| 南海北部黄鳍金枪鱼幼鱼和成鱼鳃的组织学比较研究 |
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| 引用本文: | 符文雅,邹莹,刘飞,潘帅,黄海,马振华,郭志强.南海北部黄鳍金枪鱼幼鱼和成鱼鳃的组织学比较研究[J].中国水产科学,2022,29(10):1475-1486. |
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| 作者姓名: | 符文雅 邹莹 刘飞 潘帅 黄海 马振华 郭志强 |
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| 作者单位: | 海南大学生命科学学院, 南海海洋资源利用国家重点实验室, 海南 海口 570228;热带海洋生物资源利用与保护教育部重点实验室, 海南省热带海洋渔业资源保护与利用重点实验室, 海南热带海洋学院水产与生命学院, 海南 三亚 572022;中国水产科学研究院南海水产研究所热带水产研究开发中心, 海南 三亚 572018 |
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| 基金项目: | 海南大学 C 类人才科研启动基金项目(KYQD(ZR)1803); 2021 年海南省研究生创新科研课题(Qhys2021-236) |
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| 摘 要: | 本研究运用光学显微镜、扫描电镜以及透射电镜技术研究了南海北部黄鳍金枪鱼(Thunnus albacares)幼鱼和成鱼鳃的显微组织结构、鳃表面超微结构和鳃小片内部超微结构特点。结果表明, 黄鳍金枪鱼鳃丝顶端弯曲, 鳃弓、 鳃丝和鳃耙表面具有不同类型的细胞。表面超微结构研究显示黄鳍金枪鱼的鳃具有高的片层密度、独特的斜向血流模式以及鳃的融合特性, 幼鱼和成鱼鳃结构之间存在显著不同。鳃小片内部超微结构研究显示鳃扁平上皮细胞覆盖于鳃丝和鳃小片表面, 顶端存在微绒毛或微脊结构, 相对幼鱼, 成鱼具有高的细胞质密度; 离子细胞主要分布于鳃小片以及鳃小片基部, 幼鱼离子细胞顶端开口为微绒毛, 成鱼为小坑状。本研究阐明了黄鳍金枪鱼幼鱼和成鱼鳃的组织结构, 丰富了黄鳍金枪鱼鳃的基础生物学资料, 为研究高速游泳鱼类鳃的形态特征与其高速游泳习性之间的关系提供了参考。
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| 关 键 词: | 南海 黄鳍金枪鱼 鳃 组织结构 扁平上皮细胞 离子细胞 显微观察 |
Comparison of histological characteristics of the gills between juvenile and adult yellowfin tuna from the northern South China Sea |
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| FU Weny,ZOU Ying,LIU Fei,PAN Shuai,HUANG Hai,MA Zhenhu,GUO Zhiqiang.Comparison of histological characteristics of the gills between juvenile and adult yellowfin tuna from the northern South China Sea[J].Journal of Fishery Sciences of China,2022,29(10):1475-1486. |
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| Authors: | FU Weny ZOU Ying LIU Fei PAN Shuai HUANG Hai MA Zhenhu GUO Zhiqiang |
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| Institution: | College of Life Sciences, Hainan University , State Key Laboratory of Marine Resource Utilization in South ChinaSea, Haikou 570228 , China;Key Laboratory of Utilization and Conservation for Tropical Marine Bioresources ,Hainan Key Laboratory forConservation and Utilization of Tropical Marine Fishery Resources , College of Fisheries and Life Science, HainanTropical Ocean University, Sanya 572022 , China;Tropical Aquaculture Research and Development Center, South China Sea Fisheries Research Institute, ChineseAcademy of Fishery Sciences, Sanya 572018 , China |
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| Abstract: | Tuna is a high-speed swimming species with migratory behavior. As rapid swimming often involves large amounts of energy consumption, the oxygen absorption efficiency of gills is crucial to tuna mobility. However, our current understanding of the histological characteristics of gills is far from sufficient to understand the cost-efficiency of oxygen uptake in tuna. In this study, the microstructure, surface ultrastructure, and internal ultrastructure of juvenile and adult yellowfin tuna in the northern South China Sea were studied using optical microscopy, scanning electron microscopy and transmission electron microscopy. The results showed that the top of the filaments of yellowfin tuna was bent, with different cell types on the surface of gill arch, filament, and gill rake. Surface ultrastructural studies showed that gills had high lamellar density, unique oblique blood flow patterns and gill fusion characteristics, and significant differences between juvenile and adult gills structures. The pavement cells (PVC) covered the filament epithelium and lamellae of the gills, with microvilli or microridges at the top. The gills of adult fish had higher cytoplasmic density than those of juvenile fish. Ionocytes were mainly distributed in the lamellae and the base of the lamellae. The top part of gills of the ionocytes of juvenile fish was comprised of microvilli, and adult fish were pit-shaped. Based on these results, the gills rake of juvenile and adult fish are likely to act as a selective barrier and play a role in predation. Rectangular gill lamella, an oblique blood flow pattern, and gill fusion all enable a greater supply of oxygen for yellowfin tuna, which promotes a high oxygen absorption efficiency, thereby meeting its energy requirements for high-speed swimming. In addition, the two main cells of gill epithelium, the pavement cells and ionocytes, provide a guarantee for the survival, respiration, and energy supply of yellowfin tuna in the ocean environment. Among them, a large number of micro-ridge structures on the surface of pavement cells increase the respiratory surface area of gill lamella and improve the gas exchange efficiency of the gills. A large number of mitochondria in ionocytes produce ATP for ion regulation and self-energy. In conclusion, this study elucidated the histological structure of the gills of juvenile and adult yellowfin tuna, enriching our access to the apparent and microstructure data of yellowfin tuna, as well as providing relevant information regarding the ultrastructure of pavement cells and ionocytes in gills filaments and lamella. Thus, this work provides a basis for the relationship between the specific morphological characteristics of high-speed swimming fish and their high-speed swimming habits. |
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