摘要
1982~1986年;作者采用外源药理学方法,使淡水养殖梭鱼(S‰0.297-0.569)克服了“淡水不育症”,雌鱼性腺成熟率85%以上,完全取代了“海水过渡”。在人工催产中又克服了排卵机制的障碍及胚胎对环境的不适应,并对梭鱼亲鱼血清激素含量进行放射免疫(RIA)测定及电子显微镜对梭鱼脑垂体亚显微结构进行观察。提出梭鱼存在血脑屏障。
Mugil so-iug Basilewsky belongs to euryhaline fish. The artificialpropagation of M. Cephalus and M. soiuy in seawater and brackish water has beenmade usually at home and abroad. But the artificial breeding of freshwater rearedM. soiuy remains unsolved despite that its researches have taken years. This paperreports the results achieved in the freshwater reared M. soiuy made between 1982-1986. Fingerling of 1/3 decimeter in length captured in open seas were reared inconfined freshwater piscinas with salinity of 0.297-0.569‰. 'Sterility' of M. soiuyin freshwater was subdued through extrinsic pharmacological treatment of overfour years old adult fish. Sex maturity of female fishes could be successfullyreached without 'seawater transition. Obstacles with regards to ovulation mecha-nism and adaptation of ovules to surroundings were overcome in the process ofartificial induced spawning. A large number of fertilized ova were obtained.6,570.000 fries were hatched and 398,000 fingerlings of over 2.5 cm in lengthwere raised. In the experiments a total number of 221 females were induced within5 years. The maturity of parent fishes reached 85%, while general birth rate was89.5% with 106 groups given induced spawning. By high density hatching, hatch-ing rate was 81%. The artificial breeding of freshwater cultured M. soiuy has beensuccessfully realized. Physiological-ecological contrast experiments as well as deter-minations of GTH content in M. soiuy blood serum by means of RIA were repea-tedly made. Encephalic hypophysis cells were proved by observing oval microstruc-ture with electron microscope. In addition, the blood brain barrier (BBB) has beenobserved existing in M. soiuy through the experiments.
出处
《水产学报》
CAS
CSCD
北大核心
1989年第2期109-115,共7页
Journal of Fisheries of China
关键词
淡水梭鱼
人工繁殖
外源药理学法
freshwater Mugil so-iuy
artificial propagation
extrinsic pharmacological method
'seawater transition'