淡水garfish, Xenentodon cancila嗅觉器官的解剖学、组织建筑学和拓扑学研究(Hamilton, 1822)

Q3 Environmental Science

International Journal of Aquatic Biology Pub Date : 2021-02-25 DOI:10.22034/IJAB.V9I1.1041

S. K. Ghosh

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引用次数: 0

摘要

采用显微解剖、染色和超微结构等方法研究了异齿蛇(Xenentodon cancila, Hamilton, 1822)的嗅觉结构。嗅觉系统的独特特征是嗅觉腔，一个开放的槽与突出的底片，没有玫瑰花状的组织。片层由中央核组成，两侧排列着组织良好的上皮。中心核通常由结缔组织纤维和毛细血管组成。上皮呈致密的细胞分布，由受体细胞、支持细胞、淋巴细胞、内部大部分基底细胞和几乎没有黏液细胞组成。形态特异性的两种类型的受体神经元是可识别的:纤毛和微绒毛，包括感觉终端。从鱼类的嗅觉敏感性出发，解释了嗅觉粘膜的细胞构成。

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Anatomical, histoarchitectural and topological studies on the olfactory organ of freshwater garfish, Xenentodon cancila (Hamilton, 1822)

The olfactory structure of Xenentodon cancila (Hamilton, 1822) were explored by advancement in microtomy, staining and ultrastructural practices. The unique feature of the olfactory system was that the olfactory cavity, an open groove with an obtruding sole lamella, no rosette like organization. The lamella was constituted of the central core, lined on both sides by well-organized epithelium. The central core usually consisted of connective tissue fibres and blood capillaries. The epithelium exhibited compact cellular distribution and made up of receptor cells, supporting cells, lymphatic cells, inner most basal cells and almost never mucous cells. Morphologically specific two types of receptor neurons were recognizable: ciliated and microvillous, comprising sensory terminals. The cellular constitution of olfactory mucosa was explained with olfactory sensitivity of the fish necessitated.

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来源期刊

International Journal of Aquatic Biology Environmental Science-Ecology

CiteScore

1.30

自引率

0.00%

发文量

审稿时长

10 weeks