organographies
简明释义
英[ˌɔːɡəˈnɒɡrəfi]美[ˌɔrɡəˈnɑɡrəfi]
n. [生物] 器官学
复 数 o r g a n o g r a p h i e s
英英释义
The scientific description or study of the organs of living organisms. | 对生物体器官的科学描述或研究。 |
单词用法
不同物种的器官图谱 | |
详细的器官图谱 | |
器官图谱的研究 | |
创建器官图谱 |
同义词
解剖学 | 解剖学的研究对医学生至关重要。 | ||
形态学 | Morphology helps in understanding the structure of organisms. | 形态学有助于理解生物体的结构。 | |
器官学 | Organology focuses on the classification and function of organs. | 器官学专注于器官的分类和功能。 |
反义词
例句
1.The study of plant structures can be enhanced through detailed organographies, which are essential for understanding their functions.
通过详细的器官图谱研究植物结构,可以更好地理解它们的功能。
2.In biology classes, students often create organographies to illustrate the anatomy of different organisms.
在生物课上,学生们经常创建器官图谱来说明不同生物的解剖结构。
3.The organographies of various species help researchers identify evolutionary relationships.
各种物种的器官图谱帮助研究人员识别进化关系。
4.By examining organographies, we can learn how specific organs adapt to environmental changes.
通过检查器官图谱,我们可以了解特定器官如何适应环境变化。
5.The museum displayed intricate organographies of extinct species alongside their fossil remains.
博物馆展示了与化石遗骸并列的复杂器官图谱,展示了已灭绝物种的结构。
作文
In the realm of biology, understanding the intricate structures and functions of various organisms is crucial. One term that encapsulates this field of study is organographies, which refers to the detailed descriptions of the organs of living beings. This concept plays a significant role in both educational and research settings, as it allows scientists and students alike to appreciate the complexity and diversity of life forms on our planet. Organographies can be seen as a bridge connecting anatomy, physiology, and ecology, providing insights into how different organisms adapt to their environments through specialized organ systems. To delve deeper into the significance of organographies, we can consider its applications in various biological disciplines. For instance, in comparative anatomy, organographies enable researchers to explore the similarities and differences among organ systems across species. By studying the heart structures of mammals, birds, and reptiles, scientists can uncover evolutionary pathways and understand how certain traits have been conserved or modified over time. This comparative approach not only enriches our knowledge of individual species but also enhances our comprehension of the broader evolutionary narrative. Moreover, organographies are essential in medical science, particularly in the fields of pathology and surgery. A thorough understanding of human organ systems is vital for diagnosing diseases and developing treatment plans. Medical professionals rely on detailed organographies to identify abnormalities within organs such as the liver, kidneys, and lungs. For example, when examining liver function, doctors may refer to organographies to better understand the organ's structure and how it interacts with other systems in the body. This knowledge is critical for effective intervention and patient care. In addition to their practical applications, organographies also serve an educational purpose. In classrooms, students engage with organographies to learn about the anatomy and physiology of various organisms. By studying diagrams and models that depict different organ systems, students can visualize how these systems operate and contribute to the organism's overall health and survival. This hands-on learning experience fosters a deeper appreciation for the complexity of life and encourages future generations to pursue careers in the biological sciences. Furthermore, with the rise of technology, organographies have evolved to include advanced imaging techniques such as MRI and CT scans, which provide detailed visualizations of internal organs. These technological advancements not only enhance our understanding of human anatomy but also expand the scope of organographies to include non-invasive methods of studying organisms. As researchers continue to explore the intricacies of life, the importance of organographies in both theoretical and practical contexts will undoubtedly grow. In conclusion, organographies represent a fundamental aspect of biological study, encompassing the detailed examination of organ structures and functions across various organisms. Their significance extends beyond mere description; they facilitate comparisons, inform medical practices, and enrich educational experiences. As we continue to unlock the mysteries of life, the role of organographies will remain pivotal in our quest for knowledge and understanding of the natural world.
在生物学领域,理解各种生物的复杂结构和功能至关重要。一个概括这一研究领域的术语是organographies,它指的是对生物体器官的详细描述。这个概念在教育和研究环境中扮演着重要角色,因为它使科学家和学生能够欣赏我们星球上生命形式的复杂性和多样性。Organographies可以看作是连接解剖学、生理学和生态学的桥梁,提供了不同生物如何通过特化的器官系统适应其环境的见解。 深入探讨organographies的重要性,我们可以考虑它在各种生物学学科中的应用。例如,在比较解剖学中,organographies使研究人员能够探索不同物种之间器官系统的相似性和差异性。通过研究哺乳动物、鸟类和爬行动物的心脏结构,科学家可以揭示进化路径,并理解某些特征是如何在时间中被保留或修改的。这种比较方法不仅丰富了我们对个别物种的知识,还增强了我们对更广泛的进化叙事的理解。 此外,organographies在医学科学中也是必不可少的,特别是在病理学和外科领域。对人类器官系统的透彻理解对于诊断疾病和制定治疗方案至关重要。医疗专业人员依赖于详细的organographies来识别肝脏、肾脏和肺部等器官的异常。例如,在检查肝功能时,医生可能会参考organographies以更好地理解该器官的结构及其与身体其他系统的相互作用。这一知识对于有效干预和患者护理至关重要。 除了实际应用,organographies还具有教育意义。在课堂上,学生通过学习organographies来了解各种生物的解剖学和生理学。通过研究描绘不同器官系统的图表和模型,学生可以直观地了解这些系统如何运作并对生物体的整体健康和生存做出贡献。这种实践学习体验培养了对生命复杂性的更深层次的欣赏,并鼓励未来的几代人追求生物科学领域的职业。 此外,随着技术的发展,organographies也发展为包括先进的成像技术,如MRI和CT扫描,这些技术提供了内部器官的详细可视化。这些技术进步不仅增强了我们对人体解剖的理解,还扩展了organographies的范围,以包括非侵入性研究生物体的方法。随着研究人员继续探索生命的复杂性,organographies在理论和实践背景中的重要性无疑会增长。 总之,organographies代表了生物学研究的一个基本方面,涵盖了对各种生物体器官结构和功能的详细检查。它们的重要性超越了单纯的描述;它们促进比较,告知医疗实践,并丰富教育体验。随着我们继续揭开生命的奥秘,organographies在我们对自然世界的知识和理解追求中将保持关键角色。
文章标题:organographies的意思是什么
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