caudal
简明释义
adj. 近尾部的,[解剖][动]尾部的
n. (Caudal)人名;(英)考德尔;(法)科达尔
英英释义
与尾巴或尾状结构相关的。 | |
位于生物体的尾部或靠近尾部的位置。 |
单词用法
臀脉,尾静脉 |
同义词
反义词
| 颅的 | The cranial nerves are essential for sensory and motor functions. | 颅神经对感官和运动功能至关重要。 | |
| 头部的 | Cephalic presentation is the most common position for childbirth. | 头位是分娩时最常见的位置。 |
例句
1.Its caudal partis continuous with the tip of the posterior horn of the cervical spinal cord.
其尾侧与颈段脊髓后角尖端灰质相连续。
2.AIM: to investigate the anti-fatigue effect of hyperoxia solution injected to the caudal vein of mice.
目的:探讨小鼠尾静脉注射高氧液的抗疲劳效果。
3.The CD34 + cells after identified by anti-CD34 monoclonal antibodies were transferred into the caudal of transaction of rat model.
将经CD 34单克隆抗体鉴定后的CD 34 +细胞移植入脊髓全横断大鼠模型脊髓横断处尾侧。
4.Methods The rats model of hemophthisis was established with the method of feeding the low iron feed and blood letting in caudal vein.
方法采用低铁饲料喂饲大鼠并辅助尾静脉放血,建立大鼠低铁性贫血模型。
5.Gotten blood from caudal vein of tumor mice and counted WBC value.
荷瘤小鼠尾静脉采血,计数白细胞数。
6.The young students engage in authentic robot design experiments, creating custom caudal fins for robotic fish.
青年学生从事真正的机器人设计实验,创建自定义尾鳍的机器鱼。
7.The DNA samples were extracted from the caudal fin ray of samples.
从样品鳍条提取基因组dna,水平式淀粉凝胶电泳法检测同工酶。
8.The caudal vertebrae are located at the end of the vertebral column.
尾椎位于脊柱的末端。
9.The fish has a long caudal fin that helps it swim efficiently.
这条鱼有一个长的尾部鳍,帮助它高效游泳。
10.The caudal aspect of the brain is important for coordinating movement.
尾部脑区对于协调运动非常重要。
11.In anatomy, the caudal region refers to the tail end of the body.
在解剖学中,尾部区域指的是身体的尾端。
12.Birds often have a caudal feather arrangement that aids in flight stability.
鸟类通常有一种尾部羽毛排列,有助于飞行稳定性。
作文
The term caudal refers to something that is related to or located at the tail end of an organism. In biological studies, this word is often used in discussions about anatomy and physiology, particularly when describing features of vertebrates. For instance, in fish, the caudal fin plays a crucial role in propulsion and maneuverability in water. The structure of the caudal fin can vary significantly among species, adapting them to their specific environments. In the context of human anatomy, while we do not have a prominent tail, the concept of caudal can still apply to certain parts of our body. The caudal region in humans refers to the lower back area, specifically towards the base of the spine. Understanding this area is important for medical professionals, especially when dealing with conditions such as lower back pain or injuries. Moreover, the caudal aspect of animals is not just limited to physical structures. It also plays a significant role in behavior and movement. For example, many animals use their caudal appendages for balance and communication. Dogs wag their tails, which can indicate excitement or anxiety, while cats use their tails for balance when navigating narrow spaces. This illustrates how the caudal parts of animals are not merely functional but also integral to their social interactions. In evolutionary biology, the caudal features of different species can provide insight into their evolutionary history. By studying the caudal characteristics of various organisms, scientists can infer relationships between species and trace the lineage of certain traits. For example, the presence of a caudal fin in aquatic creatures suggests adaptations to life in water, while its absence in terrestrial animals indicates a shift in lifestyle and habitat. Furthermore, the concept of caudal extends beyond biology into other fields such as engineering and robotics. Engineers often draw inspiration from nature, a practice known as biomimicry. They study the caudal structures of animals to design better vehicles or robots that can navigate through complex environments. For instance, the streamlined shape of a fish's caudal fin has influenced the design of submarines and underwater drones, improving their efficiency and speed. In conclusion, the term caudal encompasses a wide range of meanings across different fields of study. Whether in biology, medicine, or engineering, understanding the caudal aspects of organisms provides valuable insights into their functions, behaviors, and evolutionary significance. As we continue to explore the natural world, the implications of the caudal characteristics will undoubtedly lead to further discoveries and innovations. This multi-faceted understanding of caudal not only enhances our knowledge but also highlights the interconnectedness of life and the importance of every part of an organism, no matter how small or seemingly insignificant.
术语caudal指的是与生物的尾部相关或位于尾部的事物。在生物学研究中,这个词常用于讨论解剖学和生理学,尤其是在描述脊椎动物特征时。例如,在鱼类中,caudal鳍在水中的推进和机动性方面发挥着至关重要的作用。caudal鳍的结构在不同物种之间可能有显著差异,以适应它们特定的环境。在人体解剖学的背景下,尽管我们没有明显的尾巴,但caudal的概念仍然适用于我们身体的某些部位。人类的caudal区域指的是下背部,特别是脊柱底部的区域。理解这一领域对医疗专业人员非常重要,特别是在处理下背痛或受伤等情况时。此外,动物的caudal特征不仅限于物理结构。它在行为和运动中也发挥着重要作用。例如,许多动物用它们的caudal附肢来保持平衡和进行交流。狗摇尾巴,这可以表示兴奋或焦虑,而猫则利用尾巴在狭窄的空间中保持平衡。这说明动物的caudal部分不仅仅是功能性的,而且对它们的社会互动至关重要。在进化生物学中,不同物种的caudal特征可以提供关于它们进化历史的见解。通过研究各种生物的caudal特征,科学家可以推断物种之间的关系,并追踪某些特征的谱系。例如,水生生物中存在的caudal鳍表明它们适应了水中的生活,而陆生动物中缺乏这种鳍则表明生活方式和栖息地的变化。此外,caudal的概念还扩展到工程和机器人等其他领域。工程师们常常从自然中汲取灵感,这种做法被称为仿生学。他们研究动物的caudal结构,以设计出更好的车辆或机器人,能够在复杂环境中导航。例如,鱼的caudal鳍的流线型形状影响了潜艇和水下无人机的设计,提高了它们的效率和速度。总之,术语caudal涵盖了不同研究领域的广泛含义。无论是在生物学、医学还是工程学中,理解生物的caudal特征提供了对其功能、行为和进化重要性的宝贵见解。随着我们继续探索自然世界,caudal特征的意义无疑将引导我们进一步发现和创新。这种对caudal的多方面理解不仅增强了我们的知识,还突显了生命的相互联系以及每个生物部分的重要性,无论其大小或看似微不足道。
