in the structure and external ornamentation of their surrounding membranes. Unlike the vitellogenic oocytes, the spawned ova were surrounded by three distinct layers, which are differ in their surface architecture. Such membrane architecture is species specific characteristic and has been thought to be an adaptive feature for brooded fertilized eggs to survive from stressful environmental conditions.

Fertilization in a crab. II. Cytological aspects of the cortical reaction and fertilization envelope elaboration

At fertilization, the egg of Carcinus maenas undergoes cortical vesicle exocytosis, in response to the first contacts between the spermatozoon and the egg plasma membrane. This process was observed in vitro and may be connected with a cortical reaction. Carcinus maenas eggs display two populations of cortical vesicles which, during the reaction, successively release two different exudates: a fine granular material and a mass of ring-shaped granules. During the first steps of exocytosis, the two superimposed vitelline envelopes are detached from the egg surface, and the inner one gradually changes. Thus a new coating, derived from the coalescence of the secreted ring-shaped granules, is progressively elaborated under the vitelline envelopes. These events occur over a 7-8 hr period. The morphological uniqueness of the cortical vesicle exudates and the complexity of the related events are discussed in terms of the cortical reaction and of the formation of the fertilization envelope in Carcinus maenas.

Fine structure and secretion of the capsule enclosing the embryo in a crab (Carcinus maenas (L.))

Carcinus maenas oocyte is encased, at the end of vitellogenesis phase, by two superposed vitelline envelopes. If the outermost (envelope 1a) is relatively thin, the innermost (envelope 1b) is however five times much thicker. The envelope 1b, secreted mostly by the oocyte, contains proteinaceous material and a substance which strongly binds WGA. The 1b material deposition is completed when the oocyte nuclear apparatus still has the characteristics of a germinal vesicle. After the secretion phase and always at the ovarian level, envelope 1b material undergoes remarkable structural modifications. These last events occur while the oocyte nuclear apparatus is in the first meiotic metaphase stage. Later, after egg-laying, a new material appears below the two superimposed vitelline envelopes 1a and 1b. This new innermost material (envelope 2), observed as a very thick and homogeneous secretion, is secreted by the newly laid egg probably after fecondation. Envelope 2 material is wholly deposited in few hours and arises from vesicles of an oocytic origin. These three superimposed envelopes make up the embryo capsule of which the main part is constituted by envelope 2. This tripartite capsule will stay, surrounding the developmental stages, superimposed to newly secreted successive embryonic envelopes, up to the end of embryogenesis.