organography
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 and study of the structure and function of the organs of living organisms. | 对生物体器官的结构和功能进行科学描述和研究。 |
单词用法
器官学领域 | |
器官学的应用 | |
器官学技术 | |
器官学和解剖学 | |
器官学研究 | |
器官学的进展 |
同义词
反义词
无序化 | The disorganization of the files made it hard to find important documents. | 文件的无序化使得查找重要文件变得困难。 | |
混乱 | The chaos in the office led to missed deadlines and confusion. | 办公室的混乱导致了错过截止日期和困惑。 |
例句
1.The study of plant structure often involves detailed organography, which is essential for understanding their functions.
对植物结构的研究通常涉及详细的器官描写,这对于理解它们的功能至关重要。
2.In biology classes, we learn about organography to better appreciate the diversity of life forms.
在生物课上,我们学习器官描写以更好地欣赏生命形式的多样性。
3.The organography of mammals includes the study of their reproductive systems and adaptations to various environments.
哺乳动物的器官描写包括对其生殖系统和对各种环境适应的研究。
4.Understanding the organography of a species can reveal important evolutionary relationships.
理解一个物种的器官描写可以揭示重要的进化关系。
5.The textbook provided an excellent overview of organography across different kingdoms of life.
这本教科书提供了不同生命王国的器官描写的优秀概述。
作文
In the study of biology, one of the essential fields that contribute to our understanding of life forms is organography. This term refers to the detailed description and analysis of the various organs of plants and animals. By examining the structure and function of these organs, scientists can gain insights into how organisms adapt to their environments and how different systems work together to sustain life. Organography plays a crucial role in fields such as botany and zoology, providing foundational knowledge that informs further research and application. To appreciate the importance of organography, we must first consider its applications in the real world. For instance, in agriculture, understanding the organography of crops can lead to better farming practices. Farmers who are knowledgeable about the root systems, leaves, and reproductive organs of their plants can optimize growth conditions and improve yields. Similarly, in medicine, understanding the organography of human anatomy allows healthcare professionals to diagnose and treat diseases more effectively. By studying the organs' functions and interrelationships, doctors can develop targeted therapies that address specific health issues. Moreover, organography extends beyond mere description; it also encompasses comparative studies among different species. This comparative approach helps scientists understand evolutionary relationships and the adaptations that various organisms have developed over time. For example, by comparing the respiratory systems of birds and mammals, researchers can uncover how these systems have evolved to meet the demands of different lifestyles and environments. In educational contexts, organography serves as a vital tool for teaching students about biology. Through hands-on activities, such as dissection or microscopy, students can observe and analyze the organs of various organisms. This experiential learning fosters a deeper appreciation for the complexity of life and encourages students to think critically about biological processes. By engaging with organography, students not only learn about the anatomy of organisms but also develop skills in observation, analysis, and scientific reasoning. Furthermore, the digital age has transformed how organography is studied and shared. With advancements in imaging technologies, such as MRI and CT scans, scientists can now visualize internal structures in unprecedented detail. These technologies allow for non-invasive studies of living organisms, paving the way for new discoveries in both medical and biological research. The integration of technology in organography exemplifies how interdisciplinary approaches can enhance our understanding of complex systems. In conclusion, organography is a fundamental aspect of biological sciences that provides valuable insights into the structure and function of organs in living organisms. Its applications in agriculture, medicine, education, and research highlight its significance in both practical and theoretical contexts. As we continue to explore the intricacies of life through organography, we unlock new possibilities for innovation and understanding in various fields. The ongoing study of organography will undoubtedly lead to advancements that benefit humanity and deepen our appreciation for the diversity of life on Earth.
在生物学研究中,一个对我们理解生命形式至关重要的领域是器官学。这个术语指的是对植物和动物各种器官的详细描述和分析。通过研究这些器官的结构和功能,科学家可以深入了解生物如何适应环境以及不同系统如何协同工作以维持生命。器官学在植物学和动物学等领域发挥着至关重要的作用,为进一步的研究和应用提供基础知识。 要欣赏器官学的重要性,我们必须首先考虑它在现实世界中的应用。例如,在农业中,了解作物的器官学可以导致更好的耕作实践。了解植物根系、叶子和生殖器官的农民可以优化生长条件,提高产量。同样,在医学中,了解人体解剖的器官学使医疗专业人员能够更有效地诊断和治疗疾病。通过研究器官的功能和相互关系,医生可以开发针对特定健康问题的靶向疗法。 此外,器官学不仅仅是描述;它还包括对不同物种之间的比较研究。这种比较方法帮助科学家理解进化关系以及各种生物随着时间推移所发展出的适应性。例如,通过比较鸟类和哺乳动物的呼吸系统,研究人员可以揭示这些系统如何演变以满足不同生活方式和环境的需求。 在教育环境中,器官学作为教学生物学的重要工具。通过动手活动,如解剖或显微镜观察,学生可以观察和分析各种生物的器官。这种体验式学习培养了对生命复杂性的更深刻理解,并鼓励学生批判性思考生物过程。通过参与器官学,学生不仅学习生物体的解剖学,还发展了观察、分析和科学推理的技能。 此外,数字时代改变了器官学的研究和分享方式。随着成像技术的进步,如MRI和CT扫描,科学家现在可以以前所未有的细节可视化内部结构。这些技术允许对活生物进行非侵入性研究,为医学和生物研究的新发现铺平了道路。技术与器官学的结合例证了跨学科方法如何增强我们对复杂系统的理解。 总之,器官学是生物科学的一个基本方面,提供了对生物体器官结构和功能的宝贵见解。它在农业、医学、教育和研究中的应用突显了它在实际和理论背景下的重要性。随着我们继续通过器官学探索生命的复杂性,我们为各个领域的创新和理解解锁了新的可能性。对器官学的持续研究无疑将导致造福人类的进步,并加深我们对地球上生命多样性的欣赏。
文章标题:organography的意思是什么
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