Narrowing, twisting, and undulating: Complicated movement in shark spiral intestine inferred using ultrasound

IF 1.6 3区生物学 Q2 ZOOLOGY Zoology Pub Date : 2023-04-01 DOI:10.1016/j.zool.2023.126077

Taketeru Tomita , Kiyomi Murakumo , Rui Matsumoto

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Abstract

Shark intestine presents a complicated three-dimensional morphology, characterized by the development of a coiled internal septum. A basic question regarding the intestine is its movement. This lack of knowledge has prevented the testing of the hypothesis on its functional morphology. The present study, to our knowledge, for the first time, visualized the intestinal movement of three captive sharks using an “underwater ultrasound” system. The results indicated that the movement of the shark intestine involved strong twisting. We suspect that this motion is the mechanism that tightens the coiling of the internal septum, enhancing compression of the intestinal lumen. Our data also revealed the presence of active undulatory movement of the internal septum, of which the undulatory wave propagated in the opposite (anal-to-oral) direction. We hypothesize that this motion decreases the flow rate of the digesta and increases absorptive time. These observations indicate that the kinematics of the shark spiral intestine are more complicated than expected based on morphology, and the fluid flow in the intestine is likely highly regulated by intestinal muscular activity.

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狭窄、扭曲和波动:利用超声推断鲨鱼螺旋肠的复杂运动

鲨鱼的肠道呈现出复杂的三维形态，其特征是形成了卷曲的内隔膜。关于肠道的一个基本问题是它的运动。这种知识的缺乏阻碍了对该假说功能形态的检验。据我们所知，本研究首次使用“水下超声”系统可视化了三条圈养鲨鱼的肠道运动。结果表明，鲨鱼肠道的运动涉及强烈的扭转。我们怀疑这种运动是拉紧内隔膜的机制，增强了肠腔的压缩。我们的数据还揭示了内隔膜存在活跃的波动运动，其中波动波在相反的方向（肛门到口腔）传播。我们假设这种运动降低了消化物的流速并增加了吸收时间。这些观察结果表明，鲨鱼螺旋肠的运动学比基于形态学的预期更复杂，肠道中的流体流动可能受到肠道肌肉活动的高度调节。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Zoology 生物-动物学

CiteScore

3.90

自引率

0.00%

发文量

审稿时长

70 days

期刊介绍： Zoology is a journal devoted to experimental and comparative animal science. It presents a common forum for all scientists who take an explicitly organism oriented and integrative approach to the study of animal form, function, development and evolution. The journal invites papers that take a comparative or experimental approach to behavior and neurobiology, functional morphology, evolution and development, ecological physiology, and cell biology. Due to the increasing realization that animals exist only within a partnership with symbionts, Zoology encourages submissions of papers focused on the analysis of holobionts or metaorganisms as associations of the macroscopic host in synergistic interdependence with numerous microbial and eukaryotic species. The editors and the editorial board are committed to presenting science at its best. The editorial team is regularly adjusting editorial practice to the ever changing field of animal biology.