anterodorsal angle

简明释义

前背角;

英英释义

例句

1.Radiologists often measure the anterodorsal angle 前上角 in imaging studies to evaluate potential injuries.

放射科医生常常在影像学研究中测量anterodorsal angle 前上角以评估潜在的损伤。

2.In anatomy class, we learned that the anterodorsal angle 前上角 is crucial for understanding cranial structure.

在解剖课上，我们了解到anterodorsal angle 前上角对于理解颅骨结构至关重要。

3.The anterodorsal angle 前上角 plays a significant role in the alignment of the skeletal system.

在骨骼系统的对齐中，anterodorsal angle 前上角起着重要作用。

4.The surgeon carefully examined the anterodorsal angle 前上角 of the patient's jaw to assess any abnormalities.

外科医生仔细检查了患者下颌的anterodorsal angle 前上角以评估是否存在异常。

5.During the dissection, the students identified the anterodorsal angle 前上角 of the vertebrae for better orientation.

在解剖过程中，学生们识别了脊椎的anterodorsal angle 前上角以便更好地定位。

作文

In the study of anatomy, particularly in the field of zoology, various terminologies are employed to describe specific features of an organism's structure. One such term is anterodorsal angle, which refers to the angle formed at the junction of the anterior (front) and dorsal (top) surfaces of an anatomical structure. Understanding this angle is crucial for researchers and students alike, as it can provide insights into the evolutionary adaptations and functional morphology of different species.The anterodorsal angle plays a significant role in the overall shape and function of an organism. For instance, in birds, the morphology of the skull, including the anterodorsal angle, can influence feeding habits and ecological niches. A more acute anterodorsal angle might suggest adaptations for a specific type of diet or feeding strategy, while a more obtuse angle could indicate different behavioral traits.In addition to birds, the concept of the anterodorsal angle is also applicable to other vertebrates. For example, in fish, the angle can affect hydrodynamics and maneuverability in water. Researchers often measure this angle to assess how different species have adapted to their environments. By comparing the anterodorsal angle across various species, scientists can infer evolutionary relationships and the impact of environmental pressures on anatomical development.Moreover, the anterodorsal angle is not only relevant in the context of evolutionary biology but also in practical applications such as veterinary medicine and wildlife conservation. Understanding the anatomical structures and their angles can help veterinarians diagnose issues related to movement or feeding in animals. In conservation efforts, knowing the morphology of a species can aid in habitat restoration and management strategies, ensuring that the needs of the organisms are met based on their anatomical characteristics.Furthermore, when it comes to education, teaching students about terms like anterodorsal angle can enhance their understanding of complex biological concepts. By incorporating practical examples and visual aids, educators can make learning more engaging and informative. Students can benefit from studying various anatomical features, including the anterodorsal angle, through dissections, models, and comparative anatomy exercises.In conclusion, the anterodorsal angle is a vital anatomical term that encapsulates the intersection of form and function in various species. Its significance stretches across multiple disciplines, from evolutionary biology to veterinary science. By comprehensively understanding the anterodorsal angle, we can gain deeper insights into the diversity of life on Earth and the intricate relationships between structure and function. As we continue to explore the wonders of anatomy, terms like anterodorsal angle will remain essential in our quest to understand the complexities of living organisms.

在解剖学研究中，特别是在动物学领域，使用了各种术语来描述生物体结构的特定特征。其中一个术语是前背角，指的是解剖结构的前表面（前面）和背面（顶部）交界处形成的角度。理解这个角度对于研究人员和学生来说至关重要，因为它可以提供有关不同物种进化适应和功能形态学的见解。前背角在生物体的整体形状和功能中起着重要作用。例如，在鸟类中，头骨的形态，包括前背角，可能会影响其觅食习性和生态位。更锐利的前背角可能暗示对特定类型饮食或觅食策略的适应，而更钝的角度则可能表明不同的行为特征。除了鸟类，前背角的概念也适用于其他脊椎动物。例如，在鱼类中，这个角度可能会影响水中的流体动力学和机动性。研究人员经常测量这个角度，以评估不同物种如何适应其环境。通过比较各种物种的前背角，科学家可以推断出进化关系以及环境压力对解剖发展的影响。此外，前背角不仅在进化生物学的背景下相关，而且在兽医学和野生动物保护等实际应用中也很重要。理解解剖结构及其角度可以帮助兽医诊断动物运动或进食相关的问题。在保护工作中，了解物种的形态特征可以帮助栖息地恢复和管理策略，确保根据其解剖特征满足生物的需求。此外，在教育方面，教授学生像前背角这样的术语可以增强他们对复杂生物学概念的理解。通过结合实际例子和视觉辅助工具，教育工作者可以使学习变得更加有趣和信息丰富。学生可以通过解剖、模型和比较解剖练习来研究各种解剖特征，包括前背角。总之，前背角是一个重要的解剖学术语，概括了各种物种中形式与功能的交汇。它的重要性跨越多个学科，从进化生物学到兽医学。通过全面理解前背角，我们可以更深入地洞察地球生命的多样性以及结构与功能之间的复杂关系。随着我们继续探索解剖学的奇迹，像前背角这样的术语将始终在我们理解生物体复杂性的追求中发挥重要作用。