locular
简明释义
adj. 有小室的;有小腔的
英英释义
具有或由小腔或隔间组成的。 |
单词用法
腔室结构 | |
腔室排列 | |
腔室 | |
腔室器官 |
同义词
反义词
| 单室的 | 单室结构允许更简单的流体动力学。 | ||
| 非腔室的 | Non-locular arrangements are often found in simpler organisms. | 非腔室的排列通常出现在较简单的生物中。 |
例句
1.CT revealed multilocular or single locular and thin-walled cystic mass, which showed homogeneous water like density.
CT平扫表现为颈部多房或单房性、薄壁水样密度肿块。
2.CT revealed multilocular or single locular and thin-walled cystic mass, which showed homogeneous water like density.
CT平扫表现为颈部多房或单房性、薄壁水样密度肿块。
3.The biologist noted that the plant had a unique locular 腔室的 structure that allowed for efficient water storage.
生物学家注意到这株植物具有独特的腔室的结构,能够有效储存水分。
4.Researchers are studying the locular 腔室的 properties of certain fungi to understand their growth patterns.
研究人员正在研究某些真菌的腔室的特性,以了解它们的生长模式。
5.The locular 腔室的 design of the jellyfish allows it to float effortlessly in the water.
水母的腔室的设计使其能够在水中轻松漂浮。
6.In his research, he discovered that the locular 腔室的 arrangement of seeds influenced their germination rate.
在他的研究中,他发现种子的腔室的排列影响了其发芽率。
7.The anatomy of the fruit revealed several locular 腔室的 divisions that contained the seeds.
水果的解剖显示出几个腔室的分隔,里面包含种子。
作文
In the world of biology and botany, the term locular (腔室的) is often used to describe structures that are divided into compartments or chambers. This concept is essential for understanding how various organisms develop and function. For instance, many plants have locular (腔室的) fruits that contain seeds in distinct chambers, which aids in the dispersal of these seeds when the fruit ripens and opens. The locular (腔室的) arrangement allows for optimal space utilization within the fruit, ensuring that each seed has enough room to grow and eventually germinate.Furthermore, in zoology, the locular (腔室的) characteristics of certain organisms can reveal a lot about their evolutionary adaptations. Take, for example, the anatomy of certain marine creatures, such as jellyfish. Jellyfish possess a locular (腔室的) body structure that helps them float and move through water. Their bodies are composed of a gelatinous substance divided into sections, which allows them to contract and expand efficiently. This locular (腔室的) design is crucial for their survival, enabling them to navigate their aquatic environments with ease.Moreover, the concept of locular (腔室的) is not limited to living organisms. In the field of architecture, designers often utilize locular (腔室的) spaces to create functional and aesthetically pleasing environments. For instance, a well-designed building may feature locular (腔室的) layouts that separate different areas for various purposes, such as workspaces, relaxation areas, and communal spaces. This thoughtful division enhances the overall flow and usability of the space, making it more enjoyable for its occupants.In addition, the locular (腔室的) concept can also be applied to technology. For example, in computer programming, data structures can be designed to be locular (腔室的), allowing for efficient organization and retrieval of information. By compartmentalizing data into locular (腔室的) sections, programmers can enhance the performance and scalability of their software applications. This approach not only simplifies the coding process but also improves the user experience by ensuring that information is easily accessible and logically arranged.Ultimately, the term locular (腔室的) serves as a bridge connecting various fields of study, from biology to architecture to technology. Understanding the significance of locular (腔室的) structures can provide valuable insights into how we interact with the world around us. Whether we are examining the intricate designs of nature or creating innovative solutions in our daily lives, the idea of locular (腔室的) compartments remains a fundamental principle that promotes efficiency, organization, and functionality. As we continue to explore and innovate, the relevance of locular (腔室的) concepts will undoubtedly persist, guiding us toward a more structured and harmonious existence.
在生物学和植物学的世界中,术语locular(腔室的)通常用于描述分为多个隔间或腔室的结构。这个概念对于理解各种生物是如何发展和运作的至关重要。例如,许多植物具有locular(腔室的)果实,这些果实在不同的腔室中包含种子,这有助于这些种子在果实成熟并打开时的传播。locular(腔室的)排列允许果实内部的空间得到最佳利用,确保每个种子都有足够的空间生长并最终发芽。此外,在动物学中,某些生物的locular(腔室的)特征可以揭示出它们进化适应的许多信息。例如,某些海洋生物如水母的解剖结构。水母拥有locular(腔室的)身体结构,帮助它们在水中漂浮和移动。它们的身体由一种明胶状物质组成,分为几个部分,这使得它们能够有效地收缩和扩展。这种locular(腔室的)设计对它们的生存至关重要,使它们能够轻松地在水域中导航。此外,locular(腔室的)概念并不限于生物体。在建筑领域,设计师常常利用locular(腔室的)空间来创造功能性和美观的环境。例如,一个设计良好的建筑可能会采用locular(腔室的)布局,将不同区域分隔开来以供不同用途,如工作区、休闲区和公共区域。这种深思熟虑的划分增强了整体的流动性和可用性,使其居住者更加愉悦。此外,locular(腔室的)概念也可以应用于技术。例如,在计算机编程中,可以设计数据结构为locular(腔室的),从而实现高效的信息组织和检索。通过将数据分成locular(腔室的)部分,程序员可以提高软件应用的性能和可扩展性。这种方法不仅简化了编码过程,还通过确保信息易于访问和逻辑排列,改善了用户体验。最终,术语locular(腔室的)作为连接各个研究领域的桥梁,从生物学到建筑学再到技术。理解locular(腔室的)结构的重要性可以为我们提供宝贵的见解,帮助我们与周围的世界互动。无论我们是在研究自然的复杂设计,还是在日常生活中创造创新解决方案,locular(腔室的)隔间的理念始终是促进效率、组织和功能性的基本原则。随着我们不断探索和创新,locular(腔室的)概念的相关性无疑将持续存在,引导我们走向更有结构和和谐的存在。
