This study aimed to study the development characteristics of Epinephelus fuscoguttatus at the embryo, larval, juvenile and young fish stages, thereby improving the breeding efficiency of E. fuscoguttatus. [Method] The...This study aimed to study the development characteristics of Epinephelus fuscoguttatus at the embryo, larval, juvenile and young fish stages, thereby improving the breeding efficiency of E. fuscoguttatus. [Method] The morphological characteristics and embryonic and post embryonic development of E. fuscoguttatus, including the occurrence and development of nervous system, digestive system and circulatory system, were observed and analyzed using eggs self-fertilized with artificially induced spawning in the breeding base of Hainan Province. [Result] The fertilized egg of E. fuscoguttatus is spherical, colorless transparent with single oil ball, and its diameter ranges from 0.83 to 0.94 mm. Based on the development process, the embryonic development of E. fuscoguttatus was divided into six stages, namely fertilized egg stage, cleavage stage, blastula stage, gastrula stage, idiosome formation stage and hatching stage. The entire embryonic development of E. fuscoguttatus required 20 h 47 min in the sea water with temperature of 28.4-31.9℃ salinity of 31-32 and pH of 8.4, and the total cumulative temperature was 455.361 ℃·h. The post embryonic development of E. fuscoguttatus was divided into larval stage, juvenile stage and young fish stage based on the features of the yolk-sac, second dorsal fin spine, pelvic fin spine, and body color. Accordingly, the larval stage was further classified into pre-larva and post-larva, with or without yolk-sac, respectively. The extension and shrinkage of the first pelvic fin spine and the second dorsal fin spine as well as the spinules on aforementioned spines were the most significant changes during the post embryonic development of E. fuscoguttatus. [Conclusion] This study will provide some basic data for industrial breeding of E. fuscoguttatus.展开更多
基金Supported by Special Project of Hainan Provincial Engineering Research Center(GCZX2013005)Technology Research and Development Project of Hainan Provincial Research Institutes(KYYS-2014-59,KYYS-2013-24,11-20410-0010)Applied Technology Research and Development and Demonstration Project of Hainan Province(ZDXM2015025)~~
文摘This study aimed to study the development characteristics of Epinephelus fuscoguttatus at the embryo, larval, juvenile and young fish stages, thereby improving the breeding efficiency of E. fuscoguttatus. [Method] The morphological characteristics and embryonic and post embryonic development of E. fuscoguttatus, including the occurrence and development of nervous system, digestive system and circulatory system, were observed and analyzed using eggs self-fertilized with artificially induced spawning in the breeding base of Hainan Province. [Result] The fertilized egg of E. fuscoguttatus is spherical, colorless transparent with single oil ball, and its diameter ranges from 0.83 to 0.94 mm. Based on the development process, the embryonic development of E. fuscoguttatus was divided into six stages, namely fertilized egg stage, cleavage stage, blastula stage, gastrula stage, idiosome formation stage and hatching stage. The entire embryonic development of E. fuscoguttatus required 20 h 47 min in the sea water with temperature of 28.4-31.9℃ salinity of 31-32 and pH of 8.4, and the total cumulative temperature was 455.361 ℃·h. The post embryonic development of E. fuscoguttatus was divided into larval stage, juvenile stage and young fish stage based on the features of the yolk-sac, second dorsal fin spine, pelvic fin spine, and body color. Accordingly, the larval stage was further classified into pre-larva and post-larva, with or without yolk-sac, respectively. The extension and shrinkage of the first pelvic fin spine and the second dorsal fin spine as well as the spinules on aforementioned spines were the most significant changes during the post embryonic development of E. fuscoguttatus. [Conclusion] This study will provide some basic data for industrial breeding of E. fuscoguttatus.