Abstract
To enhance comprehension of the destiny of the spermatozoon throughout the reproductive process of mud crab (Scylla paramamosain) is important for achieving large-scale artificial breeding of Scylla. The reproductive systems of sexually mature male and female mud crabs were studied, utilizing the histomorphological method. The spermatozoon traveled from testicular lobules through the seminiferous duct, into the anterior vas deferens (AVD) via the collecting duct. The spermatophore wall formed at the end of the AVD. During copulation, spermatophores stored in the median vas deferens (MVD) were transferred to the seminal receptacle through the posterior vas deferens (PVD), ejaculatory duct, and gonopod, with seminal plasma secreted by both MVD and PVD together. After mating, the sperm plug was formed within the seminal receptacle's ventral zone. At ovary stage Ⅲ, the spermatophore wall ruptured, and the sperm plug disappeared. Bundled sperm packets congregated into a dense mass, while a few spermatozoa dispersed along the intermediate chamber to the dorsal zone. At ovary stage Ⅳ, the dorsal zone also exhibited a dense sperm mass due to increased dispersal. At ovary stage Ⅴ, merely a modest portion of the dense sperm mass remained in the ventral zone, and the rest dissociated and dispersed within the seminal receptacle. Following ovulation, sperm mass remained in the ventral zone, re-dissociating and re-dispersing once ovarian development reached stage Ⅲ again. The phased dispersion supply mode of spermatozoa behind multiple ovipositions was unveiled. Furthermore, we observed the ultrastructural changes in the spermatozoon during the process of the capacitation, including operculum widening, actin-containing substance accumulation, and the density of chromatin in the nucleus decreased. As presented herein, the elucidation of the dynamic changes of the spermatozoon, as well as the pattern of spermatozoa supply, contributes significantly to our enhanced comprehension of the reproductive biology of Scylla.
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