ambulacral floorplate

简明释义

步带底板;

英英释义

例句

1.In echinoderm anatomy, the ambulacral floorplate serves as a base for the radial canals.

在棘皮动物的解剖学中，胼胝底板作为放射管的基础。

2.The ambulacral floorplate is lined with specialized cells that facilitate the movement of water through the echinoderm's vascular system.

胼胝底板内衬有特殊细胞，有助于水通过棘皮动物的血管系统的运动。

3.Research indicates that the ambulacral floorplate has evolved to enhance the feeding mechanisms of certain echinoderms.

研究表明，胼胝底板已经进化以增强某些棘皮动物的进食机制。

4.The structure of the sea star's body includes a unique feature called the ambulacral floorplate, which is essential for its locomotion.

海星的身体结构包括一个独特的特征，称为胼胝底板，它对其运动至关重要。

5.During the dissection, we observed that the ambulacral floorplate plays a crucial role in supporting the tube feet.

在解剖过程中，我们观察到胼胝底板在支撑管足方面起着至关重要的作用。

作文

The study of marine biology reveals fascinating insights into the anatomy and physiology of various sea creatures. One such structure that has garnered attention is the ambulacral floorplate, a critical component found in echinoderms like starfish and sea urchins. Understanding this structure not only deepens our knowledge of these organisms but also sheds light on evolutionary processes and ecological relationships within marine environments.The ambulacral floorplate serves as a foundational element in the water vascular system of echinoderms. This system is unique to this group of animals and plays a vital role in locomotion, feeding, and even respiration. The ambulacral floorplate itself is a specialized tissue that forms part of the radial symmetry characteristic of echinoderms. It lies beneath the tube feet, which are essential for movement and grasping prey. The design of the ambulacral floorplate allows for the efficient functioning of the tube feet, facilitating the movement of water into the vascular system and enabling the creature to maneuver through its environment.In addition to its structural importance, the ambulacral floorplate also has significant implications for the overall health and survival of echinoderms. Damage to this area can impair the animal's ability to move and feed, making it vulnerable to predators and environmental changes. Therefore, studying the ambulacral floorplate can provide insights into how echinoderms adapt to their surroundings and respond to stressors such as pollution or habitat loss.Researchers often utilize advanced imaging techniques to examine the ambulacral floorplate in detail. These methods allow scientists to visualize the intricate structures and functions of this tissue, revealing how it interacts with other systems within the organism. For example, the coordination between the ambulacral floorplate and the nervous system is crucial for the precise movement of tube feet. Understanding these connections can lead to broader implications for understanding the evolution of complex body plans in marine organisms.Moreover, the ambulacral floorplate is not only a subject of scientific inquiry but also a point of interest for conservation efforts. Echinoderms play essential roles in marine ecosystems, contributing to the balance of food webs and the health of coral reefs. By studying structures like the ambulacral floorplate, scientists can better assess the impacts of environmental changes on these species and develop strategies to protect them.In conclusion, the ambulacral floorplate is a remarkable and vital structure within echinoderms that warrants further exploration. Its role in locomotion, feeding, and overall organismal health highlights the complexity of marine life. As we continue to investigate the intricacies of the ambulacral floorplate and its functions, we gain valuable insights into the evolutionary history of marine organisms and the ecological dynamics of oceanic environments. Such knowledge is crucial for fostering a deeper appreciation of marine biodiversity and informing conservation efforts to protect these unique creatures and their habitats.

海洋生物学的研究揭示了各种海洋生物的解剖学和生理学的迷人见解。其中一个引起关注的结构是腕足底板，这是在海星和海胆等棘皮动物中发现的重要组成部分。理解这个结构不仅加深了我们对这些生物的认识，也揭示了进化过程和海洋环境中生态关系的光景。腕足底板作为棘皮动物水管系统的基础元素，具有重要作用。这个系统是这类动物特有的，对于运动、觅食甚至呼吸都至关重要。腕足底板本身是一种特殊的组织，形成了棘皮动物特有的放射对称的一部分。它位于管足之下，管足对于移动和抓取猎物至关重要。腕足底板的设计使得管足能够高效运作，促进水进入水管系统，从而使生物能够在环境中灵活移动。除了其结构重要性外，腕足底板对棘皮动物的整体健康和生存也具有重要意义。该区域的损伤会影响动物的移动和觅食能力，使其容易受到捕食者和环境变化的威胁。因此，研究腕足底板可以提供有关棘皮动物如何适应环境以及如何应对污染或栖息地丧失等压力的见解。研究人员通常利用先进的成像技术详细检查腕足底板。这些方法使科学家能够可视化这种组织的复杂结构和功能，揭示它与生物体内其他系统的相互作用。例如，腕足底板与神经系统之间的协调对于管足的精确运动至关重要。理解这些联系可以为理解海洋生物复杂体型的进化提供更广泛的启示。此外，腕足底板不仅是科学研究的主题，也是保护工作中的一个关注点。棘皮动物在海洋生态系统中发挥着重要作用，有助于食物网的平衡和珊瑚礁的健康。通过研究像腕足底板这样的结构，科学家可以更好地评估环境变化对这些物种的影响，并制定保护它们的策略。总之，腕足底板是棘皮动物中一个显著而重要的结构，值得进一步探索。它在运动、觅食和整体生物健康中的作用突显了海洋生命的复杂性。随着我们继续研究腕足底板的细微差别及其功能，我们获得了关于海洋生物进化历史和海洋生态动态的宝贵见解。这种知识对于促进对海洋生物多样性的更深刻理解以及为保护这些独特生物及其栖息地的信息至关重要。