摘要
为探究急性低氧胁迫对四指马鲅(Eleutheronema tetradactylum)幼鱼鳃器官的影响以及肝脏组织损伤情况,对四指马鲅进行了水体溶解氧为2 mg/L、时间为120 min的急性低氧胁迫试验,采用常规石蜡切片和HE染色以及电子显微技术,观察四指马鲅的鳃和肝脏器官。结果显示,在急性低氧胁迫下,四指马鲅鳃丝内血窦收缩、末端膨大,鳃小片长度变长、间隔变大,部分上皮细胞肿胀凸起;线粒体丰富细胞的顶隐窝由内凹变为平整,胞内线粒体形态由椭圆形变为圆形;肝组织出现肝细胞坏死、肝细胞融合等现象。表明低氧胁迫对四指马鲅鳃和肝组织具有较大的影响,且120 min就会造成组织结构的损伤。
To investigate the effects of acute hypoxic stress on the gill organs and liver tissue damage of juvenile Eleutheronema tetradactylum,a 2 h acute hypoxic stress experiment was conducted with 2 mg/L of dissolved oxygen in the water.Then the gills and liver organs of E.tetradactylum were observed using conventional paraffin sections and HE staining as well as electron microscopic techniques.The results displayed contraction of the blood sinuses in the gill filaments of E.tetradactylum under acute hypoxic stress,with dilated ends;longer gill lamellae,larger intervals and swollen and bulging parts of the epithelium.The parietal crypt of mitochondria-rich cells changed from concave to flat and the intracellular mitochondrial morphology changes from oval to round.Liver tissue showed hepatocyte necrosis and fusion of hepatocytes.Hypoxic stress had a large effect on the gill and liver tissues of E.tetradactylum and caused structural damage to the tissues by 2 h.
作者
林欣
区又君
温久福
徐淑玉
李加儿
LIN Xin;OU Youjun;WEN Jiufu;XU Shuyu;LI Jia′er(College of Fisheries and Life Science,Dalian Ocean University,Dalian 116000,China;Key Laboratory of South China Sea Fishery Resources Exploitation&Utilization,Ministry of Agriculture and Rural Affairs,South China Sea Fisheries Research Institute,Chinese Academy of Fishery Sciences,Guangzhou 510300,China;Maoming Branch,Guangdong Laboratory for Lingnan Modern Agriculture,Maoming 525000,China;College of Fisheries and Life Science,Shanghai Ocean University,Shanghai 201306,China)
出处
《渔业研究》
2023年第1期14-22,共9页
Journal of Fisheries Research
基金
国家重点研发计划“蓝色粮仓科技创新”重点专项(2018YFD0900200)
中国水产科学研究院基本科研业务费资助项目(2020TD55)
岭南现代农业科学与技术广东省实验室茂名分中心基金资助课题(2022ZD009)。
关键词
四指马鲅
低氧胁迫
鳃
肝
组织学
Eleutheronema tetradactylum
gill
liver
hypoxia stress
histology