Female reproductive system and oogenesis in the mite Bakericheyla chanayi.

The fine structure of the female reproductive system of a cheyletid mite Bakericheyla chanayi (Trombidiformes: Cheyletidae) is investigated for the first time. This system consists of an unpaired ovary, glandular oviduct, receptaculum seminis, long cuticle-lined vagina, and genital atrium terminating in the genital opening. A separate sperm access system has not been found. The receptaculum seminis opens into the distal oviduct region, where fertilization apparently takes place. The ovary contains clusters of oogonia (cystocytes), clustered early meiotic cells, a few growing previtellogenic oocytes, and 3 large nurse cells. The dorsal ovarian region is occupied by the clusters of bacteriocytes which harbor symbiotic bacteria. Oocytes undergo vitellogenesis in individual ovarian pouches, each connected to the corresponding nurse cell by an intercellular bridge. The fine structure of the bridge suggests transport between the interconnected cells in the course of vitellogenesis. The population of cystocytes was shown to be heterogenic. The electron-light cells enter meiosis and develop into the oocytes or nurse cells. The electron-dense cystocytes do not show meiotic transformation and probably give rise to the bacteriocytes. The early development of the nurse cells and oocytes is similar and accompanied by the blebbing of the nuclear envelope, appearance of nuage material and Balbiani bodies.