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黄带拟鲹(Pseudocaranx dentex)和星云扁鲨(Squatina nebulosa)骨骼系统比较解剖学研究
高广¹, 李新², 张佳伟³, 绍光彬³, 王彦丰², 蒋克勇², 肖志忠⁴
1.西北工业大学;2.中国科学院海洋研究所实验海洋生物学重点实验室;3.莱州明波水产有限公司;4.中国科学院海洋研究所

摘要:

骨骼是鱼类的重要器官。为探究硬骨鱼类和软骨鱼类骨骼系统的异同及鱼类骨骼演化过程，本研究采用X光射线和CT扫描技术，对黄带拟鲹和星云扁鲨的骨骼系统进行了观察与比较分析。结果表明，二者的内骨骼均可分为中轴骨和附肢骨；星云扁鲨的骨骼整体矿化程度较低，脑颅没有大块膜质骨片覆盖，仅由一整块软颅构成；黄带拟鲹的胸鳍支鳍骨有4块，而星云扁鲨有3块，较少的基鳍骨数量代表其更接近有颌类祖先的骨骼特征；此外，在黄带拟鲹尾柄处观察到对称分布有高度钙化的侧线鳞，推测可能与其运动行为相关。本研究丰富了海洋鱼类形态解剖学的基础资料，也为理解鱼类骨骼系统的适应性演化提供了信息。

关键词: 膜质骨矿化软骨形态解剖学骨骼演化

DOI：

分类号:S968

基金项目:山东省重点研发计划

Comparative Anatomical Study of the Skeletal Systems of the White trevally (Pseudocaranx dentex) and the Clouded Angelshark (Squatina nebulosa)

GAO Guang¹, LI Xin², ZHANG Jia-wei³, SHAO Guang-bin³, WANG Yan-feng², JIANG Ke-yong², XIAO Zhi-zhong⁴

1.Northwestern Polytechnical University;2.CAS Key Laboratory of Experimental Marine Biology,Institute of Oceanology,Chinese Academy of Science;3.Laizhou Mingbo Aquatic CO,LTD;4.Institute of Oceanology,Chinese Academy of Science

Abstract:

The skeleton is a crucial organ in fish. To explore the similarities and differences in the skeletal systems of Osteichthyans and Chondrichthyans, as well as the evolutionary process of fish skeletons, this study utilized X-ray and CT scanning technologies to observe and document the skeletal systems of the White Trevally (Pseudocaranx dentex) and the Clouded Angelshark (Squatina nebulosa). The results show that the endoskeleton of both species can be divided into axial and appendicular elements. In S. nebulosa, the skeleton is generally less mineralized, and the neurocranium lacks large dermal bone, being composed solely of a cartilaginous structure. Moreover, P. dentex possesses four basipterygia in the pectoral fins, whereas S. nebulosa exhibits only three, a condition considered more similar to that of early jawed vertebrates. In addition, symmetrically arranged, highly calcified lateral-line scales were observed on the caudal peduncle of P. dentex, which is speculated to be related to its locomotor behavior. In conclusion, this study enriches the fundamental data on marine fish skeletal anatomy and provides novel insights into the evolutionary development of the fish endoskeleton.

Key words: dermal bone, mineralized cartilage, morphological anatomy, skeletal evolution